Costs and benefits of thermoregulation revisited: both the heterogeneity and spatial structure of temperature drive energetic costs.
about
Thinking about Change: An Integrative Approach for Examining Cognition in a Changing WorldMicroclimate Data Improve Predictions of Insect Abundance Models Based on Calibrated Spatiotemporal Temperatures.Toward a mechanistic understanding of animal migration: incorporating physiological measurements in the study of animal movementA conceptual framework for understanding thermal constraints on ectotherm activity with implications for predicting responses to global change.Temperature extremes: geographic patterns, recent changes, and implications for organismal vulnerabilities.A simple method to predict body temperature of small reptiles from environmental temperatureAre mountain habitats becoming more suitable for generalist than cold-adapted lizards thermoregulation?Wind constraints on the thermoregulation of high mountain lizards.Lizards fail to plastically adjust nesting behavior or thermal tolerance as needed to buffer populations from climate warming.Configuration of the thermal landscape determines thermoregulatory performance of ectothermsThermal variability alters the impact of climate warming on consumer-resource systems.Variation in subsurface thermal characteristics of microrefuges used by range core and peripheral populations of the American pika (Ochotona princeps).Does ecophysiology mediate reptile responses to fire regimes? Evidence from Iberian lizardsBehavioral buffering of global warming in a cold-adapted lizard.Long-term changes in abundances of Sonoran Desert lizards reveal complex responses to climatic variation.Temperature dependence of predation stress and the nutritional ecology of a generalist herbivore.Thermal ecology of three coexistent desert lizards: Implications for habitat divergence and thermal vulnerability.Too hot to die? The effects of vegetation shading on past, present, and future activity budgets of two diurnal skinks from arid Australia.Beyond the Mean: Biological Impacts of Cryptic Temperature Change.Thermal physiology of three sympatric and syntopic Liolaemidae lizards in cold and arid environments of Patagonia (Argentina).The Vulnerability of Tropical Ectotherms to Warming Is Modulated by the Microclimatic Heterogeneity.Fine-Scale Microclimatic Variation Can Shape the Responses of Organisms to Global Change in Both Natural and Urban Environments.Life in the Frequency Domain: the Biological Impacts of Changes in Climate Variability at Multiple Time Scales.An ecophysiological background for biogeographic patterns of two island lizards?Covariance modulates the effect of joint temperature and food variance on ectotherm life-history traits.
P2860
Q26830888-3F2E3CA0-F0CF-4677-A3A7-0EB0B478FFA4Q27307845-C0F5A07A-686D-4EEF-808E-5045BBB977B3Q28603300-FE995B11-C1AB-4837-8279-328A76781FE9Q31030937-B59418C6-A178-4E34-A40D-39CE3EBA8408Q31072640-9FCAA421-9B36-4547-BAEF-83FAA0E2F111Q31104866-13ADAA68-B0C5-490B-BF6D-5E223E641F7FQ31106752-EC292F07-B5DF-4D72-A20B-3DDFE43A5E06Q31121834-FBB5C9B4-9B74-46BD-9BCA-9F3B2F3DD3BDQ31123460-EEE0D245-8410-45A3-B841-71BAE87F7CD7Q31127096-9629E72D-DBFA-45ED-B8C4-528F82A0AECFQ31142996-765B27B8-D9B4-424E-A756-C179B300017EQ31170943-628F1F87-FE4D-4931-9F60-119AF45E8CD9Q36058617-AB61E24F-2331-4194-A81B-0976C9519264Q36069454-42522915-26EA-4FC8-8F1C-1E2C69381C52Q39006060-DE3297F4-3F6D-48A1-B662-4E0A1A96A25FQ39168619-0AD7BC5E-4CF3-4EA2-8908-442C1504AEF0Q39176811-B4F7959E-D2C8-4C40-A847-1CBF407F27C9Q41636207-C02B0FFA-A307-4B0B-AF0B-221BD3A1793FQ43963711-A32F4937-BE79-47A2-A713-E8441B3E28C4Q46333487-4374111C-0E7E-46F3-8D54-7903C2DF56DDQ46524191-AEC46FD0-A715-4899-B34C-A03E328C9102Q46559370-6E1348A6-254E-4F58-8B0E-8207B4F1B2E0Q48090626-6DCD0BFB-A02D-4FEE-B5FF-5CA7310ED698Q50270574-E4FCD2B4-7DF5-4FF3-8DE2-3D985F35F8B6Q51321634-9E478225-D9A0-4FE8-A32F-975B99E0E2C5
P2860
Costs and benefits of thermoregulation revisited: both the heterogeneity and spatial structure of temperature drive energetic costs.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Costs and benefits of thermore ...... erature drive energetic costs.
@en
Costs and benefits of thermore ...... erature drive energetic costs.
@nl
type
label
Costs and benefits of thermore ...... erature drive energetic costs.
@en
Costs and benefits of thermore ...... erature drive energetic costs.
@nl
prefLabel
Costs and benefits of thermore ...... erature drive energetic costs.
@en
Costs and benefits of thermore ...... erature drive energetic costs.
@nl
P356
P1476
Costs and benefits of thermore ...... erature drive energetic costs.
@en
P2093
Michael J Angilletta
Michael W Sears
P304
P356
10.1086/680008
P577
2015-02-09T00:00:00Z