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

Nicholas R. Polato; Brian A. Gill; Alisha A. Shah; Miranda M. Gray; Kayce L. Casner; Antoine Barthelet; Philipp W. Messer; Mark P. Simmons; Juan M. Guayasamin; Andrea C. Encalada; Boris C. Kondratieff; Alexander S. Flecker; Steven A. Thomas; Cameron K. Ghalambor; N. LeRoy Poff; W. Chris Funk; Kelly R. Zamudio

doi:10.1073/pnas.1809326115

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

Nicholas R. Polato
, Brian A. Gill
, Alisha A. Shah
, Miranda M. Gray
, Kayce L. Casner
, Antoine Barthelet
, Philipp W. Messer
, Mark P. Simmons
, Juan M. Guayasamin
, Andrea C. Encalada
, Boris C. Kondratieff
, Alexander S. Flecker
, Steven A. Thomas
, Cameron K. Ghalambor
, N. LeRoy Poff
, W. Chris Funk
, Kelly R. Zamudio^*

^*Corresponding author for this work

Cornell University
Colorado State University
Colorado State University
Cornell University College of Agriculture and Life Sciences
Universidad Tecnológica Indoamérica
School of Natural Resources
University of Canberra

Research output: Contribution to journal › Article › peer-review

211 Scopus citations

Abstract

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.

Original language	English
Pages (from-to)	12471-12476
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	115
Issue number	49
DOIs	https://doi.org/10.1073/pnas.1809326115
State	Published - 4 Dec 2018

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

Keywords

Climate variability
Cryptic diversity
Elevation gradient
Speciation
Thermal tolerance

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10.1073/pnas.1809326115

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Polato, N. R., Gill, B. A., Shah, A. A., Gray, M. M., Casner, K. L., Barthelet, A., Messer, P. W., Simmons, M. P., Guayasamin, J. M., Encalada, A. C., Kondratieff, B. C., Flecker, A. S., Thomas, S. A., Ghalambor, C. K., LeRoy Poff, N., Chris Funk, W., & Zamudio, K. R. (2018). Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains. Proceedings of the National Academy of Sciences of the United States of America, 115(49), 12471-12476. https://doi.org/10.1073/pnas.1809326115

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title = "Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains",

abstract = "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.",

keywords = "Climate variability, Cryptic diversity, Elevation gradient, Speciation, Thermal tolerance",

author = "Polato, \{Nicholas R.\} and Gill, \{Brian A.\} and Shah, \{Alisha A.\} and Gray, \{Miranda M.\} and Casner, \{Kayce L.\} and Antoine Barthelet and Messer, \{Philipp W.\} and Simmons, \{Mark P.\} and Guayasamin, \{Juan M.\} and Encalada, \{Andrea C.\} and Kondratieff, \{Boris C.\} and Flecker, \{Alexander S.\} and Thomas, \{Steven A.\} and Ghalambor, \{Cameron K.\} and \{LeRoy Poff\}, N. and \{Chris Funk\}, W. and Zamudio, \{Kelly R.\}",

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Polato, NR, Gill, BA, Shah, AA, Gray, MM, Casner, KL, Barthelet, A, Messer, PW, Simmons, MP, Guayasamin, JM , Encalada, AC, Kondratieff, BC, Flecker, AS, Thomas, SA, Ghalambor, CK, LeRoy Poff, N, Chris Funk, W & Zamudio, KR 2018, 'Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains', Proceedings of the National Academy of Sciences of the United States of America, vol. 115, no. 49, pp. 12471-12476. https://doi.org/10.1073/pnas.1809326115

TY - JOUR

T1 - Narrow thermal tolerance and low dispersal drive higher speciation in tropical mountains

AU - Polato, Nicholas R.

AU - Gill, Brian A.

AU - Shah, Alisha A.

AU - Gray, Miranda M.

AU - Casner, Kayce L.

AU - Barthelet, Antoine

AU - Messer, Philipp W.

AU - Simmons, Mark P.

AU - Guayasamin, Juan M.

AU - Encalada, Andrea C.

AU - Kondratieff, Boris C.

AU - Flecker, Alexander S.

AU - Thomas, Steven A.

AU - Ghalambor, Cameron K.

AU - LeRoy Poff, N.

AU - Chris Funk, W.

AU - Zamudio, Kelly R.

PY - 2018/12/4

Y1 - 2018/12/4

N2 - 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.

AB - 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.

KW - Climate variability

KW - Cryptic diversity

KW - Elevation gradient

KW - Speciation

KW - Thermal tolerance

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DO - 10.1073/pnas.1809326115

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AN - SCOPUS:85057631434

SN - 0027-8424

VL - 115

SP - 12471

EP - 12476

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 49

ER -

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

Abstract

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Keywords

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