Precipitation and winter temperature predict long‐term range‐scale abundance changes in Western North American birds

Illán, Javier Gutiérrez; Thomas, Chris D.; Jones, Julia A.; Wong, Weng‐Keen; Shirley, Susan M.; Betts, Matthew G.

doi:10.1111/gcb.12642

Cited by 85 publications

(112 citation statements)

References 118 publications

(150 reference statements)

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“…We found strong spatial autocorrelation for each drought index but minimal spatial autocorrelation of model residuals, both of which are consistent with other studies that have investigated weather or climate impacts on wildlife (e.g., Albright, Pidgeon, Rittenhouse, Clayton, Wardlow, et al, 2010;Illán et al, 2014). We found strong spatial autocorrelation for each drought index but minimal spatial autocorrelation of model residuals, both of which are consistent with other studies that have investigated weather or climate impacts on wildlife (e.g., Albright, Pidgeon, Rittenhouse, Clayton, Wardlow, et al, 2010;Illán et al, 2014).…”

Section: Discussionsupporting

confidence: 90%

“…Previous studies have also tended to focus on raw climatic variables to assess bird responses to precipitation variability (e.g., Bateman et al, 2016;Illán et al, 2014). However, using metrics that more comprehensively capture deviations from average moisture conditions, such as the Standardized Precipitation Evapotranspiration Index ("SPEI"), may also reveal important patterns.…”

Section: Introductionmentioning

confidence: 99%

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Species‐specific and temporal scale‐dependent responses of birds to drought

Cady

O’Connell

Loss

et al. 2019

Global Change Biology

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Global climate change is increasing the frequency and intensity of weather extremes, including severe droughts in many regions. Drought can impact organisms by inhibiting reproduction, reducing survival and abundance, and forcing range shifts. For birds, considering temporal scale by averaging drought‐related variables over different time lengths (i.e., temporal grains) captures different hydrologic attributes which may uniquely influence food supplies, vegetation greenness/structure, and other factors affecting populations. However, studies examining drought impacts on birds often assess a single temporal grain without considering that different species have different life histories that likely determine the temporal grain of their drought response. Furthermore, while drought is known to influence bird abundance and drive between‐year range shifts, less understood is whether it causes within‐range changes in species distributions. Our objectives were to (a) determine which temporal grain of drought (if any) is most related to bird presence/absence and whether this response is species specific; and (b) assess whether drought alters bird distributions by quantifying probability of local colonization and extinction as a function of drought intensity. We used North American Breeding Bird Survey data collected over 16 years, generalized linear mixed models, and dynamic occupancy models to meet these objectives. Different bird species responded to drought at different temporal grains, with most showing the strongest signal at annual or near‐annual grains. For all drought‐responsive species, increased drought intensity at any temporal grain always correlated with decreased occupancy. Additionally, colonization/extinction analyses indicated that one species, the dickcissel (Spiza americana), is more likely to colonize novel areas within the southern/core portion of its range during drought. Considering drought at different temporal grains, along with hydrologic attributes captured by each grain, may better reveal mechanisms behind drought impacts on birds and other organisms, and therefore improve understanding of how global climate change impacts species and the landscapes they inhabit.

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Section: Discussionsupporting

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Species‐specific and temporal scale‐dependent responses of birds to drought

Cady

O’Connell

Loss

et al. 2019

Global Change Biology

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“…A growing body of evidence also suggests that morphological changes are a common response to altered climates (7,8). However, despite some clear cases of climate-caused alterations of local population dynamics (9,10), multi-species, large-scale analyses of population responses to global climate change are rare (11,12).…”

Section: Main Textmentioning

confidence: 99%

Consistent response of bird populations to climate change on two continents

Stephens

Mason

Green

et al. 2016

Science

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“…Therefore, precipitation can affect bird populations directly through the survival of offspring [77,78], indirectly changing the abundance or availability of invertebrates [28], flowering and fruiting of plant species, and through their impact on the vegetation structure [79]. Illán [80] studied birds of western North America, and highlighted that precipitation was one of the main determinants in the distribution patterns of land birds. Sousa et al [81] studied birds in the Catimbau National park (Caatinga area) and found strong difference between the richness of birds between the dry and the rainy seasons.…”

Section: Discussionmentioning

confidence: 99%

The role of climate and environmental variables in structuring bird assemblages in the Seasonally Dry Tropical Forests (SDTFs)

et al. 2017

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Understanding the processes that influence species diversity is still a challenge in ecological studies. However, there are two main theories to discuss this topic, the niche theory and the neutral theory. Our objective was to understand the importance of environmental and spatial processes in structuring bird communities within the hydrological seasons in dry forest areas in northeastern Brazil. The study was conducted in two National Parks, the Serra da Capivara and Serra das Confusões National Parks, where 36 areas were sampled in different seasons (dry, dry/rainy transition, rainy, rainy/dry transition), in 2012 and 2013. We found with our results that bird species richness is higher in the rainy season and lower during the dry season, indicating a strong influence of seasonality, a pattern also found for environmental heterogeneity. Richness was explained by local environmental factors, while species composition was explained by environmental and spatial factors. The environmental factors were more important in explaining variations in composition. Climate change predictions have currently pointed out frequent drought events and a rise in global temperature by 2050, which would lead to changes in species behavior and to increasing desertification in some regions, including the Caatinga. In addition, the high deforestation rates and the low level of representativeness of the Caatinga in the conservation units negatively affects bird communities. This scenario has demonstrated how climatic factors affect individuals, and, therefore, should be the starting point for conservation initiatives to be developed in xeric environments.

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Precipitation and winter temperature predict long‐term range‐scale abundance changes in Western North American birds

Cited by 85 publications

References 118 publications

Species‐specific and temporal scale‐dependent responses of birds to drought

Species‐specific and temporal scale‐dependent responses of birds to drought

Consistent response of bird populations to climate change on two continents

The role of climate and environmental variables in structuring bird assemblages in the Seasonally Dry Tropical Forests (SDTFs)

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