Energy, range dynamics and global species richness patterns: Reconciling mid-domain effects and encironmental determinants of avian diversity

D Storch; RG Davies; S Zajicek; CDL Orme; V Olson; Gavin Thomas; T Ding; PC Rasmussen; RS Ridgely; PM Bennett; Timothy Blackburn; IPF Owens; KJ Gaston

doi:10.1111/j.1461-0248.2006.00984.x

Energy, range dynamics and global species richness patterns: Reconciling mid-domain effects and encironmental determinants of avian diversity

D Storch, RG Davies, S Zajicek, CDL Orme, V Olson, Gavin Thomas, T Ding, PC Rasmussen, RS Ridgely, PM Bennett, Timothy Blackburn, IPF Owens, KJ Gaston

Biosciences

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Abstract

Spatial patterns of species richness follow climatic and environmental variation, but could reflect random dynamics of species ranges (the mid-domain effect, MDE). Using data on the global distribution of birds, we compared predictions based on energy availability (actual evapotranspiration, AET, the best single correlate of avian richness) with those of range dynamics models. MDE operating within the global terrestrial area provides a poor prediction of richness variation, but if it operates separately within traditional biogeographic realms, it explains more global variation in richness than AET. The best predictions, however, are given by a model of global range dynamics modulated by AET, such that the probability of a range spreading into an area is proportional to its AET. This model also accurately predicts the latitudinal variation in species richness and variation of species richness both within and between realms, thus representing a compelling mechanism for the major trends in global biodiversity.

Original language	English
Pages (from-to)	1308-1320
Number of pages	13
Journal	Ecology Letters
Volume	9
DOIs	https://doi.org/10.1111/j.1461-0248.2006.00984.x
Publication status	Published - 1 Dec 2006

Keywords

climate-richness relationship
mountains
latitudinal gradient of diversity
hotspots
mid-domain effect
species-energy relationship
more-individuals hypothesis
biogeography
spatial models
productivity

UN SDGs

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

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10.1111/j.1461-0248.2006.00984.x

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Storch, D., Davies, RG., Zajicek, S., Orme, CDL., Olson, V., Thomas, G., Ding, T., Rasmussen, PC., Ridgely, RS., Bennett, PM., Blackburn, T., Owens, IPF., & Gaston, KJ. (2006). Energy, range dynamics and global species richness patterns: Reconciling mid-domain effects and encironmental determinants of avian diversity. Ecology Letters, 9, 1308-1320. https://doi.org/10.1111/j.1461-0248.2006.00984.x

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title = "Energy, range dynamics and global species richness patterns: Reconciling mid-domain effects and encironmental determinants of avian diversity",

abstract = "Spatial patterns of species richness follow climatic and environmental variation, but could reflect random dynamics of species ranges (the mid-domain effect, MDE). Using data on the global distribution of birds, we compared predictions based on energy availability (actual evapotranspiration, AET, the best single correlate of avian richness) with those of range dynamics models. MDE operating within the global terrestrial area provides a poor prediction of richness variation, but if it operates separately within traditional biogeographic realms, it explains more global variation in richness than AET. The best predictions, however, are given by a model of global range dynamics modulated by AET, such that the probability of a range spreading into an area is proportional to its AET. This model also accurately predicts the latitudinal variation in species richness and variation of species richness both within and between realms, thus representing a compelling mechanism for the major trends in global biodiversity.",

keywords = "climate-richness relationship, mountains, latitudinal gradient of diversity, hotspots, mid-domain effect, species-energy relationship, more-individuals hypothesis, biogeography, spatial models, productivity",

author = "D Storch and RG Davies and S Zajicek and CDL Orme and V Olson and Gavin Thomas and T Ding and PC Rasmussen and RS Ridgely and PM Bennett and Timothy Blackburn and IPF Owens and KJ Gaston",

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doi = "10.1111/j.1461-0248.2006.00984.x",

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Storch, D, Davies, RG, Zajicek, S, Orme, CDL, Olson, V, Thomas, G, Ding, T, Rasmussen, PC, Ridgely, RS, Bennett, PM, Blackburn, T, Owens, IPF & Gaston, KJ 2006, 'Energy, range dynamics and global species richness patterns: Reconciling mid-domain effects and encironmental determinants of avian diversity', Ecology Letters, vol. 9, pp. 1308-1320. https://doi.org/10.1111/j.1461-0248.2006.00984.x

TY - JOUR

T1 - Energy, range dynamics and global species richness patterns: Reconciling mid-domain effects and encironmental determinants of avian diversity

AU - Storch, D

AU - Davies, RG

AU - Zajicek, S

AU - Orme, CDL

AU - Olson, V

AU - Thomas, Gavin

AU - Ding, T

AU - Rasmussen, PC

AU - Ridgely, RS

AU - Bennett, PM

AU - Blackburn, Timothy

AU - Owens, IPF

AU - Gaston, KJ

PY - 2006/12/1

Y1 - 2006/12/1

N2 - Spatial patterns of species richness follow climatic and environmental variation, but could reflect random dynamics of species ranges (the mid-domain effect, MDE). Using data on the global distribution of birds, we compared predictions based on energy availability (actual evapotranspiration, AET, the best single correlate of avian richness) with those of range dynamics models. MDE operating within the global terrestrial area provides a poor prediction of richness variation, but if it operates separately within traditional biogeographic realms, it explains more global variation in richness than AET. The best predictions, however, are given by a model of global range dynamics modulated by AET, such that the probability of a range spreading into an area is proportional to its AET. This model also accurately predicts the latitudinal variation in species richness and variation of species richness both within and between realms, thus representing a compelling mechanism for the major trends in global biodiversity.

AB - Spatial patterns of species richness follow climatic and environmental variation, but could reflect random dynamics of species ranges (the mid-domain effect, MDE). Using data on the global distribution of birds, we compared predictions based on energy availability (actual evapotranspiration, AET, the best single correlate of avian richness) with those of range dynamics models. MDE operating within the global terrestrial area provides a poor prediction of richness variation, but if it operates separately within traditional biogeographic realms, it explains more global variation in richness than AET. The best predictions, however, are given by a model of global range dynamics modulated by AET, such that the probability of a range spreading into an area is proportional to its AET. This model also accurately predicts the latitudinal variation in species richness and variation of species richness both within and between realms, thus representing a compelling mechanism for the major trends in global biodiversity.

KW - climate-richness relationship

KW - mountains

KW - latitudinal gradient of diversity

KW - hotspots

KW - mid-domain effect

KW - species-energy relationship

KW - more-individuals hypothesis

KW - biogeography

KW - spatial models

KW - productivity

U2 - 10.1111/j.1461-0248.2006.00984.x

DO - 10.1111/j.1461-0248.2006.00984.x

M3 - Article

C2 - 17118005

SN - 1461-0248

VL - 9

SP - 1308

EP - 1320

JO - Ecology Letters

JF - Ecology Letters

ER -

Energy, range dynamics and global species richness patterns: Reconciling mid-domain effects and encironmental determinants of avian diversity

Abstract

Keywords

UN SDGs

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