The body temperature of active amphibians along a tropical elevation gradient: patterns of mean and variance and inference from environmental data

The body temperature of active amphibians along a tropical elevation gradient: patterns of mean and variance and inference from environmental data

1. Tropical montane amphibians have been the focus of recent and crucial conservation efforts. These initiatives require understanding on how elevation influences amphibian body temperature beyond the simplistic assumption of a monotonical decrease with elevation. This study addresses patterns and p...

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Veröffentlicht in:Functional ecology 2013-10, Vol.27 (5), p.1145-1154
Hauptverfasser: Navas, Carlos Arturo, Carvajalino-Fernández, Juan Manuel, Saboyá-Acosta, Liliana Patricia, Rueda-Solano, Luis Alberto, Carvajalino-Fernández, Marcos Antonio
Format: Artikel
Sprache:eng
Schlagworte:
Amphibia. Reptilia
Amphibian
Amphibians
Andes
Animal and plant ecology
Animal physiological ecology
Animal, plant and microbial ecology
Anuran
Autoecology
Biological and medical sciences
Biomes
Bleeding time
Body Temperature
Climate models
Ecology
Ecosystems
Elevation
Frogs
Fundamental and applied biological sciences. Psychology
General aspects
Human ecology
Reptiles & amphibians
Species
Thermal Ecology
Topographical elevation
Tropical
Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution
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container_end_page 1154
container_issue 5
container_start_page 1145
container_title Functional ecology
container_volume 27
creator Navas, Carlos Arturo
Carvajalino-Fernández, Juan Manuel
Saboyá-Acosta, Liliana Patricia
Rueda-Solano, Luis Alberto
Carvajalino-Fernández, Marcos Antonio
description 1. Tropical montane amphibians have been the focus of recent and crucial conservation efforts. These initiatives require understanding on how elevation influences amphibian body temperature beyond the simplistic assumption of a monotonical decrease with elevation. This study addresses patterns and potential for inference in this context. 2. As elevation increases, mean body temperature (BT) of tropical montane amphibians decreases linearly, but intrapopulation variation (VAR) in BT increases exponentially. These relationships are influenced by biome structure, but display both local nuances and species-specific remarks. 3. Substrate temperature (ST) and BT hold a close relationship across elevation. The noise around this relationship is lowest in mid-elevation cloud forests and maximum in the paramo, a biome above the tree line. 4. The relationships between BT and ST, and between elevation and either BT or VAR, are valuable to infer general patterns of thermal ecology for amphibians and to highlight species-specific exceptional cases. 5. The BT of montane tropical amphibians can be estimated from temperature data collected at a scale compatible with the size and microhabitat of individual frogs. Estimates from elevation are valid as general trends that can be enhanced if natural history is taken into account. Worldclim data allow for rough inference only and have limited predictive power. 6. A framework is proposed to study how the BT and VAR of amphibians change with elevation. This framework encompasses information on biome structure and natural history.
doi_str_mv 10.1111/1365-2435.12106
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Tropical montane amphibians have been the focus of recent and crucial conservation efforts. These initiatives require understanding on how elevation influences amphibian body temperature beyond the simplistic assumption of a monotonical decrease with elevation. This study addresses patterns and potential for inference in this context. 2. As elevation increases, mean body temperature (BT) of tropical montane amphibians decreases linearly, but intrapopulation variation (VAR) in BT increases exponentially. These relationships are influenced by biome structure, but display both local nuances and species-specific remarks. 3. Substrate temperature (ST) and BT hold a close relationship across elevation. The noise around this relationship is lowest in mid-elevation cloud forests and maximum in the paramo, a biome above the tree line. 4. The relationships between BT and ST, and between elevation and either BT or VAR, are valuable to infer general patterns of thermal ecology for amphibians and to highlight species-specific exceptional cases. 5. The BT of montane tropical amphibians can be estimated from temperature data collected at a scale compatible with the size and microhabitat of individual frogs. Estimates from elevation are valid as general trends that can be enhanced if natural history is taken into account. Worldclim data allow for rough inference only and have limited predictive power. 6. A framework is proposed to study how the BT and VAR of amphibians change with elevation. 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Tropical montane amphibians have been the focus of recent and crucial conservation efforts. These initiatives require understanding on how elevation influences amphibian body temperature beyond the simplistic assumption of a monotonical decrease with elevation. This study addresses patterns and potential for inference in this context. 2. As elevation increases, mean body temperature (BT) of tropical montane amphibians decreases linearly, but intrapopulation variation (VAR) in BT increases exponentially. These relationships are influenced by biome structure, but display both local nuances and species-specific remarks. 3. Substrate temperature (ST) and BT hold a close relationship across elevation. The noise around this relationship is lowest in mid-elevation cloud forests and maximum in the paramo, a biome above the tree line. 4. The relationships between BT and ST, and between elevation and either BT or VAR, are valuable to infer general patterns of thermal ecology for amphibians and to highlight species-specific exceptional cases. 5. The BT of montane tropical amphibians can be estimated from temperature data collected at a scale compatible with the size and microhabitat of individual frogs. Estimates from elevation are valid as general trends that can be enhanced if natural history is taken into account. Worldclim data allow for rough inference only and have limited predictive power. 6. A framework is proposed to study how the BT and VAR of amphibians change with elevation. This framework encompasses information on biome structure and natural history.</abstract><cop>Oxford</cop><pub>Blackwell Publishing</pub><doi>10.1111/1365-2435.12106</doi><tpages>10</tpages></addata></record>
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identifier ISSN: 0269-8463
ispartof Functional ecology, 2013-10, Vol.27 (5), p.1145-1154
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source Access via Wiley Online Library; EZB-FREE-00999 freely available EZB journals; Wiley Online Library (Open Access Collection); JSTOR
subjects Amphibia. Reptilia
Amphibian
Amphibians
Andes
Animal and plant ecology
Animal physiological ecology
Animal, plant and microbial ecology
Anuran
Autoecology
Biological and medical sciences
Biomes
Bleeding time
Body Temperature
Climate models
Ecology
Ecosystems
Elevation
Frogs
Fundamental and applied biological sciences. Psychology
General aspects
Human ecology
Reptiles & amphibians
Species
Thermal Ecology
Topographical elevation
Tropical
Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution
title The body temperature of active amphibians along a tropical elevation gradient: patterns of mean and variance and inference from environmental data
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