Riparian tree cover enhances the resistance and stability of woodland bird communities during an extreme climatic event

Dale Nimmo, Angie Haslem, James Q. Radford, Mark Hall, Andrew F. Bennett

Research output: Contribution to journalArticle

28 Citations (Scopus)

Abstract

1. Ecosystems worldwide increasingly are subject to multiple interacting disturbances. Biodiversity in anthropogenic landscapes can be enhanced by manipulating landscape patterns; but could such landscape management also assist biota to cope with the effects of extreme climatic events, such as drought? 2. We surveyed woodland bird communities in 24 'whole' landscapes (each 100 km2) in an agricultural region of south-eastern Australia near the beginning (2002'3), middle (2006'7) and after (2011'12) an extreme drought (the 'Millennium Drought'). We quantified the resistance, resilience and stability of the avifauna to the decade of drought and related these measures to properties of the study landscapes: the extent of wooded habitat, configuration of habitat, land-use composition, landscape productivity, and geographic context.3. Landscape productivity, represented by the extent of riparian tree cover in the landscape, was the strongest driver of the resistance, resilience and stability of avifaunal richness to severe drought. Woodland bird communities in landscapes with larger areas of riparian tree cover retained a larger proportion of their species pool during the Millennium Drought, and consequently had greater stability over the drought's duration.4. Synthesis and applications. Landscape properties can influence the resistance, resilience and stability of faunal communities to an extreme climatic event. By protecting, restoring and enhancing native vegetation in productive areas of landscapes along stream systems, drainage lines and floodplains, land managers can effectively build climatic refugia, and thereby enhance the resistance of biota to climatic extremes. However, a net decline over the entire study period suggests this will not, by itself, arrest decline during periods of extreme drought.
Original languageEnglish
Pages (from-to)449-458
Number of pages10
JournalJournal of Applied Ecology
Volume53
Issue number2
Early online date2015
DOIs
Publication statusPublished - 2016

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