Building mountain biodiversity: geological and evolutionary processes

Carsten Rahbek; Michael Krabbe Borregaard; Alexandre Antonelli; Robert  K. Colwell; Ben G. Holt; David Bravo Nogues; Christian Mac Ørum; Katherine Richardson; Minik Thorleif Rosing; Robert James Whittaker; Jon Fjeldså

doi:10.1126/science.aax0151

Building mountain biodiversity: geological and evolutionary processes

Carsten Rahbek, Michael Krabbe Borregaard, Alexandre Antonelli, Robert K. Colwell, Ben G. Holt, David Bravo Nogues, Christian Mac Ørum, Katherine Richardson, Minik Thorleif Rosing, Robert James Whittaker, Jon Fjeldså

Section for Geobiology

68 Citations (Scopus)

Abstract

Mountain regions are unusually biodiverse, with rich aggregations of small-ranged species that form centers of endemism. Mountains play an array of roles for Earth’s biodiversity and affect neighboring lowlands through biotic interchange, changes in regional climate, and nutrient runoff. The high biodiversity of certain mountains reflects the interplay of multiple evolutionary mechanisms: enhanced speciation rates with distinct opportunities for coexistence and persistence of lineages, shaped by long-term climatic changes interacting with topographically dynamic landscapes. High diversity in most tropical mountains is tightly linked to bedrock geology—notably, areas comprising mafic and ultramafic lithologies, rock types rich in magnesium and poor in phosphate that present special requirements for plant physiology. Mountain biodiversity bears the signature of deep-time evolutionary and ecological processes, a history well worth preserving.

Original language	English
Journal	Science
Volume	365
Issue number	6458
Pages (from-to)	1114-1119
Number of pages	6
ISSN	0036-8075
DOIs	https://doi.org/10.1126/science.aax0151
Publication status	Published - 13 Sept 2019

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title = "Building mountain biodiversity: geological and evolutionary processes",

abstract = "Mountain regions are unusually biodiverse, with rich aggregations of small-ranged species that form centers of endemism. Mountains play an array of roles for Earth{\textquoteright}s biodiversity and affect neighboring lowlands through biotic interchange, changes in regional climate, and nutrient runoff. The high biodiversity of certain mountains reflects the interplay of multiple evolutionary mechanisms: enhanced speciation rates with distinct opportunities for coexistence and persistence of lineages, shaped by long-term climatic changes interacting with topographically dynamic landscapes. High diversity in most tropical mountains is tightly linked to bedrock geology—notably, areas comprising mafic and ultramafic lithologies, rock types rich in magnesium and poor in phosphate that present special requirements for plant physiology. Mountain biodiversity bears the signature of deep-time evolutionary and ecological processes, a history well worth preserving.",

author = "Carsten Rahbek and Borregaard, {Michael Krabbe} and Alexandre Antonelli and {K. Colwell}, Robert and Holt, {Ben G.} and Nogues, {David Bravo} and {Mac {\O}rum}, Christian and Katherine Richardson and Rosing, {Minik Thorleif} and Whittaker, {Robert James} and Jon Fjelds{\aa}",

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doi = "10.1126/science.aax0151",

language = "English",

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T1 - Building mountain biodiversity

T2 - geological and evolutionary processes

AU - Rahbek, Carsten

AU - Borregaard, Michael Krabbe

AU - Antonelli, Alexandre

AU - K. Colwell, Robert

AU - Holt, Ben G.

AU - Nogues, David Bravo

AU - Mac Ørum, Christian

AU - Richardson, Katherine

AU - Rosing, Minik Thorleif

AU - Whittaker, Robert James

AU - Fjeldså, Jon

PY - 2019/9/13

Y1 - 2019/9/13

N2 - Mountain regions are unusually biodiverse, with rich aggregations of small-ranged species that form centers of endemism. Mountains play an array of roles for Earth’s biodiversity and affect neighboring lowlands through biotic interchange, changes in regional climate, and nutrient runoff. The high biodiversity of certain mountains reflects the interplay of multiple evolutionary mechanisms: enhanced speciation rates with distinct opportunities for coexistence and persistence of lineages, shaped by long-term climatic changes interacting with topographically dynamic landscapes. High diversity in most tropical mountains is tightly linked to bedrock geology—notably, areas comprising mafic and ultramafic lithologies, rock types rich in magnesium and poor in phosphate that present special requirements for plant physiology. Mountain biodiversity bears the signature of deep-time evolutionary and ecological processes, a history well worth preserving.

AB - Mountain regions are unusually biodiverse, with rich aggregations of small-ranged species that form centers of endemism. Mountains play an array of roles for Earth’s biodiversity and affect neighboring lowlands through biotic interchange, changes in regional climate, and nutrient runoff. The high biodiversity of certain mountains reflects the interplay of multiple evolutionary mechanisms: enhanced speciation rates with distinct opportunities for coexistence and persistence of lineages, shaped by long-term climatic changes interacting with topographically dynamic landscapes. High diversity in most tropical mountains is tightly linked to bedrock geology—notably, areas comprising mafic and ultramafic lithologies, rock types rich in magnesium and poor in phosphate that present special requirements for plant physiology. Mountain biodiversity bears the signature of deep-time evolutionary and ecological processes, a history well worth preserving.

U2 - 10.1126/science.aax0151

DO - 10.1126/science.aax0151

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Building mountain biodiversity: geological and evolutionary processes

Abstract

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