niche for isotopic ecology

Fifty years ago, GE Hutchinson defined the ecological niche as a hypervolume in n‐dimensional space with environmental variables as axes. Ecologists have recently developed renewed interest in the concept, and technological advances now allow us to use stable isotope analyses to quantify these nic...

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Bibliographic Details
Published inFrontiers in ecology and the environment Vol. 5; no. 8; pp. 429 - 436
Main Authors Newsome, Seth D, Carlos Martinez del Rio, Stuart Bearhop, Donald L. Phillips
Format Journal Article
LanguageEnglish
Published Ecological Society of America 01.10.2007
Subjects
animals
ecologists
environmental factors
methodology
niches
ontogeny
stable isotopes
tissues
wildlife management
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Summary:Fifty years ago, GE Hutchinson defined the ecological niche as a hypervolume in n‐dimensional space with environmental variables as axes. Ecologists have recently developed renewed interest in the concept, and technological advances now allow us to use stable isotope analyses to quantify these niche dimensions. Analogously, we define the isotopic niche as an area (in δ‐space) with isotopic values (δ‐values) as coordinates. To make isotopic measurements comparable to other niche formulations, we propose transforming δ‐space to p‐space, where axes represent relative proportions of isotopically distinct resources incorporated into an animal's tissues. We illustrate the isotopic niche with two examples: the application of historic ecology to conservation biology and ontogenetic niche shifts. Sustaining renewed interest in the niche requires novel methods to measure the variables that define it. Stable isotope analyses are a natural, perhaps crucial, tool in contemporary studies of the ecological niche.
Bibliography:http://dx.doi.org/10.1890/060150.1
ISSN:1540-9295
1540-9309
DOI:10.1890/060150.1