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Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains
Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains
by Guayasamin, Juan M. , Polato, Nicholas R. , Barthelet, Antoine , Zamudio, Kelly R. , Simmons, Mark P. , Funk, W. Chris , Poff, N. LeRoy , Thomas, Steven A. , Shah, Alisha A. , Flecker, Alexander S. , Gray, Miranda M. , Gill, Brian A. , Ghalambor, Cameron K. , Encalada, Andrea C. , Casner, Kayce L. , Messer, Philipp W. , Kondratieff, Boris C.
in Altitude / Animal Distribution / Animals / Biodiversity / Biological Sciences / Climate change / Dispersal / Dispersion / Divergence / Evolution / Genetic Speciation / Insecta - genetics / Insecta - physiology / Insects / Mountains / Population biology / Reproductive isolation / SEE COMMENTARY / Speciation / Species richness / Temperature / Temperature effects / Temperature tolerance / Thermal stress / Tropical Climate / Tropical environments
2018
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Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains
by Guayasamin, Juan M. , Polato, Nicholas R. , Barthelet, Antoine , Zamudio, Kelly R. , Simmons, Mark P. , Funk, W. Chris , Poff, N. LeRoy , Thomas, Steven A. , Shah, Alisha A. , Flecker, Alexander S. , Gray, Miranda M. , Gill, Brian A. , Ghalambor, Cameron K. , Encalada, Andrea C. , Casner, Kayce L. , Messer, Philipp W. , Kondratieff, Boris C.
in Altitude / Animal Distribution / Animals / Biodiversity / Biological Sciences / Climate change / Dispersal / Dispersion / Divergence / Evolution / Genetic Speciation / Insecta - genetics / Insecta - physiology / Insects / Mountains / Population biology / Reproductive isolation / SEE COMMENTARY / Speciation / Species richness / Temperature / Temperature effects / Temperature tolerance / Thermal stress / Tropical Climate / Tropical environments
2018
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Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains
Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains
by Guayasamin, Juan M. , Polato, Nicholas R. , Barthelet, Antoine , Zamudio, Kelly R. , Simmons, Mark P. , Funk, W. Chris , Poff, N. LeRoy , Thomas, Steven A. , Shah, Alisha A. , Flecker, Alexander S. , Gray, Miranda M. , Gill, Brian A. , Ghalambor, Cameron K. , Encalada, Andrea C. , Casner, Kayce L. , Messer, Philipp W. , Kondratieff, Boris C.
in Altitude / Animal Distribution / Animals / Biodiversity / Biological Sciences / Climate change / Dispersal / Dispersion / Divergence / Evolution / Genetic Speciation / Insecta - genetics / Insecta - physiology / Insects / Mountains / Population biology / Reproductive isolation / SEE COMMENTARY / Speciation / Species richness / Temperature / Temperature effects / Temperature tolerance / Thermal stress / Tropical Climate / Tropical environments
2018

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Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains
Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains
Journal Article

Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains

Guayasamin, Juan M.,
Polato, Nicholas R.,
Barthelet, Antoine,
Zamudio, Kelly R.,
Simmons, Mark P.,
Funk, W. Chris,
Poff, N. LeRoy,
Thomas, Steven A.,
Shah, Alisha A.,
Flecker, Alexander S.,
Gray, Miranda M.,
Gill, Brian A.,
Ghalambor, Cameron K.,
Encalada, Andrea C.,
Casner, Kayce L.,
Messer, Philipp W.,
Kondratieff, Boris C.
2018
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Overview
Species richness is greatest in the tropics, and much of this diversity is concentrated in mountains. Janzen proposed that reduced seasonal temperature variation selects for narrower thermal tolerances and limited dispersal along tropical elevation gradients [Janzen DH (1967) Am Nat 101:233–249]. These locally adapted traits should, in turn, promote reproductive isolation and higher speciation rates in tropical mountains compared with temperate ones. Here, we show that tropical and temperate montane stream insects have diverged in thermal tolerance and dispersal capacity, two key traits that are drivers of isolation in montane populations. Tropical species in each of three insect clades have markedly narrower thermal tolerances and lower dispersal than temperate species, resulting in significantly greater population divergence, higher cryptic diversity, higher tropical speciation rates, and greater accumulation of species over time. Our study also indicates that tropical montane species, with narrower thermal tolerance and reduced dispersal ability, will be especially vulnerable to rapid climate change.
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Publisher
National Academy of Sciences
Subject

Altitude

/ Animal Distribution

/ Animals

/ Biodiversity

/ Biological Sciences

/ Climate change

/ Dispersal

/ Dispersion

/ Divergence

/ Evolution

/ Genetic Speciation

/ Insecta - genetics

/ Insecta - physiology

/ Insects

/ Mountains

/ Population biology

/ Reproductive isolation

/ SEE COMMENTARY

/ Speciation

/ Species richness

/ Temperature

/ Temperature effects

/ Temperature tolerance

/ Thermal stress

/ Tropical Climate

/ Tropical environments

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