Phylogenetic trophic specialization: a robust comparison of herbivorous guilds

Resource specialization is a key concept in ecology, but it is unexpectedly difficult to parameterize. Differences in resource availability, sampling effort and abundances preclude comparisons of incompletely sampled biotic interaction webs. Here, we extend the distance-based specialization index (D...

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Bibliographic Details
Published in:Oecologia 2017-12, Vol.185 (4), p.551-559
Main Authors: Jorge, Leonardo R., Novotny, Vojtech, Segar, Simon T., Weiblen, George D., Miller, Scott E., Basset, Yves, Lewinsohn, Thomas M.
Format: Article
Language:English
Subjects:
Abundance
Analysis
Biodiversity
Biomedical and Life Sciences
Consumers
Ecological conditions
Ecology
Guilds
Herbivores
Host plants
Host specificity
Hydrology/Water Resources
Interactions
Life Sciences
METHODS
Phylogenetics
Phylogeny
Plant diversity
Plant Sciences
Plant species
Plants (botany)
Rain forests
Rainforests
Rare species
Resource availability
Robustness
Sampling
Specialization
Species diversity
Specificity
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Summary:Resource specialization is a key concept in ecology, but it is unexpectedly difficult to parameterize. Differences in resource availability, sampling effort and abundances preclude comparisons of incompletely sampled biotic interaction webs. Here, we extend the distance-based specialization index (DSI) that measures trophic specialization by taking resource phylogenetic relatedness and availability into account into a rescaled version, DSI*. It is a versatile metric of specialization that expands considerably the scope and applicability, hence the usefulness, of DSI. The new metric also accounts for differences in abundance and sampling effort of consumers, which enables robust comparisons among distinct guilds of consumers. It also provides an abundance threshold for the reliability of the metric for rare species, a very desirable property given the difficulty of assessing any aspect of rare species accurately. We apply DSI* to an extensive dataset on interactions between insect herbivores from four folivorous guilds and their host plants in Papua New Guinean rainforests. We demonstrate that DSI*, contrary to the original DSI, is largely independent of sample size and weakly and non-linearly related with several host specificity measures that do not adjust for plant phylogeny. Thus, DSI* provides further insights into host specificity patterns; moreover, it is robust to the number and phylogenetic diversity of plant species selected to be sampled for herbivores. DSI* can be used for a broad range of comparisons of distinct feeding guilds, geographical locations and ecological conditions. This is a key advance in elucidating the interaction structure and evolution of highly diversified systems.
ISSN:0029-8549
1432-1939
DOI:10.1007/s00442-017-3980-7