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

Redmond, C.M., Auga, J., Gewa, B., Segar, S.T., Miller, S.E., Molem, K., Weiblen, G.D., Butterill, P.T., Maiyah, G., Hood, A.S.C., Volf, M., Jorge, L.R., Basset, Y. and Novotny, V. (2019) High specialization and limited structural change in plant‐herbivore networks along a successional chronosequence in tropical montane forest. Ecography, 42 (1). pp. 162-172.

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Abstract

Secondary succession is well-understood, to the point of being predictable for plant com-munities, 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 most comprehensive successional inves-tigations of interaction networks, equating to > 40 person years of field sampling, and one of the few focused on montane tropical forests. We use a series of nine 0.2 ha for-est plots across young secondary, mature secondary and primary montane forest, sampled almost completely for woody plants and larval leaf chewers (Lepidoptera) using forest fell-ing. These networks comprised of 12 357 plant-herbivore interactions and were analysed using quantitative network metrics, a phylogenetically controlled host-use index and a qualitative network beta diversity measure. Network structural changes were low and spe-cialisation metrics surprisingly similar throughout succession, despite high network beta diversity. Herbivore abundance was greatest in the earliest stages, and hosts here had more species-rich herbivore assemblages, presumably reflecting higher palatability due to lower defensive investment. All herbivore communities were highly specialised, using a phylo-genetically narrow set of hosts, while host phylogenetic diversity itself decreased through-out the chronosequence. Relatively high phylogenetic diversity, and thus high diversity of plant defenses, in early succession forest may result in herbivores feeding on fewer hosts than expected. Successional theory, derived primarily from temperate systems, is limited in predicting tropical host-herbivore interactions. All succession stages harbour diverse and unique interaction networks, which together with largely similar network structures and consistent host use patterns, suggests general rules of assembly may apply to these systems.

Item Type: Article
Keywords: ecological gradients, food webs, herbivory
Divisions: Crop and Environment Sciences
Depositing User: Ms Kath Osborn
Date Deposited: 17 Jan 2020 14:42
Last Modified: 17 Jan 2020 14:42
URI: http://hau.repository.guildhe.ac.uk/id/eprint/17494

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