Taking species abundance distributions beyond individuals

Hélène Morlon; Ethan P. White; Rampal S. Etienne; Jessica L. Green; Annette Ostling; David Alonso; Brian J. Enquist; Fangliang He; Allen Hurlbert; Anne E. Magurran; Brian A. Maurer; Brian J. McGill; Han Olff; David Storch; Tommaso Zillio

doi:10.1111/j.1461-0248.2009.01318.x

Taking species abundance distributions beyond individuals

Hélène Morlon^*
, Ethan P. White
, Rampal S. Etienne
, Jessica L. Green
, Annette Ostling
, David Alonso
, Brian J. Enquist
, Fangliang He
, Allen Hurlbert
, Anne E. Magurran
, Brian A. Maurer
, Brian J. McGill
, Han Olff
, David Storch
, Tommaso Zillio

^*Corresponding author for this work

University of Oregon
Utah State University
University of Groningen
Santa Fe Institute
University of Michigan, Ann Arbor
University of Arizona
Conservation International
University of Alberta
University of North Carolina at Chapel Hill
University of St Andrews
Michigan State University
Charles University

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

83 Scopus citations

Abstract

The species abundance distribution (SAD) is one of the few universal patterns in ecology. Research on this fundamental distribution has primarily focused on the study of numerical counts, irrespective of the traits of individuals. Here we show that considering a set of Generalized Species Abundance Distributions (GSADs) encompassing several abundance measures, such as numerical abundance, biomass and resource use, can provide novel insights into the structure of ecological communities and the forces that organize them. We use a taxonomically diverse combination of macroecological data sets to investigate the similarities and differences between GSADs. We then use probability theory to explore, under parsimonious assumptions, theoretical linkages among them. Our study suggests that examining different GSADs simultaneously in natural systems may help with assessing determinants of community structure. Broadening SADs to encompass multiple abundance measures opens novel perspectives in biodiversity research and warrants future empirical and theoretical developments.

Original language	English
Pages (from-to)	488-501
Number of pages	14
Journal	Ecology Letters
Volume	12
Issue number	6
DOIs	https://doi.org/10.1111/j.1461-0248.2009.01318.x
State	Published - Jun 2009
Externally published	Yes

Keywords

Biomass
Body-size
Energy use
Macroecology
Metabolic theory
Resource partitioning
Size distribution
Size-density relationship
Size-energy relationship
Species abundance distribution

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10.1111/j.1461-0248.2009.01318.x

Cite this

@article{73466728f3c74449802397ddce5afa74,

title = "Taking species abundance distributions beyond individuals",

abstract = "The species abundance distribution (SAD) is one of the few universal patterns in ecology. Research on this fundamental distribution has primarily focused on the study of numerical counts, irrespective of the traits of individuals. Here we show that considering a set of Generalized Species Abundance Distributions (GSADs) encompassing several abundance measures, such as numerical abundance, biomass and resource use, can provide novel insights into the structure of ecological communities and the forces that organize them. We use a taxonomically diverse combination of macroecological data sets to investigate the similarities and differences between GSADs. We then use probability theory to explore, under parsimonious assumptions, theoretical linkages among them. Our study suggests that examining different GSADs simultaneously in natural systems may help with assessing determinants of community structure. Broadening SADs to encompass multiple abundance measures opens novel perspectives in biodiversity research and warrants future empirical and theoretical developments.",

keywords = "Biomass, Body-size, Energy use, Macroecology, Metabolic theory, Resource partitioning, Size distribution, Size-density relationship, Size-energy relationship, Species abundance distribution",

author = "H{\'e}l{\`e}ne Morlon and White, \{Ethan P.\} and Etienne, \{Rampal S.\} and Green, \{Jessica L.\} and Annette Ostling and David Alonso and Enquist, \{Brian J.\} and Fangliang He and Allen Hurlbert and Magurran, \{Anne E.\} and Maurer, \{Brian A.\} and McGill, \{Brian J.\} and Han Olff and David Storch and Tommaso Zillio",

year = "2009",

month = jun,

doi = "10.1111/j.1461-0248.2009.01318.x",

language = "英语",

volume = "12",

pages = "488--501",

journal = "Ecology Letters",

issn = "1461-023X",

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number = "6",

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T1 - Taking species abundance distributions beyond individuals

AU - Morlon, Hélène

AU - White, Ethan P.

AU - Etienne, Rampal S.

AU - Green, Jessica L.

AU - Ostling, Annette

AU - Alonso, David

AU - Enquist, Brian J.

AU - He, Fangliang

AU - Hurlbert, Allen

AU - Magurran, Anne E.

AU - Maurer, Brian A.

AU - McGill, Brian J.

AU - Olff, Han

AU - Storch, David

AU - Zillio, Tommaso

PY - 2009/6

Y1 - 2009/6

N2 - The species abundance distribution (SAD) is one of the few universal patterns in ecology. Research on this fundamental distribution has primarily focused on the study of numerical counts, irrespective of the traits of individuals. Here we show that considering a set of Generalized Species Abundance Distributions (GSADs) encompassing several abundance measures, such as numerical abundance, biomass and resource use, can provide novel insights into the structure of ecological communities and the forces that organize them. We use a taxonomically diverse combination of macroecological data sets to investigate the similarities and differences between GSADs. We then use probability theory to explore, under parsimonious assumptions, theoretical linkages among them. Our study suggests that examining different GSADs simultaneously in natural systems may help with assessing determinants of community structure. Broadening SADs to encompass multiple abundance measures opens novel perspectives in biodiversity research and warrants future empirical and theoretical developments.

AB - The species abundance distribution (SAD) is one of the few universal patterns in ecology. Research on this fundamental distribution has primarily focused on the study of numerical counts, irrespective of the traits of individuals. Here we show that considering a set of Generalized Species Abundance Distributions (GSADs) encompassing several abundance measures, such as numerical abundance, biomass and resource use, can provide novel insights into the structure of ecological communities and the forces that organize them. We use a taxonomically diverse combination of macroecological data sets to investigate the similarities and differences between GSADs. We then use probability theory to explore, under parsimonious assumptions, theoretical linkages among them. Our study suggests that examining different GSADs simultaneously in natural systems may help with assessing determinants of community structure. Broadening SADs to encompass multiple abundance measures opens novel perspectives in biodiversity research and warrants future empirical and theoretical developments.

KW - Biomass

KW - Body-size

KW - Energy use

KW - Macroecology

KW - Metabolic theory

KW - Resource partitioning

KW - Size distribution

KW - Size-density relationship

KW - Size-energy relationship

KW - Species abundance distribution

UR - https://www.scopus.com/pages/publications/65649125185

U2 - 10.1111/j.1461-0248.2009.01318.x

DO - 10.1111/j.1461-0248.2009.01318.x

M3 - 文章

C2 - 19490012

AN - SCOPUS:65649125185

SN - 1461-023X

VL - 12

SP - 488

EP - 501

JO - Ecology Letters

JF - Ecology Letters

IS - 6

ER -

Taking species abundance distributions beyond individuals

Abstract

Keywords

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