Climate and vegetation hierarchically structure patterns of songbird distribution in the Canadian boreal region

Cumming, Steven G.; Stralberg, Diana; Lefevre, Kara L.; Sólymos, Péter; Bayne, Erin M.; Fang, Shyh‐Tirng; Fontaine, Trish; Mazerolle, D.; Schmiegelow, Fiona K. A.; Song, Samantha J.

doi:10.1111/j.1600-0587.2013.00299.x

Cited by 35 publications

(47 citation statements)

References 92 publications

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“…Furthermore, significant impacts of climate change are predicted to occur at boreal latitudes resulting in increased plant growth (infilling; Danby and Hik 2007) or increased recruitment in treeline species, and a subsequent migration of the treeline, latitudinally and altitudinally (Cannone et al 2007;Ruckstuhl et al 2008;Harsch et al 2009). The potential for changes in avian distribution in response to a changing climate was suggested by Cumming et al (2014), who showed that climate variables explained most of the deviance in abundance of boreal songbird distribution. An examination in the boreal region will broaden our understanding of the influence of ecotones on avian diversity and shed light on the influence of global climate change on these regions.…”

Section: Introductionmentioning

confidence: 97%

Bird communities and vegetation associations across a treeline ecotone in the Mealy Mountains, Labrador, which is an understudied part of the boreal forest

Lewis

Starzomski

2015

Can. J. Zool.

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We examined the factors structuring bird communities across a complex subarctic treeline in the Mealy Mountains, Labrador, Canada. Using point counts of bird abundance in 2007 and 2008, we show that changes in vegetation driven by elevation are strongly correlated with avian community structure in this treeline ecotone system. Overall, avian diversity was higher in the forest compared with other habitat classes (krummholz, deciduous shrub, and alpine). There were strong correlations between avian diversity and vegetation richness, as well as structure, among and within habitat class in 2008. Numerous habitat types (subset of habitat class) were correlated with avian composition, although some species were clearly habitat generalists. Contrary to expectation, avian species composition was associated with physiognomy (vegetation structure) in alpine and deciduous shrub, and with either physiognomy or floristics (vegetation species composition) in krummholz and forest. Given the strong impact of elevation on vegetation and the demonstrated influence on bird communities, we note that for bird species whose near-southernmost populations are found in the Mealy Mountains, climate change is likely to have a strong negative effect if alpine tundra habitat is lost. Furthermore, forest bird species are likely to benefit from the increased tree cover as treeline moves poleward and upward.Résumé : Nous avons examiné les facteurs qui structurent les communautés d'oiseaux de part et d'autre d'une limite des arbres subarctique complexe dans les montagnes Mealy (Labrador, Canada). En utilisant des dénombrements ponctuels de l'abondance d'oiseaux en 2007 et 2008, nous démontrons que les changements de la végétation associés à l'altitude sont fortement corrélés à la structure de la communauté d'oiseaux dans ce système d'écotone de limite des arbres. Globalement, la diversité des oiseaux était plus élevée dans la forêt que dans les autres classes d'habitat (krummholz, arbustes feuillus et alpin). Il y avait de fortes corrélations entre la diversité des oiseaux et la richesse de la végétation, ainsi qu'avec la structure, entre les classes d'habitat et au sein de celles-ci en 2008. De nombreux types d'habitat (sous-ensembles des classes d'habitat) étaient corrélés avec la composition d'oiseaux, bien qu'il soit clair que certaines espèces sont des généralistes en ce qui concerne l'habitat. Contrairement aux prédictions, la composition des espèces d'oiseaux était associée à la physionomie de la végétation dans les habitats alpins et d'arbustes feuillus et soit à la physionomie de la végétation ou à la floristique (composition spécifique de la végétation) dans les habitats de krummholz et forestiers. Étant donné la forte incidence de l'altitude sur la végétation et l'influence démontrée sur les communautés d'oiseaux, nous notons que les changements climatiques auront vraisemblablement un fort effet négatif sur les espèces d'oiseaux dont les populations les presque plus au sud se trouvent dans les montagnes Mealy, si l'habitat de toundra ...

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Section: Introductionmentioning

confidence: 97%

Bird communities and vegetation associations across a treeline ecotone in the Mealy Mountains, Labrador, which is an understudied part of the boreal forest

Lewis

Starzomski

2015

Can. J. Zool.

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“…The effects of habitat fragmentation and alteration remain unclear with studies reporting contrasting results. Cumming et al (2013) and Stralberg et al (in press) have shown that variation in CAWA abundance was best explained by the number of growing degree days (> 5°C and < 0°C). Although to a lesser extent, mean differences between the warmest and coldest monthly temperatures (climate), mean normalised difference vegetation index (NDVI), mean leaf area index (LAI; vegetation), compound topographic index, and the proportion of water bodies in 4-km grid cell (topographic) were also good predictors of variation in CAWA abundance.…”

Section: Focal Speciesmentioning

confidence: 99%

“…burns), but higher nesting success has been documented in burns (Robertson and Hutto 2007). According to Cumming et al (2013) and Stralberg et al (in press), variation in OSFL abundance across the continent was best explained by the mean and standard deviation of the mean maximum monthly temperature and to a lower extent by mean precipitation, number of degree days (> 5°C), climate moisture index, difference between mean warm month and cold month temperatures (climate) and LAI (vegetation). The Canadian breeding range for this species covers about 5,175,600 km 2 (http://www.natureserve.org/; Figure 3) including every Canadian province and territory except Nunavut (Table 1).…”

Section: Focal Speciesmentioning

confidence: 99%

Forestry and conspecifics influence Canada Warbler (Cardellina canadensis) habitat use and reproductive activity in boreal Alberta, Canada

2017

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“…When compared to southern non-montane boreal forest, bird species in forested habitats in our study are less abundant and bird communities are not as rich in similar habitats at the point-count scale (Machtans and Latour, 2003). This could be a result of climatic limitations on breeding phenology, lower structural heterogeneity of vegetation, and potentially lower prey abundance (Zhang et al, 2012;Cumming et al, 2014). In addition, Machtans and Latour (2003) used a point-count radius of only 50 m, in contrast to the unlimited distance point-count radius used in our study, which makes the reduced abundance and richness of birds found in our northern study area even more striking.…”

Section: Discussionmentioning

confidence: 61%

Avian Communities of the Northern Mackenzie Mountains, Northwest Territories, Canada

Kardynal¹,

Bartzen²,

Latour³

2015

ARCTIC

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ABSTRACT. Basic knowledge of the abundance and distribution of birds and their habitats and the relationships between them is limited for many parts of Arctic Canada, including montane regions. This information is important for conservation purposes as bird populations and habitats shift and as interest in development of northern areas increases. We characterized bird communities in the Mackenzie Mountains of the Northwest Territories by conducting point counts (n = 376) in June 2009 and 2010 and using community analysis metrics (multiple response permutation procedures, indicator species analysis, non-metric multidimensional scaling) to statistically and graphically describe bird data in six habitat types: coniferous forest, deciduous forest, shrub (short and tall), alpine tundra, and open water wetlands. Distinct habitats had significantly different bird communities, as shown by using multiple response permutation procedures (p < 0.005). Of 51 species, 32 had significant (p < 0.05) indicator values for one habitat type (n = 15) or groups of habitats (n = 17) in an indicator species analysis. The tall shrub habitat type had the most indicator species (six species) followed by alpine tundra (five species), then the combined conifer, deciduous, and wetland habitat group (four species) and the deciduous forest habitat types (three species). Species richness was highest in the tall shrub (n = 37), alpine (n = 30), and conifer and short shrub (n = 29) habitats. We also observed eight bird species not previously known to occur in the area, or which were outside published ranges. Our results highlight the variability in bird community composition between the major habitat types in the Mackenzie Mountains, serve as a baseline for future bird studies in the region, and underscore the need for more research in the area with impending anthropogenic changes. . L'habitat des grands arbustes comptait le plus grand nombre d'espèces indicatrices (six espèces), suivi de la toundra alpine (cinq espèces), puis du groupe composé de la forêt de conifères, de la forêt de feuillus et des terres humides (quatre espèces), et de la forêt de feuillus (trois espèces). La richesse des espèces était plus grande dans les habitats des grands arbustes (n = 37), de la toundra alpine (n = 30) et des conifères et petits arbustes (n = 29). Nous avons également observé huit espèces d'oiseaux qui n'avaient jamais été répertoriées dans la région ou qui se trouvaient en dehors de leur parcours naturel. Nos résultats mettent en évidence la variabilité de la composition des communautés d'oiseaux dans les principaux types d'habitats des monts Mackenzie. Ils serviront également de référence aux autres études d'oiseaux qui seront effectuées dans la région, et font ressortir la nécessité de faire d'autres recherches dans la région à la lumière des changements anthropiques imminents.

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Climate and vegetation hierarchically structure patterns of songbird distribution in the Canadian boreal region

Cited by 35 publications

References 92 publications

Bird communities and vegetation associations across a treeline ecotone in the Mealy Mountains, Labrador, which is an understudied part of the boreal forest

Bird communities and vegetation associations across a treeline ecotone in the Mealy Mountains, Labrador, which is an understudied part of the boreal forest

Forestry and conspecifics influence Canada Warbler (Cardellina canadensis) habitat use and reproductive activity in boreal Alberta, Canada

Avian Communities of the Northern Mackenzie Mountains, Northwest Territories, Canada

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