posted on 2023-05-18, 17:15authored byMokany, K, Thomson, JJ, Lynch, AJJ, Gregory JordanGregory Jordan, Ferrier, S
Climate change is expected to directly alter the composition of communities and the functioning of ecosystems across the globe. Improving our understanding of links between biodiversity and ecosystem functioning across large spatial scales and rapid global change is a major priority to help identify management responses that will retain diverse, functioning systems. Here we address this challenge by linking projected changes in plant community composition and functional attributes (height, leaf area, seed mass) under climate change across Tasmania, Australia. Using correlative community-level modeling, we found that projected changes in plant community composition were not consistently related to projected changes in community mean trait values. In contrast, we identified specific mechanisms through which alternative combinations of projected functional and compositional change across Tasmania could be realized, including loss/replacement of functionally similar species (lowland grasslands/grassy woodlands) and loss of a small number of functionally unique species (lowland forests). Importantly, we demonstrate how these linked projections of change in community composition and functional attributes can be utilized to inform specific management actions that may assist in maintaining diverse, functioning ecosystems under climate change.
History
Publication title
Ecological Applications
Volume
25
Issue
8
Pagination
2132-2141
ISSN
1051-0761
Department/School
School of Natural Sciences
Publisher
Ecological Soc Amer
Place of publication
1707 H St Nw, Ste 400, Washington, USA, Dc, 20006-3915
Rights statement
Copyright 2015 by the Ecological Society of America