Does metabolism constrain bird and mammal ranges and predict shifts in response to climate change?

Buckley, Lauren B.; Khaliq, Imran; Swanson, David L.; Hof, Christian

doi:10.1002/ece3.4537

Cited by 34 publications

(38 citation statements)

References 65 publications

(134 reference statements)

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“…First, CCA ordination and regression models revealed that variations in vegetation variables were divided into two niche-axes, representing the frequency of large trees/PC1 and dense understorey shrubs and herbs/ PC2 (Figure 3; Table S5 in Appendix S1). Buckley, Khaliq, Swanson, and Hof (2018) also suggested that metabolic constraints provide a viable mechanism for initial projections of the cold range boundaries for birds and mammals, and highlighted the need for taxa-specific mechanistic models. In addition, while variation in mountain climate has been related to species richness of plants and ectothermic animals through the 'physiological tolerance hypothesis', it directly influences community composition of endotherms such as birds mostly under stressful climatic conditions (Ferger, Schleuning, TA B L E 2 Correlation coefficients between single trait metrics and elevation as well as phylogenetic structure indices (SES MPD) for 16 assemblages across elevation Hemp, Howell, & Böhning-Gaese, 2014).…”

Section: Mechanisms Inferred From Multivariate Indices and Environmmentioning

confidence: 99%

Trait‐mediated filtering drives contrasting patterns of species richness and functional diversity across montane bird assemblages

Qiang¹,

Holyoak

Chen

et al. 2019

Journal of Biogeography

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Aim: Most studies of diversity changes along elevational gradients show a synchronous change in taxonomic, functional and phylogenetic diversity, such that all decline with elevation or show a mid-elevation peak. However, some studies show asynchronous changes, which challenge us to explain their assembly. Here we used functional trait variation and niche spacing to test the roles of environmental filtering and competition-driven niche separation in assembly and biodiversity patterns across an elevational gradient.Location: Nanling Mountains, southern China. Taxon: Birds (Timaliidae, Pycnonotidae and Sylviidae)Methods: Breeding birds were surveyed in 2012-2017 from 300 to 1900 m ASL. We tested bird diversity pattern and community structure relevant to environmental filtering and limiting similarity by integrating functional traits and evolutionary distances, as well as vegetation heterogeneity. A null modelling approach tested specific trait variation and niche spacing in relation to habitat associations and niche segregation.Results: Contrary to expectation, bird richness peaked at just below the highest site, and functional diversity declined significantly with elevation. Functional-phylogenetic distance metrics converged with increasing elevation, corresponding to strong environmental filtering and habitat change. For the spatial arrangement of specific traits, restricted dispersal ability, elevational range and clutch sizes were related to filtering effects, as indicated by trait convergence in clustered highland bird assemblages. Conversely, overdispersed lowland assemblages have evenly spaced trait values predicted by limiting similarity, including bill length, vertical stratum-use and flocking propensity. In addition, bird functional diversity was highly correlated with both vegetation productivity and tree height, which reinforces the role of filtering in structuring local bird assemblages. Main conclusions:This study highlights how strong filtering can produce a counterintuitive, contrasting pattern of changes between species richness and functional diversity. Fundamental assembly processes and species roles in ecosystems are predictable through examining key traits of life-history and foraging characteristics, and their associations with environmental variables.

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Section: Mechanisms Inferred From Multivariate Indices and Environmmentioning

confidence: 99%

Trait‐mediated filtering drives contrasting patterns of species richness and functional diversity across montane bird assemblages

Qiang¹,

Holyoak

Chen

et al. 2019

Journal of Biogeography

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“…The inverse assumption that T b can be used to predict metabolic rate is also problematic. For example, a difference in estimate of only 1°C (the black line vs. the gray line on the left panel of Figure ) for the T b of the four‐toed hedgehog ( Atelerix albiventris ) would lead to a difference in the metabolic rate at the cold range boundary (MR CRB ) described by Buckley et al () of ~12%.…”

Section: Evaluation Of Data Quality Of the First 20 Mammal Species Inmentioning

confidence: 98%

“…In light of the rapidly changing climate, there is an urgent need to develop a mechanistic understanding of how physiological functioning mediates ecological patterns. Recently, there has been a spate of papers using analyses that scale up from a standard physiological model, the Scholander–Irving model, to make predictions about range constraints on endothermic vertebrates (Buckley, Khaliq, Swanson, & Hof, ; Fristoe et al, ; Khaliq, Böhning‐Gaese, Prinzinger, Pfenninger, & Hof, ; Khaliq, Hof, Prinzinger, Böhning‐Gaese, & Pfenninger, ). Here, we argue that oversimplifications of the Scholander–Irving model and the use of questionable datasets lead to questionable macrophysiological analyses.…”

Section: Evaluation Of Data Quality Of the First 20 Mammal Species Inmentioning

confidence: 99%

“…Demonstration of the inherent limitations of using body temperature ( T b ) and the lower critical temperature ( T lc ) of the thermal neutral zone to calculate thermal conductance (C) when T b and T lc are poorly defined. Buckley et al () analyzed metabolic expansibility, which is the metabolic rate at the range boundary (MR RB ) divided by basal metabolic rate (BMR). MR RB , and therefore ME, changes drastically depending on assumptions of T b and T lc used to calculate C. Data are for a rock mouse ( Chaetodipus intermedius , left; Bradley et al, ) and a hedgehog ( Atelerix albiventris , right; McNab, ).…”

Section: Evaluation Of Data Quality Of the First 20 Mammal Species Inmentioning

confidence: 99%

“…This error stems from the assumption of a single, unchanging T lc . Two of us (JGB and DLL) independently judged the quality of the T b and T lc included in the first 20 mammal species included by Buckley et al () (excluding species with partial data and including only one species from a genus; Table ). Of those 20 datasets, we classified five as appropriate for inclusion in the analysis (i.e., data generally followed the Scholander–Irving model, and T b variation was relatively low).…”

Section: Evaluation Of Data Quality Of the First 20 Mammal Species Inmentioning

confidence: 99%

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An oversimplification of physiological principles leads to flawed macroecological analyses

Boyles

Levesque

Nowack

et al. 2019

Ecology and Evolution

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Macrophysiological analyses are useful to predict current and future range limits and improve our understanding of endotherm macroecology, but such analyses too often rely on oversimplifications of endothermic thermoregulatory and energetic physiology, which lessens their applicability. We detail some of the major issues with macrophysiological analyses based on the classic Scholander–Irving model of endotherm energetics in the hope that it will encourage other research teams to more appropriately integrate physiology into macroecological analyses.

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Species distribution models for predicting the habitat suitability of Chinese fire‐bellied newt Cynops orientalis under climate change

Guo

Yuan

Wang

et al. 2021

Ecology and Evolution

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Global climate change is occurring at an unprecedented rate, which may have significant influences on all levels of biodiversity from genes to ecosystems (Grünig et al., 2020). The Fifth Assessment Report (AR5) produced by the Intergovernmental Panel on Climate Change (IPCC) states that global warming is expected to continue with the average temperature of earth increasing by 0.3-4.5℃ by 2,100 compared with 1986-2005. Climate change has caused substantial geographical distribution changes in a wide

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Does metabolism constrain bird and mammal ranges and predict shifts in response to climate change?

Cited by 34 publications

References 65 publications

Trait‐mediated filtering drives contrasting patterns of species richness and functional diversity across montane bird assemblages

Trait‐mediated filtering drives contrasting patterns of species richness and functional diversity across montane bird assemblages

An oversimplification of physiological principles leads to flawed macroecological analyses

Species distribution models for predicting the habitat suitability of Chinese fire‐bellied newt Cynops orientalis under climate change

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