Abstract
Generalities of food web structure have been identified for extant ecosystems. However, the trophic organization of ancient ecosystems is unresolved, as prior studies of fossil webs have been limited by low-resolution, high-uncertainty data. We compiled highly resolved, well-documented feeding interaction data for 700 taxa from the 48 million-year-old latest early Eocene Messel Shale, which contains a species assemblage that developed after an interval of protracted environmental and biotal change during and following the end-Cretaceous extinction. We compared the network structure of Messel lake and forest food webs to extant webs using analyses that account for scale dependence of structure with diversity and complexity. The Messel lake web, with 94 taxa, displays unambiguous similarities in structure to extant webs. While the Messel forest web, with 630 taxa, displays differences compared to extant webs, they appear to result from high diversity and resolution of insect–plant interactions, rather than substantive differences in structure. The evidence presented here suggests that modern trophic organization developed along with the modern Messel biota during an 18 Myr interval of dramatic post-extinction change. Our study also has methodological implications, as the Messel forest web analysis highlights limitations of current food web data and models.
Highlights
Comparative analyses of extant food webs have revealed generalities in the underlying network structure of trophic interactions among co-occurring taxa regardless of habitat [1,2,3,4,5]
The evidence presented here suggests that the structure of feeding interactions among Messel taxa was modern despite the major changes of the preceding 18 Myr and was apparently robust to the subsequent 48 Myr of species turnover and evolution
Comparisons of resource and consumer distributions, food web metrics and the fraction of links correctly predicted by the probabilistic niche model (PNM) place Messel lake web structure well within ranges observed for extant webs
Summary
Comparative analyses of extant food webs have revealed generalities in the underlying network structure of trophic interactions (feeding relationships) among co-occurring taxa regardless of habitat [1,2,3,4,5]. Following convention [1,2,3,4,5,8,32,33,34,35], we focused analyses on trophic species webs for the Messel lake and forest food webs and 30 extant habitat-specific webs used in previous comparative structural studies (electronic supplementary material, table S1).
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More From: Proceedings of the Royal Society B: Biological Sciences
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