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Journal of the Australian Rangeland Society
RESEARCH ARTICLE

Woodland bird declines in the Murray–Darling Basin: are there links with floodplain change?

Heather M. McGinness A C , Anthony D. Arthur A and Julian R. W. Reid B
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A CSIRO Ecosystem Sciences, GPO Box 284, Canberra, ACT 2601, Australia.

B Fenner School of Environment and Society, Australian National University, Canberra, ACT 2601, Australia.

C Corresponding author. Email: Heather.McGinness@csiro.au

The Rangeland Journal 32(3) 315-327 https://doi.org/10.1071/RJ10016
Submitted: 26 March 2010  Accepted: 4 August 2010   Published: 14 September 2010

Abstract

Woodland bird population declines in Australia have been attributed to various factors including habitat loss, fragmentation, and degradation. However, the influence of altered water availability in the landscape upon woodland bird populations has not been examined, particularly in terms of changes in flood regimes and subsequent loss of floodplain productivity. In this review, we examine the importance to woodland birds of floodplains, floods, and associated vegetation communities, highlighting potential links between declining water availability, habitat degradation, and bird populations.

Floodplain woodlands and forests may be important refuges for woodland bird populations because (1) floodplain woodlands and forests comprise some of the largest and most continuous vegetation remnants in south-east Australia; and (2) floods intermittently supply water, sediment and nutrients that drive greater primary and secondary productivity than found in woodlands not subject to flooding. However, floodplains in south-east Australia have been subject to substantial flow regime change, driven predominantly by dams and irrigation water use. Consequently, habitat quality for woodland birds has been degraded, potentially exacerbating population declines.

We suggest that despite such change, floodplain communities and their requisite floods remain of great importance for the persistence, productivity and diversity of woodland birds in Australian drylands. We hypothesise that (1) the influence of flooding upon primary and secondary productivity in floodplain and riparian zones is a key driver of resident bird populations, and a key determinant of nomadic/migratory bird use of a site; (2) alterations in flooding and consequent changes in productivity and condition of floodplain vegetation have contributed to observed declines in resident woodland birds in Australian drylands; and (3) the influence of flooding upon productivity extends beyond local populations of floodplain residents to non-floodplain populations via dispersal, and that floodplain woodlands often act as a source population for surrounding non-floodplain woodlands. We make several testable predictions regarding these hypotheses.

Additional keywords: flood regime, foodweb subsidies, habitat degradation, primary productivity, secondary productivity, terrestrial fauna.


Acknowledgements

We are grateful to Sue McIntyre and Veronica Doerr for their reviews of the draft manuscript, to Matt Colloff for comments, and to Steve Henry for assistance in producing Fig. 1. This research was supported by the CSIRO Water for a Healthy Country National Research Flagship, and by the Australian National Program for Sustainable Irrigation.


References


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