Abstract
Theory suggests that the structure of evolutionary history represented in a species community may affect its functioning, but phylogenetic diversity metrics do not allow for the identification of major differences in this structure. Here we propose a new metric, ELDERness (for Evolutionary Legacy of DivERsity) to estimate evolutionary branching patterns within communities by fitting a polynomial function to lineage-through-time (LTT) plots. We illustrate how real and simulated community branching patterns can be more correctly described by ELDERness and can successfully predict ecosystem functioning. In particular, the evolutionary history of branching patterns can be encapsulated by the parameters of third-order polynomial functions and further measured through only two parameters, the "ELDERness surfaces." These parameters captured variation in productivity of a grassland community better than existing phylogenetic diversity or diversification metrics and independent of species richness or presence of nitrogen fixers. Specifically, communities with small ELDERness surfaces (constant accumulation of lineages through time in LTT plots) were more productive, consistent with increased productivity resulting from complementary lineages combined with niche filling within lineages. Overall, while existing phylogenetic diversity metrics remain useful in many contexts, we suggest that our ELDERness approach better enables testing hypotheses that relate complex patterns of macroevolutionary history represented in local communities to ecosystem functioning.
Highlights
The phylogenetic structure of ecological communities conflates diversification of lineages, geographic movement ofThis content downloaded from 161.111.082.120 on September 26, 2017 01:41:13 AM All use subject to University of Chicago Press Terms and Conditions.lineages, and their local assembly
While existing phylogenetic diversity metrics remain useful in many contexts, we suggest that our ELDERness approach better enables testing hypotheses that relate complex patterns of macroevolutionary history represented in local communities to ecosystem functioning
We found that ELDERness surfaces explained the variation in productivity within a grassland better than current phylogenetic diversity metrics and did so independently of and better than species richness and a recognized driver of productivity, the presence of nitrogen fixers
Summary
The phylogenetic structure of ecological communities conflates diversification of lineages, geographic movement ofThis content downloaded from 161.111.082.120 on September 26, 2017 01:41:13 AM All use subject to University of Chicago Press Terms and Conditions (http://www.journals.uchicago.edu/t-and-c).lineages, and their local assembly. The phylogenetic structure of ecological communities conflates diversification of lineages, geographic movement of. The presence of such ancient lineages in a community may result from a high capacity to locally coexist. Phylogenetic structure of a community integrates the diversification, expansion, and local coexistence of lineages with the functioning of ecosystems. While such a relationship does not provide mechanistic explanation of ecosystem functioning—functional traits remain indispensable for this purpose—it demonstrates that past diversification can potentially drive present ecosystem functioning. We do not know how productivity or other ecosystem functions depend on the presence of species representing ancient, recent, or continuous diversifications
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