Abstract
AbstractConsumers constitute the vast majority of global terrestrial biodiversity. Yet, local consumer richness is poorly understood. Plant species richness offers a simple hypothesis to how the diversification of carbon substrates may promote the diversity of arthropods and fungi. We took this one step further and used databases on plant-consumer interaction links to derive the richness of associated biota per plant species (link score). Using a species inventory of 130 sites we investigated 1) how well the link score could be predicted by plant attributes and 2) if the sum of plant species’ observed or predicted link scores could predict site richness of arthropods and macrofungi better than plant species richness alone. We found plant link scores to be positively related to plant size, abundance, nativeness and ectomycorrhizal status. Link based indices generally improved prediction of richness, stressing the importance of plants as niche space for the megadiverse groups of insects and fungi.
Publisher
Cold Spring Harbor Laboratory
Reference39 articles.
1. TR8: an R package for easily retrieving plant species traits;Methods in Ecology and Evolution,2015
2. Brunbjerg, A.K. , Bruun, H.H. , Broendum, L. , Classen, A.T. , Fog, K. , Froeslev, T.G. , Goldberg, I. , Hansen, M.D.D. , Hoeye, T.T. , Laessoee, T. , Newman, G. , Skipper, L. , Soechting, U. & Ejrnaes, R. (2017a) A systematic survey of regional multitaxon biodiversity: evaluating strategies and coverage. bioRxiv.
3. Vascular plant species richness and bioindication predict multi-taxon species richness;Methods in Ecology and Evolution,2018
4. Ecospace: A unified framework for understanding variation in terrestrial biodiversity;Basic and Applied Ecology,2017
5. Species richness of insects and mites on trees: expanding Southwood;Journal of Animal Ecology,2001