Data from: High specialization and limited structural change in plant‐herbivore networks along a successional chronosequence in tropical montane forest

Conor M. Redmond, John Auga, Bradley Gewa, Simon T. Segar, Scott E. Miller, Kenneth Molem, George D. Weiblen, Phillip T. Butterill, Gibson Maiyah, Amelia S.C. Hood, Martin Volf, Leonardo R. Jorge, Yves Basset, Vojtech Novotny, Philip T. Butterill & Amelia S. C. Hood
Secondary succession is well‐understood, to the point of being predictable for plant communities, but the successional changes in plant‐herbivore interactions remains poorly explored. This is particularly true for tropical forests, despite the increasing importance of early successional stages in tropical landscapes. Deriving expectations from successional theory, we examine properties of plant‐herbivore interaction networks while accounting for host phylogenetic structure along a succession chronosequence in montane rainforest in Papua New Guinea. We present one of the...
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