﻿FN Clarivate Analytics Web of Science
VR 1.0
PT J
AN ZOOR15512090342
DT Article
TI Nest site selection and nest survival of Black-backed Woodpeckers after
   wildfire.
AU Stillman, Andrew N. (andrew.stillman@uconn.edu) 
   Siegel, Rodney B.
   Wilkerson, Robert L.
   Johnson, Matthew
   Howell, Christine A.
   Tingley, Morgan W.
SO Condor
VL 121
IS 3
PS duz039
PD Aug 1 2019
PY 2019
LA English
U1 5
U2 5
AB Recently burned coniferous forests host wildlife communities that
   respond to variation in burn severity, post-fire habitat structure, and
   patch configuration. Habitat selection theory predicts that birds
   inhabiting these variable post-fire landscapes will select nesting
   locations that confer an adaptive advantage through increased fitness
   and reproductive success. Understanding the effect of post-fire habitat
   on avian nesting ecology can provide valuable information to guide
   restoration and management after wildfire. The Black-backed Woodpecker
   (Picoides arcticus) is strongly associated with recently burned forests
   in the western United States, where it is used as an indicator species
   for the effects of post-fire forest management. Between 2011 and 2018,
   we located and monitored 118 Black-backed Woodpecker nests in burned
   forests of northern California. We evaluated the influence of habitat
   and nest characteristics on nest site selection and daily nest survival.
   Our results demonstrate a pattern of neutral congruence between habitat
   selection and fitness. Black-backed Woodpeckers showed strong selection
   for each of the nest habitat variables that we measured: woodpeckers
   selected moderately sized trees in areas of high snag density burned at
   high severity, but also in areas relatively close to low-severity or
   unburned edges. However, only nest initiation date affected nest
   survival, with decreased survival in late-season nests. Our results
   suggest that management actions aimed at maintaining breeding habitat
   for Black-backed Woodpeckers should prioritize retention and creation of
   pyrodiverse landscapes that include dense stands of snags (> 5 snags per
   100 m2) within [approximately]500 m of forest that burned at low
   severity or remained unburned.
C1 Stillman, Andrew N.; Univ Connecticut, Ecol & Evolutionary Biol, Storrs,
   CT, 06269, USA, USA.
EM andrew.stillman@uconn.edu
RI Stillman, Andrew/L-6080-2019; Tingley, Morgan W/F-8519-2011
OI Stillman, Andrew/0000-0001-6692-380X; Tingley, Morgan
   W/0000-0002-1477-2218
SC Environmental Sciences & Ecology; Biodiversity & Conservation; Zoology;
   Reproductive Biology; Forestry
SN 0010-5422
BD Conservation; Conservation measures; Reproduction; Reproductive
   behaviour; Ecology; Population dynamics; Habitat; Terrestrial habitat;
   Abiotic factors; Physical factors; Land zones; Nearctic region; North
   America; USA
DE Picoides arcticus [Conservation measures / Management implications /
   habitat characteristics] [Habitat management /  / ] [Breeding site /
   Nest site selection / ] [Reproductive productivity / Nest success / ]
   [Survival / Nest survival / ] [Forest and woodland / Forest / ] [Fire /
   Wildfire / ] [California / Plumas & Lassen National Forests / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15512090342
OA Bronze
DA 2020-01-11
ER

PT J
AN ZOOR15510067589
DT Article
TI FIRE-BIRD: A GIS-based toolset for applying habitat suitability models
   to inform land management planning.
AU Latif, Quresh S.
   Saab, Victoria A.
   Haas, Jessica R.
   Dudley, Jonathan G.
SO U S Forest Service Rocky Mountain Research Station General Technical
   Report RMRS-GTR
VL 391
PS i-iv, 1-74
PD Jun 2019
PY 2019
LA English
U1 0
U2 0
AB Habitat suitability models can inform forest management for species of
   conservation concern. Models quantify relationships between known
   species locations and environmental attributes, which are used to
   identify areas most likely to support species of concern. Managers can
   then limit negative human impacts in areas of high suitability or
   conduct habitat improvements in areas of marginal suitability. Model
   applications are computationally intensive, requiring time and resources
   not available to most managers. We developed FIRE-BIRD, an ArcGIS
   toolbox, to streamline preliminary data processing and application of
   habitat suitability models to forest management planning for
   disturbance-associated woodpeckers of conservation concern. Tools are
   currently developed for black-backed (Picoides arcficus) and
   white-headed woodpecker (Dryobates albolvartus) in Inland Northwest
   burned forests; black-backed, white-headed, and hairy woodpecker (D.
   villosus) in Northern Sierra burned forests; and white-headed woodpecker
   in Inland Northwest unburned forests. This manual provides tool
   operating instructions and guidelines to interpret resulting habitat
   suitability maps. The suite of species currently included makes this
   toolset best suited for postfire management and restoration treatments
   in dry mixed-conifer forests. Incorporating additional species and
   forest conditions in the future will broaden the scope of this toolset.
C1 Latif, Quresh S.; USDA Forest Service, Rocky Mountain Research Station,
   Bozeman, Montana, USA, USA.
SC Zoology; Environmental Sciences & Ecology; Biodiversity & Conservation;
   Computer Science; Forestry
BD Animals and man; Conservation; Conservation measures; Techniques;
   Information handling; Habitat; Terrestrial habitat; Abiotic factors;
   Physical factors; Land zones; Nearctic region; North America
DE Dryobates albolarvatus; Dryobates villosus; Picoides arcticus
   [Disturbance by man /  / ] [Habitat management /  / ] [Ecological
   techniques / Habitat suitability models / ] [Use of computers / Arcgis
   software tool / ] [Forest and woodland / Burnt & unburnt forest / ]
   [Fire /  / ] [USA /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Dryobates albolarvatus (Picidae). 
   Dryobates villosus (Picidae). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15510067589
DA 2020-01-11
ER

PT J
AN ZOOR15508049637
DT Article
TI Predictors of habitat use and nesting success for two sympatric species
   of boreal woodpeckers in an unburned, managed forest landscape.
AU Craig, Catherine
   Mazerolle, Marc J.
   Taylor, Philip D.
   Tremblay, Junior A.
   Villard, Marc-Andre (mvillard@mta.ca) 
SO Forest Ecology and Management
VL 438
PS 134-141
PD Apr 15 2019
PY 2019
LA English
U1 6
U2 13
AB Forest harvesting reduces mean stand age and dead wood amount. Among
   species dependent upon older forests and dead wood, primary excavators
   such as woodpeckers play an important ecological role by providing
   cavities for many other species. Conservation of these species thus
   requires striking a balance between timber harvesting and dead wood
   supply, especially under moderate natural disturbance regimes. In this
   study, we quantified habitat use in two closely-related, sympatric
   species: Black-backed (Picoides arcticus) and American Three-toed (P.
   dorsalis) Woodpecker, in the highlands of northern New Brunswick,
   Canada. Natural fires are rare in this ecoregion and forest harvesting
   is the main agent of landscape change, along with infrequent outbreaks
   of spruce budworm (Choristoneura fumiferana). Based on its habitat use
   patterns in other ecoregions, we hypothesized that Black-backed
   Woodpecker would select nest sites in mature coniferous forest stands
   and we expected that it would achieve a higher nest survival rate in
   forest stands than within, or at the edge of, cutblocks. Owing to sample
   size limitations for American Three-toed Woodpecker, statistical
   analyses were restricted to its occurrence patterns. Both species
   co-occurred, and there was no difference in detectability following
   conspecific and heterospecific playbacks. Contrary to our prediction,
   Black-backed Woodpecker selected nest sites with higher proportions of
   recently cut areas within 50 m than at randomly selected sites.
   Black-backed Woodpecker selected cutblocks for nesting when suitable
   snags were available and mature forest stands were present nearby as
   foraging habitat. For the species to persist in this landscape, the
   supply of snags must be continuous and forest stands must be
   sufficiently mature to host saproxylic insects.
C1 Villard, Marc-Andre; Mt Allison Univ, Dept Biol, Sackville, NB, E4L 1G7,
   Canada, Canada.
EM mvillard@mta.ca
OI Tremblay, Junior A./0000-0003-4930-0939
SC Reproductive Biology; Zoology; Environmental Sciences & Ecology;
   Forestry
SN 0378-1127
BD Reproduction; Reproductive behaviour; Ecology; Population dynamics;
   Habitat utilization; Animal constructions; Habitat; Terrestrial habitat;
   Land zones; Nearctic region; North America; Canada
DE Picoides arcticus; Picoides dorsalis [Breeding site / Nesting site / ]
   [Reproductive productivity / Nesting success / ] [Survival / Nest
   survival / ] [Habitat utilization /  / ] [Habitat preference / Habitat
   selection / ] [Nests /  / ] [Forest and woodland / Forest / ] [New
   Brunswick /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides dorsalis (Picidae). 
UT ZOOREC:ZOOR15508049637
DA 2020-01-11
ER

PT J
AN ZOOR15508051114
DT Article
TI Age-dependent habitat relationships of a burned forest specialist
   emphasise the role of pyrodiversity in fire management.
AU Stillman, Andrew N. (andrew.stillman@uconn.edu) 
   Siegel, Rodney B.
   Wilkerson, Robert L.
   Johnson, Matthew
   Tingley, Morgan W.
SO Journal of Applied Ecology
VL 56
IS 4
PS 880-890
PD Apr 2019
PY 2019
LA English
U1 5
U2 6
AB Variation in fire characteristics, termed pyrodiversity, plays an
   important role in structuring post-fire communities, but little is known
   about the importance of pyrodiversity for individual species. The
   availability of diverse post-fire habitats may be key for
   fire-associated species if they require different resources at different
   life-history stages. We tested for age-specific habitat relationships in
   the black-backed woodpecker, a post-fire specialist. We used
   radio-telemetry to track fledgling and adult woodpeckers in burned
   forests and built resource selection functions to compare the effect of
   stand-, tree- and snag-level covariates between adults and fledglings.
   Fledgling black-backed woodpeckers selected habitat with more live trees
   than adults and used more heterogeneous habitats burned at lower
   severity, illustrating strong age-dependent effects on habitat
   selection. Within selected stands, fledglings were less likely to use
   snags and more likely to use live trees when compared to adults, but
   both age classes showed strong positive selection for larger-diameter
   trees (live and dead). Over the 60days after leaving their nests,
   fledglings showed an increasing propensity to use snags rather than live
   trees. Our results provide evidence that the predation-starvation
   hypothesis, which posits a trade-off between foraging efficiency and the
   need to minimise predation risk, plays a role in structuring the
   age-dependent habitat use of a burned forest specialist. Adult
   black-backed woodpeckers selected resources associated with food
   availability, but these resources occurred in relatively open, exposed
   habitat. Fledglings selected habitat that provided increased cover,
   perhaps as a strategy to reduce predation risk.Synthesis and
   applications. Globally, fires are increasing in severity and extent,
   leading to increased focus on fire-associated species that play keystone
   roles in facilitating biodiversity resilience. Our findings suggest that
   a diversity of patches burned at different severities may benefit
   post-fire specialists like the black-backed woodpecker at multiple
   life-history stages. The increasing prevalence of large, homogeneously
   high-severity megafires' may present an emerging threat even to
   post-fire specialists, and we urge land managers to consider
   opportunities to promote pyrodiversity in the face of novel fire
   regimes. Globally, fires are increasing in severity and extent, leading
   to increased focus on fire-associated species that play keystone roles
   in facilitating biodiversity resilience. Our findings suggest that a
   diversity of patches burned at different severities may benefit
   post-fire specialists like the black-backed woodpecker at multiple
   life-history stages. The increasing prevalence of large, homogeneously
   high-severity megafires' may present an emerging threat even to
   post-fire specialists, and we urge land managers to consider
   opportunities to promote pyrodiversity in the face of novel fire
   regimes.
C1 Stillman, Andrew N.; Univ Connecticut, Ecol & Evolutionary Biol, Storrs,
   CT, 06269, USA, USA.
EM andrew.stillman@uconn.edu
RI Stillman, Andrew/L-6080-2019; Tingley, Morgan W/F-8519-2011
OI Stillman, Andrew/0000-0001-6692-380X; Tingley, Morgan
   W/0000-0002-1477-2218
SC Biodiversity & Conservation; Environmental Sciences & Ecology; Zoology;
   Nutrition & Dietetics; Forestry
SN 0021-8901
BD Conservation; Conservation measures; Techniques; Telemetry techniques;
   Nutrition; Ecology; Habitat utilization; Habitat; Terrestrial habitat;
   Abiotic factors; Physical factors; Land zones; Nearctic region; North
   America; USA
DE Picoides arcticus [Habitat management /  / ] [Radio telemetry /  / ]
   [Food availability /  / ] [Habitat utilization /  / ] [Habitat
   preference / Habitat selection / ] [Forest and woodland / Burned forest
   / ] [Fire /  / ] [California / Plumas & Lassen National Forests / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15508051114
DA 2020-01-11
ER

PT J
AN ZOOR15512080973
DT Article
TI The importance of disturbance and forest structure to bird abundance in
   the Black Hills.
AU Matseur, Elizabeth A. (eamatseur@mail.missouri.edu) 
   Millspaugh, Joshua J.
   Thompson, Frank R., III
   Dickerson, Brian E.
   Rumble, Mark A.
SO Condor
VL 121
IS 1
PS 023
PD Feb 2019
PY 2019
LA English
U1 0
U2 0
AB Many North American birds associated with forest disturbances such as
   wildfire and mountain pine beetle (Dendroctonus ponderosae) outbreaks
   are declining in abundance. More information on relationships between
   avian abundance and forest structure and disturbance is needed to guide
   conservation and management. Our objective was to determine densities of
   American Three-toed Woodpecker (Picoides dorsalis), Black-backed
   Woodpecker (Picoides arcticus), Red-breasted Nuthatch (Sitta
   canadensis), Brown Creeper (Certhia americana), and White-winged Junco
   (Junco hyemalis aikeni) in relation to vegetation characteristics and
   disturbance at the point and landscape level in the Black Hills and Bear
   Lodge Mountains of South Dakota and Wyoming. We conducted 3 point counts
   from late March to late June 2015 and 2016 at more than 2,300 locations
   distributed across a gradient of forest structure and disturbance types.
   We estimated densities using 3-level hierarchical time-removal models
   that simultaneously estimated abundance, availability, and detection
   probability. Black-backed Woodpeckers were positively related to percent
   area in 1- to 3-year-old wildfires and Brown Creepers were positively
   associated with percent area in 4- to 5-year-old wildfires; however,
   Redbreasted Nuthatches were negatively related to percent area in 3- to
   5-year-old wildfires. With the exception of American Three-toed
   Woodpeckers, species were positively related to percent cover of
   beetle-killed trees. Brown Creepers, White-winged Juncos, and
   Red-breasted Nuthatches had mixed responses to percent overstory canopy
   cover. White-winged Juncos also had a positive association with percent
   ground vegetation at the point and landscape level. Brown Creepers were
   strongly linked with spruce vegetation type. American Three-toed
   Woodpeckers, which are thought to occupy spruce forest in the Black
   Hills, did not show a strong relationship with any covariates.
   Maintaining some areas of natural disturbances along with heterogeneity
   of vegetation characteristics within stands and at the landscape scale
   will benefit the needs of a diverse bird community in the Black Hills.
C1 Matseur, Elizabeth A.; Univ Missouri, Sch Nat Resources, Columbia, MO,
   65211, USA, USA.
EM eamatseur@mail.missouri.edu
SC Zoology; Environmental Sciences & Ecology; Forestry
SN 0010-5422
BD Animals and man; Ecology; Population dynamics; Habitat; Terrestrial
   habitat; Abiotic factors; Physical factors; Land zones; Nearctic region;
   North America; USA
DE Certhia americana; Junco hyemalis aikeni; Picoides arcticus; Picoides
   dorsalis; Sitta canadensis [Disturbance by man / Anthropogenic
   disturbance / ] [Population density / Abundance / ] [Habitat utilization
   / Habitat occupancy / ] [Forest and woodland / Forest / ] [Spatial
   environment / Landscape composition / ] [South Dakota / Black Hills
   National Forest & Custer State Park / ] [Wyoming / Bear Lodge Mountains
   / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Passeriformes, Certhiidae,
   Emberizidae, Sittidae, Piciformes, Picidae
OR Certhia americana (Certhiidae). 
   Junco hyemalis aikeni (Emberizidae). 
   Sitta canadensis (Sittidae). 
   Picoides arcticus (Picidae). 
   Picoides dorsalis (Picidae). 
UT ZOOREC:ZOOR15512080973
DA 2020-01-11
ER

PT J
AN ZOOR15512082826
DT Article
TI Few detections of Black-backed Woodpeckers (Picoides arcticus) in
   extreme wildfires in the Sierra Nevada.
AU White, Angela M. (angelawhite@fs.fed.us) 
   Tarbill, Gina L.
   Wilkerson, Robert L.
   Siegel, Rodney B.
SO Avian Conservation and Ecology
VL 14
IS 1
PS 17
PD 2019
PY 2019
LA English
U1 2
U2 2
AB Extreme wildfires in coniferous forests produce large areas of dead
   trees (snags) that are expected to provide much needed habitat for the
   Black-backed Woodpecker, a postfire associate. In an attempt to better
   understand extreme fire effects (including increasing fire size and
   decreasing diversity of fire effects), we monitored Black-backed
   Woodpeckers during the 2014 and 2015 breeding seasons following two
   wildfires (the 2013 Rim and 2014 King fire) that burned in the Sierra
   Nevada, USA under extreme fire conditions. Despite an extensive sampling
   effort including 1025 broadcast surveys and targeted nest searching over
   2040 ha of habitat typically used for nesting, we detected few
   Black-backed Woodpeckers. Positive detections of Black-backed
   Woodpeckers at broadcast points were positively associated with
   increases in the percent of surrounding forest that burned at
   high-severity and with the distance to the fire perimeter, indicating
   that the severity and scale of the fire per se did not affect use by
   Black-backed woodpeckers within the fire area. However, we suggest that
   the timing of these fires late in the fire season may have limited
   colonization of prey resources, leading to more limited use of these
   fires by Black-backed Woodpeckers.
C1 White, Angela M.; 1731 Res Pk Dr, Davis, CA, 95618, USA, USA.
EM angelawhite@fs.fed.us
SC Reproductive Biology; Zoology; Environmental Sciences & Ecology;
   Forestry
BD Reproduction; Reproductive behaviour; Ecology; Animal constructions;
   Habitat; Terrestrial habitat; Abiotic factors; Physical factors; Land
   zones; Nearctic region; North America; USA
DE Picoides arcticus [Breeding season /  / ] [Nests /  / ] [Forest and
   woodland / Coniferous forest / ] [Fire / Extreme wildfire / ]
   [California / Sierra Nevada Mountains / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15512082826
OA DOAJ Gold
DA 2020-01-11
ER

PT J
AN ZOOR15411078200
PM 29782655
DT Article
TI Cross-scale occupancy dynamics of a postfire specialist in response to
   variation across a fire regime.
AU Tingley, Morgan W. (morgan.tingley@uconn.edu) 
   Stillman, Andrew N.
   Wilkerson, Robert L.
   Howell, Christine A.
   Sawyer, Sarah C.
   Siegel, Rodney B.
SO Journal of Animal Ecology
VL 87
IS 5
PS 1484-1496
PD Sep 2018
PY 2018
LA English
U1 1
U2 17
AB Fire creates challenges and opportunities for wildlife through rapid
   destruction, modification and creation of habitat. Fire has spatially
   variable effects on landscapes; however, for species that benefit from
   the ephemeral resource patches created by fire, it is critical to
   understand characteristics of fires that promote postfire colonization
   and persistence and the spatial scales on which they operate. Using a
   model postfire specialist, the black-backed woodpecker (Picoides
   arcticus), we examined how colonization and persistence varied across
   two spatial scales as a function of four characteristics of fire
   regimesfire severity, fire size, fire ignition date and number of years
   since fire. We modelled black-backed woodpecker colonization and
   persistence using data from 108 recently burned forests in the Sierra
   Nevada and southern Cascades ecoregions of California, USA, that we
   monitored for up to 10years following fire. We employed a novel,
   spatially hierarchical, dynamic occupancy framework which differentiates
   colonization and persistence at two spatial scales: across fires and
   within fires. We found strong effects of fire characteristics on dynamic
   rates, with colonization and persistence declining across both spatial
   scales with increasing years since fire. Additionally, at sites within
   fires, colonization decreased with fire size and increased with fire
   severity and for fires with later ignition dates. Our results support
   the notion that different aspects of a species' environment are
   important for population processes at different spatial scales. As
   habitat quality is ephemeral for any given postfire area, our results
   illustrate the importance of time since fire in structuring occupancy at
   the fire level, with other characteristics of fires playing larger roles
   in determining abundance within individual fires. Our results contribute
   to the broader understanding of how variation in fire characteristics
   influences the colonization and persistence of species using ephemeral
   habitats, which is necessary for conserving and promoting postfire
   biodiversity in the context of rapidly shifting fire regimes.
C1 Tingley, Morgan W.; Univ Connecticut, Ecol & Evolutionary Biol, 75 N
   Eagleville Rd,Unit 3043, Storrs, CT, 06269, USA, USA.
EM morgan.tingley@uconn.edu
RI Tingley, Morgan W/F-8519-2011; Stillman, Andrew/L-6080-2019
OI Tingley, Morgan W/0000-0002-1477-2218; Stillman,
   Andrew/0000-0001-6692-380X
SC Zoology; Environmental Sciences & Ecology; Forestry
SN 0021-8790
BD Techniques; Ecology; Habitat utilization; Habitat; Terrestrial habitat;
   Abiotic factors; Physical factors; Land zones; Nearctic region; North
   America; USA
DE Picoides arcticus [Ecological techniques / Dynamic occupancy model / ]
   [Habitat colonization /  / ] [Forest and woodland / Forest / ] [Fire /
   Wildfire / ] [California /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15411078200
DA 2020-01-11
ER

PT J
AN ZOOR15409060798
DT Article
TI Black-backed woodpecker abundance in the black hills.
AU Matseur, Elizabeth A. (eamatseur@mail.missouri.edu) 
   Thompson, Frank R., III
   Dickerson, Brian E.
   Rumble, Mark A.
   Millspaugh, Joshua J.
SO Journal of Wildlife Management
VL 82
IS 5
PS 1039-1048
PD Jul 2018
PY 2018
LA English
U1 1
U2 5
AB The Black Hills population of black-backed woodpeckers (Picoides
   arcticus) was petitioned, but deemed not warranted, to be listed as a
   threatened or endangered species under the Endangered Species Act and
   more information on their population size in the region is needed. Our
   objective was to map abundance and provide a population estimate of
   black-backed woodpeckers in the Black Hills and Bear Lodge Mountains of
   South Dakota and Wyoming, USA. We conducted 3,666 and 3,384 5-minute
   point count surveys from late-March to late-June in 2015 and 2016,
   respectively. We characterized vegetation around each point using
   geographic information system-derived landscape variables and fit
   3-level hierarchical time-removal models in R package unmarked using
   gmultmix. The global abundance model received the most support and
   included year, latitude, and percent area of green trees, beetle-killed
   trees, dead trees, 1- to 2-year-old wildfire, 3-year-old wildfire, and
   4- to 5-year-old wildfire. Points with high percent cover of
   beetle-killed trees had the greatest density of black-backed
   woodpeckers, followed by 1- to 2-year-old wildfires. After 4 years,
   areas burned by wildfire supported lower densities of black-backed
   woodpeckers than undisturbed forests. Mean density was 0.528birds/km2 in
   2015 and 0.626birds/km2 in 2016. There were an estimated 2,920 and 3,439
   black-backed woodpeckers in the Black Hills and Bear Lodge Mountains in
   2015 and 2016, respectively. We suggest areas with high percent cover of
   beetle-killed trees may support high densities of black-backed
   woodpeckers and are important to sustaining populations when the
   availability of recent (<4 years old) wildfire is declining or scarce.
   Published 2018. This article is a U.S. Government work and is in the
   public domain in the USA. We suggest areas with high percent cover of
   beetle-killed trees may support high densities of black-backed
   woodpeckers in the Black Hills and Bear Lodge Mountains, South Dakota
   and Wyoming, 2015-2016, USA. Beetle-killed trees are important to
   sustaining black-backed woodpecker populations when the availability of
   recent (<4 years old) wildfire is declining or scarce.
C1 Matseur, Elizabeth A.; Univ Missouri, Sch Nat Resources, 302 Nat
   Resources Bldg, Columbia, MO, 65211, USA, USA.
EM eamatseur@mail.missouri.edu
SC Biodiversity & Conservation; Zoology; Environmental Sciences & Ecology
SN 0022-541X
BD Conservation; Ecology; Land zones; Nearctic region; North America; USA
DE Picoides arcticus [Conservation measures / Management implications / ]
   [Endangered status /  / ] [Population dynamics / Abundance / ] [South
   Dakota / Black Hills & Bear Lodge Mountains / ] [Wyoming /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15409060798
DA 2020-01-11
ER

PT J
AN ZOOR15411075741
DT Article
TI NOVEL FUNCTION OF FLUTTER DISPLAY IN THE BLACK-BACKED WOODPECKER.
AU Stillman, Andrew N. (andrew.stillman@uconn.edu) 
   Tousley, Frankie
SO Western Birds
VL 49
IS 2
PS 149-151
PD Jun 2018
PY 2018
LA English
U1 0
U2 0
C1 Stillman, Andrew N.; Univ Connecticut, Ecol & Evolutionary Biol, 75 N
   Eaglevllle Rd,Unit 3043, Storrs, CT, 06269, USA, USA.
EM andrew.stillman@uconn.edu
OI Stillman, Andrew/0000-0001-6692-380X
SC Zoology; Reproductive Biology; Behavioral Sciences
SN 0160-1121
BD Reproduction; Reproductive behaviour; Behaviour; Communication; Visual
   signals; Land zones; Nearctic region; North America; USA
DE Picoides arcticus [Courtship /  / ] [Display / Flutter aerial display /
   ] [California / Sierra Nevada / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15411075741
DA 2020-01-11
ER

PT J
AN ZOOR15410069082
DT Article
TI The persistence of Black-backed Woodpeckers following delayed salvage
   logging in the Sierra Nevada.
AU Tarbill, Gina L. (ginatarbill@fs.fed.us) 
   White, Angela M.
   Manley, Patricia N.
SO Avian Conservation and Ecology
VL 13
IS 1
PS 16
PD Jun 2018
PY 2018
LA English
U1 2
U2 6
AB The Black-backed Woodpecker (Picoides arcticus) is a snag-associated
   species that colonizes and utilizes patches of burned forests typically
   within 10 years of fire. Previous research has indicated that salvage
   logging, the removal of dead and dying trees from burned forests, has a
   negative effect on nesting densities of Black-backed Woodpeckers. One
   strategy proposed to ameliorate the impacts of dead tree removal on
   Black-backed Woodpeckers is to retain patches, or islands, of dense
   snags within the salvage matrix, but this approach remains largely
   untested. Following the Angora fire of South Lake Tahoe, CA several snag
   islands were retained within the larger salvage prescription to conserve
   habitat for Black-backed Woodpeckers and other snag-associated species.
   In this observational study, we evaluate whether these snag islands were
   effective at maintaining Black-backed Woodpecker populations following
   logging operations that covered 45% of the burned area. We
   systematically searched the postfire landscape for Black-backed
   Woodpecker nests for two years before and after salvage operations and
   compared nesting densities between logged and unlogged areas. Similar to
   other studies, we found that nest densities at the stand scale declined
   significantly in areas that were salvage logged, but Black-backed
   Woodpeckers did nest in both snag islands and in other peripheral
   unlogged areas, indicating that this approach may help balance habitat
   for wildlife with management needs at the scale of the fire. In this
   study, the removal of dead trees, which is usually implemented in the
   first two years following fire, did not occur until the fourth year,
   which may have also contributed to the persistence of Black-backed
   Woodpeckers postlogging.
C1 Tarbill, Gina L.; 1731 Res Pk Dr, Davis, CA, 95618, USA, USA.
EM ginatarbill@fs.fed.us
RI White, Angela/I-6436-2019
OI White, Angela/0000-0001-7499-7390
SC Zoology; Forestry; Biodiversity & Conservation; Environmental Sciences &
   Ecology; Reproductive Biology
BD Animals and man; Disturbance by man; Commercial activities;
   Conservation; Conservation measures; Reproduction; Reproductive
   behaviour; Ecology; Animal constructions; Land zones; Nearctic region;
   North America; USA
DE Picoides arcticus [Forestry / Salvage logging / ] [Habitat management / 
   / ] [Breeding season /  / ] [Nests / Nest density / ] [California / Lake
   Tahoe / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15410069082
OA DOAJ Gold
DA 2020-01-11
ER

PT J
AN ZOOR15411073399
DT Article
TI CONSPECIFICS TAKE OVER BLACK-BACKED WOODPECKER NEST FOLLOWING REMOVAL OF
   RESIDENT PAIR.
AU Lorenz, Teresa J. (tlorenz@fs.fed.us) 
   Fischer, Philip C.
   Cowell, Samuel D.
SO Northwestern Naturalist
VL 99
IS 1
PS 66-72
PD Spr 2018
PY 2018
LA English
U1 0
U2 0
AB On 16 April 2016, a nesting pair of Black-backed Woodpeckers (Picoides
   arcticus) were illegally killed by a poacher near Rimrock Lake,
   Washington. We captured the incident on camera and were surprised to
   observe a female Black-backed Woodpecker visit the partially excavated
   nest cavity a mere 3 h after the "removal'' of the breeding pair (and
   presumed territory holders). Within 72 h, a male and female were both
   observed at the abandoned nest and began excavating the partially
   completed cavity. The intruding pair successfully fledged 2 young from
   this nest on 10 June 2016. To our knowledge, this is the 1st reported
   case of a pair of Black-backed Woodpeckers taking over excavation duties
   at a cavity started by another pair in the same breeding season. While
   formal studies are needed, this incident suggests conspecific attraction
   may be used for territory settlement in Black-backed Woodpeckers.
C1 Lorenz, Teresa J.; US Forest Serv, USDA, 3625 93rd Ave SW, Olympia, WA,
   98512, USA, USA.
EM tlorenz@fs.fed.us
SC Zoology; Environmental Sciences & Ecology; Reproductive Biology;
   Behavioral Sciences
SN 1051-1733
BD Animals and man; Reproduction; Reproductive behaviour; Behaviour;
   Ecology; Animal constructions; Land zones; Nearctic region; North
   America; USA
DE Picoides arcticus [Disturbance by man / Poaching / ] [Breeding site /  /
   ] [Territoriality /  / ] [Nests / Abandoned nest / ] [Washington /
   Rimrock Lake / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15411073399
DA 2020-01-11
ER

PT J
AN ZOOR15405031093
PM 29414989
DT Article
TI Harvesting interacts with climate change to affect future habitat
   quality of a focal species in eastern Canada's boreal forest.
AU Tremblay, Junior A. (junior.tremblay@canada.ca) 
   Boulanger, Yan
   Cyr, Dominic
   Taylor, Anthony R.
   Price, David T.
   St-Laurent, Martin-Hugues
SO PLoS ONE
VL 13
IS 2
PS e0191645
PD Feb 7 2018
PY 2018
LA English
U1 1
U2 28
AB Many studies project future bird ranges by relying on correlative
   species distribution models. Such models do not usually represent
   important processes explicitly related to climate change and harvesting,
   which limits their potential for predicting and understanding the future
   of boreal bird assemblages at the landscape scale. In this study, we
   attempted to assess the cumulative and specific impacts of both
   harvesting and climate-induced changes on wildfires and standlevel
   processes (e.g., reproduction, growth) in the boreal forest of eastern
   Canada. The projected changes in these landscape-and stand-scale
   processes (referred to as "drivers of change") were then assessed for
   their impacts on future habitats and potential productivity of
   black-backed woodpecker (BBWO; Picoides arcticus), a focal species
   representative of deadwood and old-growth biodiversity in eastern
   Canada. Forest attributes were simulated using a forest landscape model,
   LANDIS-II, and were used to infer future landscape suitability to BBWO
   under three anthropogenic climate forcing scenarios (RCP 2.6, RCP 4.5
   and RCP 8.5), compared to the historical baseline. We found climate
   change is likely to be detrimental for BBWO, with up to 92% decline in
   potential productivity under the worst-case climate forcing scenario
   (RCP 8.5). However, large declines were also projected under baseline
   climate, underlining the importance of harvest in determining future
   BBWO productivity. Present-day harvesting practices were the single most
   important cause of declining areas of old-growth coniferous forest, and
   hence appeared as the single most important driver of future BBWO
   productivity, regardless of the climate scenario. Climate-induced
   increases in fire activity would further promote young, deciduous stands
   at the expense of old-growth coniferous stands. This suggests that the
   biodiversity associated with deadwood and old-growth boreal forests may
   be greatly altered by the cumulative impacts of natural and
   anthropogenic disturbances under a changing climate. Management
   adaptations, including reduced harvesting levels and strategies to
   promote coniferous species content, may help mitigate these cumulative
   impacts.
C1 Tremblay, Junior A.; Environm & Climate Change Canada, Sci & Technol
   Branch, Quebec City, PQ, Canada, Canada.
EM junior.tremblay@canada.ca
OI Tremblay, Junior A./0000-0003-4930-0939
SC Zoology; Environmental Sciences & Ecology; Biodiversity & Conservation;
   Forestry; Meteorology & Atmospheric Sciences
SN 1932-6203
BD Conservation; Conservation measures; Ecology; Habitat; Terrestrial
   habitat; Abiotic factors; Physical factors; Land zones; Nearctic region;
   North America; Canada
DE Picoides arcticus [Habitat management /  / ] [Productivity /  / ]
   [Forest and woodland / Boreal forest / ] [Climate and weather / Climate
   change / ] [Fire /  / ] [Spatial environment /  / ] [Quebec / Center /
   ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15405031093
OA DOAJ Gold, Green Published
DA 2020-01-11
ER

PT J
AN ZOOR15403012413
DT Article
TI TAG-TEAM TAKEOVER: USURPATION OF WOODPECKER NESTS BY WESTERN BLUEBIRDS.
AU Cowell, Samuel (samueldavidcowell@gmail.com) 
   Sullivan, Kim
   Domgaard, Hannah
   Lorscheider, Sara
   Panoussi, Mariah
   Parrish, Lindsey
   Rodman, Taryn
   Lorenz, Teresa
SO Western Birds
VL 48
IS 3
PS 173-180
PD Sep 2017
PY 2017
LA English
U1 0
U2 0
AB Woodpeckers provide important ecological services by excavating nesting
   cavities that are used by many forest birds and other animals. Demand
   for nesting cavities by secondary cavity nesters can lead to intense
   competition for this limited resource. The Western Bluebird (Sialia
   mexicana) is known to usurp nests from its own and other species.
   However, the process by which bluebirds take over nests from woodpeckers
   larger than themselves has not been well documented. In order to
   understand this process, we analyzed 112 hours of video footage of nests
   of a Black-backed (Picoides arcticus) and a Hairy Woodpecker (P.
   villosus) located in the Okanogan-Wenatchee National Forest in
   Washington. Usurpation first involves a short period of physical
   confrontation followed by a prolonged period of constant presence around
   the nest. The male and female bluebirds cooperate by taking turns
   harassing the woodpecker and guarding the nest. This may be of concern
   to managers as the Black-backed Woodpecker is considered a species at
   risk in certain locations.
C1 Cowell, Samuel; Utah State Univ, Dept Biol, 5305 Old Main Hill, Logan,
   UT, 84322, USA, USA.
EM samueldavidcowell@gmail.com
OI Domgaard, Hannah/0000-0001-9359-8352
SC Reproductive Biology; Zoology
SN 0160-1121
BD Reproduction; Reproductive behaviour; Land zones; Nearctic region; North
   America; USA
DE Picoides arcticus; Picoides villosus; Sialia mexicana [Nest usurpation /
    / ] [Washington / Okanogan-Wenatchee National Forest / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Passeriformes, Turdidae,
   Piciformes, Picidae
OR Sialia mexicana (Turdidae). 
   Picoides arcticus (Picidae). 
   Picoides villosus (Picidae). 
UT ZOOREC:ZOOR15403012413
OA Bronze
DA 2020-01-11
ER

PT J
AN ZOOR15310064254
DT Article
TI Habitats and landscapes associated with bird species in a lowland
   conifer-dominated ecosystem.
AU Zlonis, Edmund J. (edmund.zlonis@state.mn.us) 
   Panci, Hannah G.
   Bednar, Josh D.
   Hamady, Maya
   Niemi, Gerald J.
SO Avian Conservation and Ecology
VL 12
IS 1
PS 14pp.
PD Jun 2017
PY 2017
NT Unpaginated.
LA English
U1 0
U2 0
AB Human-induced effects on lowland conifer forests in hemiboreal regions
   are increasing because of expanded use of these northern ecosystems for
   raw materials, energy, and minerals as well as the potential effects of
   climatic changes. These forests support many breeding bird species
   across the Holarctic and allow the persistence of several boreal bird
   species in hemiboreal and even temperate regions. These bird species are
   of particular conservation concern as shifting patterns northward in
   forest composition caused by climate change will likely affect their
   populations. However, effective management and conservation options are
   limited because the specifics of these species' breeding habitats are
   not well understood. We modeled and mapped habitat suitability for 11
   species of boreal birds that breed in the lowland conifer forests of the
   Agassiz Lowlands Ecological Subsection in northern Minnesota and are
   likely to have reduced breeding habitat in the future: Spruce Grouse
   (Falcipennis canadensis), Black-backed Woodpecker (Picoides arcticus),
   Olivesided Flycatcher (Contopus cooperi), Yellow-bellied Flycatcher
   (Empidonax flaviventris), Boreal Chickadee (Poecile hudsonicus),
   Goldencrowned Kinglet (Regulus satrapa), Ruby-crowned Kinglet (Regulus
   calendula), Swainson's Thrush (Catharus ustulatus), Connecticut Warbler
   (Oporornis agilis), Palm Warbler (Setophaga palmarum), and Dark-eyed
   Junco (Junco hyemalis). Sets of 7 to 16 potential environmental
   covariates, including both stand-level and landscape attributes, were
   used to develop individual species models. Within this lowland
   conifer-dominated ecosystem, we found significant selection for specific
   forest and landscape characteristics by all but one of these species,
   with the best models including between one and nine variables. Habitat
   suitability maps were developed from these models and predictions tested
   with an independent dataset. Model performance depended on species,
   correctly predicting 56-96% of test data. We present a map combining
   suitability scores for five species of conservation concern that has
   been used for conservation planning and management opportunities across
   a broad, lowland forest landscape. We recommend managers utilize the
   detailed model development and validation framework to address local and
   regional conservation issues.
C1 Zlonis, Edmund J.; 102 23rd St NE, Bemidji, MN, 56601, USA, USA.
EM edmund.zlonis@state.mn.us
SC Biodiversity & Conservation; Zoology; Environmental Sciences & Ecology;
   Reproductive Biology; Forestry
BD Conservation; Techniques; Reproduction; Reproductive behaviour; Ecology;
   Habitat utilization; Habitat; Terrestrial habitat; Abiotic factors;
   Physical factors; Land zones; Nearctic region; North America; USA
DE Aves [Conservation /  / ] [Ecological techniques / Habitat suitability
   modelling / ] [Breeding site / Breeding habitat / ] [Habitat preference
   / Habitat selection / ] [Forest and woodland / Lowland conifer forest /
   distribution] [Spatial environment / Landscape structure characteristics
   / ] [Minnesota / Agassiz Lowland Ecological Subsection / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
UT ZOOREC:ZOOR15310064254
DA 2020-01-11
ER

PT J
AN ZOOR15312083759
DT Article
TI Transferability of habitat suitability models for nesting woodpeckers
   associated with wildfire.
AU Latif, Quresh S. (qlatif@fs.fed.us) 
   Saab, Victoria A.
   Hollenbeck, Jeff P.
   Dudley, Jonathan G.
SO Condor
VL 118
IS 4
PS 766-790
PD Nov 2016
PY 2016
LA English
U1 0
U2 5
AB Following wildfire, forest managers are challenged with meeting both
   socioeconomic demands (e.g., salvage logging) and mandates requiring
   habitat conservation for disturbance-associated wildlife (e.g.,
   woodpeckers). Habitat suitability models for nesting woodpeckers can be
   informative, but tests of model transferability are needed to understand
   how broadly models developed at one location can be applied to inform
   post-fire forest management at other locations. We developed habitat
   suitability models and tested their transferability for 2
   disturbance-associated woodpecker species, Black-backed (Picoides
   arcticus) and Lewis's (Melanerpes lewis) woodpecker. Habitat suitability
   models consisted of weighted logistic regression models comparing
   environmental conditions at nest versus non-nest sites. We developed
   models at each of 3 wildfire locations in Washington, Oregon, and Idaho,
   and then examined predictive performance for each model at alternate
   ("application") locations. Models generally discriminated nest from
   non-nest sites well at locations where they were developed but
   performance was variable at application locations, indicating limited
   transferability. Models for Black-backed Woodpecker and those that
   included field-collected environmental covariates exhibited greater
   transferability than models for Lewis's Woodpecker and those that only
   included remotely sensed covariates. Transferability was also generally
   poor between Oregon and the other 2 locations. Limitations to model
   transferability observed in this study suggest models developed at any
   one wildfire location are unlikely to be generally applicable across the
   entire range of Black-backed and Lewis's woodpeckers. Generally
   applicable models to inform post-fire forest management will therefore
   likely require integration of data from multiple wildfire locations.
C1 Latif, Quresh S.; US Forest Serv, Rocky Mt Res Stn, Bozeman, MT, 59718,
   USA, USA.
EM qlatif@fs.fed.us
SC Zoology; Biodiversity & Conservation; Environmental Sciences & Ecology;
   Reproductive Biology; Forestry
SN 0010-5422
BD Conservation; Conservation measures; Techniques; Reproduction;
   Reproductive behaviour; Habitat; Terrestrial habitat; Abiotic factors;
   Land zones; Nearctic region; North America; USA
DE Melanerpes lewisis; Picoides arcticus [Habitat management / Forest
   management / ] [Ecological techniques / Habitat suitability model / ]
   [Breeding site / Nest site / ] [Forest and woodland /  / ] [Abiotic
   factors / Environmental conditions / ] [Idaho /  / ] [Oregon /  / ]
   [Washington /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Melanerpes lewisis (Picidae). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15312083759
OA Bronze
DA 2020-01-11
ER

PT J
AN ZOOR15212078858
DT Article
TI Resource Selection by Black-backed Woodpeckers (Picoides arcticus) and
   American Three-toed Woodpeckers (P. dorsalis) in South Dakota and
   Wyoming.
AU Mohren, Sean R.
   Rumble, Mark A.
   Lehman, Chadwick P.
   Anderson, Stanley H.
SO Prairie Naturalist
VL 48
IS 1
PS 21-29
PD Jun 2016
PY 2016
LA English
U1 0
U2 1
AB Black-backed woodpeckers (Picoides arcticus, (BBWO)) and American
   three-toed woodpeckers (P. dorsalis, (ATTW)) are uncommon inhabitants of
   conifer forests and are sympatric in some areas, including the Black
   Hills. Both species exhibit genetic characteristics associated with
   isolated populations, are species of special management concern, and for
   which data are lacking concerning populations and habitats. We developed
   resource selection models of forest vegetation within 500 m radius plots
   (78.5 ha) for BBWOs and ATTWs to provide forest managers with
   stand-level information to estimate how forest management might affect
   habitat for these species in the Black Hills. Relative probability of
   selection by BBWOs increased with greater area of ponderosa pine (Pinus
   ponderosa) stands 41-70% overstory canopy cover up to approximately 20%
   (16 ha) of the surrounding area then declined when these stands
   comprised greater than 20% of the area. Relative probability of
   selection by ATTWs increased with greater area of white spruce (Picea
   glauca) up to a maximum of approximately 66% (50 ha) of the surrounding
   area and subsequently declined when white spruce comprised greater than
   66% of the surrounding area. Increased area of aspen (Populus
   temuloides) stands increased the relative probability of selection by
   ATTWs. During a period when the Black Hills lacked extensive disturbance
   from fire or insect infestation, BBWPs selected areas that were managed
   for moderate overstory canopy of ponderosa pine and ATTWs selected
   stands with large diameter spruce and aspen at the higher elevations
   that were not extensively harvested.
C1 Mohren, Sean R.; Univ Wyoming, Wyoming Cooperat Fish & Wildlife Res
   Unit, Laramie, WY, 82071, USA, USA.
SC Environmental Sciences & Ecology; Biodiversity & Conservation; Zoology;
   Forestry
SN 0091-0376
BD Conservation; Conservation measures; Techniques; Habitat; Terrestrial
   habitat; Land zones; Nearctic region; North America; USA
DE Picoides arcticus; Picoides dorsalis [Habitat management / Forest
   management / ] [Ecological techniques / Resource selection models / ]
   [Forest and woodland /  / ] [South Dakota / Southwest / ] [Wyoming /
   Northeast / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides dorsalis (Picidae). 
UT ZOOREC:ZOOR15212078858
DA 2020-01-11
ER

PT J
AN ZOOR15210064211
DT Article
TI An integrated occupancy and space-usemodel to predict abundance of
   imperfectly detected, territorial vertebrates.
AU Tingley, Morgan W. (morgan.tingley@uconn.edu) 
   Wilkerson, Robert L.
   Howell, Christine A.
   Siegel, Rodney B.
SO Methods in Ecology and Evolution
VL 7
IS 5
PS 508-517
PD May 2016
PY 2016
LA English
U1 0
U2 30
AB 1. It is often highly desirable to know not only where species are
   likely to occur (i.e. occupancy) but also how many individuals are
   supported by a given habitat (i.e. density). For many animals, occupancy
   and density may be determined by distinct ecological processes. 2. Here
   we develop a novel abundance model as the product of landscape-scale
   occupancy probability and habitat-scale density given occupancy. One can
   conceptualize our model as fully packing a landscape with home ranges or
   territories based on habitat quality, and then subtracting territories
   based on a probabilistic process that accounts for the fact that species
   rarely exhibit full occupancy across heterogeneous landscapes. The model
   is designed to predict abundance at fine spatial scales, using
   resolutions equal to or smaller than a single home range or territory.
   3. We demonstrate this model on the Black-backed Woodpecker (Picoides
   arcticus), a species of management concern linked to post-fire forests.
   Occupancy is derived from a regional monitoring effort, while density
   given occupancy comes from a telemetry study of variation in territory
   size. A Bayesian framework is used to combine independent occupancy and
   home-range size models and predict abundance of Black-backed Woodpeckers
   at 4 fires that burned in 2012 or 2013. Predictions are evaluated with
   independently collected survey data, showing that the model is
   successful at predicting both absolute abundance at fires as well as
   relative abundance within and among fires. 4. The conceptual model
   presents a promising new framework for fine-scale modelling of density
   and abundance for other territorial yet elusive species. Telemetry and
   occupancy data are widely collected for many species, but rarely
   utilized in combination, and the ecological exploration of the factors
   that determine occurrence versus home-range size may provide useful
   biological insight. As applied to the Black-backed Woodpecker, the model
   provides a tool for resource managers to explore trade-offs in retaining
   burned forest habitat versus managing for other post-fire goals, such as
   salvage logging or reforestation efforts that require snag removal.
C1 Tingley, Morgan W.; Univ Connecticut, Ecol & Evolutionary Biol, 75 N
   Eagleville Rd,Unit 3043, Storrs, CT, 06269, USA, USA.
EM morgan.tingley@uconn.edu
RI Tingley, Morgan W/F-8519-2011
OI Tingley, Morgan W/0000-0002-1477-2218
SC Environmental Sciences & Ecology; Zoology; Biodiversity & Conservation;
   Behavioral Sciences; Forestry
BD Conservation; Conservation measures; Techniques; Behaviour; Ecology;
   Population dynamics; Habitat; Terrestrial habitat; Abiotic factors;
   Physical factors; Land zones; Nearctic region; North America; USA
DE Picoides arcticus [Habitat management /  / ] [Ecological techniques /
   Bayesian model / ] [Home range /  / ] [Population density / Abundance /
   ] [Forest and woodland / Forest / ] [Fire /  / ] [California /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15210064211
DA 2020-01-11
ER

PT J
AN ZOOR15212077071
DT Article
TI Parental care by Black-backed Woodpeckers in burned and unburned
   habitats of eastern Canada.
AU Tremblay, Junior A. (Junior.Tremblay@canada.ca) 
   Ibarzabal, Jacques
   Saulnier, Marie-Christine
   Wilson, Scott
SO Ornis Hungarica
VL 24
IS 1
PS 69-80
PD 2016
PY 2016
LA English
U1 0
U2 1
AB Nest care is an important parental contribution to offspring. In
   woodpeckers, males often have an equal or greater contribution to
   parental care, including nest sanitation. The Black-backed Woodpecker
   (Picoides arcticus) is a North American boreal woodpecker for which both
   parents are highly involved in parental care. By modifying their
   territory size in optimal and suboptimal habitat (e.g. burned vs
   unburned habitats), this species seems to have a large tolerance to
   variation in prey abundance at a landscape scale, and could provide a
   useful biological model to investigate the adaptability of parent care,
   particularly to relative contribution of each sex. We investigated sex-
   and habitat-specific parental care behaviour of Black-backed Woodpeckers
   at 9 nests by daily monitoring during the nestling period. Specifically,
   we examined two different aspects of parental care: 1) time spent at the
   nest, and 2) food delivery. We also compared relative contribution
   between sexes to nest sanitation. Despite our small sample sizes, our
   results show that males are more involved in nest sanitation and spend
   longer at the nest, and both sexes exhibit higher food delivery rates
   and spend less time at the nest in burned habitat. This latter result
   may suggest that greater effort is needed to provision Black-backed
   Wood-pecker nestlings in unburned habitat compared to burned habitat.
C1 Tremblay, Junior A.; Environm & Climate Change Canada, Sci & Technol
   Branch, Quebec City, PQ, Canada, Canada.
EM Junior.Tremblay@canada.ca
OI Tremblay, Junior A./0000-0003-4930-0939
SC Nutrition & Dietetics; Zoology; Reproductive Biology; Environmental
   Sciences & Ecology
SN 1215-1610
BD Nutrition; Reproduction; Reproductive behaviour; Abiotic factors;
   Physical factors; Land zones; Nearctic region; North America; Canada
DE Picoides arcticus [Food availability /  / ] [Sex differences /  / ]
   [Parental care / Nest sanitation & time spent in nest / ] [Spatial
   environment / Burnt & unburnt landscapes / ] [Quebec /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15212077071
OA Other Gold
DA 2020-01-11
ER

PT J
AN ZOOR15209054472
DT Article
TI Age structure of Black-backed Woodpecker populations in burned forests.
AU Siegel, Rodney B. (rsiegel@birdpop.org) 
   Tingley, Morgan W.
   Wilkerson, Robert L.
   Howell, Christine A.
   Johnson, Matthew
   Pyle, Peter
SO Auk
VL 133
IS 1
PS 69-78
PD Jan 2016
PY 2016
LA English
U1 2
U2 27
AB Population age structure is important for understanding population
   dynamics, but can be difficult to resolve in landbirds due to the
   limited number of age classes discernible by examining plumage. In
   forests of western North America, Black-backed Woodpeckers (Picoides
   articus) typically colonize burned areas shortly after fire, but
   densities decline within 6-10 yr. This pattern is often assumed to
   result from adult Black-backed Woodpeckers abandoning territories when
   food resources wane, yet long-distance breeding dispersal is relatively
   rare in birds, whereas longdistance natal dispersal is more common. To
   determine whether colonization of newly burned areas is driven primarily
   by breeding dispersal of adults or natal dispersal by young birds, we
   captured 57 adult Black-backed Woodpeckers in 6 burned areas in
   California between 1 and 8 yr after fire. We used patterns of multiple
   feather generations retained among primary coverts, secondaries, and
   secondary coverts to assign birds to 1 of 5 age classes (second-,
   third-, and fourth-calendar-year; after-third-calendar-year; and
   after-fourth-calendar-year). Population age structure varied
   dramatically across burned areas, with a preponderance of
   second-calendar-year birds in the 1 yr and 2 yr postfire areas, and a
   preponderance of birds at least 3 yr old in the older postfire areas.
   Poisson generalized linear mixed models (GLMMs) revealed that the effect
   of years since fire on woodpecker age was highly significant (z = 3.575,
   P < 0.001). Our results indicate that natal dispersal is the primary
   means by which Black-backed Woodpeckers colonize recently burned areas
   in western forests, and that breeding dispersal is uncommon. The decline
   of Black-backed Woodpecker populations 6-10 yr after fire likely
   reflects the lifespan of individual birds that colonized the burned
   area, or of offspring that they produced in the early postfire years.
   Our discrimination of Black-backed Woodpeckers into 5 age classes
   confirms previous suppositions about plumage-based age determination in
   woodpeckers, and is likely applicable to other woodpecker species.
C1 Siegel, Rodney B.; Inst Bird Populat, Point Reyes Stn, CA, USA, USA.
EM rsiegel@birdpop.org
RI Tingley, Morgan W/F-8519-2011
OI Tingley, Morgan W/0000-0002-1477-2218
SC Zoology; Reproductive Biology; Environmental Sciences & Ecology;
   Forestry
SN 0004-8038
BD Reproduction; Ecology; Population dynamics; Population structure;
   Habitat utilization; Habitat; Terrestrial habitat; Abiotic factors;
   Physical factors; Land zones; Nearctic region; North America; USA
DE Picoides articus [Reproductive behaviour / Breeding dispersal / ] [Age
   class distribution / Age structure / ] [Distribution within habitat /  /
   ] [Habitat colonization /  / ] [Forest and woodland / Forest / ] [Fire /
    / ] [California /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides articus (Picidae). 
UT ZOOREC:ZOOR15209054472
DA 2020-01-11
ER

PT J
AN ZOOR15204025400
DT Article
TI WOODPECKER FORAGE AVAILABILITY IN HABITAT DISTURBANCES OF THE BLACK
   HILLS.
AU Dickerson, Brian E. (bedickerson@fs.fed.us) 
   Ambourn, Angie K.
   Rumble, Mark A.
   Allen, Kurt K.
   Lehman, Chad P.
SO Prairie Naturalist
VL 47
IS 2
PS 110-114
PD Dec 2015
PY 2015
LA English
U1 0
U2 0
C1 Dickerson, Brian E.; US Forest Serv, Rocky Mt Res Stn, 8221 South
   Highway 16, Rapid City, SD, 57702, USA, USA.
EM bedickerson@fs.fed.us
SC Environmental Sciences & Ecology; Zoology; Entomology; Nutrition &
   Dietetics
SN 0091-0376
BD Nutrition; Diet; Prey; Feeding behaviour; Ecology; Predators; Habitat;
   Abiotic factors; Physical factors; Land zones; Australasian region;
   Australasia; Australia
DE Coleoptera [Avian predators / Picoides arcticus / Prey availability]
   [Habitat /  / ] [South Australia / Black Hill / ]. 
   Picoides arcticus [Insect prey / Coleoptera / Prey availability]
   [Foraging /  / ] [Habitat /  / ] [Fire / Wildfire / ] [South Australia /
   Black Hill / ]. 
TN Arthropods; Beetles; Birds; Chordates; Insects; Invertebrates;
   Vertebrates
ST Animalia, Arthropoda, Insecta, Chordata, Vertebrata, Aves, Piciformes,
   Picidae
OR Coleoptera (Insecta): [Prey]. 
   Picoides arcticus (Picidae): [Predator]. 
UT ZOOREC:ZOOR15204025400
DA 2020-01-11
ER

PT J
AN ZOOR15202011647
DT Article
TI Structural retention requirements for a key ecosystem engineer in
   conifer-dominated stands of a boreal managed landscape in eastern
   Canada.
AU Tremblay, Junior A. (junior.tremblay@ec.gc.ca) 
   Savard, Jean-Pierre L.
   Ibarzabal, Jacques
SO Forest Ecology and Management
VL 357
PS 220-227
PD Dec 1 2015
PY 2015
LA English
U1 2
U2 58
AB The concept of retention forestry brings a new point of view for forest
   management as more emphasis is put on what is retained as opposed to
   what is removed during harvesting. Details of retention harvesting
   prescriptions vary among forest ecosystems reflecting differences in
   their disturbance dynamics, stand composition and condition, and
   landscape context. Although recent studies underlie the important role
   of trembling aspen (Populus tremuloides) in cavity networks of Canadian
   western temperate forests, limited information exists for
   conifer-dominated forests such as the black spruce (Picea mariana)
   forests of central Quebec where the proportion of deciduous trees is
   generally <10%. We used the habitat requirements of an ecosystem
   engineer of eastern boreal forests, the Black-backed Woodpecker
   (Picoides arcticus), to determine harvesting prescriptions likely to
   preserve most of the biodiversity of this ecosystem. We describe the
   mean physical characteristics of trees selected for nesting, quantify
   nesting habitat selection at two scales (nest tree and nesting stand),
   and identify quantitative targets for forest managers to select types
   and amounts of retention structures that will offer optimal resources to
   cavity nesting birds and dead wood associated species in managed boreal
   landscapes. During the three years of this project, we found 18
   Black-backed Woodpecker nests: 9 were in old coniferous, 6 in young
   cuts, and 1 nest in each of the other habitats (barren land, young
   coniferous and old cut). Selection of nest trees by Black-backed
   Woodpeckers was influenced primarily by tree species (jack pine; Pinus
   banksiana) and also by the dbh of trees, while their selection of
   nesting stand habitat was influenced positively by the mean density of
   recent-solid snags and negatively by the mean basal area of live trees.
   Our results show that forest stands with >=200 recently decayed snags/ha
   (>=9 cm dbh) exhibit higher predicted probability of selection for
   nesting by Black-backed Woodpeckers, and most of the cutblocks with a
   nest tree originate from harvesting with advance regeneration protection
   with at least that many snags. Moreover, cutblocks should contain
   suitable candidate nest trees, with retention of <=10 live and dead
   trees/ha with a dbh >= 27 cm, and retention of jack pine snags in
   proportion of their availability before harvesting in black
   spruce-dominated forest stands. We recommend that, where forest stands
   present suitable structures, every stand harvested with retention
   harvesting should retain >=200 recent-solid snags/ha (>=9 cm dbh), which
   represents about 1 recent-solid snag each 7 m (50 m2). The medium and
   long-term persistence of dead wood associated species may not rely only
   on retention forestry, thus we recommend the protection of patches (100
   ha) of old forest stands (>=120 y) inside these agglomeration of
   cutblocks to ensure the dynamic of dead wood creation within the managed
   landscape. Crown Copyright (C) 2015 Published by Elsevier B.V. All
   rights reserved.
C1 Tremblay, Junior A.; Environm Canada, 801-1550 Ave Estimauville, Quebec
   City, PQ, G1J 0C3, Canada, Canada.
EM junior.tremblay@ec.gc.ca
OI Tremblay, Junior A./0000-0003-4930-0939
SC Biodiversity & Conservation; Environmental Sciences & Ecology; Zoology;
   Reproductive Biology; Forestry
SN 0378-1127
BD Conservation; Conservation measures; Reproduction; Ecology; Habitat
   utilization; Habitat; Terrestrial habitat; Land zones; Nearctic region;
   North America; Canada
DE Picoides arcticus [Habitat management /  / nesting requirements]
   [Reproductive behaviour / Nesting behaviour / ] [Habitat preference /
   Habitat selection / ] [Forest and woodland / Forest ecosystem / ]
   [Quebec /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15202011647
DA 2020-01-11
ER

PT J
AN ZOOR15106042893
DT Article
TI How important is dead wood for woodpeckers foraging in eastern North
   American boreal forests?
AU Nappi, Antoine (antoine.nappi@fec.gouv.qc.ca) 
   Drapeau, Pierre
   Leduc, Alain
SO Forest Ecology and Management
VL 346
PS 10-21
PD Jun 15 2015
PY 2015
LA English
U1 11
U2 105
AB Dead and decaying trees may be a limited resource for woodpeckers in
   managed forests, especially for species that rely on dead wood for
   nesting and foraging. Whereas recent nest web studies greatly increased
   our understanding of nest tree use by woodpeckers, knowledge on
   woodpeckers foraging requirements is much less developed. We quantified
   and compared tree selection patterns and foraging behavior of six
   bark-foraging woodpeckers downy woodpecker (Picoides pubescens), hairy
   woodpecker (Picoides villosus), American three-toed woodpecker (Picoides
   dorsalis), black-backed woodpecker (Picoides arcticus), yellow-bellied
   sapsucker (Sphyropicus varius) and pileated woodpecker (Dryocopus
   pileatus) that co-occur in eastern boreal forests of North America. A
   total of 271 observation bouts and more than 600 foraging trees were
   recorded at three study sites characterized as mixedwood, conifer, and
   burn. Our results show that dead wood represents an important foraging
   substrate for most bark-foraging woodpeckers in Canadian eastern boreal
   forests. However, significant differences in individual species were
   found with regard to substrate use patterns, foraging behavior and
   associated prey. Woodpeckers were categorized according to their
   selection for specific stages of tree degradation, with the
   yellow-bellied sapsucker and the pileated woodpecker representing
   opposite ends of this gradient. The black-backed woodpecker showed the
   highest use of dead wood and was very specific in its tree selection by
   using mostly recently dead trees. We emphasize that providing foraging
   substrates for most woodpecker species not only requires maintaining
   dead wood but also paying heed to the underlying dynamics of dead wood
   (e.g. recruitment and degradation) in managed boreal forest landscapes.
   (C) 2015 Elsevier B.V. All rights reserved.
C1 Nappi, Antoine; Bur Forestier Chef, 845 Blvd St Joseph, Roberval, PQ,
   G8H 2L6, Canada, Canada.
EM antoine.nappi@fec.gouv.qc.ca
SC Nutrition & Dietetics; Zoology; Forestry
SN 0378-1127
BD Nutrition; Feeding behaviour; Habitat; Terrestrial habitat; Land zones;
   Nearctic region; North America; Canada
DE Dryocopus pileatus; Picoides arcticus; Picoides dorsalis; Picoides
   pubescens; Picoides villosus; Sphyrapicus varius [Food preferences /
   Foraging tree selection / comparative study; co-occurrence] [Foraging /
   Foraging ecology / ] [Forest and woodland / Boreal forest / ] [Ontario /
   Clay Belt, north / ] [Quebec /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Dryocopus pileatus (Picidae). 
   Picoides arcticus (Picidae). 
   Picoides dorsalis (Picidae). 
   Picoides pubescens (Picidae). 
   Picoides villosus (Picidae). 
   Sphyrapicus varius (Picidae). 
UT ZOOREC:ZOOR15106042893
DA 2020-01-11
ER

PT J
AN ZOOR15112081809
PM 26465039
DT Article
TI The role of wood hardness in limiting nest site selection in avian
   cavity excavators.
AU Lorenz, Teresa J. (teresajlorenz@gmail.com) 
   Vierling, Kerri T.
   Johnson, Timothy R.
   Fischer, Philip C.
SO Ecological Applications
VL 25
IS 4
PS 1016-1033
PD Jun 2015
PY 2015
LA English
U1 2
U2 55
AB Woodpeckers and other primary cavity excavators (PCEs) are important
   worldwide for excavating cavities in trees, and a large number of
   studies have examined their nesting preferences. However, quantitative
   measures of wood hardness have been omitted from most studies, and
   ecologists have focused on the effects of external tree-and
   habitat-level features on nesting. Moreover, information is lacking on
   the role of wood hardness in limiting nesting opportunities for this
   important guild. Here, we used an information theoretic approach to
   examine the role of wood hardness in multi-scale nest site selection and
   in limiting nesting opportunities for six species of North American
   PCEs. We found that interior wood hardness at nests (n = 259) differed
   from that at random sites, and all six species of PCE had nests with
   significantly softer interior wood than random trees (F1,517 = 106.15, P
   < 0.0001). Accordingly, interior wood hardness was the most influential
   factor in our models of nest site selection at both spatial scales that
   we examined: in the selection of trees within territories and in the
   selection of nest locations on trees. Moreover, regardless of
   hypothesized excavation abilities, all the species in our study appeared
   constrained by interior wood hardness, and only 4-14% of random sites
   were actually suitable for nesting. Our findings suggest that past
   studies that did not measure wood hardness counted many sites as
   available to PCEs when they were actually unsuitable, potentially
   biasing results. Moreover, by not accounting for nest site limitations
   in PCEs, managers may overestimate the amount of suitable habitat. We
   therefore urge ecologists to incorporate quantitative measures of wood
   hardness into PCE nest site selection studies, and to consider the
   limitations faced by avian cavity excavators in forest management
   decisions.
C1 Lorenz, Teresa J.; Univ Idaho, Dept Fish & Wildlife Sci, POB 441136,
   Moscow, ID, 83844, USA, USA.
EM teresajlorenz@gmail.com
RI Vierling, Kerri/N-6653-2016
SC Zoology; Environmental Sciences & Ecology; Reproductive Biology;
   Forestry
SN 1051-0761
BD Techniques; Reproduction; Reproductive behaviour; Ecology; Habitat
   utilization; Habitat; Terrestrial habitat; Land zones; Nearctic region;
   North America; USA
DE Colaptes auratus; Picoides albolarvatus; Picoides arcticus; Picoides
   dorsalis; Sphyrapicus thyroideus [Ecological techniques /  / comparative
   study] [Breeding site / Nest site selection / ] [Habitat preference /  /
   ] [Forest and woodland / Forest / ] [Washington / Cascade range, east /
   ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Colaptes auratus (Picidae). 
   Picoides albolarvatus (Picidae). 
   Picoides arcticus (Picidae). 
   Picoides dorsalis (Picidae). 
   Sphyrapicus thyroideus (Picidae). 
UT ZOOREC:ZOOR15112081809
DA 2020-01-11
ER

PT J
AN ZOOR15108054520
DT Article
TI Drill, baby, drill: the influence of woodpeckers on post-fire vertebrate
   communities through cavity excavation.
AU Tarbill, G.L. (gtarbill@gmail.com) 
   Manley, P.N.
   White, A.M.
SO Journal of Zoology (London)
VL 296
IS 2
PS 95-103
PD Jun 2015
PY 2015
LA English
U1 3
U2 51
AB Several studies have addressed the importance of woodpeckers as
   ecological engineers in forests due to their excavation of cavities.
   Although research in green, unburned forests has identified the
   influence of different excavators on secondary use by cavity-dependent
   species, little is known about the relative importance of cavities
   created by woodpeckers in recently burned forests. By excavating
   cavities, woodpeckers create habitat for secondary cavity users that can
   facilitate post-fire regeneration through seed dispersal, seed
   germination and regulation of insect populations that affect vegetative
   growth. In this study, we monitored 77 cavities created by three species
   of Picoides woodpeckers for use by secondary cavity species in a fire
   that burned in the Sierra Nevada, California. At each cavity we measured
   nest tree and site-specific parameters to determine if these
   characteristics could explain differential use by secondary cavity
   users. We found substantial overlap in cavity characteristics between
   woodpecker species, with the white-headed woodpecker differing most
   notably in their placement of cavities in larger diameter, shorter and
   more decayed trees in less dense stands than either hairy or
   black-backed woodpeckers. These differences in cavity placement may have
   resulted in the high diversity and large number of detections of
   secondary cavity species in white-headed woodpecker cavities.
   Black-backed and hairy woodpeckers were similar in the number of
   detections of secondary cavity use, although black-backed woodpecker
   cavities were used by more species than hairy woodpecker cavities.
   Secondary cavity use was high (86%) suggesting these woodpeckers, and
   the white-headed woodpecker in particular, can have an accelerating
   affect effect on ecological succession by providing valuable habitat
   features for seed dispersing birds and mammals, insectivorous birds, and
   small predators, thereby impacting ecological processes and functions.
C1 Tarbill, G.L.; US Forest Serv, Pacific Southwest Res Stn, 1731 Res Pk
   Dr, Davis, CA, 95616, USA, USA.
EM gtarbill@gmail.com
RI White, Angela/I-6436-2019
OI White, Angela/0000-0001-7499-7390
SC Zoology; Environmental Sciences & Ecology; Forestry
SN 0952-8369
BD Ecology; Animal constructions; Habitat; Terrestrial habitat; Land zones;
   Nearctic region; North America; USA
DE Picoides albolarvatus; Picoides arcticus; Picoides villosus [Nests /  /
   Comparative study; cavity excavation] [Forest and woodland / Forest / ]
   [California /  / ]. 
   Vertebrata [Habitat utilization /  / ] [Forest and woodland / Tree
   cavity habitat / ] [California /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Vertebrata (Chordata). 
   Picoides albolarvatus (Picidae). 
   Picoides arcticus (Picidae). 
   Picoides villosus (Picidae). 
UT ZOOREC:ZOOR15108054520
DA 2020-01-11
ER

PT J
AN ZOOR15108054081
DT Article
TI Apparent foraging success reflects habitat quality in an irruptive
   species, the Black-backed Woodpecker.
AU Rota, Christopher T. (rotact@missouri.edu) 
   Rumble, Mark A.
   Lehman, Chad P.
   Kesler, Dylan C.
   Millspaugh, Joshua J.
SO Condor
VL 117
IS 2
PS 178-191
PD May 2015
PY 2015
LA English
U1 0
U2 23
AB Dramatic fluctuations in food resources are a key feature of many
   habitats, and many species have evolved a movement strategy to exploit
   food resources that are unpredictable in space and time. The
   availability of food resources may be a particularly strong determinant
   of habitat quality for irruptive bird species. We studied the apparent
   foraging success of Black-backed Woodpeckers (Picoides arcticus), an
   irruptive species that responds opportunistically to pulsed food
   resources in burned forests and mountain pine beetle (MPB) infestations.
   Prior investigations revealed that the highest population growth rates
   of Black-backed Woodpeckers occurred in habitat created by summer
   wildfire, with intermediate population growth rates in MPB infestations,
   and the lowest population growth rates in habitats created by prescribed
   fire in fall. We tested whether apparent foraging success was associated
   with known habitat quality in order to assess the potential for food
   availability to regulate population growth. We counted the number of
   successfully captured wood-boring beetle larvae and "small'' prey on
   each tree that a Black-backed Woodpecker used for foraging and modeled
   these counts as a function of habitat, tree diameter, number of years
   postfire, and tree disturbance category. Total apparent foraging success
   (the sum of observed captures of wood-boring beetle larvae and small
   prey per tree) did not vary across habitats, but woodpeckers foraging in
   habitats created by summer wildfire were expected to capture 2.2 and 2.0
   times more wood-boring beetles than woodpeckers foraging in habitats
   created by fall prescribed fire and MPB infestations, respectively.
   These results suggest that the availability of food resources may
   contribute to population regulation in this irruptive species.
   Furthermore, population growth in irruptive species may be highly
   sensitive to the availability of preferred food resources. Forests
   recently burned by summer wildfires provide relatively abundant food
   resources for Black-backed Woodpeckers and represent high-quality
   habitat for this species of conservation concern.
C1 Rota, Christopher T.; Univ Missouri, Dept Fisheries & Wildlife Sci,
   Columbia, MO, 65211, USA, USA.
EM rotact@missouri.edu
RI Rota, Christopher/H-5189-2019
OI Rota, Christopher/0000-0001-9272-4687
SC Nutrition & Dietetics; Zoology; Environmental Sciences & Ecology
SN 0010-5422
BD Nutrition; Diet; Feeding behaviour; Ecology; Habitat; Land zones;
   Nearctic region; North America; USA
DE Picoides arcticus [Prey /  / ] [Food availability /  / ] [Foraging /
   Foraging success / ] [Population dynamics / Population growth rate / ]
   [Habitat /  / ] [South Dakota / Black Hills / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae): [Predator]. 
UT ZOOREC:ZOOR15108054081
DA 2020-01-11
ER

PT J
AN ZOOR15210063635
DT Article
TI Contribution of unburned boreal forests to the population of
   black-backed woodpecker in eastern Canada.
AU Tremblay, Junior A. (junior.tremblay@canada.ca) 
   Ibarzabal, Jacques
   Savard, Jean-Pierre L.
SO Ecoscience
VL 22
IS 2-4
PS 145-155
PD 2015
PY 2015
LA English
U1 0
U2 10
AB Black-backed woodpecker is known to be a disturbance-associated species,
   being more abundant in disturbed forest stands than in undisturbed
   habitats, but its demography and population dynamic still need to be
   clarified. The present study was conducted in central Quebec within
   coniferous forests shaped largely by timber harvest and wildfire. The
   objectives were to compare the age composition of breeding black-backed
   woodpeckers, nest survival rate and productivity in both disturbed and
   undisturbed habitats (respectively recently burned and unburned
   habitats). In addition, we evaluated the general productivity of both
   habitat types in a simulated boreal landscape. There was a positive
   relationship between nest age and daily survival rates. Older
   woodpeckers were the most abundant breeders in unburned habitats and
   younger birds in one-year-old burns. Although nests in recently burned
   forests produced more nestlings per successful nest, our simulation of a
   boreal forest landscape showed that unburned habitat produced about
   two-thirds more fledglings per year than burned habitat. Globally,
   unburned habitat may provide woodpeckers more temporally stable
   resources. Population dynamics of the black-backed woodpecker, at least
   in our study area, may be explained by resource pulse interactions where
   populations benefit opportunistically from short-term high-quality
   habitat, and rely on unburned habitats for long-term persistence.
C1 Tremblay, Junior A.; Univ Quebec, Dept Sci Fondamentales, Chicoutimi,
   PQ, Canada, Canada.
EM junior.tremblay@canada.ca
OI Tremblay, Junior A./0000-0003-4930-0939
SC Zoology; Reproductive Biology; Environmental Sciences & Ecology;
   Forestry
SN 1195-6860
BD Reproduction; Ecology; Habitat; Terrestrial habitat; Abiotic factors;
   Physical factors; Land zones; Nearctic region; North America; Canada
DE Picoides arcticus [Reproductive productivity / Productivity / first
   report] [Population dynamics /  / ] [Forest and woodland / Boreal forest
   / ] [Fire /  / ] [Quebec / Central / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15210063635
DA 2020-01-11
ER

PT J
AN ZOOR15205032677
PM 26782484
DT Article
TI DNA barcoding and phylogenetic relationships of genera Picoides and
   Dendrocopos (Aves: Picidae).
AU Huang, Z.H. (hzhow@163.com) 
   Tu, F.Y.
   Liao, X.J.
SO Genetics and Molecular Research
VL 14
IS 4
PS 18370-18375
PD 2015
PY 2015
LA English
U1 0
U2 5
AB Picoides and Dendrocopos are two closely related genera of woodpeckers
   (family Picidae), and members of these genera have long been the
   subjects of phylogenetic debate. Mitochondrial cytochrome c oxidase
   subunit I (COI) is a powerful marker for the identification and
   phylogenetic study of animal species. In the present study, we analyzed
   the COI barcodes of 21 species from the two genera, and 222 variable
   sites were identified. Kimura two-parameter distances were calculated
   between barcodes. The average interspecific genetic distance was more
   than 20 times higher than the average intraspecific genetic distance.
   The neighbor-joining method was used to construct a phylogenetic tree,
   and all of the species could be discriminated by their distinct clades.
   Picoides arcticus was the first to split from the lineage, and the other
   species were grouped into two divergent clades. The results of this
   study indicated that the COI genetic data did not support the monophyly
   of Picoides and Dendrocopos.
C1 Huang, Z.H.; Jinggangshan Univ, Sch Life Sci, Jian, Jiangxi, 343009,
   China, China.
EM hzhow@163.com
SC Biochemistry & Molecular Biology; Zoology; Genetics & Heredity;
   Evolutionary Biology
SN 1676-5680
BD Biochemistry; Genetics; Evolution
DE Dendrocopos; Picoides [Nucleic acids / DNA barcoding / ] [Population
   genetics / Genetic distance / ] [Phylogeny /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Dendrocopos (Picidae). 
   Picoides (Picidae). 
UT ZOOREC:ZOOR15205032677
OA Bronze
DA 2020-01-11
ER

PT J
AN ZOOR15103019301
DT Article
TI Density and Abundance of Black-Backed Woodpeckers in a Ponderosa Pine
   Ecosystem.
AU Mohren, Sean R.
   Rumble, Mark A. (mrumble@fs.fed.us) 
   Anderson, Stanley H.
SO Prairie Naturalist
VL 46
IS 2
PS 62-69
PD Dec 2014
PY 2014
LA English
U1 0
U2 0
AB Black-backed woodpeckers (Picoides arcticus) are usually associated with
   forest disturbance resulting in recently killed trees. While
   black-backed woodpeckers are attracted to areas affected by these
   disturbances, in the Black Hills they exist during interim disturbance
   periods in largely undisturbed forests. In 2012, a petition for listing
   black-backed woodpeckers in the Black Hills as a distinct population
   segment identified current population size and the population size
   necessary to minimize risk of extinction as key components of the
   decision process. Our objective was to estimate the population size of
   black-backed woodpeckers in the Black Hills National Forest of South
   Dakota and Wyoming during a period of relatively low disturbance (e.g.,
   2000-2001). The estimated population was 641 (95% CI = 405-990) and 456
   (95% CI = 293-705) breeding pairs in 2000 and 2001, respectively. The
   average density of 0.12/km2 (95% CI = 0.07-0.18) was similar to
   densities in other undisturbed forests. This population estimate
   provides a starting point for population viability analyses during
   periods of relatively low disturbance by fire or insects.
C1 Rumble, Mark A.; US Forest Serv, Rocky Mt Res Stn, 8221 S Highway 16,
   Rapid City, SD, 57702, USA, USA.
EM mrumble@fs.fed.us
SC Forestry; Zoology; Environmental Sciences & Ecology
SN 0091-0376
BD Animals and man; Disturbance by man; Commercial activities; Ecology;
   Habitat; Terrestrial habitat; Land zones; Nearctic region; North
   America; USA
DE Picoides arcticus [Forestry /  / ] [Population dynamics / Population
   abundance / ] [Forest and woodland / Pine forest habitat / ] [South
   Dakota / Black Hills, north & central / ] [Wyoming /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15103019301
DA 2020-01-11
ER

PT J
AN ZOOR15011069115
DT Article
TI Variation in home-range size of Black-backed Woodpeckers.
AU Tingley, Morgan W. (morgan.tingley@uconn.edu) 
   Wilkerson, Robert L.
   Bond, Monica L.
   Howell, Christine A.
   Siegel, Rodney B.
SO Condor
VL 116
IS 3
PS 325-340
PD Aug 2014
PY 2014
LA English
U1 0
U2 52
AB The Black-backed Woodpecker (Picoides arcticus) is a species of
   conservation concern that is strongly associated with recently burned
   forests. Black-backed Woodpeckers are known to have variable home-range
   sizes, yet the ecological factors related to this variation have not
   been adequately explored and may hold insights into the natural history
   of the species and the management of its habitat. During 2011 and 2012,
   we radio-tracked Black-backed Woodpeckers nesting in 3 forested areas of
   California that burned between 2 and 5 years before the initiation of
   tracking. Among 15 individuals with robust tracking data, we found that
   home-range size varied by an order of magnitude, from 24.1 to 304.1 ha,
   as measured by movement-based kernel estimation. Using an
   information-theoretic approach, we evaluated the functional relationship
   between snag basal area an a priori key resource and home-range size,
   additionally controlling for sex, age, and years since fire as
   covariates. We found that snag basal area alone best predicted
   home-range size, explaining 54-62% of observed variation. As snag basal
   area increased, home-range sizes exponentially decreased. This
   relationship held true both with and without the inclusion of 3
   individuals that nested in burned forest yet foraged predominantly
   outside the fire perimeter in unburned forest. Snag basal area, unlike
   other potential influences on home-range size, is an attribute that
   forest managers can directly influence. We describe a quantitative
   relationship between home-range size and snag basal area that forest
   managers can use to predict Black-backed Woodpecker pair density in
   burned forests and assess the likely population consequences of specific
   harvest treatments. Given that the birds in our study, foraging
   primarily in burned forest, all had home ranges with
C1 Tingley, Morgan W.; Princeton Univ, Woodrow Wilson Sch, Princeton, NJ,
   08544, USA, USA.
EM morgan.tingley@uconn.edu
RI Tingley, Morgan W/F-8519-2011; Bond, Monica L/E-3161-2013
OI Tingley, Morgan W/0000-0002-1477-2218; Bond, Monica
   L/0000-0001-8500-6564
SC Biodiversity & Conservation; Environmental Sciences & Ecology; Zoology;
   Anatomy & Morphology; Nutrition & Dietetics; Behavioral Sciences;
   Forestry
SN 0010-5422
BD Conservation; Conservation measures; Biometrics; Nutrition; Feeding
   behaviour; Behaviour; Habitat; Terrestrial habitat; Abiotic factors;
   Physical factors; Land zones; Nearctic region; North America; USA
DE Picoides arcticus [Habitat management / Forest management / model] [Age
   /  / ] [Foraging /  / ] [Home range / Home range size variation / ]
   [Forest and woodland / Montane forest / ] [Mountain habitat /  / ] [Fire
   /  / ] [California / Lassen Volcanic & Plumas National Park / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15011069115
DA 2020-01-11
ER

PT J
AN ZOOR15009049628
DT Article
TI Habitat availability for multiple avian species under modeled
   alternative conservation scenarios in the Two Hearted River watershed in
   Michigan, USA.
AU Nixon, Kristina (kristi.nxon@gmail.com) 
   Silbernagel, Janet
   Price, Jessica
   Miller, Nicholas
   Swaty, Randy
SO Journal for Nature Conservation
VL 22
IS 4
PS 302-317
PD Aug 2014
PY 2014
LA English
U1 0
U2 60
AB Due to differences in the responses of species to changing landscape
   patterns, developing a conservation plan with an optimal outcome of
   supporting contrasting habitat needs can be difficult. Landscape
   scenario modeling can provide a means to compare alternative
   conservation strategies and can reveal tradeoffs of managing for one
   objective versus another. In order to evaluate the impacts of
   alternative conservation strategies in a 53,653 ha landscape in
   Michigan's Upper Peninsula, four scenarios of alternative conservation
   strategies were modeled 100 years into the future using the
   VDDT[registered trademark]/TELSA[registered trademark] spatial model
   suite, and habitat availability was evaluated for five target bird
   species of local conservation concern under each scenario. The target
   species were Dendroica fusca (Blackburnian Warbler), Picoides
   arcticus(Black-backed Woodpecker), Dendroica kirtlandii (Kirtland's
   Warbler), Buteo lineatus (Red-shouldered Hawk), and Scolopax minor
   (American Woodcock). Scenarios were ranked based on relative performance
   of three habitat metric results (total primary habitat area, average
   size of habitat patches, and average distance to the nearest neighboring
   habitat patch) for each species. The final overall rank for each
   scenario was generally related to harvest intensity; the scenario with
   the smallest total area of even-aged management ranked the highest.
   Ranks were not consistent across all response variables. Relative
   species sensitivity was also evaluated, and the ranks did not match
   expectations, with the more habitat generalist species showing the
   highest sensitivity and the most specialist species showing the lowest.
   The approach here provides a means of projecting and comparing potential
   long-term impacts of alternative landscape strategies on diverse
   wildlife habitats. These results, when considered with budget
   considerations and species' habitat area and population goals, can
   assist local managers and stakeholders in conservation planning by
   identifying tradeoffs and compromises aimed at optimizing protection for
   a variety of target species. (C) 2014 Elsevier GmbH. All rights
   reserved.
C1 Nixon, Kristina; Univ Wisconsin, Nelson Inst, 550 North Pk St, Madison,
   WI, 53706, USA, USA.
EM kristi.nxon@gmail.com
SC Zoology; Environmental Sciences & Ecology; Biodiversity & Conservation;
   Forestry
SN 1617-1381
BD Conservation; Conservation measures; Ecology; Habitat utilization;
   Habitat; Terrestrial habitat; Abiotic factors; Physical factors; Land
   zones; Nearctic region; North America; USA
DE Buteo lineatus; Dendroica fusca; Dendroica kirtlandii; Picoides
   arcticus; Scolopax minor [Habitat management /  / ] [Habitat preference
   /  / ] [Forest and woodland / Forest / ] [Spatial environment / Spatial
   landscape / ] [Michigan /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Charadriiformes, Scolopacidae,
   Falconiformes, Accipitridae, Passeriformes, Parulidae, Piciformes,
   Picidae
OR Scolopax minor (Scolopacidae). 
   Buteo lineatus (Accipitridae). 
   Dendroica fusca (Parulidae). 
   Dendroica kirtlandii (Parulidae). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15009049628
DA 2020-01-11
ER

PT J
AN ZOOR15011062070
PM 24736502
DT Article
TI The Role of Wildfire, Prescribed Fire, and Mountain Pine Beetle
   Infestations on the Population Dynamics of Black-Backed Woodpeckers in
   the Black Hills, South Dakota.
AU Rota, Christopher T. (rotact@missouri.edu) 
   Millspaugh, Joshua J.
   Rumble, Mark A.
   Lehman, Chad P.
   Kesler, Dylan C.
SO PLoS ONE
VL 9
IS 4
PS e94700
PD Apr 15 2014
PY 2014
LA English
U1 0
U2 45
AB Wildfire and mountain pine beetle infestations are naturally occurring
   disturbances in western North American forests. Black-backed woodpeckers
   (Picoides arcticus) are emblematic of the role these disturbances play
   in creating wildlife habitat, since they are strongly associated with
   recently-killed forests. However, management practices aimed at reducing
   the economic impact of natural disturbances can result in habitat loss
   for this species. Although black-backed woodpeckers occupy habitats
   created by wildfire, prescribed fire, and mountain pine beetle
   infestations, the relative value of these habitats remains unknown. We
   studied habitat-specific adult and juvenile survival probabilities and
   reproductive rates between April 2008 and August 2012 in the Black
   Hills, South Dakota. We estimated habitat-specific adult and juvenile
   survival probability with Bayesian multi-state models and
   habitat-specific reproductive success with Bayesian nest survival
   models. We calculated asymptotic population growth rates from estimated
   demographic rates with matrix projection models. Adult and juvenile
   survival and nest success were highest in habitat created by summer
   wildfire, intermediate in MPB infestations, and lowest in habitat
   created by fall prescribed fire. Mean posterior distributions of
   population growth rates indicated growing populations in habitat created
   by summer wildfire and declining populations in fall prescribed fire and
   mountain pine beetle infestations. Our finding that population growth
   rates were positive only in habitat created by summer wildfire
   underscores the need to maintain early post-wildfire habitat across the
   landscape. The lower growth rates in fall prescribed fire and MPB
   infestations may be attributed to differences in predator communities
   and food resources relative to summer wildfire.
C1 Rota, Christopher T.; Univ Missouri, Dept Fisheries & Wildlife Sci,
   Columbia, MO, 65211, USA, USA.
EM rotact@missouri.edu
RI Rota, Christopher/H-5189-2019
OI Rota, Christopher/0000-0001-9272-4687
SC Zoology; Environmental Sciences & Ecology; Reproductive Biology
SN 1932-6203
BD Reproduction; Ecology; Population dynamics; Abiotic factors; Physical
   factors; Land zones; Nearctic region; North America; USA
DE Coleoptera [Impact on habitat /  / ] [South Dakota / Black Hills / ]. 
   Picoides arcticus [Reproduction / Reproduction rate / impact of
   coleoptera species] [Population dynamics / Population growth rate / ]
   [Survival /  / ] [Fire / Wildfire & fall prescribed fire / ] [South
   Dakota / Black Hills / ]. 
TN Arthropods; Beetles; Birds; Chordates; Insects; Invertebrates;
   Vertebrates
ST Animalia, Arthropoda, Insecta, Chordata, Vertebrata, Aves, Piciformes,
   Picidae
OR Coleoptera (Insecta). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15011062070
OA DOAJ Gold, Green Published
DA 2020-01-11
ER

PT J
AN ZOOR15105032050
DT Article
TI A Comparison of Avian Habitat in Forest Management Plans Produced Under
   Three Different Certification Systems in Ontario, Canada.
AU Euler, David
SO Wildlife Society Bulletin
VL 38
IS 1
PS 142-147
PD Mar 2014
PY 2014
LA English
U1 2
U2 27
AB Considerable discussion and theoretical reviews of forest certification
   systems have been published that outline the potential impact of forest
   certification on biodiversity and wildlife habitat. Three common
   approaches to forest certification used in Canada include the Forest
   Stewardship Council, the Canadian Standards Association, and the
   Sustainable Forestry Initiative. In this study, I reviewed forest
   management plans in Ontario, Canada, and compared the plans' potential
   impact on habitat for 6 species of birds that use mature and older
   forests: pileated woodpecker (Dryocopus pileatus), ruby-crowned kinglet
   (Regulus calendula), boreal chickadee (Poecile hudsonicus), black-backed
   woodpecker (Picoides arcticus), great gray owl (Strix nebulosa), and
   red-breasted nuthatch (Sitta canadensis). The purpose was to determine
   whether the different certification systems in use resulted in different
   impacts on avian habitat, and to compare certified forest management
   plans with plans prepared for un-certified forest units. Based on 27
   Forest Management Plans in Ontario, there seems to be little reason to
   believe that certified forests are more likely to protect and conserve
   habitat for these 6 bird species that use older forests than are forests
   that are not certified. (C) 2014 The Wildlife Society.
SC Zoology; Environmental Sciences & Ecology; Biodiversity & Conservation;
   Forestry
SN 0091-7648
BD Animals and man; Conservation; Conservation measures; Habitat;
   Terrestrial habitat; Land zones; Nearctic region; North America; Canada
DE Aves [Disturbance by man / Habitat loss / comparitive study] [Habitat
   management / Forest management plans / ] [Forest and woodland /  / ]
   [Ontario /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
UT ZOOREC:ZOOR15105032050
DA 2020-01-11
ER

PT J
AN ZOOR15005027828
DT Article
TI Space-use and habitat associations of Black-backed Woodpeckers (Picoides
   arcticus) occupying recently disturbed forests in the Black Hills, South
   Dakota.
AU Rota, Christopher T. (rotact@missouri.edu) 
   Rumble, Mark A.
   Millspaugh, Joshua J.
   Lehman, Chadwick P.
   Kesler, Dylan C.
SO Forest Ecology and Management
VL 313
PS 161-168
PD Feb 1 2014
PY 2014
LA English
U1 0
U2 36
AB Black-backed Woodpeckers (Picoides arcticus) are a disturbance-dependent
   species that occupy recently burned forest and mountain pine beetle
   (MPB) infestations. Forest management practices that reduce the amount
   of disturbed forest may lead to habitat loss for Black-backed
   Woodpeckers, which have recently been petitioned for listing under the
   Endangered Species Act. We studied home range size and resource
   selection of Black-backed Woodpeckers occupying habitat created by
   summer wildfire, fall prescribed fire, and MPB infestations in the Black
   Hills, South Dakota. We studied home range size and resource selection
   by attaching radio-transmitters to adult Black-backed Woodpeckers. We
   estimated home range size using fixed kernel density techniques (n = 28
   in habitat created by summer wildfire, n = 19 in habitat created by fall
   prescribed fire, and n = 27 in MPB infestations). We evaluated resource
   selection with a random-effects discrete choice model in a Bayesian
   framework (n = 5 in habitat created by summer wildfire, n = 16 in
   habitat created by fall prescribed fire, and n = 8 in habitat created by
   MPB infestations). Home range size was smallest in 1-2 year post summer
   wildfire habitat (mean home range size = 79 ha) and 2-year post fall
   prescribed fire habitat (mean home range size = 143 ha). Home range size
   was intermediate in MPB infestations (mean home range size = 307 ha) and
   was greatest in 3-4 year post fire habitat (mean summer wildfire home
   range size = 430 hectares, mean fall prescribed fire home range size =
   460 ha). The relative probability that a Black-backed Woodpecker used a
   tree increased with increasing diameter at breast height (DBH) and basal
   area and was greatest on disturbance-killed trees. These results suggest
   1-2 year post summer wildfire habitat may have the greatest relative
   value to Black-backed Woodpeckers and that MPB infestations may be more
   important as post-fire habitats age. We recommend retaining patches of
   1-2 year post summer wildfire habitat that are at least 200 ha by
   exempting portions of recently burned forest from salvage logging. This
   recommendation can be accomplished by exempting salvage logging in
   summer wildfires <200 ha and retaining at least 50% of summer wildfires
   >400 ha. Ideally, recently burned forest patches should be composed of
   >=27 m2 basal area/ha of trees that burned at moderate or high severity,
   with at least 40% of the basal area composed of trees >=27 cm DBH. (C)
   2013 Elsevier B.V. All rights reserved.
C1 Rota, Christopher T.; Univ Missouri, Dept Fisheries & Wildlife Sci, 302
   Anheuser Busch Nat Resources Bldg, Columbia, MO, 65211, USA, USA.
EM rotact@missouri.edu
RI Rota, Christopher/H-5189-2019
OI Rota, Christopher/0000-0001-9272-4687
SC Behavioral Sciences; Zoology; Environmental Sciences & Ecology; Forestry
SN 0378-1127
BD Behaviour; Ecology; Habitat utilization; Habitat; Terrestrial habitat;
   Abiotic factors; Physical factors; Land zones; Nearctic region; North
   America; USA
DE Picoides arcticus [Home range / Home range size / ] [Habitat preference
   / Resource selection / ] [Forest and woodland / Forest / ] [Fire /
   Wildfire / ] [Spatial environment / Vegetation characteristics / ]
   [South Dakota / Black Hills / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15005027828
DA 2020-01-11
ER

PT J
AN ZOOR15109056553
DT Article
TI ROOST SITES OF THE BLACK-BACKED WOODPECKER IN BURNED FOREST.
AU Siegel, Rodney B. (rsiegel@birdpop.org) 
   Wilkerson, Robert L.
   Tingley, Morgan W.
   Howell, Christine A.
SO Western Birds
VL 45
IS 4
PS 296-303
PD 2014
PY 2014
LA English
U1 1
U2 6
AB The Black-backed Woodpecker (Picoides arcticus) is strongly associated
   with recently burned forest, which makes it vulnerable to salvage
   logging or other post-fire forest management that removes snags. As part
   of a larger radio-telemetry study of the species' resource use and
   habitat selection in a burned forest in California, we located
   radio-tagged Black-backed Woodpeckers at night to find and describe
   their roost sites. We found 14 unique roost locations during night-time
   searches for five individual birds. Description of the micro-site on the
   tree that the bird used was impossible at five roosts where we could not
   visually locate the bird in the dark. At the nine roosts confirmed
   visually, none of the birds roosted in excavated cavities. Rather, they
   roosted in sheltered spaces within burned-out hollows of trunks (5
   instances), in the crook of a forked trunk (1 instance), wedged between
   adjacent trunks of two closely spaced trees (1 instance), in a deep,
   natural bark furrow (1 instance), and clinging to a trunk directly above
   a horizontal branch (1 instance). Eleven of the 14 roosts (79%) were in
   dead trees. Our results suggest that in burned forests the Black-backed
   Woodpecker may benefit if, during salvage logging, emphasis is placed on
   retaining snags with burned-out hollows, forked trunks, or other
   relatively unusual structures that may create crevices or other
   opportunities for shelter.
C1 Siegel, Rodney B.; Inst Bird Populat, POB 1346, Point Reyes Stn, CA,
   94956, USA, USA.
EM rsiegel@birdpop.org
RI Tingley, Morgan/F-8519-2011
OI Tingley, Morgan/0000-0002-1477-2218
SC Zoology; Reproductive Biology; Behavioral Sciences; Environmental
   Sciences & Ecology; Forestry
SN 0160-1121
BD Reproduction; Reproductive behaviour; Behaviour; Activity patterns;
   Ecology; Habitat utilization; Habitat; Terrestrial habitat
DE Picoides arcticus [Breeding site / Roost site / ] [Roosting /  / ]
   [Habitat preference / Habitat selection / ] [Forest and woodland /
   Burned forest / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15109056553
DA 2020-01-11
ER

PT J
AN ZOOR15106040534
DT Article
TI Influence of old coniferous habitat on nestling growth of Black-backed
   Woodpeckers Picoides arcticus.
AU Tremblay, Junior A. (Junior.Tremblay@ec.gc.ca) 
   Ibarzabal, Jacques
   Savard, Jean-Pierre L.
   Wilson, Scott
SO Acta Ornithologica (Warsaw)
VL 49
IS 2
PS 273-279
PD 2014
PY 2014
LA English
U1 0
U2 12
AB Nest success is often used to evaluate the impact of environmental
   stressors on species, but nestling growth may also be indicative of
   subtle consequences on individual fitness. We monitored Black-backed
   Woodpecker Picoides arcticus nestling growth in unburned boreal forests
   under the influence of commercial logging. The objectives of our
   exploratory study were to estimate growth rate constants of weight and
   three morphometric measures (culmen length, tarsal length and wing
   length) in nestling Black-backed Woodpeckers and to determine how the
   amount of old coniferous habitat in home ranges may affect these rates.
   The amount of old coniferous habitat positively influenced weight gain
   in Black-backed Woodpecker nestlings but did not influence the three
   morphometric measures of growth rate. Our results suggest that
   Black-backed Woodpecker fitness may be affected by the reduction of old
   coniferous habitat in managed forest landscapes. We encourage further
   studies on the relationship between habitat quality and nestling growth
   as a potentially useful indicator of how habitat loss might influence
   individual fitness in these species.
C1 Tremblay, Junior A.; Environm Canada, Sci & Technol Branch, Quebec City,
   PQ, Canada, Canada.
EM Junior.Tremblay@ec.gc.ca
OI Tremblay, Junior A./0000-0003-4930-0939
SC Zoology; Forestry; Anatomy & Morphology; Developmental Biology
SN 0001-6454; 1734-8471
BD Animals and man; Disturbance by man; Commercial activities; Biometrics;
   General morphology; Appendages; Limbs; Skeletal and supporting
   structures; Skeleton; Skull; Life cycle and development; Development;
   Growth; Habitat; Terrestrial habitat; Land zones; Nearctic region; North
   America; Canada
DE Picoides arcticus [Forestry / Logging / ] [Size / Length / ] [Weight / 
   / ] [Wings /  / ] [Hindlimbs / Tarsals / ] [Bill / Culmen / ] [Growth
   rate / Nestling growth rate / ] [Forest and woodland / Coniferous forest
   habitat / ] [Quebec / Central / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15106040534
DA 2020-01-11
ER

PT J
AN ZOOR15103020649
DT Article
TI Occurrence patterns of Black-backed Woodpeckers in green forest of the
   Sierra Nevada Mountains, California, USA.
AU Fogg, Alissa M. (afogg@pointblue.org) 
   Roberts, L. Jay
   Burnett, Ryan D.
SO Avian Conservation and Ecology
VL 9
IS 2
PS 3
PD 2014
PY 2014
LA English
U1 1
U2 29
AB Black-backed Woodpeckers (Picoides arcticus) are a rare habitat
   specialist typically found in moderate and high severity burned forest
   throughout its range. It also inhabits green forest but little is known
   about occurrence and habitat use patterns outside of burned areas,
   especially in the Sierra Nevada of California, USA. We used point count
   and playback surveys to detect Black-backed Woodpeckers during 2011
   -2013 on 460 transects on 10 national forest units. We defined green
   forest as areas that had not burned at moderate or high severity since
   1991 and were more than 2 km from areas burned at moderate or high
   severity within the previous eight years (n = 386 transects). We used
   occupancy models to examine green forest habitat associations and found
   positive relationships with elevation, latitude, northern aspects,
   number of snags, tree diameter, lodgepole pine (Pinus contorta) forest,
   and a negative relationship with slope. Estimated occupancy in green
   forest was higher than previously understood (0.21). In addition site
   colonization and extinction probability in green forest were low (0.05
   and 0.19, respectively) and suggest that many of the individuals
   detected in green forest were not just actively dispersing across the
   landscape in search of burned areas, but were occupying relatively
   stable home ranges. The association with high elevation and lodgepole
   pine forest may increase their exposure to climate change as these
   elevation forest types are predicted to decrease in extent over the next
   century. Although density is high in burned forest, green forest covers
   significantly more area in the Sierra Nevada and should be considered in
   efforts to conserve this rare species.
C1 Fogg, Alissa M.; 3820 Cypress Dr Suite 11, Petaluma, CA, 94954, USA,
   USA.
EM afogg@pointblue.org
SC Zoology; Environmental Sciences & Ecology; Biodiversity & Conservation;
   Forestry
BD Conservation; Ecology; Habitat; Terrestrial habitat; Land zones;
   Nearctic region; North America; USA
DE Picoides arcticus [Conservation measures /  / occurrence] [Distribution
   within habitat / Occupancy / ] [Habitat utilization /  / ] [Forest and
   woodland / Green forest / ] [California / Sierra Nevada / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15103020649
OA DOAJ Gold
DA 2020-01-11
ER

PT J
AN ZOOR15110063970
DT Article
TI Black-Backed Woodpecker Nest-Tree Preference in Burned Forests of the
   Sierra Nevada, California.
AU Seavy, Nathaniel E. (nseavy@prbo.org) 
   Burnett, Ryan D.
   Taille, Paul J.
SO Wildlife Society Bulletin
VL 36
IS 4
PS 722-728
PD Dec 2012
PY 2012
LA English
U1 1
U2 15
AB Black-backed woodpeckers (Picoides arcticus) are well-known to occur at
   higher densities in recently burned forests than they do in nearby green
   forests. In the forests of the Sierra Nevada, California, USA, there is
   relatively little information on the types of nest trees that these
   birds use in recently burned forests. From 2009 to 2011, we studied
   nest-tree preference by black-backed woodpeckers in 2 burned forests in
   the northern Sierra Nevada. For each of 31 nest trees and 389 randomly
   selected trees, we recorded decay class, diameter at breast height, top
   condition, and species. We also recorded the number of snags with >23 cm
   diameter at breast height within an 11.3-m radius of each nest tree and
   randomly selected tree. We evaluated nest-tree preference by comparing
   the characteristics of nest trees to randomly selected trees.
   Black-backed woodpeckers preferred dead but not heavily decayed trees
   and moderate (29-61 cm dbh) diameter trees. There was no evidence that
   black-backed woodpeckers had strong preferences for trees with broken
   tops or trees of particular species. Snag density around nest trees was
   higher than around randomly selected trees. Our results suggest that in
   conifer forests of the Sierra Nevada, the distribution of black-backed
   woodpeckers in post-fire environments is influenced more by surrounding
   snag densities than by particular characteristics of potential nest
   trees. [copyright] 2012 The Wildlife Society.
C1 Seavy, Nathaniel E.; PRBO Conservat Sci, 3820 Cypress Dr 11, Petaluma,
   CA, 94954, USA, USA.
EM nseavy@prbo.org
SC Environmental Sciences & Ecology; Zoology; Forestry
SN 0091-7648
BD Ecology; Habitat utilization; Habitat; Terrestrial habitat; Land zones;
   Nearctic region; North America; USA
DE Picoides arcticus [Habitat preference /  / ] [Forest and woodland /
   Burned forests / ] [California / Sierra Nevada / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR15110063970
DA 2020-01-11
ER

PT J
AN ZOOR14810067230
PM 22779254
DT Article
TI LETHAL PROCYRNEA INFECTION IN A BLACK-BACKED WOODPECKER (PICOIDES
   ARCTICUS) FROM CALIFORNIA.
AU Siegel, Rodney B. (rsiegel@birdpop.org) 
   Bond, Monica L.
   Wilkerson, Robert L.
   Barr, Bradd C.
   Gardiner, Chris H.
   Kinsella, John. M.
SO Journal of Zoo and Wildlife Medicine
VL 43
IS 2
PS 421-424
PD Jun 2012
PY 2012
LA English
U1 0
U2 3
AB The black-backed woodpecker (Picoides arcticus) is a species of
   management concern in California. As part of a study of black-backed
   woodpecker home range size and foraging ecology, nine birds in Lassen
   National Forest (Shasta and Lassen Counties, California) were
   radio-tracked during the 2011 breeding season. One of the marked birds
   was found dead after being tracked for a 10-wk period in which it
   successfully nested. A postmortem examination of the dead bird revealed
   that it was emaciated and autolyzed, with the presumptive cause being
   numerous spiruroid nematodes of the genus Procyrnea in the gizzard. This
   first observation of Procyrnea nematodes in a black-backed woodpecker is
   notable because the Procyrnea infection was considered lethal and
   because Procyrnea has been implicated in substantial die-offs in other
   bird species, including woodpeckers.
C1 Siegel, Rodney B.; Inst Bird Populat, POB 1346, Point Reyes Stn, CA
   94956, USA, USA.
EM rsiegel@birdpop.org
RI Bond, Monica L/E-3161-2013
OI Bond, Monica L/0000-0001-8500-6564
SC Zoology; Parasitology; Environmental Sciences & Ecology
SN 1042-7260
BD Parasites diseases and disorders; Parasites; Helminth parasites; Hosts;
   Ecology; Population dynamics; Land zones; Nearctic region; North
   America; USA
DE Picoides arcticus [Nematode parasites / Procyrnea / Case report; new
   record; pathology] [Mortality /  / ] [California / Lassen & Shasta
   counties, Lassen National Forest / ]. 
   Procyrnea [Avian hosts / Picoides arcticus / Case report; new record;
   pathology; host mortality] [California / Lassen & Shasta counties,
   Lassen National Forest / ]. 
TN Birds; Chordates; Invertebrates; Nematodes; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae, Nematoda
OR Picoides arcticus (Picidae): [Host; New record]. 
   Procyrnea (Nematoda): [Parasite; New record]. 
DI 10.1638/2011-0226.1
UT ZOOREC:ZOOR14810067230
DA 2020-01-11
ER

PT J
AN ZOOR14809061998
DT Article
TI FORAGING-HABITAT SELECTION OF BLACK-BACKED WOODPECKERS IN FOREST BURNS
   OF SOUTHWESTERN IDAHO.
AU Dudley, Jonathan G. (jdudley@fs.fed.us) 
   Saab, Victoria A.
   Hollenbeck, Jeffrey P.
SO Condor
VL 114
IS 2
PS 348-357
PD May 2012
PY 2012
LA English
U1 0
U2 57
AB We examined foraging-habitat selection of Black-backed Woodpeckers
   (Picoides arcticus) in burned forests of southwestern Idaho during 2000
   and 2002 (6 and 8 years following wildfire). This woodpecker responds
   positively to large-scale fire disturbances and may be at risk from
   logging and post-fire management. With 100 radio-locations of four adult
   males, we used resource-selection probability functions in logistic form
   in an information-theoretic framework to model the Black-backed
   Woodpecker's selection of foraging habitat at fine and coarse spatial
   scales. Fine-scale data included characteristics of the foraging tree
   (tree level) and local habitat surrounding foraging trees (plot level,
   0.04 ha), whereas coarse-scale data (224-778 ha) included patch
   characteristics within home ranges. Model selection by Akaike's
   information criterion identified a multi-scale model containing tree-
   and plot-level covariates, and their interaction, as the best model to
   characterize foraging trees. The positive effect of interaction between
   foraging-tree diameter and plot-level tree density suggested that
   foraging Black-backed Woodpeckers select both patches with dense trees
   and larger-diameter trees. Fire severity was not important, possibly
   because of the time since fire and the birds' habit of foraging on
   recently dead trees in adjacent unburned forests. Salvage logging that
   retains large-diameter trees in clumped distributions is most likely to
   provide long-term foraging habitat for Black-backed Woodpeckers in dry
   coniferous forests of the interior western U.S. Following wildfire,
   conservation of forest patches containing weakened trees may extend the
   suitability of habitat for foraging Black-backed Woodpeckers by up to 8
   years.
C1 Dudley, Jonathan G.; US Forest Serv, USDA, 322 E Front St,Suite 401,
   Boise, ID 83702, USA, USA.
EM jdudley@fs.fed.us
SC Zoology; Forestry; Biodiversity & Conservation; Environmental Sciences &
   Ecology; Nutrition & Dietetics
SN 0010-5422
BD Animals and man; Disturbance by man; Commercial activities;
   Conservation; Conservation measures; Techniques; Nutrition; Feeding
   behaviour; Ecology; Habitat utilization; Habitat; Terrestrial habitat
DE Picoides arcticus [Forestry / Forest management / ] [Habitat management
   /  / ] [Ecological techniques / Fine &amp; coarse scale modelling / ]
   [Foraging / Foraging habitat selection / ] [Habitat preference /  / ]
   [Forest and woodland / Burned forest / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14809061998
DA 2020-01-11
ER

PT J
AN ZOOR14803026466
DT Article
TI Netguns: a technique for capturing Black-backed Woodpeckers.
AU Lehman, Chad P. (Chad.Lehman@state.sd.us) 
   Kesler, Dylan C.
   Rota, Christopher T.
   Rumble, Mark A.
   Seckinger, Eric M.
   Juntti, Thomas M.
   Millspaugh, Joshua J.
SO Journal of Field Ornithology
VL 82
IS 4
PS 430-435
PD Dec 2011
PY 2011
LA English
U1 0
U2 4
AB Effective capture techniques are essential for studying bird
   populations, but commonly used techniques have proven ineffective for
   capturing Black-backed Woodpeckers (Picoides arcticus) during the
   nonbreeding period. As a result, little is known about the winter
   ecology of Black-backed Woodpeckers. We used two netguns, one powered
   with a 0.308 cartridge and another with CO2 propellant, to capture 101
   Black-backed Woodpeckers (N= 75 initial captures and 26 recaptures) in
   the Black Hills of South Dakota from 2008 to 2011. Captures with the
   0.308 netgun resulted in an impact mortality probability of 0.061 [plus
   or minus] 0.034 (SE), whereas no impact mortalities were associated with
   the CO2 netgun. We also tracked birds for 72 h post-release, and
   determined a capture-related mortality rate of 0.102 [plus or minus]
   0.04 with the 0.308 netgun and 0.038 [plus or minus] 0.027 with the CO2
   netgun. With the CO2 netgun, we captured woodpeckers in 31 of 43 net
   deployments (72%), with an average of 7.2 [plus or minus] 0.4 h of
   capture effort for each bird. Many unsuccessful attempts were caused by
   tree branches that prevented net deployment. Netguns powered by CO2
   provide an effective capture technique that we recommend for studies of
   Black-backed Woodpeckers and possibly other species of birds that forage
   low on trees.
C1 Lehman, Chad P.; Custer State Pk, S Dakota Dept Game Fish & Pk, 13329 US
   Highway 16A, Custer, SD 57730, USA, USA.
EM Chad.Lehman@state.sd.us
RI Rota, Christopher/H-5189-2019
OI Rota, Christopher/0000-0001-9272-4687
SC Zoology
SN 0273-8570
BD Techniques; Collecting techniques; Trapping; Land zones; Nearctic
   region; North America; USA
DE Picoides arcticus [Netting / Netguns / Procedures & technique
   evaluations] [South Dakota / Black Hills / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14803026466
DA 2020-01-11
ER

PT J
AN ZOOR14709064130
DT Article
TI High Density Nesting of Black-backed Woodpeckers (Picoides arcticus) in
   a Post-fire Great Lakes Jack Pine Forest.
AU Youngman, Joseph A. (murphnj@up.net) 
   Gayk, Zach G.
SO Wilson Journal of Ornithology
VL 123
IS 2
PS 381-386
PD Jun 2011
PY 2011
LA English
U1 0
U2 14
AB A stand-replacing fire in 404 ha of jack pine (Pinus banksiana) and
   mixed pine forest in Michigan's Upper Peninsula in 2007 resulted in
   Black-backed Woodpeckers (Picoides arcticus) nesting at high density in
   2008, the second possible nesting season post-fire. Nests were found
   within a 93-ha study area and a 19-ha stand (a subset of the 93-ha study
   area) in 199.5 survey hours concentrated in March July. The 19-ha stand
   had six nests, a density of 0.31 nests/ha or 0.63 individuals/ha, while
   the 93-ha study area had 20 nests yielding 0.21 nests/ha or 0.42
   individuals/ha. These nest densities are higher than previously reported
   in the literature for comparable stands, indicating a large influx of
   nesting woodpeckers post-fire. High nesting densities in this study may
   have resulted from: (1) optimal timing of the fire for wood-boring
   beetle exploitation of burned trees, (2) the discrete nature of burned
   habitat in the study due to impacts of salvage logging, or (3) our focus
   on regions of the burn where high nesting densities occurred, as the
   entire burned area (404 ha) was not included in nest density
   calculations. Received 23 April 2010. Accepted 28 December 2010.
C1 Youngman, Joseph A.; 36311 US Highway 41, Chassell, MI, USA, USA.
EM murphnj@up.net
SC Reproductive Biology; Zoology; Environmental Sciences & Ecology;
   Forestry
SN 1559-4491
BD Reproduction; Ecology; Population dynamics; Habitat; Terrestrial
   habitat; Abiotic factors; Physical factors; Land zones; Nearctic region;
   North America; USA
DE Picoides arcticus [Reproductive behaviour / Breeding behaviour & nesting
   behaviour / ] [Population density / Breeding density / ] [Forest and
   woodland / Jack pine forest / ] [Fire / Postfire / ] [Michigan / Ottawa
   National Forest / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
DI 10.1676/10-069.1
UT ZOOREC:ZOOR14709064130
DA 2020-01-11
ER

PT J
AN ZOOR14709062689
DT Article
TI Pre-fire forest conditions and fire severity as determinants of the
   quality of burned forests for deadwood-dependent species: the case of
   the black-backed woodpecker.
AU Nappi, Antoine (antoine.nappi@fec.gouv.qc.ca) 
   Drapeau, Pierre
SO Canadian Journal of Forest Research
VL 41
IS 5
PS 994-1003
PD May 2011
PY 2011
LA English
U1 1
U2 34
AB Burned forests represent high-quality habitats for many
   deadwood-dependent species. Yet, post-fire conditions may vary greatly
   within and among burns and thereby may affect habitat suitability for
   these species. We studied habitat selection of nesting black-backed
   woodpeckers (Picoides arcticus Swainson) in recently burned
   spruce-dominated boreal forests. Our objectives were to (i) identify
   factors involved in snag selection for both nesting and foraging and
   (ii) examine selection of nest sites within the burned landscape. A
   total of 92 nests and 1612 foraging observations were used to
   investigate snag selection. Our results show that both pre-fire forest
   conditions and fire severity are important in determining the quality of
   burned forests for black-backed woodpeckers. This species selected large
   snags for both nesting (>20 cm DBH) and foraging (>15 cm DBH).
   Woodpeckers selected deciduous and degraded "pre-fire" snags for nesting
   whereas black spruce snags that had been created by fire and that were
   moderately burned were preferred for foraging. Nest sites were
   concentrated in burned mature stands and supported higher densities of
   large snags (e. g., >15 cm DBH). Our results suggest that burned forest
   patches of at least 20 ha and composed mainly of burned mature and
   old-growth forests should be maintained during post-fire harvesting. The
   decrease in the amount of late seral stands in managed forest landscapes
   raises concerns about the future availability of high-quality burned
   forests for this species.
C1 Nappi, Antoine; Bur Forestier Chef, 845 Blvd St Joseph, Roberval, PQ,
   Canada, Canada.
EM antoine.nappi@fec.gouv.qc.ca
SC Zoology; Biodiversity & Conservation; Environmental Sciences & Ecology;
   Nutrition & Dietetics; Reproductive Biology; Forestry
SN 0045-5067
BD Conservation; Conservation measures; Nutrition; Feeding behaviour;
   Reproduction; Reproductive behaviour; Ecology; Habitat utilization;
   Habitat; Terrestrial habitat; Abiotic factors; Physical factors; Land
   zones; Nearctic region; North America; Canada
DE Picoides arcticus [Habitat management /  / ] [Foraging /  / ] [Breeding
   site / Nesting site / ] [Habitat preference / Habitat suitability / ]
   [Forest and woodland / Boreal forest condition / ] [Fire / Fire severity
   / ] [Quebec / Grands-Jardins / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14709062689
DA 2020-01-11
ER

PT J
AN ZOOR14709064185
DT Article
TI Modeling Nest Survival of Cavity-Nesting Birds in Relation to Postfire
   Salvage Logging.
AU Saab, Victoria A. (vsaab@fs.fed.us) 
   Russell, Robin E.
   Rotella, Jay
   Dudley, Jonathan G.
SO Journal of Wildlife Management
VL 75
IS 4
PS 794-804
PD May 2011
PY 2011
LA English
U1 0
U2 48
AB Salvage logging practices in recently burned forests often have direct
   effects on species associated with dead trees, particularly
   cavity-nesting birds. As such, evaluation of postfire management
   practices on nest survival rates of cavity nesters is necessary for
   determining conservation strategies. We monitored 1,797 nests of 6
   cavity-nesting bird species: Lewis's woodpecker (Melanerpes lewis),
   hairy woodpecker (Picoides villosus), black-backed woodpecker (P.
   arcticus), northern flicker (Colaptes auratus), western bluebird (Sialia
   mexicana), and mountain bluebird (S. currucoides) from 1994 to 2004 in
   ponderosa pine (Pinus ponderosa), mixed-severity burned forests
   (partially logged and unlogged) of Idaho, USA. Based on a priori
   hypotheses, we modeled daily survival rate (DSR) of nests as a function
   of abiotic (temperature, precipitation), temporal (time since fire,
   calendar year) and biotic factors (distance to unburned forest, nest
   height, and tree harvest (partial-salvage logging vs. unlogged)).
   Multiple abiotic and biotic factors, other than direct effects of
   salvage logging, affected daily survival rates of breeding
   cavity-nesting birds. Hairy woodpecker was the only species in which
   partial-salvage logging had a measurable, negative impact on DSR.
   Managers implementing carefully planned salvage logging prescriptions
   that include both unlogged reserves and partially logged areas can
   expect to maintain habitat for successfully breeding cavity-nesting
   birds of the interior northwestern United States. Our results also
   suggest that nest survival for some species of cavity-nesting birds
   could be improved if unlogged reserves are located centrally in postfire
   forests, distant from unburned habitats that potentially serve as
   sources of nest predators. [copyright] 2011 The Wildlife Society.
C1 Saab, Victoria A.; US Forest Serv, USDA, Bozeman, MT, USA, USA.
EM vsaab@fs.fed.us
OI Russell, Robin/0000-0001-8726-7303
SC Zoology; Forestry; Environmental Sciences & Ecology; Biodiversity &
   Conservation; Reproductive Biology
SN 0022-541X
BD Animals and man; Disturbance by man; Commercial activities;
   Conservation; Conservation measures; Reproduction; Ecology; Population
   dynamics; Habitat; Terrestrial habitat; Land zones; Nearctic region;
   North America; USA
DE Colaptes auratus; Melanerpes lewis; Picoides arcticus; Picoides
   villosus; Sialia currucoides; Sialia mexicana [Forestry / Postfire
   salvage logging / ] [Habitat management /  / ] [Reproductive
   productivity / Nest survival / ] [Survival /  / ] [Forest and woodland /
   Ponderosa pine forest / ] [Idaho / West / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Passeriformes, Turdidae,
   Piciformes, Picidae
OR Sialia currucoides (Turdidae). 
   Sialia mexicana (Turdidae). 
   Colaptes auratus (Picidae). 
   Melanerpes lewis (Picidae). 
   Picoides arcticus (Picidae). 
   Picoides villosus (Picidae). 
UT ZOOREC:ZOOR14709064185
DA 2020-01-11
ER

PT J
AN ZOOR15004017664
DT Article
TI Occupancy modeling of Black-backed Woodpeckers on burned Sierra Nevada
   forests.
AU Saracco, James F. (jsaracco@birdpop.org) 
   Siegel, Rodney B.
   Wilkerson, Robert L.
SO ECOSPHERE
VL 2
IS 3
PS 31, 1-17
PD Mar 2011
PY 2011
LA English
U1 0
U2 21
AB The Black-backed Woodpecker (Picoides arcticus) has been designated by
   the USDA Forest Service as a management indicator species for snags in
   burned conifer forests of the Sierra Nevada of California, USA. However,
   little is known about the characteristics that affect between-fire and
   within-fire habitat selection by the species in the region. Here we
   report on the first broad-scale survey of Black-backed Woodpeckers on
   wildfire-affected forests of the Sierra Nevada. We implemented a
   Bayesian hierarchical model to: 1) estimate Black-backed Woodpecker
   occupancy probability in fire areas burned within a time window of 1-10
   years; 2) identify relationships between occupancy probability and
   habitat covariates (fire age, change in canopy cover pre-to-post fire,
   and snag basal area), elevation, and latitude; and 3) estimate detection
   probability and relate it to survey interval length and survey type
   (passive v. broadcast). We included random fire-area effects in our
   model of occupancy probability to accommodate clusters of
   non-independent points surveyed within the larger set of fire areas.
   Mean occupancy probability was estimated to be 0.097. Elevation (after
   controlling for latitude) had the strongest effect on occupancy
   probability (higher occupancy at higher elevation) followed by latitude
   (higher occupancy at northerly sites). Fire age was also important;
   occupancy probability was about 4X higher on the youngest compared to
   oldest fires. Although the direction of regression coefficients were in
   the expected direction (positive), snag basal area and canopy cover
   change were of minor importance in affecting occupancy probability.
   There was some indication, however, that the importance of snag basal
   area increased with fire age. Weak links between occupancy and canopy
   cover change suggested the species uses a range of burn severities, and
   such heterogeneity may promote habitat longevity. Our estimate of
   overall detection probability (across all survey intervals) was 0.772.
   We found strong effects of survey interval length (higher for longer
   interval) and, especially survey type (higher for broadcast survey) on
   detection probability. Our modeling framework and implementation
   illustrates the flexibility of the Bayesian hierarchical approach for
   handling complexities such as estimating derived parameters (and
   variances) and modeling random effects, and should prove generally
   useful for occupancy studies.
C1 Saracco, James F.; Inst Bird Populat, POB 1346, Point Reyes Stn, CA,
   94956, USA, USA.
EM jsaracco@birdpop.org
RI Saracco, James F./H-6520-2019
OI Saracco, James F./0000-0001-5084-1834
SC Zoology; Mathematics; Environmental Sciences & Ecology; Forestry
SN 2150-8925; 2150-8925
BD Techniques; Ecology; Habitat; Terrestrial habitat; Abiotic factors; Land
   zones; Nearctic region; North America; USA
DE Picoides arcticus [Mathematical techniques / Bayesian hierarchical
   modeling / ] [Distribution within habitat /  / ] [Forest and woodland /
   Conifer forests / ] [Abiotic factors /  / ] [California / Sierra Nevada
   / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
DI 10.1890/ES10-00132.1
UT ZOOREC:ZOOR15004017664
OA DOAJ Gold
DA 2020-01-11
ER

PT J
AN ZOOR14610068092
DT Article
TI Foraging ecology of black-backed woodpeckers (Picoides arcticus) in
   unburned eastern boreal forest stands.
AU Tremblay, Junior A. (Junior.Tremblay@mrnf.gouv.qc.ca) 
   Ibarzabal, Jacques
   Savard, Jean-Pierre L.
SO Canadian Journal of Forest Research
VL 40
IS 5
PS 991-999
PD May 2010
PY 2010
LA English
U1 1
U2 23
AB Managed coniferous forest dominates much of the black-backed
   woodpecker's (Picoides arcticus Swainson) breeding range. Despite this,
   little is known about the fine- scale foraging behaviour of this focal
   species in unburned man- aged forest stands in the absence of insect
   outbreaks. To investigate the foraging substrates used in such a
   habitat, we em- ployed radio- telemetry to track a total of 27 black-
   backed woodpeckers. During two successive summers (2005-2006), 279
   foraging observations were recorded, most of which were on dying trees,
   snags, and downed woody debris. Individu- als frequently foraged by
   excavation, suggesting that in the absence of insect outbreaks the
   black- backed woodpecker for- ages mainly by drilling. The majority of
   foraging events occurred on recently dead snags with a mean dbh SE) of
   18.3 0.4 cm. Our results suggest that in unburned boreal forest stands,
   substrate diameter and decay class are important predictors of suitable
   foraging substrates for black- backed woodpeckers. We suggest that
   conservation efforts aimed at maintaining this dead- wood dependent
   cavity nesting species within the landscape, should endeavour to
   maintain 100 ha patches of old-growth coniferous forest. This would
   ensure the continuous production of a sufficient quantity of recently
   dead or dying trees to meet the foraging needs of this species. '
C1 Tremblay, Junior A.; Minist Ressources Nat & Faune, Direct Expertise
   Faune & Ses Habitats, 880 Chemin St Foy, Quebec City, PQ, Canada,
   Canada.
EM Junior.Tremblay@mrnf.gouv.qc.ca
OI Tremblay, Junior A./0000-0003-4930-0939
SC Environmental Sciences & Ecology; Biodiversity & Conservation; Zoology;
   Nutrition & Dietetics; Forestry
SN 0045-5067
BD Conservation; Conservation measures; Nutrition; Feeding behaviour;
   Ecology; Habitat; Terrestrial habitat; Land zones; Nearctic region;
   North America; Canada
DE Picoides arcticus [Habitat management /  / ] [Foraging / Foraging
   ecology / ] [Ecology /  / ] [Forest and woodland / Boreal forest / ]
   [Quebec / Lac Saint-Jean / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14610068092
DA 2020-01-11
ER

PT J
AN ZOOR14610065911
PM 25567923
DT Article
TI Do male and female black-backed woodpeckers respond differently to gaps
   in habitat?
AU Pierson, Jennifer C. (jencpierson@gmail.com) 
   Allendorf, Fred W.
   Saab, Victoria
   Drapeau, Pierre
   Schwartz, Michael K.
SO Evolutionary Applications
VL 3
IS 3
PS 263-278
PD May 2010
PY 2010
LA English
U1 0
U2 18
AB We used population- and individual-based genetic approaches to assess
   barriers to movement in black-backed woodpeckers (Picoides arcticus), a
   fire-specialist that mainly occupies the boreal forest in North America.
   We tested if male and female woodpeckers exhibited the same movement
   patterns using both spatially implicit and explicit genetic analyses to
   define population structure and movement patterns of both sexes among
   populations. Three genetic groups were identified, a large, genetically
   continuous population that spans from the Rocky Mountains to Quebec, a
   small isolated population in South Dakota and a separate population in
   the western portion of their distribution (Oregon). Patterns of genetic
   diversity suggest extensive gene flow mediated by both males and females
   within the continuous boreal forest. However, male-mediated gene flow is
   the main form of connectivity between the continuously distributed group
   and the smaller populations of South Dakota and Oregon that are
   separated by large areas of unforested habitat, which apparently serves
   as a barrier to movement of female woodpeckers.
C1 Pierson, Jennifer C.; Univ Montana, Wildlife Biol Program, Missoula, MT,
   USA, USA.
EM jencpierson@gmail.com
RI Pierson, Jennifer/I-1939-2012; Schwartz, Michael/C-3184-2014
OI Schwartz, Michael/0000-0003-3521-3367; Pierson,
   Jennifer/0000-0003-4140-010X
SC Reproductive Biology; Zoology; Genetics & Heredity; Evolutionary
   Biology; Forestry
SN 1752-4571
BD Reproduction; Genetics; Evolution; Variation; Habitat; Terrestrial
   habitat; Zoogeography; Land zones; Nearctic region
DE Picoides arcticus [Sex differences / Sex-biased dispersal & response to
   barriers / female; male] [Population genetics / Population genetic
   structure / ] [Biochemical variation / Microsatellite & mtDNA sequence
   variation / ] [Forest and woodland / Boreal forest & unforested gaps / ]
   [Dispersal /  / ] [North America /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14610065911
OA DOAJ Gold, Green Published
DA 2020-01-11
ER

PT J
AN ZOOR14605032996
DT Article
TI Multi-scale nest-site selection by black-backed woodpeckers in outbreaks
   of mountain pine beetles.
AU Bonnot, Thomas W. (bonnott@missouri.edu) 
   Millspaugh, Joshua J.
   Rumble, Mark A.
SO Forest Ecology and Management
VL 259
IS 2
PS 220-228
PD December 15 2009
PY 2009
LA English
U1 0
U2 31
AB Areas of mountain pine beetle (Dendroctonus ponderosae Hopkins)
   outbreaks in the Black Hills can provide habitat for black-backed
   woodpeckers (Picoides arcticus), a U.S. Forest Service, Region 2
   Sensitive Species. These outbreaks are managed through removal of trees
   infested with mountain pine beetles to control mountain pine beetle
   populations and salvage timber resources. To minimize impacts to
   black-backed woodpeckers while meeting management objectives, there is a
   need to identify characteristics of these areas that support
   black-backed woodpeckers. We examined the habitat associations of this
   species nesting in areas of beetle outbreaks in the Black Hills, South
   Dakota in 2004 and 2005. We used an information theoretic approach and
   discrete choice models to evaluate nest-site selection of 42 woodpecker
   nests at 3 spatial scales-territory, nest area, and nest tree. At the
   territory scale (250 m around nest), availability and distribution of
   food best explained black-backed woodpecker selection of beetle
   outbreaks versus the surrounding forest. Selection at the territory
   scale was positively associated with densities of trees currently
   infested by mountain pine beetles and indices of wood borer
   (Cerambycidae and Buprestidae) abundance, and was greatest at distances
   of 50-100 m from the nearest patch of infestation. At the nest-area
   scale (12.5 m radius around the nest), densities of snags positively
   influenced nest-area selection. Finally, at the nest-tree scale, aspen
   (Populus tremuloides) and 3-5-year-old ponderosa pine (Pinus ponderosa)
   snags were important resources. The association between abundant
   wood-boring insects and black-backed woodpeckers creates a difficult
   challenge for forest managers. In the absence of fire, areas of beetle
   outbreak might serve as the only substantial source of habitat in the
   Black Hills. Regulating insect populations via salvage logging will
   reduce key food resources to black-backed woodpeckers during nesting.
   Therefore, given the relatively infrequent occurrence of large-scale
   fire in the Black Hills, management should recognize the importance of
   beetle-killed forests to the long-term viability of the black-backed
   woodpecker population in the Black Hills. (C) 2009 Elsevier B.V. All
   rights reserved.
C1 Bonnot, Thomas W.; Univ Missouri, Dept Fisheries and Wildlife Sci, 302
   Nat Resources Bldg, Columbia, MO 65211, USA, USA.
EM bonnott@missouri.edu
OI Bonnot, Thomas/0000-0001-7114-8246
SC Forestry; Zoology; Parasitology; Environmental Sciences & Ecology;
   Biodiversity & Conservation; Reproductive Biology
SN 0378-1127
BD Animals and man; Damage caused by animals; Damage to vegetation;
   Disturbance by man; Commercial activities; Conservation; Conservation
   measures; Reproduction; Reproductive behaviour; Parasites diseases and
   disorders; Hosts; Ecology; Population dynamics; Habitat utilization;
   Land zones; Nearctic region; North America; USA
DE Dendroctonus ponderosae [Damage to forestry / Pest outbreaks / avian
   nest site selection & conservation] [Forestry /  / ] [Plant hosts /
   Pinus ponderosa / ] [Irruption /  / ] [South Dakota / Black Hills / ]. 
   Picoides arcticus [Forestry /  / coleopteran pest outbreak effects]
   [Habitat management /  / ] [Breeding site / Nest site selection / ]
   [Habitat preference /  / ] [South Dakota / Black Hills / ]. 
TN Arthropods; Beetles; Birds; Chordates; Insects; Invertebrates;
   Vertebrates
ST Animalia, Arthropoda, Insecta, Coleoptera, Polyphaga, Curculionoidea,
   Curculionidae, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Dendroctonus ponderosae (Curculionidae): [Parasite]. 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14605032996
DA 2020-01-11
ER

PT J
AN ZOOR14607047037
DT Article
TI Reproductive success of the black-backed woodpecker (Picoides arcticus)
   in burned boreal forests: are burns source habitats?
AU Nappi, Antoine (antoine.nappi@fec.gouv.qc.ca) 
   Drapeau, Pierre
SO Biological Conservation
VL 142
IS 7
PS 1381-1391
PD July 2009
PY 2009
LA English
U1 1
U2 45
AB The black-backed woodpecker (Picoides arcticus) is considered a fire
   specialist throughout its breeding range. Given its high abundance in
   recent burns, it has been hypothesized that post-fire forests are source
   habitats for this species. We conducted a 3-year post-fire study to
   evaluate the temporal occupancy and reproductive success of black-backed
   woodpeckers in high-severity burned black spruce forests of central
   Quebec, Canada. We examined how reproductive success varied temporally
   and spatially within a burned landscape and investigated the potential
   source or sink status of this woodpecker population over time.
   Woodpecker nest density was high in the year after fire but declined
   significantly over the 3-year period. Based on 106 nests, nest success
   declined from 84% the first year after fire to 73% and 25%,
   respectively, for the second and third years after fire. Nest density
   and reproductive success were higher in areas with high proportions of
   burned mature forests than in areas dominated by burned young forests.
   Reproductive success was also higher in proximity to unburned forests.
   Comparison of annual productivity with a range of survival estimates
   indicated that these burned forests likely functioned as source habitats
   for the first 2 years following fire, although this status varied as a
   function of pre-fire forest age. Our results suggest that post-fire
   forests may contribute significantly to population levels in fire-prone
   ecosystems. Forest management practices that reduce the amount of mature
   and over-mature forests can affect the quality of post-fire habitats
   important to the black-backed woodpecker and other fire-associated
   species.
C1 Nappi, Antoine; Centre for Forest Research, Departement des sciences
   biologiques, Universite du Quebec a Montreal, C.P. 8888, Succ.
   Centre-ville, Montreal, Quebec, H3C 3P8, Canada, Canada.
EM antoine.nappi@fec.gouv.qc.ca
SC Reproductive Biology; Zoology; Environmental Sciences & Ecology;
   Forestry
SN 0006-3207
BD Reproduction; Ecology; Habitat; Terrestrial habitat; Abiotic factors;
   Physical factors; Land zones; Nearctic region; North America; Canada
DE Picoides arcticus [Reproductive productivity / Reproductive success / ]
   [Population dynamics / Source-sink population dynamics / ] [Habitat
   utilization / Temporal occupancy of habitats / ] [Forest and woodland /
   Burned boreal forests / ] [Fire /  / ] [Quebec / Central / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14607047037
DA 2020-01-11
ER

PT J
AN ZOOR14601000049
PM 19688932
DT Article
TI Modeling the effects of environmental disturbance on wildlife
   communities: avian responses to prescribed fire.
AU Russell, Robin E. (RRussell@mt.gov) 
   Royle, J. Andrew
   Saab, Victoria A.
   Lehmkuhl, John F.
   Block, William M.
   Sauer, John R.
SO Ecological Applications
VL 19
IS 5
PS 1253-1263
PD July 2009
PY 2009
LA English
U1 3
U2 122
AB Prescribed fire is a management tool used to reduce fuel loads on public
   lands in forested areas in the western United States. Identifying the
   impacts of prescribed fire on bird communities in ponderosa pine (Pinus
   ponderosa) forests is necessary for providing land management agencies
   with information regarding the effects of fuel reduction on sensitive,
   threatened, and migratory bird species Recent developments in occupancy
   modeling have established a framework for quantifying the impacts of
   management practices on wildlife community dynamics. We describe a
   Bayesian hierarchical model of multi-species occupancy accounting for
   detection probability, and we demonstrate the model's usefulness for
   identifying effects of habitat disturbances on wildlife communities.
   Advantages to using the model include the ability to estimate the
   effects of environmental impacts on rare or elusive species, the
   intuitive nature of the modeling, the incorporation of detection
   probability, the estimation of parameter uncertainty, the flexibility of
   the model to suit a variety of experimental designs, and the composite
   estimate of the response that applies to the collection of observed
   species as opposed to merely a small subset of common species. Our
   modeling of the impacts of prescribed fire on avian communities in a
   ponderosa pine forest in Washington indicate that prescribed fire
   treatments result in increased occupancy rates for several
   bark-insectivore, cavity-nesting species including a management species
   of interest, Black-backed Woodpeckers (Picoides arcticus). Three aerial
   insectivore species, and the ground insectivore, American Robin (Turdus
   migratorius), also responded positively to prescribed fire, whereas
   three foliage insectivores and two seed specialists, Clark's Nutcracker
   (Nucifraga columbiana) and the Pine Siskin (Carduelis pinus), declined
   following treatments. Land management agencies interested in determining
   the effects of habitat manipulations on wildlife communities can use
   these methods to provide guidance for future management activities.
C1 Russell, Robin E.; Montana Fish Wildlife and Pk Wildlife Div, 1400 S
   19th Ave, Bozeman, MT 59718, USA, USA.
EM RRussell@mt.gov
OI Royle, Jeffrey/0000-0003-3135-2167; Russell, Robin/0000-0001-8726-7303
SC Zoology; Environmental Sciences & Ecology; Forestry
SN 1051-0761
BD Animals and man; Ecology; Habitat; Terrestrial habitat; Abiotic factors;
   Physical factors; Land zones; Nearctic region; North America; USA
DE Aves [Disturbance by man / Prescribed fire / Bayesian hierarchical
   model] [Community structure / Community dynamics / ] [Forest and
   woodland / Ponderosa pine forest / ] [Abiotic factors / Environmental
   disturbance / ] [Fire /  / ] [Washington /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
DI 10.1890/08-0910.1
UT ZOOREC:ZOOR14601000049
DA 2020-01-11
ER

PT J
AN ZOOR14602011402
DT Article
TI Detection probabilities of woodpecker nests in mixed conifer forests in
   Oregon.
AU Russell, Robin E. (RRussell@mt.gov) 
   Saab, Victoria A.
   Rotella, Jay J.
   Dudley, Jonathan G.
SO Wilson Journal of Ornithology
VL 121
IS 1
PS 82-88
PD March 2009
PY 2009
LA English
U1 0
U2 6
AB Accurate estimates of Black-backed (Picoides arcticus) and Hairy
   Woodpecker (P. villosus) nests and nest survival rates in post-fire
   landscapes provide land managers with information on the relative
   importance of burned forests to nesting woodpeckers. We conducted
   multiple-observer surveys in burned and unburned mixed coniferous
   forests in Oregon to identify important factors influencing detection
   rates of woodpecker nests. We found 21 Black-backed Woodpecker nests and
   38 Hairy Woodpecker nests in burned forest, and three Hairy Woodpecker
   nests in unburned forest. Competing models of detection probability in
   Program MARK indicated that nest-detection probability differed by nest
   stage. We found no evidence to indicate that detection rates of nests
   were associated with survey timing during the nesting season. Raw nest
   counts in burned coniferous forests may underestimate nest numbers,
   especially for nests in early stages of development. Black-backed
   Woodpecker nests were slightly more detectable than those of Hairy
   Woodpeckers in burned forests, and observers may differ in their
   abilities to detect nests.
C1 Russell, Robin E.; Montana Fish, Wildlife, and Parks, 1400 South 19th
   Avenue, Bozeman, MT 59718, USA, USA.
EM RRussell@mt.gov
OI Russell, Robin/0000-0001-8726-7303
SC Environmental Sciences & Ecology; Zoology; Reproductive Biology;
   Forestry
SN 1559-4491
BD Techniques; Ecological techniques; Reproduction; Reproductive behaviour;
   Ecology; Animal constructions; Habitat; Terrestrial habitat; Land zones;
   Nearctic region; North America; USA
DE Picoides arcticus; Picoides villosus [Sampling / Nest detection
   probability / ] [Breeding site /  / ] [Nests /  / ] [Forest and woodland
   / Mixed conifer forest / ] [Oregon / Sycan Marsh Reserve &
   Fremont-Winema National Forest / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides villosus (Picidae). 
DI 10.1676/08-026.1
UT ZOOREC:ZOOR14602011402
DA 2020-01-11
ER

PT J
AN ZOOR14602011959
DT Article
TI Influences of postfire salvage logging on forest birds in the eastern
   Cascades, Oregon, USA.
AU Cahall, Rebecca E. (hayesj@ufl.edu) 
   Hayes, John P.
SO Forest Ecology and Management
VL 257
IS 3
PS 1119-1128
PD February 10 2009
PY 2009
LA English
U1 0
U2 23
AB In coniferous forests of western North American, fire is an important
   disturbance that influences the structure and composition of floral and
   faunal communities. The impacts of postfire management, including
   salvage logging and replanting, on these forests are not well known. We
   compared densities and relative abundances of forest birds after fire in
   unsalvaged stands and stands subjected to one of two intensities of
   salvage logging (moderate, 30 snags retained per ha and heavy, 5[long
   dash]6 snags retained per ha) in mixed-conifer forests in central
   Oregon. We used analysis of variance with repeated measures to evaluate
   three hypotheses concerning the influence of different intensities of
   salvage on densities or relative abundances of sixteen species of birds,
   and two hypotheses concerning the influence of time since salvage
   logging on relative abundances or densities of birds. We also examined
   the relationship between vegetation and abundances of each bird species.
   We did not detect significant differences among treatments in densities
   or relative abundances for eight species and one genus of birds. We
   detected significant differences for seven species, though the patterns
   differed among species. Relative abundances or densities of the
   black-backed woodpecker (Picoides arcticus), hairy woodpecker (P.
   villosus), brown creeper (Certhia americana), western wood-pewee
   (Contopus sordidulus) and yellow-rumped warbler (Dendroica coronata)
   were lower in the heavy and moderate salvage treatment compared to the
   unsalvaged treatment, while densities of the dark-eyed junco (Junco
   hyemalis) and fox sparrow (Passerella iliaca) were greater in the
   moderately and heavily salvaged stands than in the unsalvaged treatment.
   We detected significant differences between years for four species of
   birds. Our findings suggest that both cavity-nesting and cup-nesting
   species respond to salvage logging, and that some species respond
   uniquely to habitat features influenced by salvage logging. For species
   that responded negatively to salvage logging, the moderate salvage
   intensity did not appear to mitigate the negative influence of salvage
   logging. Areas of unlogged burned forest appear to provide important
   habitat for some species of birds following forest fires. Our findings
   parallel those of other recent studies of these species, suggesting
   robust patterns that transcend particular locations.
C1 Cahall, Rebecca E.; Department of Wildlife Ecology and Conservation,
   University of Florida, Gainesville, FL 32611, USA, USA.
EM hayesj@ufl.edu
RI Hayes, John/C-7967-2016
OI Hayes, John/0000-0002-6462-6876
SC Forestry; Zoology; Environmental Sciences & Ecology
SN 0378-1127
BD Animals and man; Disturbance by man; Commercial activities; Ecology;
   Habitat; Terrestrial habitat; Abiotic factors; Physical factors; Land
   zones; Nearctic region; North America; USA
DE Aves [Forestry / Postfire salvage logging impact / ] [Community
   structure /  / ] [Forest and woodland / Ponderosa pine-Douglas-fir
   forest / ] [Fire /  / ] [Oregon / Eastern Cascades / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
UT ZOOREC:ZOOR14602011959
DA 2020-01-11
ER

PT J
AN ZOOR14602011994
DT Article
TI Nest-site selection by cavity-nesting birds in relation to postfire
   salvage logging.
AU Saab, Victoria A. (vsaab@fs.fed.us) 
   Russell, Robin E.
   Dudley, Jonathan G.
SO Forest Ecology and Management
VL 257
IS 1
PS 151-159
PD January 20 2009
PY 2009
LA English
U1 0
U2 33
AB Large wildfire events in coniferous forests of the western United States
   are often followed by postfire timber harvest. The long-term impacts of
   postfire timber harvest on fire-associated cavity-nesting bird species
   are not well documented. We studied nest-site selection by
   cavity-nesting birds over a 10-year period (1994[long dash]2003),
   representing 1[long dash]11 years after fire, on two burns created by
   mixed severity wildfires in western Idaho, USA. One burn was partially
   salvaged logged (the Foothills burn), the other was primarily unlogged
   (the Star Gulch burn). We monitored 1367 nests of six species (Lewis's
   Woodpecker Melanerpes lewis, Hairy Woodpecker Picoides villosus,
   Black-backed Woodpecker P. arcticus, Northern Flicker Colaptes auratus,
   Western Bluebird Sialia mexicana, and Mountain Bluebird S. currucoides).
   Habitat data at nest and non-nest random locations were characterized at
   fine (field collected) and coarse (remotely sensed) spatial scales.
   Nest-site selection for most species was consistently associated with
   higher snag densities and larger snag diameters, whereas wildfire
   location (Foothills versus Star Gulch) was secondarily important. All
   woodpecker species used nest sites with larger diameter snags that were
   surrounded by higher densities of snags than at non-nest locations.
   Nests of Hairy Woodpecker and Mountain Bluebird were primarily
   associated with the unlogged wildfire, whereas nests of Lewis's
   Woodpecker and Western Bluebird were associated with the partially
   logged burn in the early years after fire. Nests of wood-probing species
   (Hairy and Black-backed Woodpeckers) were also located in larger forest
   patch areas than patches measured at non-nest locations. Our results
   confirm previous findings that maintaining clumps of large snags in
   postfire landscapes is necessary for maintaining breeding habitat of
   cavity-nesting birds. Additionally, appropriately managed salvage
   logging can create habitat for some species of cavity-nesting birds that
   prefermore open environments. Our findings can be used by landmangers to
   develop design criteria for postfire salvage logging that will reserve
   breeding habitat for cavity-nesting birds.
C1 Saab, Victoria A.; US Forest Service, Rocky Mountain Research Station,
   1648 S. 7th Ave, Montana State University Campus, Bozeman, MT 59717,
   USA, USA.
EM vsaab@fs.fed.us
OI Russell, Robin/0000-0001-8726-7303
SC Zoology; Forestry; Reproductive Biology; Environmental Sciences &
   Ecology
SN 0378-1127
BD Animals and man; Disturbance by man; Commercial activities;
   Reproduction; Reproductive behaviour; Ecology; Habitat utilization;
   Habitat; Terrestrial habitat; Land zones; Nearctic region; North
   America; USA
DE Colaptes auratus; Melanerpes lewis; Picoides arcticus; Picoides
   villosus; Sialia currucoides; Sialia mexicana [Forestry / Postfire
   timber harvest / ] [Breeding site / Nest site selection / ] [Habitat
   preference /  / ] [Forest and woodland / Coniferous forest / ] [Idaho / 
   / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Passeriformes, Turdidae,
   Piciformes, Picidae
OR Sialia currucoides (Turdidae). 
   Sialia mexicana (Turdidae). 
   Colaptes auratus (Picidae). 
   Melanerpes lewis (Picidae). 
   Picoides arcticus (Picidae). 
   Picoides villosus (Picidae). 
DI 10.1016/j.foreco.2008.08.028
UT ZOOREC:ZOOR14602011994
DA 2020-01-11
ER

PT J
AN ZOOR14510064342
DT Article
TI Habitat requirements of breeding black-backed woodpeckers (Picoides
   arcticus) in managed, unburned boreal forest.
AU Tremblay, Junior A. (Junior.Tremblay@mrnf.gouv.qc.ca) 
   Ibarzabal, Jacques
   Dussault, Christian
   Savard, Jean-Pierre L.
SO Avian Conservation and Ecology
VL 4
IS 1
PS art2, 1-16
PD 2009
PY 2009
UR http://www.ace-eco.org/archive.php
AW http://www.ace-eco.org/vol4/ass1/art2/
LA English
U1 0
U2 0
AB We investigated home-range characteristics and habitat selection by
   Black-backed Woodpeckers (Picoides arcticus) in an unburned, boreal
   forest landscape managed by mosaic harvesting in Quebec, Canada. Habitat
   selection by this species was specifically examined to determine
   home-range establishment and foraging activities. We hypothesized that
   Black-backed Woodpeckers would respond to harvesting by adjusting their
   home-range size as a function of the amount of dead wood available.
   Twenty-two birds were tracked using radiotelemetry, and reliable
   estimates of home-range size were obtained for seven breeding
   individuals (six males and one female). The average home-range size was
   151.5[plus or minus] 18.8 ha (range: 100.4[long dash]256.4 ha). Our
   results indicate that this species establishes home ranges in areas
   where both open and forested habitats are available. However, during
   foraging activities, individuals preferentially selected areas dominated
   by old coniferous stands. The study also showed that the spatial
   distribution of preferred foraging habitat patches influenced space use,
   with home-range area increasing with the median distance between old
   coniferous habitat patches available within the landscape. Finally,
   these data show that Black-backed Woodpeckers may successfully breed in
   an unburned forest with at least 35 m3 [center dot] ha-1 of dead wood,
   of which 42% (15 m3 [center dot] ha-1) is represented by dead wood at
   the early decay stage.
C1 Tremblay, Junior A.; 880 Chemin Sainte-Foy, 2e etage, Quebec, G1S 4X4,
   Canada, Canada.
EM Junior.Tremblay@mrnf.gouv.qc.ca
SC Zoology; Behavioral Sciences; Environmental Sciences & Ecology; Forestry
BD Behaviour; Ecology; Habitat utilization; Habitat; Terrestrial habitat;
   Land zones; Nearctic region; North America; Canada
DE Picoides arcticus [Home range /  / managed; unburned boreal forest]
   [Habitat preference / Habitat selection / ] [Forest and woodland /
   Managed, unburned boreal forest / ] [Quebec / South central / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14510064342
OA DOAJ Gold
DA 2020-01-11
ER

PT J
AN ZOOR14506036263
PM 19263880
DT Article
TI The ecological importance of severe wildfires: some like it hot.
AU Hutto, Richard L. (hutto@mso.umt.edu) 
SO Ecological Applications
VL 18
IS 8
PS 1827-1834
PD December 2008
PY 2008
LA English
U1 2
U2 79
AB Many scientists and forest land managers concur that past fire
   suppression, grazing, and timber harvesting practices have created
   unnatural and unhealthy conditions in the dry, ponderosa pine forests of
   the western United States. Specifically, such forests are said to carry
   higher fuel loads and experience fires that are more severe than those
   that occurred historically. It remains unclear, however, how far these
   generalizations can be extrapolated in time and space, and how well they
   apply to the more mesic ponderosa pine systems and to other forest
   systems within the western United States. I use data on the pattern of
   distribution of one bird species (Black-backed Woodpecker, Picoides
   arcticus) as derived from 16 465 sample locations to show that, in
   western Montana, this bird species is extremely specialized on severely
   burned forests. Such specialization has profound implications because it
   suggests that the severe fires we see burning in many forests in the
   Intermountain West are not entirely "unnatural'' or "unhealthy.''
   Instead, severely burned forest conditions have probably occurred
   naturally across a broad range of forest types for millennia. These
   findings highlight the fact that severe fire provides an important
   ecological backdrop for fire specialists like the Black-backed
   Woodpecker, and that the presence and importance of severe fire may be
   much broader than commonly appreciated.
C1 Hutto, Richard L.; Univ Montana, Div Biol Sci, Missoula, MT 59812, USA,
   USA.
EM hutto@mso.umt.edu
SC Zoology; Environmental Sciences & Ecology; Forestry
SN 1051-0761
BD Ecology; Habitat utilization; Habitat; Terrestrial habitat; Abiotic
   factors; Physical factors; Land zones; Nearctic region; North America;
   USA
DE Picoides arcticus [Distribution within habitat / Burned forest habitat
   specialization / ] [Habitat preference /  / ] [Forest and woodland /  /
   ] [Fire /  / ] [Montana / West / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
DI 10.1890/08-0895.1
UT ZOOREC:ZOOR14506036263
DA 2020-01-11
ER

PT J
AN ZOOR14603021367
DT Article
TI Postfire woodpecker foraging in salvage-logged and unlogged forests of
   the Sierra Nevada.
AU Hanson, Chad T. (cthanson@ucdavis.edu) 
   North, Malcolm P.
SO Condor
VL 110
IS 4
PS 777-782
PD November 2008
PY 2008
LA English
U1 0
U2 29
AB In forests, high-severity burn patches[long dash]wherein most or all of
   the trees are killed by fire[long dash]often occur within a mosaic of
   low- and moderate-severity effects. Although there have been several
   studies of postfire salvage-logging effects on bird species, there have
   been few studies of effects on bird species associated with
   high-severity patches in forests that have otherwise burned at lower
   severities. From 2004 to 2006, we investigated the foraging presence or
   absence of three woodpecker species, the Black-backed (Picoides
   arcticus), Hairy (P. villosus), and White-headed (P. albolarvatus)
   Woodpeckers, within four different forest habitat conditions in Sierra
   Nevada conifer forests: unburned; moderate-severity and unlogged;
   high-severity and unlogged; and high-severity and logged. We found
   Black-backed Woodpecker foraging was restricted to unlogged
   high-severity patches. Hairy Woodpeckers foraged most in unlogged
   high-severity patches, and White-headed Woodpeckers showed no
   significant difference in presence among conditions. These results
   suggest that unlogged, high-severity forest is important habitat for the
   Black-backed and Hairy Woodpeckers.
C1 Hanson, Chad T.; Agricultural Experiment Station, Department of Plant
   Sciences, College of Agricultural and Environmental Sciences, University
   of California Davis, Davis, CA 95616, USA, USA.
EM cthanson@ucdavis.edu
SC Forestry; Zoology; Biodiversity & Conservation; Environmental Sciences &
   Ecology; Nutrition & Dietetics
SN 0010-5422
BD Animals and man; Disturbance by man; Commercial activities;
   Conservation; Conservation measures; Nutrition; Feeding behaviour;
   Ecology; Habitat utilization; Habitat; Terrestrial habitat; Abiotic
   factors; Physical factors; Land zones; Nearctic region; North America;
   USA
DE Picoides albolarvatus; Picoides arcticus; Picoides villosus [Forestry /
   Salvage logging / ] [Habitat management /  / ] [Foraging /  / ] [Habitat
   preference /  / ] [Forest and woodland / Conifer forests / ] [Fire /  /
   ] [California / Sierra Nevada / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides albolarvatus (Picidae). 
   Picoides arcticus (Picidae). 
   Picoides villosus (Picidae). 
UT ZOOREC:ZOOR14603021367
OA Green Published
DA 2020-01-11
ER

PT J
AN ZOOR14501001129
DT Article
TI Snag availability for cavity nesters across a chronosequence of
   post-harvest landscapes in western Newfoundland.
AU Smith, Caryn Y. (cysmith@mun.ca) 
   Warkentin, Ian G.
   Moroni, Martin T.
SO Forest Ecology and Management
VL 256
IS 4
PS 641-647
PD August 10 2008
PY 2008
LA English
U1 0
U2 19
AB We examined the availability and quality of standing dead trees (snags)
   for nesting habitat in a harvest chronosequence of boreal forests
   dominated by balsam fir (Abies balsamea) in western Newfoundland. Snag
   density declined substantially 10-15 years after harvest, then increased
   to reach its highest level in 81- to 100-year-old forests that had
   become senescent. Most (55%) of 1260 snags encountered were balsam fir,
   which contained 41% of the 81 cavities identified. Cavity presence was
   most strongly positively correlated to snag diameter at breast height
   (dbh), followed by decay class, time since harvest and height. Less than
   40% of snags available throughout the chronosequence had large enough
   dbh for cavity nesters. Downy Woodpeckers (Picoides pubescens) were
   responsible for 47% of all cavities identified, excavating balsam fir
   [approximately]50% of the time. Two larger cavity nesters present,
   Northern Flickers (Colaptes auratus) and Three-toed Woodpeckers
   (Picoides tridactylus), were more likely to use large-diameter white
   birch (Betula papyrifera) snags. Northern Flickers excavated the largest
   cavities, potentially providing habitat for the greatest variety of
   secondary cavity nesters. Managing for snags with > 30 cm dbh, which
   flickers target for excavation, has the greatest potential to enhance
   the broader snag cavity-based community in western Newfoundland.
   [copyright] 2008 Elsevier B.V. All rights reserved.
C1 Smith, Caryn Y.; Mem Univ Newfoundland, Cognit and Behav Ecol Program,
   St Johns, NF A1C 5S7, Canada, Canada.
EM cysmith@mun.ca
OI Warkentin, Ian/0000-0003-1205-6506
SC Zoology; Forestry; Environmental Sciences & Ecology; Biodiversity &
   Conservation; Reproductive Biology
SN 0378-1127
BD Animals and man; Disturbance by man; Commercial activities;
   Conservation; Conservation measures; Reproduction; Reproductive
   behaviour; Habitat; Terrestrial habitat; Land zones; Nearctic region;
   North America; Canada
DE Colaptes auratus; Picoides arcticus; Picoides pubescens; Picoides
   tridactylus; Picoides villosus [Forestry / Post harvest boreal forest
   habitats / ] [Habitat management / Habitat management recommendations /
   ] [Breeding site / Snag availability for cavity nesting sites / ]
   [Forest and woodland /  / ] [Newfoundland and Labrador / Newfoundland,
   west / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Colaptes auratus (Picidae). 
   Picoides arcticus (Picidae). 
   Picoides pubescens (Picidae). 
   Picoides tridactylus (Picidae). 
   Picoides villosus (Picidae). 
DI 10.1016/j.foreco.2008.05.009
UT ZOOREC:ZOOR14501001129
DA 2020-01-11
ER

PT J
AN ZOOR14503016726
DT Article
TI Nest success of black-backed woodpeckers in forests with mountain pine
   beetle outbreaks in the Black Hills, South Dakota.
AU Bonnot, Thomas W. (MillspaughJ@missouri.edu) 
   Rumble, Mark A.
   Millspaugh, Joshua J.
SO Condor
VL 110
IS 3
PS 450-457
PD August 2008
PY 2008
LA English
U1 0
U2 14
AB Black-backed Woodpeckers (Picoides arcticus) are burned-forest
   specialists that rely on beetles (Coleoptera) for food. In the Black
   Hills, South Dakota, standing dead forests resulting from mountain pine
   beetle (Dendroctonus ponderosae) outbreaks offer food resources for
   Black-backed Woodpeckers, in addition to providing habitat similar to
   burned forest. However, data on reproductive rates in these habitats are
   lacking. We estimated nest success and evaluated factors affecting nest
   survival of Black-backed Woodpeckers in beetle-killed forests in the
   Black Hills in 2004 and 2005. Nest success was 78% (n = 12) in 2004 and
   44% (n = 31) in 2005. Fledging rates per pair were 2.0 [plus or minus]
   0.3 SE (n = 12) and 1.4 [plus or minus] 0.3 SE (n = 28) in 2004 and
   2005, respectively. Our results showed that temporal effects (e.g., age,
   date, and year) had the greatest influence on nest survival. Nest age
   was the most important predictor of daily nest survival; survival was
   higher in older nests. Nest survival was also lower later in the
   breeding season. The difference in nest success between the two years
   requires further study; however, nest success of Black-backed
   Woodpeckers in beetle-killed forests in the Black Hills was within the
   range of nest success within postfire habitats in this area. In the
   Black Hills, forests experiencing beetle outbreaks offer available
   habitat for Black-backed Woodpeckers.
C1 Bonnot, Thomas W.; Univ Missouri, Dept Fisheries and Wildlife Sci, 302
   Nat Resources Bldg, Columbia, MO 65211, USA, USA.
EM MillspaughJ@missouri.edu
OI Bonnot, Thomas/0000-0001-7114-8246
SC Environmental Sciences & Ecology; Zoology; Forestry; Reproductive
   Biology
SN 0010-5422
BD Reproduction; Ecology; Population dynamics; Habitat; Terrestrial
   habitat; Land zones; Nearctic region; North America; USA
DE Dendroctonus ponderosae [Impact on habitat / Impact on forests &
   subsequent avian nesting success / ] [Forest and woodland /  / ] [South
   Dakota / Black Hills / ]. 
   Picoides arcticus [Reproductive productivity / Nesting success / ]
   [Survival / Nest survival / ] [Forest and woodland / Coleopteran
   impacted forest / ] [South Dakota / Black Hills / ]. 
TN Arthropods; Beetles; Birds; Chordates; Insects; Invertebrates;
   Vertebrates
ST Animalia, Arthropoda, Insecta, Coleoptera, Polyphaga, Curculionoidea,
   Curculionidae, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Dendroctonus ponderosae (Curculionidae). 
   Picoides arcticus (Picidae). 
DI 10.1525/cond.2008.8460
UT ZOOREC:ZOOR14503016726
DA 2020-01-11
ER

PT J
AN ZOOR14410062794
DT Article
TI 2006 May species count of birds.
AU Boyd, Judy
SO Nature Alberta
VL 37
IS 4
SU (Insert)
PS 1-31
PD 2008
PY 2008
LA English
U1 0
U2 0
AB This is the second year I have done the compilation of the May Species
   Count but this year I did it on my own. But I would like to thank my
   daughter, Jennifer, who, though ten days late, waiting for my grandson
   to be born, patiently sat with me and read numbers off so that I could
   enter them into the data base. I would also like to thank my husband,
   Larry, who also took his turn reading numbers off. The number of species
   was down this year: 271 from 279 (in 2005) and same with the number of
   individual birds: 225,981 down from 255,085 (in 2005). Twenty-three
   species were found in only one location and twenty-four species were
   found in only two locations. Of the single sightings, Ross's Goose and
   Greater Sage Grouse were seen at Milk River. Wild Turkey was seen at
   Cypress Hills. Semipalmated Plover, Northern Hawk Owl and Gray-crowned
   Rosy-Finch were seen at Calgary. Red Knot, Burrowing Owl, Gray-cheeked
   Thrush, Sage Thrasher and Smith's Longspur were seen at Brooks. Mew Gull
   was seen at Fort McMurray. Snowy Owl and Chestnut-sided Warbler were
   seen at Cold Lake. Black-backed Woodpecker was seen at Crooked Lake.
   Steller's Jay was seen at Crowsnest Pass. Northern Mockingbird and
   Bohemian Waxwing were seen at Medicine Hat. Bay-breasted Warbler and
   Mourning Warbler were seen at Lac La Biche. Cassin's Finch was seen at
   Cardston. Whimbrel was seen only in Brooks during the Counts themselves
   but was also seen in Taber-Vauxhall and Milk River during Count Week.
   Northern Pygmy Owl was seen only in Crowsnest Pass during the Counts
   themselves but was also seen in Crooked Lake during Count Week.
   Yellow-breasted Chat was seen only in Medicine Hat during the Counts
   themselves but was also seen during Count Week in Milk River. Harris's
   Sparrow were not seen at all during the Counts themselves but one was
   seen during Count Week in Lac La Biche. Last year, none of the species
   were observed in all count areas. This year we had eight species seen in
   all areas: Canada Goose, Mallard, Blue-winged Teal, Tree Swallow,
   American Robin, Yellow Warbler, Red-winged Blackbird and Brown-headed
   Cowbird. Four species, Wilson's Snipe, American Crow, Chipping Sparrow
   and Clay-coloured Sparrow were found in all but one area, and five
   species, Ruddy Duck, American Coot, Northern Flicker, Black-billed
   Magpie and Barn Swallow were observed in all count areas except two.
SC Zoology; Environmental Sciences & Ecology
SN 1713-8639
BD Ecology; Population dynamics; Land zones; Nearctic region; North
   America; Canada
DE Aves [Population censuses / Spring censuses / ] [Alberta /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
UT ZOOREC:ZOOR14410062794
DA 2020-01-11
ER

PT J
AN ZOOR14403019617
DT Article
TI Responses of cavity-nesting birds to changes in available habitat reveal
   underlying determinants of nest selection.
AU Nielsen-Pincus, Nicole
   Garton, Edward O.
SO Northwestern Naturalist
VL 88
IS 3
PS 135-146
PD Winter 2007
PY 2007
LA English
U1 0
U2 0
AB Despite an abundance of studies describing nest selection in
   cavity-nesting birds, few account for the variation in habitat
   availability across the geographic range of a species and through time.
   Changes in the frequency of disturbances such as fires, timber harvests,
   and insect outbreaks can dramatically alter habitat. Responses by
   cavity-nesting birds to these changes provide an opportunity to evaluate
   underlying determinants of nest selection. We compared nest site
   attributes to available resources for 3 species of cavity-nesting birds:
   the Pileated Wood-pecker (Dryocopus pileatus), Williamson's Sapsucker
   (Sphyrapicus thyroideus), and Black-backed Woodpecker (Picoides
   arcticus). Data collected in 2003-2004 were compared to data collected
   in the 1970s in the same study area to identify changes in patterns of
   selection. Due to severe insect outbreaks, available resources differed
   greatly between the 2 time periods. In studies separated by 30 y,
   Pileated Woodpeckers and Black-backed Woodpeckers exhibited remarkable
   consistency in patterns of nest site selection. Both species still
   selected Ponderosa Pine (Pinus ponderosa) snags preferentially for
   nesting despite their decline in availability. Williamson's Sapsuckers
   were less selective and nested in the most abundant snag species during
   both time periods. Selection for factors such as tree size and degree of
   decay remained consistent regardless of differences in habitat
   availability for the 3 species. By identifying these general patterns of
   nest site selection, our conclusions are applicable to a wider variety
   of habitat conditions.
C1 Nielsen-Pincus, Nicole; 4385 Happy Hollow Road, Prineville, Oregon
   97754, USA, USA.
SC Reproductive Biology; Zoology; Environmental Sciences & Ecology;
   Forestry
SN 1051-1733
BD Reproduction; Reproductive behaviour; Ecology; Habitat utilization;
   Habitat; Terrestrial habitat; Land zones; Nearctic region; North
   America; USA
DE Dryocopus pileatus; Picoides arcticus; Sphyrapicus thyroideus [Breeding
   site / Nest site selection characteristics / Cavity nesting; responses
   to changes in available habitat] [Habitat preference /  / ] [Forest and
   woodland / Coniferous forest / ] [Oregon / Blue Mountains, Upper Grande
   Ronde sub-basin / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Dryocopus pileatus (Picidae). 
   Picoides arcticus (Picidae). 
   Sphyrapicus thyroideus (Picidae). 
DI 10.1898/1051-1733(2007)88[135:ROCBTC]2.0.CO;2
UT ZOOREC:ZOOR14403019617
DA 2020-01-11
ER

PT J
AN ZOOR14404023728
DT Article
TI Home range size of black-backed woodpeckers in burned forests of
   southwestern Idaho.
AU Dudley, Jonathan G. (jdudley@fs.fed.us) 
   Saab, Victoria A.
SO Western North American Naturalist
VL 67
IS 4
PS 593-600
PD December 2007
PY 2007
LA English
U1 0
U2 9
AB We examined home range size of Black-backed Woodpeckers (Picoides
   arcticus) in burned ponderosa pine (Pinus ponderosa) / Douglas-fir
   (Pseudotsuga menziesii) forests of southwestern Idaho during 2000 and
   2002 (6 and 8 years following fire). Home range size for 4 adult males
   during the post-fledging period was 115.6-420.9 ha using the 95%
   fixed-kernel method, and 150.4-766.1 ha using the 100% minimum convex
   polygon method. Smoothed bootstrap estimates (95%) were 130.0-521.9 ha.
   Home range sizes were significantly smaller 6 years after fire than 8
   years after fire. Each male had from 2 to 8 areas of concentrated use
   within his home range. We provide recommendations for estimating area
   requirements of Black-backed Woodpeckers in post-fire ponderosa pine /
   Douglas-fir forests.
C1 Dudley, Jonathan G.; USDA Forest Serv, Rocky Mt Res Stn, 322 E Front St,
   Suite 401, Boise, ID 83702, USA, USA.
EM jdudley@fs.fed.us
SC Zoology; Behavioral Sciences; Forestry
SN 1527-0904
BD Behaviour; Habitat; Terrestrial habitat; Land zones; Nearctic region;
   North America; USA
DE Picoides arcticus [Home range / Home range size / ] [Forest and woodland
   / Burned coniferous forests / ] [Idaho / Southwest, Boise National
   Forest / Home range size in burned coniferous forests]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
DI 10.3398/1527-0904(2007)67[593:HRSOBW]2.0.CO;2
UT ZOOREC:ZOOR14404023728
OA Green Published
DA 2020-01-11
ER

PT J
AN ZOOR14601005805
DT Article
TI Boreal forest landbirds in relation to forest composition, structure,
   and landscape: implications for forest management.
AU Venier, L.A.
   Pearce, J.L.
SO Canadian Journal of Forest Research
VL 37
IS 7
PS 1214-1226
PD July 2007
PY 2007
LA English
U1 3
U2 46
AB We examined a landbird community and its relationship to environmental
   variables within the boreal forest in north[long dash]central Ontario to
   evaluate its potential usefulness as an indicator of sustainable forest
   management. Our study had two components. First, we compared bird
   assemblages in mature forest stands inside Pukaskwa National Park (n =
   17) with similar forested stands in a logged landscape (n = 18) over 3
   years. We found significant separation of sites in the two treatments
   based on an ANOSIM (analogue of the standard univariate one-way ANOVA
   test) of the bird communities (R = 0.238, p < 0.001). We identified four
   significant indicators of the park landscape (bay-breasted warbler
   (Dendroica castanea (Wilson, 1810)), black-throated green warbler
   (Dendroica virens (J.F. Gmelin, 1789)), ovenbird (Seiurus aurocapillus
   (L., 1766)), and red-eyed vireo (Vireo olivaceus (L., 1766))) and five
   indicators of the logged landscape (black-backed woodpecker (Picoides
   arcticus (Swainson, 1832)), brown creeper (Certhia americana Bonaparte,
   1838), winter wren (Troglodytes troglodytes (L., 1758)), white-throated
   sparrow (Zonotrichia albicollis (J.F. Gmelin, 1789)), and yellow-bellied
   sapsucker (Sphyrapicus varius (L., 1776))). Some relationships were
   attributable to differences in vegetation, whereas other differences
   were attributable to the landscape context. Second, we used generalized
   additive models to examine the relationship of individual species with
   four sets of environmental data (understorey floristics, forest
   structure, overstorey composition, and landscape context) using the 35
   sites noted above and 18 additional mature forest sites in the logged
   landscape (n = 53). We found that all four types of variables were
   frequently included in the best model based on Akaike's information
   criterion (AIC) (structure in 23 models, landscape in 20 models,
   overstorey in 19 models, and understorey in 15 models). We discuss our
   results in terms of their implications to forest management and note
   that our ability to map habitat for forest birds is substantially
   compromised by the lack of good spatial estimates of environmental
   variables that describe bird habitat.
SC Zoology; Forestry; Environmental Sciences & Ecology; Biodiversity &
   Conservation
SN 0045-5067
BD Animals and man; Disturbance by man; Commercial activities;
   Conservation; Conservation measures; Ecology; Habitat; Terrestrial
   habitat; Land zones; Nearctic region; North America; Canada
DE Aves [Forestry / Logging impact / landbirds] [Habitat management /
   Sustainable forest management biomonitoring / ] [Community structure /
   Assemblage composition / ] [Environmental indicators /  / ] [Forest and
   woodland / Boreal forest habitat variables / ] [Ontario / North-central,
   Pukaskwa National Park / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
DI 10.1139/X07-025
UT ZOOREC:ZOOR14601005805
DA 2020-01-11
ER

PT J
AN ZOOR14308049240
DT Article
TI Nest densities of cavity-nesting birds in relation to postfire salvage
   logging and time since wildfire.
AU Saab, Victoria A. (vsaab@fs.fed.us) 
   Russell, Robin E.
   Dudley, Jonathan G.
SO Condor
VL 109
IS 1
PS 97-108
PD February 2007
PY 2007
LA English
U1 0
U2 58
AB We monitored the nest densities and nest survival of seven
   cavity-nesting bird species, including four open-space foragers
   (American Kestrel (Falco sparperius), Lewis's Woodpecker (Melanerpes
   lewis), Western Bluebird (Sialia mexicana), and Mountain Bluebird (S.
   currucoides)) and three wood-foragers (Hairy Woodpecker (Picoides
   villosus), Black-backed Woodpecker (P. arcticus), and Northern Flicker
   (Colaptes auratus)), after two wildfires (one partially salvage-logged
   and one unlogged) in western Idaho from 1994-2004. We estimated the
   relationship between nest density and time since fire, tested for
   statistical differences in nest densities and nest survival in the
   partially salvage-logged vs. unlogged wildfires, and tested for
   differences in nest survival between early (1-4 years after fire) and
   late (5-12 years after fire) postfire periods. Nest densities of
   open-space foragers and Northern Flickers generally increased with time
   since fire, whereas nest densities of Black-backed and Hairy Woodpeckers
   peaked 4-5 years postfire. Nest densities of wood-foraging species and
   Mountain Bluebirds were significantly higher in the unlogged burn,
   whereas Lewis's Woodpeckers had significantly higher nest densities in
   the partially logged burn. Kestrels tended to favor the partially logged
   burn, while Western Bluebird nest densities were nearly equal in both
   burned areas. For most species, postfire period and treatment (partially
   logged vs. unlogged) had little influence on nest survival. However,
   Hairy Woodpecker nest survival was significantly lower in the partially
   logged burn versus the unlogged wildfire in the early postfire period,
   and Lewis's Woodpecker nest survival was significantly reduced in the
   later postfire period versus the early postfire period in the partially
   logged burn. Importantly, the salvage logging was designed to retain
   more than half of the snags over 23 cm in diameter, which provided
   suitable nesting habitat for open-space foragers during the decade
   following fire.
C1 Saab, Victoria A.; US Forest Serv, Rocky Mt Res Stn, 1648 S 7th Ave, MSU
   Campus, Bozeman, MT 59717, USA, USA.
EM vsaab@fs.fed.us
OI Russell, Robin/0000-0001-8726-7303
SC Zoology; Forestry; Reproductive Biology; Environmental Sciences &
   Ecology
SN 0010-5422
BD Animals and man; Disturbance by man; Commercial activities;
   Reproduction; Ecology; Population dynamics; Habitat; Terrestrial
   habitat; Abiotic factors; Physical factors; Land zones; Nearctic region;
   North America; USA
DE Aves [Forestry / Post fire salvage logging / Nest density & nest
   survival effects; cavity nesters; forests] [Reproductive productivity /
   Nesting success / Post fire salvage logging & time since fire effects]
   [Population density / Nest density / ] [Survival /  / Nests] [Forest and
   woodland / Ponderosa pine forest habitats / Nest density & nest
   survival] [Fire / Post fire salvage logging & time since fire / ] [Idaho
   / West / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
DI 10.1650/0010-5422(2007)109[97:NDOCBI]2.0.CO;2
UT ZOOREC:ZOOR14308049240
DA 2020-01-11
ER

PT J
AN ZOOR14406035198
DT Article
TI Ecology and demography of Bicknell's thrush on East Mountain and Mount
   Mansfield, Vermont: evaluating potential impacts of wind turbine
   construction. Year 3 progress report.
AU Rimmer, Christopher C. (crimmer@vinsweb.org) 
   Faccio, Steven D.
   McFarland, Kent P.
SO VINS Technical Report
VL 07-01
PS 1-18
PD January 2007
PY 2007
LA English
U1 0
U2 0
AB In 2006, the Vermont Institute of Natural Science (VINS) conducted Year
   3 of a planned 4-year study to assess the potential impacts of a
   proposed wind turbine development on the avian breeding community of
   East Mountain in East Haven, Vermont. A special focus has been made to
   investigate Bicknell's Thrush, a rare and at-risk species in Vermont and
   throughout its geographically restricted breeding range. In 2006, field
   activities were shifted to continue baseline population monitoring on
   both East Mountain and Mt. Mansfield, a long-term VINS study site. A
   complementary effort was conducted at a long-term VINS research site on
   Stratton Mountain in the southern Green Mountains. A crew of four
   fulltime field biologists initiated field work on 22 May, alternating
   activities between the three mountains, although proportionally more
   time was spent on East Mountain than on Mansfield or Stratton. The base
   of operations on East Mountain was a trailer on the summit, while on Mt.
   Mansfield and Stratton Mountain activities were based in the respective
   ski patrol huts. Field work concluded on 14 July. Efforts in 2006
   focused on mist-netting and banding four focal species (Bicknell's and
   Swainson's thrushes, Blackpoll and Yellow-rumped warblers), so that
   mark-recapture statistics can be applied to elucidate and compare the
   demography of each species on the two peaks. In addition, selected
   species (e.g., Black-backed Woodpecker, Gray Jay, Boreal Chickadee, and
   Canada Warbler) were banded. Detailed morphometrics were collected on
   all mist-netted individuals. From each captured Bicknell's Thrush, we
   collected small quantities of blood and two secondary feathers for
   analysis of mercury concentrations. We placed Holohil BD-2 radio
   transmitters on one male and one female Bicknell's Thrush on East
   Mountain, but logistics prevented meaningful data collection on either
   bird. We were unable to collect corticosterone samples from Bicknell's
   Thrush, but we collected samples from 3 Swainson's Thrushes on East
   Mountain. These will be a valuable addition to samples collected in
   2005, and will enable comparisons with congeneric Bicknell's Thrush.
   Overall, we mist-netted and banded 155 individuals of the four target
   species on East Mountain, and 72 on Mt. Mansfield. Among the four
   species, we obtained a total of 106 recaptures of 65 banded individuals
   on East Mt., and 30 recaptures of 26 banded individuals on Mt.
   Mansfield. At East Mt., the return rate for birds banded in 2004 and/or
   2005 and recaptured in 2006, was 8.6% for Bicknell's Thrush (2 males, 3
   females), 4.6% for Swainson's Thrush (3 males, 2 females), 22.4% for
   Blackpoll Warbler (10 males, 3 females), and 25.9% for Yellow-rumped
   Warbler (13 males, 2 females). A total of 26 Bicknell's Thrushes were
   captured on East Mountain and 16 on Mt. Mansfield. Of these, 5 birds on
   East Mountain were returns from 2004 and/or 2005, while 4 Mansfield
   birds were returning individuals from previous years. Of the 15 birds on
   East Mountain for which we were able to determine sex, 7 were males and
   8 females. On Mansfield, we captured 12 males and 4 females. Although we
   did not concentrate on nest monitoring in 2006, we discovered nests on
   East Mountain of Black-backed Woodpecker (n = 1; successfully fledged),
   Bicknell's Thrush (n = 1; successfully fledged), Swainson's Thrush (n =
   1; successfully fledged), Blackpoll Warbler (n = 1; successfully
   fledged), and Dark-eyed Junco (n = 1; successfully fledged). While this
   overall sample is very small and limits generalizations, we believe the
   high rate of fledging in 2006 was primarily due to very low populations
   of red squirrels on East Mountain. This was also the case on Mansfield
   and Stratton, following the widespread poor production of balsam fir
   cones in 2005and correspondingly low mammalian predator populations. We
   conducted two series of point counts on both East Mountain and Mansfield
   in 2006. On East we detected a total of 113 individuals of 17 avian
   species on two point count series, for a mean of 9.4 birds per point
   count. Among the four target species, 3 showed slight increases
   between2004 - 2006 (Bicknell's Thrush, Swainson's Thrush, Blackpoll
   Warbler), while Yellow-rumped Warbler declined slightly. On Mt.
   Mansfield, we detected a total of 120 individuals of 13 species, for a
   mean of 12 birds per point count. We estimate that as many as 20-25
   individual male Bicknell's Thrushes and 12-15 females may inhabit the
   full extent of suitable montane firspruce habitat on East Mountain. In
   short, the field 2006 field season, while reduced in scope, was highly
   successful and provided an important baseline of demographic information
   for future studies.
C1 Rimmer, Christopher C.; Conservation Biology Department, Vermont
   Institute of Natural Science, 6565 Woodstock Rd., Quechee, VT 05059,
   USA, USA.
EM crimmer@vinsweb.org
SC Reproductive Biology; Zoology; Environmental Sciences & Ecology
BD Reproduction; Reproductive productivity; Ecology; Land zones; Nearctic
   region; North America; USA
DE Catharus bicknelli [Fledgeing success /  / ] [Population dynamics /  / ]
   [Vermont / East Mountain & Mount Mansfield / Population dynamics &
   fledgeing success]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Passeriformes, Turdidae
OR Catharus bicknelli (Turdidae). 
UT ZOOREC:ZOOR14406035198
DA 2020-01-11
ER

PT J
AN ZOOR14209057090
DT Article; Meeting paper
TI A comparison of the age-class structure of black-backed woodpeckers
   found in recently burned and unburned boreal coniferous forests in
   eastern Canada.
AU Huot, Matthieu (matthieu_huot@uqac.ca) 
   Ibarzabal, Jacques
SO Annales Zoologici Fennici
VL 43
IS 2
PS 131-136
PD April 28 2006
PY 2006
LA English
U1 0
U2 9
AB Black-backed woodpeckers (Picoides arcticus) may depend on recently
   burned forest patches to maintain viable population levels. We wanted to
   determine how these habitats are colonized by this species and by which
   age classes. Data collected at the Observatoire d'oiseaux de Tadoussac
   (situated on the north shore of the St. Lawrence River (Quebec, Canada))
   suggest that an important movement of juveniles occurs during the
   autumn. It was therefore hypothesized that in the year following fire,
   burned forest sites would be colonized by a higher percentage of
   juvenile birds than intact mature stands. In accordance to this
   hypothesis, there was a difference in woodpecker age structure between
   the two habitat types ([chi]2 = 9.43, df = 2, P = 0.0088, n = 186).
   However, differences are mainly explained by the higher number of third
   calendar year birds at burned forest sites, suggesting that a part of
   the colonization occurs in the same year as the fire by second year
   birds, rather than by juveniles during the autumn.
C1 Huot, Matthieu; Univ Quebec, Dept Sci Fondamentales, 555 Boul Univ,
   Chicoutimi, PQ G7H 2B1, Canada, Canada.
EM matthieu_huot@uqac.ca
OI Huot, Matthieu/0000-0002-7750-5715
SC Reproductive Biology; Zoology; Environmental Sciences & Ecology;
   Forestry
SN 0003-455X
BD Reproduction; Sex differences; Ecology; Population dynamics; Population
   structure; Habitat utilization; Habitat; Terrestrial habitat; Abiotic
   factors; Physical factors; Land zones; Nearctic region; North America;
   Canada
DE Picoides arcticus [Behavioural sex differences /  / burned & unburned
   coniferous forests compared] [Age class distribution /  / ] [Habitat
   preference / Habitat selection / Sex differences] [Forest and woodland /
   Coniferous forest habitat / Age class distribution & habitat preference;
   burned & unburned habitats compared] [Fire /  / Burned & unburned
   coniferous forests; age class distribution & habitat preference
   compared] [Quebec / Tadoussac Bird Observatory / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14209057090
DA 2020-01-11
ER

PT J
AN ZOOR14209057098
DT Article; Meeting paper
TI Black-backed woodpecker (Picoides arcticus) detectability in unburned
   and recently burned mature conifer forests in north-eastern North
   America.
AU Ibarzabal, Jacques (jacques_ibarzabal@uqac.ca) 
   Desmeules, Patrice
SO Annales Zoologici Fennici
VL 43
IS 2
PS 228-234
PD April 28 2006
PY 2006
LA English
U1 0
U2 6
AB Presence-absence data is often used to determine the preferred habitat
   of a given organism. However, with presence-absence datasets there is a
   problem associated with the comparison between habitats when there is an
   inter-habitat variation in the proportion of false zeros. Using
   conspecific playbacks and time of reaction of black-backed woodpeckers
   in burned and unburned forests, the present study determined whether
   detection probabilities were similar. The period of time required to
   detect this species was shorter in recently burned sites than in mature
   forest stands (F2.235 = 22.1, df = 2, P  0.0001). To accurately compare
   these habitats it is important to assure the same proportion of presence
   and false zeros in each habitat during the census. To achieve this, we
   propose a time corrected method. Because inter-habitat differences in
   detectability exist for black-backed woodpeckers, and probably many
   other organisms, caution is needed when interpreting presence-absence
   data in the context of habitat comparisons or when monitoring
   biodiversity in different habitats.
C1 Ibarzabal, Jacques; Univ Quebec, Dept Sci Fondamentales, 555 Boul Univ,
   Chicoutimi, PQ G7H 2B1, Canada, Canada.
EM jacques_ibarzabal@uqac.ca
SC Environmental Sciences & Ecology; Zoology; Forestry
SN 0003-455X
BD Techniques; Ecological techniques; Ecology; Population dynamics; Habitat
   utilization; Habitat; Terrestrial habitat; Abiotic factors; Physical
   factors; Land zones; Nearctic region; North America; Canada
DE Picoides arcticus [Ecological techniques / Habitat preference
   determination / Burning effect on detectability implications; time
   corrected method; coniferous forests] [Censusing techniques /  / ]
   [Population censuses /  / Determination; forests] [Habitat preference / 
   / ] [Forest and woodland / Coniferous forest habitat / Habitat
   preference & census determination] [Fire / Burning / Detectability
   effects implications for censusing & habitat preference analysis]
   [Quebec / North / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14209057098
DA 2020-01-11
ER

PT J
AN ZOOR14209057099
DT Article; Meeting paper
TI The hole saw method for accessing woodpecker nestlings during
   developmental studies.
AU Ibarzabal, Jacques (jacques_ibarzabal@uqac.ca) 
   Tremblay, Junior A.
SO Annales Zoologici Fennici
VL 43
IS 2
PS 235-238
PD April 28 2006
PY 2006
LA English
U1 1
U2 6
AB A method allowing the easy access of nestlings of cavity nesting species
   is outlined. Briefly, a hole saw fitted to an 18-V cordless drill is
   used to cut a hole between 5 cm and 8 cm below the cavity entrance. The
   aperture created allows extraction of nestlings by hand. After
   manipulation, the wooden disk cut during the formation of the hole is
   wrapped with duct tape, fitted into the hole and secured in place with
   two screws. The technique was tested on 25 occupied black-backed
   woodpecker cavities. No mortality occurred during the drilling process,
   no nest was abandoned and adults returned to feed nestlings within a few
   minutes of completion of the manipulations. Furthermore, some opened
   cavities were reused, either by black-backed woodpeckers or by secondary
   cavity nesters, suggesting that the nests conserved their natural
   aspect.
C1 Ibarzabal, Jacques; Univ Quebec, Dept Sci Fondamentales, 555 Boul Univ,
   Chicoutimi, PQ G7H 2B1, Canada, Canada.
EM jacques_ibarzabal@uqac.ca
SC Zoology
SN 0003-455X
BD Techniques
DE Picidae [Collecting techniques / Nestling accessing method for cavity
   nests / Hole saw method evaluation]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes
OR Picidae (Piciformes). 
UT ZOOREC:ZOOR14209057099
DA 2020-01-11
ER

PT J
AN ZOOR14201007462
DT Article
TI Population trends in the black-backed woodpecker in Wisconsin.
AU Bielefeldt, John
SO Passenger Pigeon
VL 67
IS 3
PS 331-336
PD Fall 2005
PY 2005
LA English
U1 0
U2 0
C1 Bielefeldt, John; PO Box 283, Rochester, WI 53167-0283, USA, USA.
SC Zoology; Environmental Sciences & Ecology
SN 0031-2703
BD Ecology; Land zones; Nearctic region; North America; USA
DE Picoides arcticus [Population dynamics / Population trends / ]
   [Wisconsin /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14201007462
DA 2020-01-11
ER

PT J
AN ZOOR14202011290
DT Article; Meeting paper
TI Bird responses to burning and logging in the boreal forest of Canada.
AU Hannon, Susan J.
   Drapeau, Pierre
SO Studies in Avian Biology
VL 30
PS 97-115
PD 27 July 2005
PY 2005
LA English
U1 0
U2 10
AB We compared how bird communities differed between burned and logged
   stands in black spruce (Picea mariana) forests of the boreal shield in
   Quebec and mixed-wood forests on the boreal plain in Alberta and
   Saskatchewan. Bird community composition was quite different in burns
   and clearcuts shortly after disturbance. In burns, cavity nesters and
   species that forage on beetles in dead trees predominated, whereas
   clearcuts were dominated by open-country species. Generally,
   snag-dependent species decreased and shrub-breeding species increased by
   25 yr postfire. Species that forage and nest in canopy trees were more
   common 25 yr post-logging because of the retention of live residual
   trees. The bird communities tended to converge over time as the
   vegetation in burns and logged areas became more similar. Black-backed
   Woodpeckers (Picoides arcticus) and Three-toed Woodpeckers (Picoides
   tridactylus) exploit recently burned coniferous forest to forage on
   wood-boring insect larvae (Cerambycidae and Buprestidae) and bark beetle
   larvae (Scolytidae) for a short period after fire and then decline.
   Black-backs were absent from mature forests and found at low density in
   old-growth forest. Over the long term, burns may be temporary sources
   for fire specialists. The major conservation issue for fire- associated
   species is salvage logging, because woodpecker foraging and nesting
   trees are removed. Maintenance of suitable amounts of postfire forests
   spared from salvage logging is essential for sustainable forest
   management. Climate change is predicted to alter fire cycles: they will
   be shorter in the prairies leading to a shortage of old-growth forest
   and will be longer in Quebec leading to a shortage of younger forest.
C1 Hannon, Susan J.; Department of Biological Sciences, University of
   Alberta, Edmonton, AB, T6G 2E9, Canada, Canada.
RI Hannon, Susan/A-2648-2014
OI Hannon, Susan/0000-0003-3978-3199
SC Forestry; Zoology; Environmental Sciences & Ecology; Biodiversity &
   Conservation
SN 0197-9922
BD Animals and man; Disturbance by man; Commercial activities;
   Conservation; Conservation measures; Documentation; Publications;
   Ecology; Habitat; Terrestrial habitat; Abiotic factors; Physical
   factors; Land zones; Nearctic region; North America; Canada
DE Aves [Forestry / Logging / Effects on communities; review; management &
   research issues; Quebec & Saskatchewan] [Habitat management /  / burning
   & logging effects on communities implications] [Literature review /  /
   Burning & logging effects on boreal forest communities] [Community
   structure /  / Burning & logging effects] [Forest and woodland / Boreal
   forest / Burning & logging effects on communities] [Fire /  / ] [Alberta
   /  / ] [Quebec /  / ] [Saskatchewan /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
UT ZOOREC:ZOOR14202011290
DA 2020-01-11
ER

PT J
AN ZOOR14108049769
DT Article
TI Black-backed woodpecker nests near La Ronge, SK.
AU Pollock, Oney
SO Blue Jay
VL 63
IS 2
PS 110-111
PD June 2005
PY 2005
LA English
U1 0
U2 0
C1 Pollock, Oney; Box 506, Canora, SK S0A 0L0, Canada, Canada.
SC Zoology
SN 0006-5099
BD Land zones; Nearctic region; North America; Canada
DE Picoides arcticus [Saskatchewan / La Ronge / New breeding records]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR14108049769
DA 2020-01-11
ER

PT J
AN ZOOR13900034268
DT Article
TI A review of the long-term effects of post-harvest silviculture on
   vertebrate wildlife, and predictive models, with an emphasis on boreal
   forests in Ontario, Canada.
AU Thompson, Ian D.
   Baker, James A.
   Ter-Mikaelian, Michael
SO Forest Ecology and Management
VL 177
IS 1-3
PS 441-469
PD 7 April 2003
PY 2003
LA English
U1 4
U2 101
AB Greater fibre yields may be possible in commercial forests through an
   increased application of post-harvest silvicultural techniques. In
   Canadian boreal forests, while basic silvicultural regeneration
   techniques such as planting, seeding, scarifying, and tending, have been
   employed since the 1940's, more intensive techniques (intensive forest
   management (IFM)) such as increased area planted, pre-commercial and
   commercial thinning, extra tending events, fertilizing, and short
   rotations may soon be used. There may be effects of basic and more
   intensive silviculture on biodiversity in the long-term, compared to
   natural regeneration following logging or especially stand development
   following natural disturbances. We reviewed approximately 50 papers that
   reported studies of the long-term effects of post-harvest silviculture
   on vertebrate wildlife. In particular, large impacts to biodiversity
   universally occur when native forest types are replaced by
   rapidly-growing exotic tree species. However, in boreal forests, native
   tree species are usually planted, and so any effects on associated
   wildlife communities may be considerably less than in non-native species
   plantations. Limited long-term information is available, but published
   studies of effects of basic silviculture and IFM suggested that loss of
   structures in forest stands was an important common impact that resulted
   in vertebrate species responses. Fewer structural features in managed
   forests compared to in natural forests likely results in reduced numbers
   of animal species dependent on those structures, such as cavity-using
   species and species for which large decaying woody debris is important.
   Simplifying stand structures and species composition may result in
   systems with low connectivity, making them vulnerable to insect and
   mammalian herbivory. Concentration of IFM in stands on highly productive
   sites could exacerbate effects (positive or negative), owing to the
   positive relationship between forest productivity and animal and plant
   diversity. Species such as black-backed woodpeckers (Picoides arcticus)
   may be reduced over large areas by stand conversion to mixedwoods, stand
   structural changes and especially age-class truncation. On the other
   hand, IFM may contribute increased habitats to species favoring young to
   mature coniferous-dominated forests, that normally decline across a
   landscape following clearcutting in boreal mixed and upland conifer
   stands. An aspatial model, based on published and local information and
   expert opinion, suggested that IFM and post-harvest silviculture in
   Ontario's boreal forests would produce positive and negative
   species-specific effects on the vertebrates that we modeled. However,
   IFM appeared to result in little increased effect over basic
   post-harvest silviculture. We also expect that stand-level effects of
   IFM on species would accumulate through time over landscapes, as more
   stands come under intensive management and the level of effects will be
   cumulative.
C1 Thompson, Ian D.; Canadian Forest Service, 1219 Queen Street East, Sault
   Sainte Marie, ON, P6A 2E5, Canada, Canada.
SC Forestry; Zoology; Environmental Sciences & Ecology
SN 0378-1127
BD Animals and man; Disturbance by man; Commercial activities;
   Documentation; Publications; Techniques; Ecology; Habitat; Terrestrial
   habitat; Land zones; Nearctic region; North America; Canada
DE Vertebrata [Forestry / Post-harvest silviculture / Long term effects on
   wildlife; literature review & predictive models] [Literature review /  /
   Post-harvest silviculture long term effects on wildlife] [Ecological
   techniques / Predictive models / ] [Community structure /  / Long term
   effects of post-harvest silviculture] [Forest and woodland /  / ]
   [Ontario /  / ]. 
TN Chordates; Vertebrates
ST Animalia, Chordata
OR Vertebrata (Chordata). 
DI 10.1016/S0378-1127(02)00453-X
UT ZOOREC:ZOOR13900034268
DA 2020-01-11
ER

PT J
AN ZOOR13900049299
DT Article
TI Snag use by foraging Black-backed Woodpeckers (Picoides arcticus) in a
   recently burned eastern boreal forest.
AU Nappi, Antoine
   Drapeau, Pierre
   Giroux, Jean-Francois
   Savard, Jean-Pierre L.
SO Auk
VL 120
IS 2
PS 505-511
PD April 2003
PY 2003
LA English
U1 2
U2 17
AB We studied snag use for foraging by Black-backed Woodpeckers (Picoides
   arcticus) one year after a fire in an eastern black spruce (Picea
   mariana) boreal forest in Quebec, Canada. We searched for signs of
   foraging (bark flaking and excavation holes) by Black-backed Woodpeckers
   on 6,536 snags sampled in 56 plots located in portions of the burned
   forest that had not been salvage logged. A logistic regression model was
   developed based on the presence or absence of foraging signs. Results
   showed that Black-backed Woodpeckers used larger snags that were less
   deteriorated by fire (qualified as high-quality snags). Direct field
   observations of individuals foraging on 119 snags also indicated that
   used snags corresponded to those of high predicted quality. Finally, we
   assessed the relationship between food availability and snag
   characteristics by measuring the density of wood-boring beetle larvae
   holes on 30 snags of different size and deterioration classes.
   High-quality snags contained higher prey densities (wood-boring beetle
   holes) than smaller and more deteriorated snags. We recommend that
   forest blocks characterized by large and less deteriorated trees be
   preserved from salvage logging in recently burned boreal forests in
   northeastern North America.
C1 Nappi, Antoine; Groupe de Recherche en Ecologie Forestiere
   Interuniversitaire (GREFi), Departement des Sciences Biologiques,
   Universite du Quebec a Montreal, Succursale Centre-Ville, P.O. Box 8888,
   Montreal, Quebec, H3C 3P8, Canada, Canada.
RI Giroux, Jean-Francois/L-7945-2019
OI Giroux, Jean-Francois/0000-0002-6732-489X
SC Biodiversity & Conservation; Environmental Sciences & Ecology; Zoology;
   Entomology; Nutrition & Dietetics; Forestry; Parasitology
SN 0004-8038
BD Conservation; Conservation measures; Nutrition; Diet; Prey; Feeding
   behaviour; Parasites diseases and disorders; Hosts; Ecology; Population
   dynamics; Predators; Habitat; Terrestrial habitat; Land zones; Nearctic
   region; North America; Canada
DE Picoides arcticus [Habitat management /  / Implications of snag use for
   foraging in recently burned forests; discussion & recommendations]
   [Insect prey / Coleoptera / Density of wood boring larvae; snag use for
   foraging in recently burned forest relationships] [Food availability /
   Coleopteran prey density / conservation implications] [Foraging /  / Use
   of snags in recently burned forest; influencing factors & conservation
   implications] [Habitat utilization / Snags / Use for foraging in
   recently burned forest] [Forest and woodland / Boreal forest / Snag use
   for foraging in recently burned forest]. 
   Scolytidae [Plant hosts / Trees / Larval density in snags; foraging use
   by avian predator relationships; recently burned forest] [Population
   density /  / Larvae in snags; recently burned forests] [Avian predators
   / Picoides arcticus / Predator foraging use of snags; larval density
   relationships] [Quebec /  / Larval density effects on avian predator
   foraging in snags]. 
TN Arthropods; Beetles; Birds; Chordates; Insects; Invertebrates;
   Vertebrates
ST Animalia, Arthropoda, Insecta, Coleoptera, Polyphaga, Curculionoidea,
   Curculionidae, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Scolytidae (Curculionidae): [Parasite, Prey]. 
   Picoides arcticus (Picidae): [Predator]. 
DI 10.1642/0004-8038(2003)120[0505:SUBFBW]2.0.CO;2
UT ZOOREC:ZOOR13900049299
DA 2020-01-11
ER

PT J
AN ZOOR13900035250
DT Article
TI 2002 May species count for birds.
AU Ellis, Margaret
SO Alberta Naturalist
VL 33
IS 1
SU Supplement 27
PS 1A-9A
PD Spring 2003
PY 2003
LA English
U1 0
U2 0
AB Two hundred and sixty-nine species were observed in the seventeen areas
   that reported counts this year, with a total of 107,459 birds
   identified. Any unusual or rare sightings during the count week were
   included in the numbers. The number of bird species and the number of
   individual birds counted in a reporting zone depended on the area
   covered and the number of participants in the observing groups. The
   details of each count vary in information given; some were very sparse.
   The cold spring in southern Alberta and the many May snowstorms may have
   accounted for the delay in migration that produced increased species
   counts in most areas with many "new" birds being added to most species
   lists. Only one species, the Red-winged Blackbird, was observed in every
   count while the American Robin was seen in all but one count. Six
   species, Canada Goose, Mallard, Common Snipe, Tree Swallow, Black-billed
   Magpie and Brown-headed Cowbird were observed in all but two counts. The
   forty-one species seen in only one count area are as follows: Fort
   McMurray: Mew Gull (1), Herring Gull (665), Barred Owl (2),
   Yellow-bellied Flycatcher (1), Palm Warbler (25), Canada Warbler (1) and
   Lapland Longspur (51). Athabasca: Pacific Loon (1) and Surf Scoter (14).
   Buffalo Lake: White-faced Ibis (3). Bow Valley: Oldsquaw (2), Northern
   Saw-whet Owl (1), Black-backed Woodpecker (5), Plumbeous Vireo (1),
   Bohemian Waxwing (1) and Black-throated Blue Warbler (1).  Brooks; Red
   Knot (43), Northern Shrike (1), Northem Mockingbird (1), Grasshopper
   Sparrow (9) and Nelson's Sharp-tailed Sparrow (1). Claresholm:
   White-ftonted Goose (1), Blue Grouse (1), Wild turkey (14), Hammond's
   Flycatcher (1) and Yellow-breasted Chat (2). Taber: Black-chinned
   Hummingbird (1) and Bullock's Oriole (1). Lethbridge; Brown Creeper (1)
   and Bay-breasted Warbler (1). Cardston: Eurasian Wigeon (2) and Lewis's
   Woodpecker (1). Milk River: Greater Sage Grouse (37), Long-eared Owl (4)
   and Blackburnian Warbler. Waterton: Harlequin Duck (3), Vaux's Swift
   (2), Cordilleran Flycatcher (1), Cassin's Vireo (5), Steller's Jay (1)
   and Chestnut-backed Chickadee (4). While the whole province was not well
   covered this year it is hoped that more areas will join the May Species
   Count in 2003 and provide as much detail as possible to make the report
   more interesting.
SC Zoology; Environmental Sciences & Ecology
SN 0318-5540
BD Ecology; Population dynamics; Land zones; Nearctic region; North
   America; Canada
DE Aves [Population censuses / May species counts / ] [Alberta /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
UT ZOOREC:ZOOR13900035250
DA 2020-01-11
ER

PT J
AN ZOOR13900034684
DT Article; Meeting paper
TI Temporal use patterns of woodpecker nest trees in British Columbia.
AU Steeger, Christoph
   Dulisse, Jakob
SO Nationalpark Berchtesgaden Forschungsbericht
VL 48
PS 157-163
PD 2003
PY 2003
LA English
U1 0
U2 2
AB Conservation of woodpecker habitat within British Columbia's 50 million
   hectares of productive forest land relies primarily on the retention of
   forest patches and single trees during forestry operations. Trees
   selected for retention are recommended to have suitable habitat value
   for woodpeckers and other wildlife tree users. To provide background
   information for the development of wildlife tree retention strategies in
   southern British Columbia, we monitored active woodpecker nest trees
   from 1994 to 2000. Here we describe the characteristics and temporal use
   patterns of 408 woodpecker nests in 258 individual trees. We located
   seven sympatric woodpecker species (Red-naped Sapsucker Sphyrapicus
   nuchalis. Northern Flicker Colaptes auratus, Pileated Woodpecker
   Dryocopus pileatus. Downy Woodpecker Picoides pubescens. Hairy
   Woodpecker Picoides villosus, Three-toed Woodpecker Picoides
   tridactylus, and Black-backed Woodpecker Picoides arcticus) breeding in
   seven different tree species. Forty-two percent of all nest trees were
   dead, 40 % had visible sign of stem rot and 40 % had broken tops when
   first recorded as an active nest tree. Eleven percent of all active
   nests were part of simultaneous double or triple nesting events within
   single trees. Annual reassessments of all previously active nest trees
   from 1996 to 2000 revealed that 40 % were reused by woodpeckers and
   other cavity nesters (chickadees, nuthatches, bluebirds and squirrels).
   Complex patterns exist in the reuse of woodpecker nest trees by the same
   and other woodpecker species, andby other cavity-using species. We
   provide recommendations for conservation of woodpecker nest-tree habitat
   within the context of wildlife tree management in British Columbia.
C1 Steeger, Christoph; Pandion Ecological Research Ltd., 532 Park Street,
   Nelson, British Columbia, V1L 2G4, Canada, Canada.
SC Biodiversity & Conservation; Environmental Sciences & Ecology; Zoology;
   Reproductive Biology; Forestry
SN 0172-0023
BD Conservation; Conservation measures; Reproduction; Reproductive
   behaviour; Ecology; Habitat; Terrestrial habitat; Land zones; Nearctic
   region; North America; Canada
DE Picidae [Habitat management /  / Implications from nest tree use
   patterns] [Breeding site /  / Nest tree use; temporal patterns;
   conservation significance] [Habitat utilization /  / ] [Forest and
   woodland /  / ] [British Columbia / Arrow Forest District, Deer Creek
   watershed / Temporal use patterns of nest trees]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes
OR Picidae (Piciformes). 
UT ZOOREC:ZOOR13900034684
DA 2020-01-11
ER

PT J
AN ZOOR13900026244
DT Article
TI Habitat associations of black-backed and three-toed woodpeckers in the
   boreal forest of Alberta.
AU Hoyt, Jeff S. (sue.hannon@uaalberta.ca) 
   Hannon, Susan J.
SO Canadian Journal of Forest Research
VL 32
IS 10
PS 1881-1888
PD October 2002
PY 2002
LA English
U1 0
U2 31
C1 Hoyt, Jeff S.; Department of Biological Sciences, University of Alberta,
   Edmonton, AB T6G 2E9, Canada, Canada.
EM sue.hannon@uaalberta.ca
RI Hannon, Susan J/A-2648-2014
OI Hannon, Susan J/0000-0003-3978-3199
SC Forestry; Zoology; Environmental Sciences & Ecology; Biodiversity &
   Conservation
SN 0045-5067
BD Animals and man; Disturbance by man; Commercial activities;
   Conservation; Conservation measures; Ecology; Habitat; Terrestrial
   habitat; Abiotic factors; Physical factors; Land zones; Nearctic region;
   North America; Canada
DE Picoides arcticus; Picoides tridactylus [Forestry /  / Relations between
   habitat management; habitat utilization & fire] [Habitat management /  /
   Forest; relations with habitat utilization & fire] [Habitat utilization
   /  / effects of fire; implications for habitat management] [Forest and
   woodland /  / ] [Fire /  / effects on habitat utilization] [Alberta /
   North east / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
DI 10.1139/x02-109
UT ZOOREC:ZOOR13900026244
DA 2020-01-11
ER

PT J
AN ZOOR13800036843
DT Article
TI Black-backed woodpecker Picodes [Picoides] arcticus: Pike County.
AU Pulcinella, Nick
SO Pennsylvania Birds
VL 15
IS 2
PS 88
PD Apr-Jun 2001(2002)
PY 2002
LA English
U1 0
U2 0
C1 Pulcinella, Nick; 210 Welcome Ave., Norwood, PA 19074, USA, USA.
SC Zoology
SN 0898-8501
BD Land zones; Nearctic region; North America; USA
DE Picoides arcticus [Pennsylvania / Pike County / New record]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae): [New record]. 
UT ZOOREC:ZOOR13800036843
DA 2020-01-11
ER

PT J
AN ZOOR13800050393
DT Article
TI Measuring woodpecker food: a simple method for comparing wood-boring
   beetle abundance among fire-killed trees.
AU Powell, Hugh D.W.
   Hejl, Sallie J.
   Six, Diana L.
SO Journal of Field Ornithology
VL 73
IS 2
PS 130-140
PD Spring 2002
PY 2002
LA English
U1 0
U2 14
C1 Powell, Hugh D.W.; High Desert Ecological Research Institute, 15 SW
   Colorado Avenue, Suite 300, Bend, Oregon 97702, USA, USA.
SC Zoology; Environmental Sciences & Ecology; Forestry; Nutrition &
   Dietetics; Entomology
SN 0273-8570
BD Techniques; Ecological techniques; Nutrition; Diet; Prey; Ecology;
   Predators; Habitat; Terrestrial habitat; Land zones; Nearctic region;
   North America; USA
DE Coleoptera [Sampling /  / Simple method for wood boring larvae in fire
   killed trees] [Avian predators / Picidae / Sampling method for wood
   boring larvae in fire killed trees] [Forest and woodland /  / ] [Idaho /
   Salmon County, Selway-Bitterroot Wilderness / ]. 
   Picidae [Feeding analysis techniques /  / Sampling method for
   coleopteran wood boring larvae in fire killed trees] [Insect prey /
   Coleoptera / Sampling method for wood boring larvae in fire killed
   trees] [Food availability /  / ] [Forest and woodland /  / ] [Idaho /
   Salmon County, Selway-Bitterroot Wilderness / ]. 
   Picoides arcticus [Insect prey / Coleoptera / Sampling method for wood
   boring larvae in fire killed trees; Idaho]. 
TN Arthropods; Beetles; Birds; Chordates; Insects; Invertebrates;
   Vertebrates
ST Animalia, Arthropoda, Insecta, Chordata, Vertebrata, Aves, Piciformes,
   Picidae
OR Coleoptera (Insecta): [Prey]. 
   Picidae (Piciformes): [Predator]. 
   Picoides arcticus (Picidae): [Predator]. 
DI 10.1648/0273-8570-73.2.130
UT ZOOREC:ZOOR13800050393
DA 2020-01-11
ER

PT J
AN ZOOR13600083436
DT Article
TI Woodpecker abundance and habitat use in mature balsam fir forests in
   Newfoundland.
AU Setterington, Michael A.
   Thompson, Ian D.
   Montevecchi, William A.
SO Journal of Wildlife Management
VL 64
IS 2
PS 335-345
PD April 2000
PY 2000
LA English
U1 3
U2 28
AB Availability of the oldest age-class of balsam fir (Abies balsamea)
   forest, the major forest type of western Newfoundland, is declining
   through logging, insect effects, and management for a 60-year harvest
   rotation. Loss of old-growth balsam fir forests may limit the
   availability of woodpecker habitat if nesting trees and feeding
   substrates are most abundant in these later successional stages. We
   assessed abundance of black-backed woodpeckers (Picoides arcticus),
   downy woodpeckers (P. pubescens), and hairy woodpeckers (P. villosus) in
   10 stands in each of 3 forest age classes (40-59, 60-79, and >80 yr) of
   balsam fir in western Newfoundland. For each stand, we quantified 10
   habitat variables that may have influenced habitat use by woodpeckers.
   Black-backed woodpeckers were almost exclusively found in >80-year-old
   forests. Density of black-backed woodpeckers was significantly related
   to number of large snags, but negatively to the total number of dead
   stems. Downy woodpeckers were common and similarly distributed among the
   3 forest age classes, and hairy woodpeckers were uncommon and only
   observed in the 40- and 60-year age classes. Downy and hairy woodpeckers
   were significantly associated with the number of white birch snags in
   the stands, a resource that declined with forest age. A reduction in the
   amount of forest in the oldest age class is probably reducing the
   population of black-backed woodpeckers in western Newfoundland. We
   recommend a series of fixed-width transects, coupled with point counts
   using call broadcasts, as an effective means of surveying woodpeckers.
   Forest managers must maintain large areas of old forests, temporally and
   spatially, to maintain black-backed woodpeckers in Newfoundland.
C1 Setterington, Michael A.; AXYS Environmental Consulting, P.O. Box 2240,
   2045 Mills Road West, Sidney, BC V8L 3S8, Canada, Canada.
SC Zoology; Environmental Sciences & Ecology; Biodiversity & Conservation;
   Forestry
SN 0022-541X
BD Conservation; Conservation measures; Ecology; Population dynamics;
   Habitat; Terrestrial habitat; Land zones; Nearctic region; North
   America; Canada
DE Picoides arcticus; Picoides pubescens; Picoides villosus [Habitat
   management /  / Mature balsam fir forest] [Population density /  /
   Abundance in mature balsam fir forest; conservation significance;
   Canada] [Habitat utilization /  / ] [Forest and woodland /  / abundance
   & habitat utilization] [Newfoundland /  / West coast region; Abundance &
   use of mature balsam fir forest]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides pubescens (Picidae). 
   Picoides villosus (Picidae). 
DI 10.2307/3803231
UT ZOOREC:ZOOR13600083436
OA Green Accepted
DA 2020-01-11
ER

PT J
AN ZOOR13600091221
DT Article
TI Black-backed woodpecker: Picoides arcticus.
AU Dixon, Rita D.
   Saab, Victoria A.
SO Birds of North America
VL 509
PS 1-19
PD 2000
PY 2000
LA English
U1 0
U2 0
C1 Dixon, Rita D.; Idaho Department of Fish & Game, Clearwater Region, 1540
   Warner Avenue, Lewiston, ID 83501, USA, USA.
SC Zoology
SN 1061-5466
BD Land zones
DE Picoides arcticus [Nearctic region /  / North America; Distribution &
   biology; species account]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR13600091221
DA 2020-01-11
ER

PT J
AN ZOOR13600061230
DT Article
TI Comparing bird assemblages in successional black spruce stands
   originating from fire and logging.
AU Imbeau, Louis
   Savard, Jean-Pierre L.
   Gagnon, Rejean
SO Canadian Journal of Zoology
VL 77
IS 12
PS 1850-1860
PD December 1999
PY 1999
LA English
U1 1
U2 37
AB Comparisons of the effects of logging and fire as disturbance agents on
   the composition of bird assemblages in boreal ecosystems are still
   lacking or are limited to the short-term impacts of clear-cutting. In
   Quebec, where the boreal forest is largely dominated by black spruce
   (Picea mariana (Mill.) B.S.P.) stands, we surveyed 140 point-count
   stations in 3 postlogging and 4 postfire development stages determined
   according to the height of the regenerating spruce trees. Species
   richness did not vary among forest development stages, but bird
   abundance was higher in recent clearcuts. Recently disturbed areas were
   characterized by open-land bird assemblages dominated by Neotropical
   migrants, which reached their highest abundance in clearcuts. Moreover,
   logged stands were distinguished from burned sites by the absence of
   cavity-nesting birds. Forest-bird assemblages reestablished themselves
   as soon as young spruces reached the sapling stage. However, the
   Black-backed Woodpecker (Picoides arcticus), Three-toed Woodpecker
   (Picoides tridactylus), and Brown Creeper (Certhia americana) were
   restricted to mature stands or recent burns and are thus likely to be
   negatively affected by modern forestry, which involves fire suppression
   and short logging rotations. We suggest that retention of larger areas
   of continuous mature forest might be essential to maintain these species
   in managed regions.
C1 Imbeau, Louis; Centre de recherche en biologie forestiere, pavillon
   Abitibi-Price, Universite Laval, Sainte-Foy, PQ G1K 7P4, Canada, Canada.
RI Imbeau, Louis/A-6642-2009
OI Imbeau, Louis/0000-0003-4111-8059
SC Zoology; Forestry; Environmental Sciences & Ecology
SN 0008-4301
BD Animals and man; Disturbance by man; Commercial activities; Ecology;
   Habitat utilization; Habitat; Terrestrial habitat; Abiotic factors;
   Physical factors; Land zones; Nearctic region; North America; Canada
DE Aves [Forestry /  / Logging & fire suppression; community structure
   relationships] [Community structure /  / Forest stands; forestry
   practice relationship] [Forest and woodland /  / Forestry practice
   effect on community structure] [Quebec /  / Lac Saint Jean & Laurentides
   animal reserve; Forest community structure; effect of forestry
   practice]. 
   Certhia americana; Picoides arcticus; Picoides tridactylus [Habitat
   preference /  / Mature forest; significance of forestry practice;
   Quebec] [Fire /  / Suppression as forestry practice; Influence on
   species presence in managed regions]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Passeriformes, Certhiidae,
   Piciformes, Picidae
OR Aves (Vertebrata). 
   Certhia americana (Certhiidae). 
   Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
DI 10.1139/cjz-77-12-1850
UT ZOOREC:ZOOR13600061230
DA 2020-01-11
ER

PT J
AN ZOOR13600082693
DT Article
TI The nesting season: June through July 1999. Mountain West Region.
AU Truan, Van A.
   Percival, Brandon K.
SO North American Birds
VL 53
IS 4
PS 413-415
PD June-July 1999
PY 1999
LA English
U1 0
U2 1
C1 Truan, Van A.; 1901 Court Street, Pueblo, CO 81003, USA, USA.
SC Zoology
SN 1525-3708
BD Land zones; Nearctic region; North America; USA
DE Aves [USA /  / Mountain West Region; Summer distribution records
   including new records] [Colorado /  / ] [Nevada /  / Summer distribution
   records] [ /  / Summer distribution records including new record] [Utah
   /  / ]. 
   Buteo albonotatus [Colorado /  / Mesa County; Colorado National
   Monument; First record for Colorado]. 
   Chaetura vauxi [Colorado /  / Pueblo; Possible second record for
   Colorado]. 
   Dendroica striata [Nevada /  / Corn Creek; Third spring record for
   Nevada]. 
   Gavia stellata [Colorado /  / Routt County; Wolford Mountain Recreation
   Area; First summer record for Colorado]. 
   Larus pipixcan [Colorado /  / Jackson County; Walden Reservoir; First
   breeding record for Colorado]. 
   Picoides arcticus [Colorado /  / Jefferson County; Pine Valley Ranch;
   Unauthenticated first record for Colorado]. 
   Toxostoma bendirei [Colorado /  / Rio Grande County; Del Norte;
   Additional record for Colorado]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Apodiformes, Apodidae,
   Charadriiformes, Laridae, Falconiformes, Accipitridae, Gaviiformes,
   Gaviidae, Passeriformes, Mimidae, Parulidae, Piciformes, Picidae
OR Aves (Vertebrata): [New record]. 
   Chaetura vauxi (Apodidae). 
   Larus pipixcan (Laridae). 
   Buteo albonotatus (Accipitridae): [New record]. 
   Gavia stellata (Gaviidae). 
   Toxostoma bendirei (Mimidae). 
   Dendroica striata (Parulidae). 
   Picoides arcticus (Picidae): [New record]. 
UT ZOOREC:ZOOR13600082693
DA 2020-01-11
ER

PT J
AN ZOOR13600008541
DT Article
TI Avian communities of mature balsam fir forests in Newfoundland:
   age-dependence and implications for timber harvesting.
AU Thompson, Ian D.
   Hogan, Holly A.
   Montevecchi, William A.
SO Condor
VL 101
IS 2
PS 311-323
PD May 1999
PY 1999
LA English
U1 0
U2 14
AB The amount of old growth balsam fir (Abies balsamea) forest (80+ years)
   in Newfoundland, Canada has declined and management towards a 60-year
   rotation age will further reduce the availability of old forest as
   wildlife habitat. We distinguished among three mature age-classes of
   forests (40-59, 60-79, and 80+ years) based on tree density, canopy
   gaps, woody debris, and moss and litter cover on the ground. Canonical
   correspondence analysis revealed two groups of stands: one containing
   all of the 40-year-old stands and most 60-year-old stands, and a second
   that included old growth stands and 4 of 10 60-year-old stands. Forest
   birds were separated into four groups: one preferring the youngest
   stands, another observed primarily in old stands, and two others that
   were intermediate. Bird species richness was greater in 40-year-old
   forests than in 60+ and 80+-year-old stands. Black-backed Woodpecker
   (Picoides arcticus) and Gray-cheeked Thrush (Hylocichla minima) were
   most abundant in old forests. Six other species also were grouped
   together with the latter two as an old forest group. We observed more
   species and more total birds breeding on productive forest site types
   than on less-productive sites based on a forest ecosystem
   classification, and five species showed significant relationships
   between density and site quality. We observed few relationships between
   stand age and migratory strategy. The only guild for which there was a
   significant relationship of abundance with forest age was cone
   seed-eaters, which were more common in second-growth forests than in old
   forest. To maintain avian diversity in these forest landscapes, some
   stands must be allowed to develop as old growth.
C1 Thompson, Ian D.; Canadian Forest Service, 1219 Queen Street East, Sault
   Ste. Marie, Ontario, P6A 5M7, Canada, Canada.
SC Environmental Sciences & Ecology; Zoology; Biodiversity & Conservation;
   Forestry
SN 0010-5422
BD Conservation; Conservation measures; Ecology; Habitat; Terrestrial
   habitat; Land zones; Nearctic region; North America; Canada
DE Aves [Habitat management /  / Balsam fir forests; implications from
   community dependence on habitat age] [Community structure /  / Balsam
   fir forest age relationships; management implications] [Forest and
   woodland /  / Balsam fir forest community structure related to habitat
   age] [Newfoundland /  / West coast; Balsam fir forest community
   dependence on habitat age]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
DI 10.2307/1369994
UT ZOOREC:ZOOR13600008541
OA Green Accepted
DA 2020-01-11
ER

PT J
AN ZOOR13500043995
DT Article
TI Density and foraging ecology of woodpeckers following a
   stand-replacement fire.
AU Murphy, Edward C.
   Lehnhausen, William A.
SO Journal of Wildlife Management
VL 62
IS 4
PS 1359-1372
PD October 1998
PY 1998
LA English
U1 2
U2 52
AB Throughout its geographic range, the black-backed woodpecker (Picoides
   arcticus) is rare and appears very similar in its foraging ecology to 2
   broadly sympatric congeners, the three-toed (P. tridactylus) and hairy
   woodpecker (P. villosus). The purposes of our study were to test for
   differences in foraging ecology of the black-backed, three-toed, and
   hairy woodpeckers following a stand-replacement fire and to evaluate the
   importance of such fires to the viability of populations of the
   black-backed woodpecker. In boreal forests of Interior Alaska, endemic
   population densities of three-toed woodpeckers are low (<0.1/ha), and
   black-backed woodpeckers are extremely rare. Following the Rosie Creek
   fire near Fairbanks, Alaska, in June 1983, both species increased
   markedly. Densities of both species briefly exceeded 0.2/ha and remained
   high in a 67-ha plot at the edge of the burn during the following 2
   years. By December 1986, densities had declined to <0.1/ha. Black-backed
   woodpeckers fed primarily on charred portions of moderately to heavily
   burnt spruces and almost exclusively by excavating larval wood-boring
   beetles (Cerambycidae). Three-toed woodpeckers fed on less-burnt spruces
   and foraged in and immediately under the bark; bark beetle (Scolytidae)
   larvae predominated in their diet. In contrast to earlier studies, our
   results demonstrate substantive differences in foraging sites, behavior,
   and diet of these 2 species. Foraging ecology of male hairy woodpeckers
   and black-backed woodpeckers, particularly females, was similar. In all
   3 species, particularly the hairy woodpecker, females fed lower on trees
   and were far less numerous than males in the study area, which suggested
   intersexual displacement from foraging sites and habitats selected by
   males. In summer 1985, following initial adult emergence of the 1983
   cerambycid and scolytid cohorts, woodpeckers declined markedly and were
   absent by late spring 1986.
C1 Murphy, Edward C.; Institute of Arctic Biology, University of Alaska
   Fairbanks, Fairbanks, AK 99775, USA, USA.
SC Forestry; Zoology; Environmental Sciences & Ecology; Biodiversity &
   Conservation; Nutrition & Dietetics; Reproductive Biology
SN 0022-541X
BD Animals and man; Disturbance by man; Commercial activities;
   Conservation; Conservation measures; Nutrition; Feeding behaviour;
   Reproduction; Sex differences; Ecology; Population dynamics;
   Competition; Habitat; Terrestrial habitat; Abiotic factors; Physical
   factors; Land zones; Nearctic region; North America; USA
DE Picoides arcticus [Forestry /  / Postfire salvage logging; impact on
   density & foraging; Conservation implications; boreal forest] [Habitat
   management /  / ] [Foraging /  / Fire effects] [Behavioural sex
   differences /  / Foraging ecology; habitat use after fire] [Population
   density /  / Abundance] [Interspecific competition /  / Picoides
   tridactylus & Picoides villosus; Foraging competition after fire]
   [Forest and woodland /  / foraging ecology & population density] [Fire /
   / Stand replacement fire; impact on density & foraging ecology] [Alaska
   /  / Fairbanks; Rosie Creek]. 
   Picoides tridactylus; Picoides villosus [Forestry /  / Postfire salvage
   logging; impact on density & foraging; Conservation implications; boreal
   forest] [Habitat management /  / ] [Foraging /  / Fire effects]
   [Behavioural sex differences /  / Foraging ecology; habitat use after
   fire] [Population density /  / Abundance] [Forest and woodland /  /
   foraging ecology & population density] [Fire /  / Stand replacement
   fire; impact on density & foraging ecology] [Alaska /  / Fairbanks;
   Rosie Creek]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
   Picoides villosus (Picidae). 
DI 10.2307/3802002
UT ZOOREC:ZOOR13500043995
DA 2020-01-11
ER

PT J
AN ZOOR13400035847
DT Article
TI Immediate post-fire nesting by black-backed woodpeckers, Picoides
   arcticus, in northern Alberta.
AU Villard, Marc-Andre
   Schieck, Jim
SO Canadian Field-Naturalist
VL 111
IS 3
PS 478-479
PD July-September 1997
PY 1997
LA English
U1 0
U2 6
AB An active Black-backed Woodpecker nest was found in a forested area that
   had been severely burned the same summer. By backdating, nest excavation
   was estimated to have started within a few days after the passage of the
   fire. This observation indicates that the Black-backed Woodpecker is not
   only closely associated with recently-burned forests, but that it can
   nest successfully immediately after the occurrence of a forest fire.
C1 Villard, Marc-Andre; Departement de biologie, Universite de Moncton,
   Moncton, Nouveau-Brunswick E1A 3E9, Canada, Canada.
SC Reproductive Biology; Zoology; Forestry; Environmental Sciences &
   Ecology
SN 0008-3550
BD Reproduction; Reproductive behaviour; Habitat; Terrestrial habitat;
   Abiotic factors; Physical factors; Land zones; Nearctic region; North
   America; Canada
DE Picoides arcticus [Breeding site /  / Immediate post fire nesting site
   recorded in burnt forest] [Forest and woodland /  / Burnt forest;
   immediate post fire nesting site recorded] [Fire /  / ] [Alberta /  /
   Fort McMurray area]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR13400035847
DA 2020-01-11
ER

PT J
AN ZOOR13200047914
DT Article
TI Composition of bird communities following stand-replacement fires in
   northern Rocky Mountain (U.S.A.) conifer forests.
AU Hutto, Richard L.
SO Conservation Biology
VL 9
IS 5
PS 1041-1058
PD October 1995
PY 1995
LA English
U1 2
U2 63
AB During the two breeding seasons immediately following the numerous and
   widespread fires of 1988, I estimated bird community composition in each
   of 34 burned-forest sites in western Montana and northern Wyoming. I
   detected an average of 45 species per site and a total of 87 species in
   the sites combined. A compilation of these data with bird-count data
   from more than 200 additional studies conducted across 15 major
   vegetation cover types in the northern Rocky Mountain region showed that
   15 bird species are generally more abundant in early post-fire
   communities than in any other major cover type occurring in the northern
   Rockies. One bird species (Black-backed Woodpecker, Picoides arcticus)
   seems to be nearly restricted in its habitat distribution to standing
   dead forests created by stand-replacement fires. Bird communities in
   recently burned forests are different in composition from those that
   characterize other Rocky Mountain cover types (including
   early-successional clearcuts) primarily because members of three feeding
   guilds are especially abundant therein: woodpeckers, flycatchers, and
   seedeaters. Standing, fire-killed trees provided nest sites for nearly
   two-thirds of 31 species that were found nesting in the burned sites.
   Broken-top snags and standing dead aspens were used as nest sites for
   cavity-nesting species significantly more often than expected on the
   basis of their relative abundance. Moreover, because nearly all of the
   broken-top snags that were used were present before the fire, forest
   conditions prior to a fire (especially the presence of snags) may be
   important in determining the suitability of a site to cavity-nesting
   birds after a fire. For bird species that were relatively abundant in or
   relatively restricted to burned forests, stand-replacement fires may be
   necessary for long-term maintenance of their populations.
RI Cox, Elizabeth/C-2644-2008
SC Zoology; Biodiversity & Conservation; Environmental Sciences & Ecology;
   Forestry
SN 0888-8892
BD Conservation; Conservation measures; Ecology; Habitat; Terrestrial
   habitat; Abiotic factors; Physical factors; Land zones; Nearctic region;
   North America
DE Aves [Habitat management /  / Post fire forest community structure &
   habitat use implications] [Community structure /  / Post fire forests;
   habitat management implications] [Habitat utilization /  / ] [Forest and
   woodland /  / Forest; post fire community structure & habitat use] [Fire
   /  / Post fire forest community structure & habitat use] [USA /  / Rocky
   Mountains; north]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
DI 10.1046/j.1523-1739.1995.9051041.x
UT ZOOREC:ZOOR13200047914
DA 2020-01-11
ER

PT J
AN ZOOR13200041015
DT Article
TI Relative vulnerability to extirpation of montane breeding birds in the
   Great Basin.
AU Michael Reed, J.
SO Great Basin Naturalist
VL 55
IS 4
PS 342-351
PD October 1995
PY 1995
LA English
U1 0
U2 0
AB Seventy-four species of montane breeding birds were evaluated for their
   vulnerability to extirpation in the Great Basin. Although none of these
   species are endemic to the Great Basin, the montane island system
   results in a unique pattern of species associations. Loss of species
   from these montane communities could be indicative of region-wide
   habitat degradation. I ranked susceptibility to extirpation based on
   seven biological variables: geographic range, population size,
   reproductive potential, susceptibility to cowbird parasitism, migratory
   status, and diet specialization. Each variable was weighted equally in
   its contribution to vulnerability, and scores were the sum of trait
   scores for each species. Different suites of life-history traits led to
   similar vulnerabilities. The following 10 montane bird species were
   categorized as most vulnerable to extirpation from the Great Basin,
   listed as most to least vulnerable: Olive-sided Flycatcher (Contopus
   borealis), Painted Redstart (Myioborus pictus), Hammond's Flycatcher
   (Empidonax hammondii), Veery (Catharus fuscescens), Whip-poor-will
   (Caprimulgus vociferus), Lincoln's Sparrow (Melospiza lincolnii),
   Black-backed Woodpecker (Picoides arcticus), Three-toed Woodpecker (P.
   tridactylus), Himalayan Snowcock (Tetraogallus himalayensis), and
   Nashville Warbler (Vermivora ruficapilla). Species of similar
   vulnerability scores often were dissimilar in threats related to their
   vulnerability. No taxonomic patterns in vulnerability were found. This
   type of analysis should be used proactively to identify vulnerable
   species or populations and to set priorities for research and
   management.
SC Environmental Sciences & Ecology; Biodiversity & Conservation; Zoology;
   Nutrition & Dietetics; Reproductive Biology; Behavioral Sciences
SN 0017-3614
BD Conservation; Nutrition; Reproduction; Reproductive productivity;
   Behaviour; Parasites diseases and disorders; Ecology; Habitat;
   Terrestrial habitat; Land zones; Nearctic region; North America
DE Aves [Endangered status /  / Montane breeding taxa; relative extirpation
   vulnerability assessment] [Diet /  / Extirpation vulnerability
   relations; montane breeding species] [Fecundity /  / ] [Migration /  / ]
   [Nest parasitism /  / Molothrus ater] [Community structure /  / ]
   [Habitat utilization /  / ] [Mountain habitat /  / Extirpation
   vulnerability of breeding species; influencing factors] [USA /  / Great
   Basin; Relative vulnerability to extirpation of montane breeding
   species; analysis]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
UT ZOOREC:ZOOR13200041015
DA 2020-01-11
ER

PT J
AN ZOOR13100062783
DT Article
TI Foraging behavior of black-backed and three-toed woodpeckers during
   spring and summer in a Canadian boreal forest.
AU Villard, Pascal
SO Canadian Journal of Zoology
VL 72
IS 11
PS 1957-1959
PD November 1994
PY 1994
LA English
U1 0
U2 13
AB During one spring to summer study in a Canadian boreal forest,
   Black-backed Woodpeckers (Picoides arcticus) were found to excavate
   mainly on logs and at the base of large-diameter tree trunks. In
   contrast, Three-toed Woodpeckers (Picoides tridactylus) preferred higher
   strata and smaller diameter trunks. The predominant foraging technique
   used by Three-toed Woodpeckers was bark scaling. Canadian Three-toed
   Woodpeckers showed foraging behavior similar to that found in European
   woodpeckers, but in the Nearctic range they have not fully developed the
   sap-licking behavior that is typical of the Three-toed Woodpeckers of
   the western Palearctic range.
SC Nutrition & Dietetics; Zoology; Environmental Sciences & Ecology;
   Forestry
SN 0008-4301
BD Nutrition; Feeding behaviour; Ecology; Ecological niche; Habitat;
   Terrestrial habitat; Land zones; Nearctic region; North America; Canada
DE Picoides arcticus; Picoides tridactylus [Foraging /  / Niche
   segregation; behavioural analysis; spring & summer; forest] [Resource
   partitioning /  / Foraging niche segregation analysis] [Habitat
   utilization /  / ] [Forest and woodland /  / Foraging niche segregation]
   [Manitoba /  / Taiga Biological Station]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
DI 10.1139/z94-266
UT ZOOREC:ZOOR13100062783
DA 2020-01-11
ER

PT J
AN ZOOR13000030002
DT Article
TI Foraging behavior of male black-backed and hairy woodpeckers in a forest
   burn.
AU Villard, Pascal
   Beninger, Clifford W.
SO Journal of Field Ornithology
VL 64
IS 1
PS 71-76
PD Winter 1993
PY 1993
LA English
U1 1
U2 7
AB During December 1988-June 1989, in a small forest burn area composed
   mainly of White Pine (Pinus strobus), male Hairy Woodpeckers (Picoides
   villosus) tended to forage on smaller diameters and at greater heights
   than male Black-backed Woodpeckers (P. arcticus). Males of both species
   still overlapped greatly in their foraging heights and diameters. In all
   (n = 22) interspecific contacts, Black-backed Woodpeckers stopped
   foraging and moved to a more distant tree when Hairy Woodpeckers
   approached within 10 m.
SC Zoology; Nutrition & Dietetics; Forestry
SN 0273-8570
BD Nutrition; Feeding behaviour; Habitat; Terrestrial habitat; Land zones;
   Nearctic region; North America; Canada
DE Picoides arcticus; Picoides villosus [Foraging /  / Behaviour in forest
   burn area; comparative study] [Forest and woodland /  / Foraging
   behaviour in forest burn area] [Quebec /  / Quyon]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides villosus (Picidae). 
UT ZOOREC:ZOOR13000030002
DA 2020-01-11
ER

PT J
AN ZOOR12800067176
DT Article
TI Fall birding on Outer Island in Lake Superior.
AU Johnson, P.
SO Passenger Pigeon
VL 53
IS 4
PS 327-329
PD 1991
PY 1991
LA English
U1 0
U2 0
SC Zoology
SN 0031-2703
BD Land zones; Nearctic region; North America; USA
DE Picoides arcticus; Picoides tridactylus; Zonotrichia querula [Wisconsin
   /  / Lake Superior; Apostle Islands; Rare records]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Passeriformes, Emberizidae,
   Piciformes, Picidae
OR Zonotrichia querula (Emberizidae). 
   Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
UT ZOOREC:ZOOR12800067176
DA 2020-01-11
ER

PT J
AN ZOOR12500056592
DT Article
TI Late nesting of black-backed woodpecker.
AU Crumb, D.W.
SO Kingbird
VL 38
IS 4
PS 248-249
PD 1988
PY 1988
LA English
U1 0
U2 0
SC Reproductive Biology; Zoology
SN 0023-1606
BD Reproduction; Reproductive behaviour; Land zones; Nearctic region; North
   America; USA
DE Picoides arcticus [Breeding season /  / Late record of fledgling for New
   York] [New York /  / Herkimer County; Fledgling sighting; late nesting
   record for New York]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR12500056592
DA 2020-01-11
ER

PT J
AN ZOOR12400067355
DT Article
TI Bird news.
AU Holland, G
SO Leicestershire and Rutland Trust for Nature Conservation Newsletter
VL 13
IS 4
PS 10
PD 1988
PY 1988
LA English
U1 0
U2 0
SC Zoology; Environmental Sciences & Ecology
SN 0962-5593
BD Ecology; Population dynamics; Land zones; Nearctic region; North
   America; Canada
DE Aves [Manitoba /  / Winter records]. 
   Leucosticte arctoa [Manitoba /  / Recorded]. 
   Picoides arcticus [Population censuses /  / Manitoba; Winter count; new
   record total for 1 day]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Passeriformes, Fringillidae,
   Piciformes, Picidae
OR Aves (Vertebrata). 
   Leucosticte arctoa (Fringillidae). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR12400067355
DA 2020-01-11
ER

PT J
AN ZOOR12400021333
DT Article
TI The winter season. December 1, 1986 - February 28, 1987. Southwest
   Region. New Mexico, northern Chihuahua.
AU Hubbard, J.P.
SO American Birds
VL 41
IS 2
PS 314-316
PD 1987
PY 1987
LA English
U1 0
U2 0
SC Zoology
SN 0004-7686
BD Land zones; Nearctic region; North America; USA
DE Aves [Mexico /  / Chihuahua; north; Winter distribution records] [New
   Mexico /  / Winter distribution records including first records]. 
   Larus minutus [New Mexico /  / Lake McMillan; First record for New
   Mexico]. 
   Picoides arcticus [New Mexico /  / Sandia Mountains; Sandia Crest;
   Possible first record for New Mexico]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Charadriiformes, Laridae,
   Piciformes, Picidae
OR Aves (Vertebrata): [New record]. 
   Larus minutus (Laridae): [New record]. 
   Picoides arcticus (Picidae): [New record]. 
UT ZOOREC:ZOOR12400021333
DA 2020-01-11
ER

PT J
AN ZOOR12300020292
DT Article
TI The winter season. December 1, 1985 - February 28, 1986. Middlewestern
   Prairie Region.
AU Peterjohn, B.G.
SO American Birds
VL 40
IS 2
PS 285-289
PD 1986
PY 1986
LA English
U1 0
U2 0
SC Zoology; Behavioral Sciences
SN 0004-7686
BD Behaviour; Migration; Land zones; Nearctic region; North America; USA
DE Aves [Overwintering behaviour /  / Distribution records] [USA /  /
   Middlewestern Prairie Region; Winter distribution records including
   first state records] [Iowa /  / First & additional records]. 
   Gavia pacifica [Ohio /  / Huron; First acceptable record for Ohio]. 
   Larus thayeri [Iowa /  / Red Rock Reservoir; First confirmed record for
   Iowa]. 
   Picoides arcticus [Iowa /  / Ottumwa; Additional record for Iowa]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Charadriiformes, Laridae,
   Gaviiformes, Gaviidae, Piciformes, Picidae
OR Aves (Vertebrata). 
   Larus thayeri (Laridae). 
   Gavia pacifica (Gaviidae). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR12300020292
DA 2020-01-11
ER

PT J
AN ZOOR12300051269
DT Article
TI Northern woodpeckers visit Taylor County.
AU Robbins, S.
SO Passenger Pigeon
VL 48
IS 3
PS 122-124
PD 1986
PY 1986
LA English
U1 0
U2 0
SC Zoology
SN 0031-2703
BD Land zones; Nearctic region; North America; USA
DE Picoides arcticus; Picoides tridactylus [Wisconsin /  / Taylor County;
   Sighting records]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
UT ZOOREC:ZOOR12300051269
DA 2020-01-11
ER

PT J
AN ZOOR12300060422
DT Article
TI Black-backed woodpecker in Taylor County.
AU Frank, J.C.
SO Passenger Pigeon
VL 48
IS 4
PS 177
PD 1986
PY 1986
LA English
U1 0
U2 0
SC Zoology
SN 0031-2703
BD Land zones; Nearctic region; North America; USA
DE Picoides arcticus [Wisconsin /  / Taylor County; Medford area; Sighting
   record; winter]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR12300060422
DA 2020-01-11
ER

PT J
AN ZOOR12700053585
DT Article
TI Resource partitioning among woodpeckers in northeastern Oregon.
AU Bull, E.L.
   Peterson, S.R.
   Thomas, J.W.
SO U S Forest Service Research Note PNW
SU No. 444
PS 1-19
PD 1986
PY 1986
LA English
U1 0
U2 0
SC Zoology; Environmental Sciences & Ecology; Nutrition & Dietetics;
   Reproductive Biology; Forestry
SN 0099-3433
BD Nutrition; Feeding behaviour; Reproduction; Reproductive behaviour;
   Breeding site; Ecology; Habitat utilization; Habitat; Terrestrial
   habitat; Land zones; Nearctic region; North America; USA
DE Colaptes auratus; Dryocopus pileatus; Picoides albolarvatus; Picoides
   arcticus; Picoides tridactylus; Picoides villosus; Sphyrapicus
   thyroideus; Sphyrapicus varius [Ecological niche /  / Resource
   partitioning; nesting & foraging comparisons; Oregon]. 
   Picidae [Foraging /  / Comparisons; resource partitioning indication]
   [Nesting site /  / Preference comparisons] [Ecological niche /  /
   Resource partitioning; nesting & foraging comparisons] [Habitat
   preference /  / Nest & foraging sites comparison] [Forest /  / ] [Oregon
   /  / Wallowa Whitman National Forest]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picidae (Piciformes). 
   Colaptes auratus (Picidae). 
   Dryocopus pileatus (Picidae). 
   Picoides albolarvatus (Picidae). 
   Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
   Picoides villosus (Picidae). 
   Sphyrapicus thyroideus (Picidae). 
   Sphyrapicus varius (Picidae). 
UT ZOOREC:ZOOR12700053585
DA 2020-01-11
ER

PT J
AN ZOOR12200037685
DT Article
TI Woodpeckers with three toes.
AU McNicholl, M.K.
SO Birdfinding in Canada
VL 5
IS 5
PS 4
PD 1985
PY 1985
LA English
U1 0
U2 0
SC Zoology
SN 0229-5024
BD Land zones; Nearctic region; North America
DE Picoides arcticus; Picoides tridactylus [Canada /  / Sighting records]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
UT ZOOREC:ZOOR12200037685
DA 2020-01-11
ER

PT J
AN ZOOR12200025404
DT Article
TI A review of recent irruptions of the black-backed woodpecker and
   three-toed woodpecker in eastern North America.
AU Yunick, R.P.
SO Journal of Field Ornithology
VL 56
IS 2
PS 138-152
PD 1985
PY 1985
LA English
U1 0
U2 2
AB An examination of the 1950-1982 field note records for black-backed and
   three-toed woodpeckers in northeastern USA and southeastern Canada
   indicates a pattern of irregular irruption from their resident range.
   Periods of irruptive activity lasting several years appear interspersed
   between long lapses of little or no reporting. A period of almost
   regular and heightened irruptive activity by the black-backed woodpecker
   occurred in 1956-1966. Following it there was a marked decline in New
   York and southern New England, while in Canada there was another period
   of irruptive activity through the 1970's. During this time the greatest
   reported irruption occurred in 1974-1975. The three-toed woodpecker is
   not only rarer than the black-backed woodpecker, but appears to be less
   irruptive, judging from its increased scarcity relative to the
   black-backed woodpecker at greater distances from its resident range.
   While these species are sympatric on their resident range, they do not
   appear to be  completely synchronous in irrupting. During irruption,
   both species have occurred in urban habitats totally unlike the boreal
   forests of their resident range. In the irruptions of the 1950's and
   1960's in New York, they frequented urban areas blighted by the Dutch
   elm disease. Irrupting individuals appeared out of their resident range
   in the north typically in Sept. and spread gradually disappeared
   northward. Most sightings for both species (61-63%) were single-day
   sightings, although some  individuals remained in an area for prolonged
   periods of 132 days of more for the three-toed woodpecker and 192 days
   for the black-backed woodpecker. Females of both species were recorded
   more frequently than males by 1.43:1 and 1.17:1, respectively.
SC Zoology; Environmental Sciences & Ecology
SN 0273-8570
BD Ecology; Population dynamics; Land zones; Nearctic region
DE Picoides arcticus; Picoides tridactylus [Irruption /  / Recent; review]
   [North America /  / East; Recent irruptions]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
UT ZOOREC:ZOOR12200025404
DA 2020-01-11
ER

PT J
AN ZOOR12300012180
DT Article
TI Food gathering for nestlings by a male black-backed woodpecker (Picoides
   arcticus).
AU Crins, W.J.
SO Ontario Birds
VL 3
IS 2
PS 71-72
PD 1985
PY 1985
LA English
U1 0
U2 0
SC Nutrition & Dietetics; Zoology; Reproductive Biology
SN 0822-3890
BD Nutrition; Feeding behaviour; Reproduction; Reproductive behaviour;
   Parental care; Land zones; Nearctic region; North America; Canada
DE Picoides arcticus [Food carrying /  / Prey for nestlings carried in crop
   & beak] [Care of young /  / ] [Ontario /  / Nipissing district;
   Algonquin Provincial Park; Foraging for nestlings; prey carried in crop
   & beak]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR12300012180
DA 2020-01-11
ER

PT J
AN ZOOR12000014660
DT Article
TI Nesting black-backed three-toed woodpeckers in Forest County.
AU Eckstein, R.G.
SO Passenger Pigeon
VL 45
IS 1
PS 16-17
PD 1983
PY 1983
LA English
U1 0
U2 0
SC Zoology; Reproductive Biology
SN 0031-2703
BD Reproduction; Reproductive behaviour; Breeding site; Land zones;
   Nearctic region; North America; USA
DE Picoides arcticus [Nesting site /  / ] [Wisconsin /  / Forest County;
   Nesting recorded & nest site details]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR12000014660
DA 2020-01-11
ER

PT J
AN ZOOR12000014663
DT Article
TI Both three-toed woodpeckers in Burnett County.
AU Fuller, P.
SO Passenger Pigeon
VL 45
IS 4
PS 146-147
PD 1983
PY 1983
LA English
U1 0
U2 0
SC Zoology
SN 0031-2703
BD Land zones; Nearctic region; North America; USA
DE Picoides arcticus; Picoides tridactylus [Wisconsin /  / Burnett County;
   Sighting record]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
UT ZOOREC:ZOOR12000014663
DA 2020-01-11
ER

PT J
AN ZOOR12000042806
DT Article
TI Life history studies of woodpeckers of eastern North America.
AU Kilham, L.
SO Publications of the Nuttall Ornithological Club
SU No. 20
PS i-vii, 1-240
PD 1983
PY 1983
LA English
U1 0
U2 0
SC Behavioral Sciences; Zoology; Nutrition & Dietetics; Reproductive
   Biology; Environmental Sciences & Ecology
SN 0550-4082
BD Nutrition; Reproduction; Behaviour; Ecology; Animal constructions; Land
   zones; Nearctic region; Neotropical region; North America; Central
   America
DE Campephilus guatemalensis [Behaviour /  / Comprehensive account; Costa
   Rica & Guatemala] [Costa Rica /  / ] [Guatemala /  / ]. 
   Campephilus melanoleucos [Behaviour /  / Comprehensive account] [Panama
   /  / ]. 
   Colaptes auratus; Dryocopus lineatus; Melanerpes carolinus; Melanerpes
   erythrocephalus; Picoides arcticus; Picoides pubescens; Picoides
   villosus; Sphyrapicus varius [Behaviour /  / Comprehensive account;
   USA]. 
   Picidae [Feeding behaviour /  / Central & North America] [Reproductive
   behaviour /  / ] [Behaviour /  / ] [Communication /  / ] [Nests /  / ]
   [USA /  / comprehensive account]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picidae (Piciformes). 
   Campephilus guatemalensis (Picidae). 
   Campephilus melanoleucos (Picidae). 
   Colaptes auratus (Picidae). 
   Dryocopus lineatus (Picidae). 
   Melanerpes carolinus (Picidae). 
   Melanerpes erythrocephalus (Picidae). 
   Picoides arcticus (Picidae). 
   Picoides pubescens (Picidae). 
   Picoides villosus (Picidae). 
   Sphyrapicus varius (Picidae). 
UT ZOOREC:ZOOR12000042806
DA 2020-01-11
ER

PT J
AN ZOOR11800038660
DT Article
TI Bird populations before and after wildfire in a Great Lakes pine forest.
AU Apfelbaum, S.
   Haney, A.
SO Condor
VL 83
IS 4
PS 347-354
PD 1981
PY 1981
LA English
U1 0
U2 10
AB Birds in a 6.25 ha quadrat in a 73 yr old jack pine-black spruce forest
   (Pinus banksiana-Picea mariana) in Cook County, Minnesota [USA] were
   intensively studied in June 1976. A wildfire burned through the area in
   Aug. The following spring the same quadrat was resurveyed to determine
   the 1st yr changes in bird populations. Species and guilds were compared
   by density, territorial space, existence energy and importance values.
   Twelve species had territories in the study grid before the fire
   [Dendroica castanea, D. fusca, Parus hudsonicus, Vireo olivaceus,
   Regulus calendula, V. solitarius, D. coronata, Certhia familiaris, Sitta
   canadensis, Catharus guttatus, Seiurus aurocapillus, Troglodytes
   troglodytes]; six [V. olivaceus, V. solitarius, Sitta canadensis, C.
   guttatus, Seiurus aurocapillus, T. troglodytes] were not there the
   following spring, but 8 additional species [Nuttallornis borealis,
   Picoides arcticus, Catharsus minimus, C. ustulatus, Carpodacus
   purpureus, Turdus migratorious, Junco hyemalis and Zonotrichia
   albicollis] had established territories. Tree-foliage searchers had the
   greatest importance value before the fire and ground-brush foragers the
   greatest value afterwards. Density, total biomass, and combined
   existence energy of birds decreased after the fire by 50, 23 and 41%,
   respectively, but species using the area after the fire were 63% heavier
   on the average. Average energy consumption per unit of body weight was
   calculated to be 23% less after the fire. Fire apparently reduced the
   total food available for birds, but increased the kinds of food,
   especially at or near the ground.
SC Environmental Sciences & Ecology; Zoology; Forestry
SN 0010-5422
BD Ecology; Habitat; Terrestrial habitat; Abiotic factors; Physical
   factors; Land zones; Nearctic region; North America; USA
DE Aves [Community structure /  / fire effects] [Forest /  / ] [Fire /  /
   Forest community structure effects] [Minnesota /  / Cook County; Pine
   forest]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
DI 10.2307/1367504
UT ZOOREC:ZOOR11800038660
DA 2020-01-11
ER

PT J
AN ZOOR12000055220
DT Article
TI Interspecific differences in nesting habitat of sympatric woodpeckers
   and nuthatches.
AU Raphael, M.G.
SO U S Forest Service General Technical Report RM
SU No. 87
PS 142-151
PD 1981
PY 1981
LA English
U1 0
U2 0
SC Environmental Sciences & Ecology; Zoology; Reproductive Biology;
   Forestry
SN 0094-4823
BD Reproduction; Reproductive behaviour; Breeding site; Ecology; Habitat
   utilization; Habitat; Terrestrial habitat; Land zones; Nearctic region;
   North America; USA
DE Colaptes auratus; Melanerpes lewis; Picoides albolarvatus; Picoides
   arcticus; Picoides villosus; Sphyrapicus ruber dagetti; Sphyrapicus
   thyroideus [Ecological niche /  / Nesting site interspecific
   differences; forest; California]. 
   Picidae; Sitta canadensis; Sitta pygmaea [Nesting site /  /
   Interspecific differences] [Ecological niche /  / Nesting site
   interspecific differences] [Habitat preference /  / ] [Forest /  / ]
   [California /  / Truckee]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Passeriformes, Sittidae,
   Piciformes, Picidae
OR Sitta canadensis (Sittidae). 
   Sitta pygmaea (Sittidae). 
   Picidae (Piciformes). 
   Colaptes auratus (Picidae). 
   Melanerpes lewis (Picidae). 
   Picoides albolarvatus (Picidae). 
   Picoides arcticus (Picidae). 
   Picoides villosus (Picidae). 
   Sphyrapicus ruber dagetti (Picidae). 
   Sphyrapicus thyroideus (Picidae). 
UT ZOOREC:ZOOR12000055220
DA 2020-01-11
ER

PT J
AN ZOOR11700038136
DT Article
TI Black-backed three-toed woodpecker in Forest County.
AU Haig, S.
SO Passenger Pigeon
VL 42
IS 4
PS 149-150
PD 1980
PY 1980
LA English
U1 0
U2 0
SC Zoology
SN 0031-2703
BD Land zones; Nearctic region; North America; USA
DE Picoides arcticus [Wisconsin /  / Forest County; Nicolet National
   Forest; Sighting records]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR11700038136
DA 2020-01-11
ER

PT J
AN ZOOR11900057826
DT Article
TI Bleak future for the black-backed woodpecker.
AU Tirimanne, W.
SO Loris
VL 14
IS 6
PS 396-397
PD 1978
PY 1978
LA English
U1 0
U2 0
SC Zoology; Biodiversity & Conservation; Environmental Sciences & Ecology
SN 0024-6514
BD Conservation; Land zones; Oriental region; Eurasia; Asia
DE Chrysocolaptes festivus [Endangered species /  / Status] [Sri Lanka /  /
   ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Chrysocolaptes festivus (Picidae). 
UT ZOOREC:ZOOR11900057826
DA 2020-01-11
ER

PT J
AN ZOOR11500046893
DT Article
TI Black-backed three-toed woodpecker.
AU Korotev, R.
SO Passenger Pigeon
VL 40
IS 2
PS 413-414
PD 1978
PY 1978
LA English
U1 0
U2 0
SC Zoology
SN 0031-2703
BD Land zones; Nearctic region; North America; USA
DE Picoides arcticus [Wisconsin /  / Douglas County; Stones Bridge; Nesting
   record]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR11500046893
DA 2020-01-11
ER

PT J
AN ZOOR11500046901
DT Article
TI The distribution of the three-toed woodpeckers in Wisconsin.
AU Thiel, R.P.
SO Passenger Pigeon
VL 40
IS 4
PS 477-488
PD 1978
PY 1978
LA English
U1 0
U2 0
SC Zoology
SN 0031-2703
BD Land zones; Nearctic region; North America; USA
DE Picoides arcticus; Picoides tridactylus [Wisconsin /  / Distribution
   records; 1890-1978; & catalogue of museum specimens]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
UT ZOOREC:ZOOR11500046901
DA 2020-01-11
ER

PT J
AN ZOOR11400037155
DT Article
TI Wintering woodpeckers in an urban environment.
AU McMichael, D.J
   Wilcove, D.S.
SO Kingbird
VL 27
IS 1
PS 2-10,illust.
PD 1977
PY 1977
LA English
U1 0
U2 2
SC Zoology; Environmental Sciences & Ecology
BD Habitat; Man made habitat
DE Picoides arcticus; Picoides pubescens; Picoides villosus [Residential
   area /  / Population study; New York]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides pubescens (Picidae). 
   Picoides villosus (Picidae). 
UT ZOOREC:ZOOR11400037155
DA 2020-01-11
ER

PT J
AN ZOOR11400043089
DT Article
TI Die Brutvogel des Waldfriedhofes Heerstrasse 1974.
AU Elvers, H.
SO Ornithologischer Ber Berl (West)
VL 2
IS 2
PS 139-150,illust.
PD 1977
PY 1977
LA English
U1 0
U2 0
SC Zoology
BD Land zones; Nearctic region; North America; USA
DE Picoides arcticus [North Dakota /  / Sighting record]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR11400043089
DA 2020-01-11
ER

PT J
AN ZOOR11400045165
DT Article
TI Black-backed three-toed woodpecker in Grand Forks, North Dakota.
AU Elsen, D.
SO Prairie Nat.
VL 9
IS 34
PS 56
PD 1977
PY 1977
LA English
U1 0
U2 0
SC Zoology
BD Land zones; Nearctic region; North America; USA
DE Picoides arcticus [North Dakota /  / Sighting record]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR11400045165
DA 2020-01-11
ER

PT J
AN ZOOR11100004281
DT Article
TI On the geographical ecology and evolution of the three-toed woodpeckers,
   Picoides tridactylus and P. arcticus.
AU Bock, C.E.
   Bock, J.H.
SO American Midland Naturalist
VL 92
IS 2
PS 397-405
PD 1974
PY 1974
LA English
U1 0
U2 4
SC Zoology; Evolutionary Biology; Environmental Sciences & Ecology
BD Evolution; Ecology; Zoogeography; Land zones; Nearctic region
DE Picoides arcticus; Picoides tridactylus [Evolution /  / ] [Ecology /  /
   ] [Zoogeography /  / Distributional status] [North America /  /
   Distributional status] [ /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
DI 10.2307/2424304
UT ZOOREC:ZOOR11100004281
DA 2020-01-11
ER

PT J
AN ZOOR11100004312
DT Article
TI Habits and interactions of North American three-toed woodpeckers
   (Picoides arcticus and Picoides tridactylus).
AU Short, L.L.
SO American Museum Novitates
VL No. 2547
PS 1-42
PD 1974
PY 1974
LA English
U1 0
U2 4
SC Zoology; Reproductive Biology; Behavioral Sciences
BD Reproduction; Reproductive behaviour; Behaviour; Communication
DE Picoides arcticus [Nesting /  / Comparative study] [Behaviour /  /
   Comparative study] [Acoustic signals /  / Vocalizations; Compaiative
   study] [ /  / Vocalizations; Comparative study] [Behavioural
   interactions /  / Picoides tridactylus]. 
   Picoides tridactylus [Nesting /  / Comparative study] [Behaviour /  /
   Comparative study] [Acoustic signals /  / Vocalizations; Comparative
   study] [Behavioural interactions /  / Picoides arcticus]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
UT ZOOREC:ZOOR11100004312
DA 2020-01-11
ER

PT J
AN ZOOR11100021408
DT Article
TI Some additional observations on the nesting of the black-backed
   three-toed woodpecker in Michigan.
AU Cottrille, B.D.
SO Jack Pine Warbler
VL 5
IS 3
PS 148-150
PD 1974
PY 1974
LA English
U1 0
U2 0
SC Zoology; Reproductive Biology
BD Reproduction; Reproductive behaviour
DE Picoides arcticus [Nesting /  / Michigan]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR11100021408
DA 2020-01-11
ER

PT J
AN ZOOR11100026397
DT Article
TI Observations of three-toed woodpeckers in an Adirondack bog with notes
   on plumages.
AU LaFrance, F.
SO Kingbird
VL 23
IS 4
PS 190-191
PD 1973
PY 1973
LA English
U1 0
U2 0
SC Zoology; Anatomy & Morphology
BD Integument; Integumentary derivatives; Zoogeography; Land zones;
   Nearctic region; North America; USA
DE Picoides arcticus [Plumage /  / New York]. 
   Picoides tridactylus [Plumage /  / ] [Zoogeography /  / Additional
   breeding record] [New York /  / Hamilton County; Additional breeding
   record]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
UT ZOOREC:ZOOR11100026397
DA 2020-01-11
ER

PT J
AN ZOOR10300005221
DT Article
TI The Arctic three-toed woodpecker (Picoides arcticus)
AU Reid-Henry, D. M.
SO Avicultural Magazine
VL 72
PS 69-70
PD 1966
PY 1966
NT pl.
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Aves [Zoology /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
UT ZOOREC:ZOOR10300005221
DA 2020-01-11
ER

PT J
AN ZOOR10200006884
DT Article
TI Climbing and pecking adaptations in some North American woodpeckers.
AU Spring, L. W.
SO Condor
VL 67
PS 457-488
PD 1965
PY 1965
NT figs.
LA English
U1 0
U2 5
SC Zoology; Behavioral Sciences
BD Biology; Behaviour
DE Aves [Zoology /  / Physiology; Muscalar activity; Cranial kinesis in N.
   American woodpeckers] [Behaviour /  / Climbing and pecking behaviour in
   N. American woodpeckers]. 
   Dendrocopos villosus [Zoology /  / Natural history; characterization of
   pecking movements; blow delivery; climbing; cranial kinesis]. 
   Picoides arcticus [Zoology /  / natural history; characterization of
   packing movements; blow delivery; climbing; cranial kinesis]. 
   Sphyrapicus varius [Zoology /  / natural history; characterization of
   pecking movements; blow delivery; climbing; cranial kinesis]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Aves (Vertebrata). 
   Dendrocopos villosus (Picidae). 
   Picoides arcticus (Picidae). 
   Sphyrapicus varius (Picidae). 
DI 10.2307/1365612
UT ZOOREC:ZOOR10200006884
DA 2020-01-11
ER

PT J
AN ZOOR10200016136
DT Article
TI Black-backed three-toed wood-pecker, Picoides arcticus, predation on
   Monochamus oregopensis(Coleoptera: Cerambycidae).
AU Wickman, B. E.
SO Pan-Pacific Entomologist
VL 41
PS 162-164
PD 1965
PY 1965
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Monochamus oregonensis [Zoology /  / Parasites Of Other Animals;
   Predacious Animals; (Col. Lamiid.); larva preyed upon by; Picoides
   arcticus; California]. 
TN Arthropods; Beetles; Insects; Invertebrates
ST Animalia, Arthropoda, Insecta, Coleoptera, Polyphaga, Chrysomeloidea,
   Cerambycidae
OR Monochamus oregonensis (Cerambycidae). 
UT ZOOREC:ZOOR10200016136
DA 2020-01-11
ER

PT J
AN ZOOR10200007514
DT Article
TI Black-backed three-toed woodpecker, Pieoides arcticus, predation on
   Monochamus oregonensis (Coleoptera, Cerambycidae).
AU Wickman, B. E.
SO Pan-Pacific Entomologist
VL 41
PS 162-164
PD 1965
PY 1965
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Aves [Zoology /  / Ecology And Habits; Enemies; Defence and Predation;
   Predation on; Monochamns oregonensis; by; Picoides arcticus]. 
   Picoides arcticus [Zoology /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Aves (Vertebrata). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR10200007514
DA 2020-01-11
ER

PT J
AN ZOOR09600004288
DT Article
TI Black-backed Three-toed Woodpecker in central Pennsylvania.
AU Wood, M.
SO Auk
VL 76
PS 361
PD 1959
PY 1959
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Picoides arcticus [Zoology /  / in central Pennsylvania]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR09600004288
DA 2020-01-11
ER

PT J
AN ZOOR09600002527
DT Article
TI A method for opening nesting holes.
AU Erskine, A. J.
SO Bird-Banding
VL 30
PS 181-182
PD 1959
PY 1959
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Aves [Zoology /  / Habits And Ecology; Bird-Ringing : Methods; A method
   for opening nesting holes] [ /  / Habits And Ecology; Iii.-distribution;
   (a) Geographical; Nearctic Region Including Mexico; Canada; British
   Columbi]. 
   Picoides arcticus [Zoology /  / nesting in the Cariboo; B.C]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Aves (Vertebrata). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR09600002527
DA 2020-01-11
ER

PT J
AN ZOOR09600002528
DT Article
TI Picoides arcticus nesting in the Cariboo, British Columbia.
AU Ersklne, A. J.
SO Canadian Field Naturalist
VL 73
PS 205
PD 1959
PY 1959
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Aves [Zoology /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata
OR Aves (Vertebrata). 
UT ZOOREC:ZOOR09600002528
DA 2020-01-11
ER

PT J
AN ZOOR09800002991
DT Article
TI Recent records of the Black-backed Three-toed Woodpecker in Michigan.
AU Ryel, L. A.
   Harger, E. M.
SO Jack Pine Warbler
VL 37
PS 12-16
PD 1959
PY 1959
NT fig.
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Aves [Zoology /  / Nearctic Region Including Mexico; U.S.A. North
   Central; Michigan]. 
   Picoides arcticus [Zoology /  / records in Michigan]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Aves (Vertebrata). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR09800002991
DA 2020-01-11
ER

PT J
AN ZOOR09600004214
DT Article
TI The 1956-1957 invasion of Three-toed Woodpeckers.
AU West, J. D.
   Spiers, J. M.
SO Wilson Bulletin
VL 71
PS 348-363
PD 1959
PY 1959
NT figs.
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Picoides arcticus [Zoology /  / and; Picoides tridactylus; invasion in
   New England 1956-57]. 
   Picoides tridactylus [Zoology /  / ]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
   Picoides tridactylus (Picidae). 
UT ZOOREC:ZOOR09600004214
DA 2020-01-11
ER

PT J
AN ZOOR09500007516
DT Article
TI On a small collection of Mallophaga from the United States, with
   descriptions of three new species.
AU Carriker, M. A., jr.
SO Proceedings of the Entomological Society of Washington
VL 60
PS 167-174
PD 1958
PY 1958
NT 8 figs.
LA English
U1 0
U2 0
SC Zoology
BD Biology; Systematics; Nomenclature; New taxa
DE Mallophaga [Zoology /  / A small collection of Mallophaga from the
   United States]. 
   Strigiphilus o.; Strigiphilus oculatus [Zoology /  / ]. 
TN Arthropods; Insects; Invertebrates
ST Animalia, Arthropoda, Insecta, Mallophaga
OR Mallophaga (Insecta). 
   Menacanthus aurocapillus (Mallophaga): [Sp nov, sp. n., (on, Seiurus
   aurocapillus) Maryland p. 172 figs.]. 
   Penenirmus arcticus (Mallophaga): [Sp nov, sp. n., (on, Picoides
   arcticus) Michigan p. 168 figs.]. 
   Strigiphilus bubonis - Osb. (Mallophaga): [Systematics]. 
   Strigiphilus o. (Mallophaga). 
   Strigiphilus oculatus (Mallophaga). 
   Strigiphilus varius (Mallophaga): [Sp nov, sp. n., (on, Strix v. varia)
   Indiana p. 169, Strigiphilus bubonis, Osb., a good sp. not syn. of,
   Strigiphilus oculatus, Strigiphilus o., neoparatype designated p. 174
   figs.]. 
UT ZOOREC:ZOOR09500007516
DA 2020-01-11
ER

PT J
AN ZOOR09500003366
DT Article
TI Nesting of the Black-backed Three-toed Woodpecker n Michigan.
AU Mayfield, H.
SO Wilson Bulletin
VL 70
PS 195
PD 1958
PY 1958
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Picoides arcticus [Zoology /  / nesting in Michigan]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR09500003366
DA 2020-01-11
ER

PT J
AN ZOOR09400002478
DT Article
TI 1956-1957 invasion of Arctic Woodpeckers.
AU Mitchell, H. D.
SO Kingbird
VL 7
PS 74-77
PD 1957
PY 1957
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Picoides arcticus [Zoology /  / invasion in New England]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR09400002478
DA 2020-01-11
ER

PT J
AN ZOOR08800002141
DT Article
TI Observations on the Arctic Three-toed Woodpecker.
AU Bourlo, E. A.
   Hestuberg, G. A.
SO Jack Pine Warbler
VL 29
PS pp. 78-81
PD 1951
PY 1951
NT fig.
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Picoides arcticus [Zoology /  / observations in Michigan]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR08800002141
DA 2020-01-11
ER

PT J
AN ZOOR07700000858
DT Article
TI A nest of the Arctic Three-toed Woodpecker.
AU England, E. G.
SO Condor
VL 42
PS pp. 242-245
PD 1940
PY 1940
NT 32 photos.
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Aves [Zoology /  / Ecology And Habits; Nidification; Single Species]. 
   Picoides arcticus [Zoology /  / nesting notes with photos in California
   mountains]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Aves (Vertebrata). 
   Picoides arcticus (Picidae). 
DI 10.2307/1364484
UT ZOOREC:ZOOR07700000858
DA 2020-01-11
ER

PT J
AN ZOOR06600001656
DT Article
TI The migrations and plumages of North American Birds. Three-toed
   Woodpeckers
AU Oberholser, H. C.
   Chapman, F. M.
SO Bird Lore New York
VL 31
PS pp. 110-111
PD 1929
PY 1929
NT col. pl. Arizona and Red-cockaded Woodpeckers pp. 255-256 col. pl. Texas
   & Nuttall's Woodpeckers pp. 398-399 col. pl.
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Dryobates arizonae [Zoology /  / Dryobates borealis; and other spp.
   migrations plumages and col. pl]. 
   Dryobates borealis; Picoides americanus [Zoology /  / ]. 
   Picoides arcticus [Zoology /  / Picoides americanus; plumages migrations
   col. pl]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Dryobates arizonae (Picidae). 
   Dryobates borealis (Picidae). 
   Picoides americanus (Picidae). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR06600001656
DA 2020-01-11
ER

PT J
AN ZOOR06300001301
DT Article
TI An unusual flight of Arctic Three-toed Woodpeckers.
AU Van Tyne, J.
SO Auk Lancaster Pa
VL 43
PS pp. 469-474
PD 1926
PY 1926
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Picoides arcticus [Zoology /  / status and invasion south to New York
   and N. Jersey]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR06300001301
DA 2020-01-11
ER

PT J
AN ZOOR05600000670
DT Article
TI Further notes on New Brunswick birds.
AU Philipp, P . B .
   Bowdish, B. S.
SO Auk Cambridge Mass
VL 36
PS (36-45)
PD 1919
PY 1919
NT 2 pls.
LA English
U1 0
U2 0
SC Zoology
BD Biology; Land zones; Nearctic region; North America; Canada
DE Aves [Zoology /  / Ethology. 5819; Migration; Regional Observations;
   NORTH AMERICA] [New Brunswick /  / ]. 
   Dendroica tigrina [Zoology /  / nest and eggs photographed and
   described; p. 38]. 
   Picoides arcticus [Zoology /  / nest and eggs photographed and
   described]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Passeriformes, Parulidae,
   Piciformes, Picidae
OR Aves (Vertebrata). 
   Dendroica tigrina (Parulidae). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR05600000670
DA 2020-01-11
ER

PT J
AN ZOOR05500000692
DT Article
TI Picoides arcticus in Florida.
AU Oberholser, H. C.
SO Auk Cambridge Mass
VL 35
PS (479)
PD 1918
PY 1918
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Aves [Zoology /  / Geography. 5827; General; Nearctic Region (including
   Mexico); Eastern United States; FLORIDA:]. 
   Picoides arcticus [Zoology /  / wandering to Florida]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Aves (Vertebrata). 
   Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR05500000692
DA 2020-01-11
ER

PT J
AN ZOOR04100001471
DT Article
TI [Title unknown.]
AU Nichols
SO Auk
VL xxi
PS Unpaginated
PD 1904
PY 1904
LA English
U1 0
U2 0
SC Zoology
BD Biology
DE Picoides arcticus [Zoology /  / at Wellfleet; Massachusetts; p. 81]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Piciformes, Picidae
OR Picoides arcticus (Picidae). 
UT ZOOREC:ZOOR04100001471
DA 2020-01-11
ER

PT J
AN ZOOR03700000025
DT Article
TI A review of the Three-toed Woodpeckers of North America.
AU Bangs, O.
SO Auk
VL xvii
PS pp. 126-142
PD 1900
PY 1900
NT [Pici.]
LA English
U1 0
U2 0
SC Zoology
BD Biology; Systematics; Nomenclature; New taxa
DE Ardea caerulea [Zoology /  / in Labrador; p. 386]. 
   Dendraeca achrustera [Zoology /  / nomen emend. pro; Dendraeca
   bahamensis; Maynard nec Cory; p. 292]. 
   Picoides americanus bacatus [Zoology /  / n. subsp; Eastern North
   America; pp. 136-138]. 
   Picoides americanus labradorius [Zoology /  / n. subsp; Labrador; p.
   138]. 
   Picoides arcticus tenuirostria [Zoology /  / n. subsp; Oregon and
   California; pp. 131 & 132]. 
   Speotyto cunicularia cavicola [Zoology /  / nomen emend. pro; Speotyto
   bahamensis; Maynard nec Cory; p. 287]. 
TN Birds; Chordates; Vertebrates
ST Animalia, Chordata, Vertebrata, Aves, Ciconiiformes, Ardeidae,
   Passeriformes, Parulidae, Piciformes, Picidae, Strigiformes, Strigidae
OR Dendraeca achrustera (Aves). 
   Ardea caerulea (Ardeidae). 
   Geothlypis maynardi (Parulidae): [Sp nov, n. sp., Bahamas, pp. 290 &
   291]. 
   Picoides americanus bacatus (Picidae). 
   Picoides americanus labradorius (Picidae). 
   Picoides arcticus tenuirostria (Picidae). 
   Speotyto bahamensis - Maynard nec Cory (Strigidae): [Systematics]. 
   Speotyto cunicularia cavicola (Strigidae). 
UT ZOOREC:ZOOR03700000025
DA 2020-01-11
ER

EF