Data from: Pyramids of species richness: the determinants and distribution of species diversity across trophic levels
Data files
Mar 03, 2016 version files 35.83 KB
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hierarchy measure.R
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null models.R
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supplemental food web data.csv
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May 22, 2018 version files 41.21 KB
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hierarchy measure.R
1.23 KB
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null models.R
1.94 KB
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Raw data.csv
35.76 KB
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README_for_Raw data.txt
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Abstract
How species richness is distributed across trophic levels determines several dimensions of ecosystem functioning, including herbivory, predation, and decomposition rates. We perform a meta-analysis of 72 large published food webs to investigate their trophic diversity structure and possible endogenous, exogenous, and methodological causal variables. Consistent with classic theory, we found that published food webs can generally be described as ‘pyramids of species richness’. The food webs were more predator-poor, prey-rich and hierarchical than is expected by chance or by the niche or cascade models. The trophic species richness distribution also depended on centrality, latitude, ecosystem-type and methodological bias. Although trophic diversity structure is generally pyramidal, under many conditions the structure is consistently uniform or inverse-pyramidal. Our meta-analysis adds nuance to classic assumptions about food web structure: diversity decreases with trophic level, but not under all conditions, and the decrease may be scale-dependent.