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Data from: Microhabitat and body size effects on heat tolerance: implications for responses to climate change (army ants: Formicidae, Ecitoninae)
- 负责人:
- DOI:
- doi:10.5061/dryad.7q3j8
- 摘要:
- - vs. below-ground activity) would correspond to differences in thermal tolerance (maximum critical temperatures: CTmax). Thermal buffering effects of soil can reduce
Data from: Hotter nests produce hatchling lizards with lower thermal tolerance
- 负责人:
- DOI:
- doi:10.5061/dryad.dp1fh
- 摘要:
- and had a lower critical thermal maximum (CTmax 38.7°C) and a higher critical thermal minimum (CTmin 6.2°C) than hatchlings from cold incubation group (40
Data from: Warm and out of breath: thermal phenotypic plasticity in oxygen supply
- 负责人:
- DOI:
- doi:10.5061/dryad.v3fb667
- 摘要:
- lenge is expected to be most pronounced. However, the observed thermal plasticity in oxygen supply failed to compensate for the increased demand. 6. Thus, we provide
Data from: Indirect genetic effects underlie oxygen-limited thermal tolerance within a coastal population of chinook salmon
- 负责人:
- DOI:
- doi:10.5061/dryad.682ns
- 摘要:
- nce of cardiac function and the critical thermal maximum (CTmax) of offspring from each family. Additive genetic variation in offspring phenotype was mostly negligible, al
Data from: Mechanisms of thermal adaptation and evolutionary potential of conspecific populations to changing environments
- 负责人:
- DOI:
- doi:10.5061/dryad.s04ng
- 摘要:
- an extreme desert climate had significantly higher critical thermal maximum (p<0.05) and broader optimum thermal window for aerobic scope (>3°C) than fish from
Data from: Elevational and microclimatic drivers of thermal tolerance in Andean Pristimantis frogs
- 负责人:
- DOI:
- doi:10.5061/dryad.gj04hd5
- 摘要:
- Aim: We analysed elevational and microclimatic drivers of thermal tolerance diversity in a tropical mountain frog clade to test thr
Data from: How to assess Drosophila heat tolerance: unifying static and dynamic tolerance assays to predict heat distribution limits
- 负责人:
- J?rgensen, Lisa
- 关键词:
- climate change critical thermal maximum CTmax distribution predictions heat death heat coma insects thermal death time curves
- DOI:
- doi:10.5061/dryad.840j728
- 摘要:
- 1. Thermal tolerance is a critical determinant of ectotherm distribution, which is likely to be influenced by future climate change. To predict suc
Data from: Local divergence of thermal reaction norms among amphibian populations is affected by pond temperature variation
- 负责人:
- DOI:
- doi:10.5061/dryad.6d09b
- 摘要:
- nce curve (TPC) and critical thermal maximum (CTmax)) and life history (thermal developmental reaction norms (TDRN)) traits in a network of Rana arval
Data from: Stepping inside the niche: microclimate data are critical for accurate assessment of species’ vulnerability to climate change
- 负责人:
- DOI:
- doi:10.5061/dryad.68m52
- 摘要:
- ' known thermal limits. In this study, we use statistical downscaling to account for environmental factors and develop high-resolution estima
Data from: Intraspecific variation in lizard heat tolerance alters estimates of climate impact
- 负责人:
- Herrando-Pérez, Salvador
- DOI:
- doi:10.5061/dryad.1553pc3
- 摘要:
- on in thermal tolerance is spatially constant or overridden by interspecific variation. Typically, this rationale is implicit in sourcing one critical thermal maximum
