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https://hdl.handle.net/2440/71809
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Type: | Journal article |
Title: | Climate change, variability and conservation impacts in Australia |
Author: | Prowse, T. Brook, B. |
Citation: | Pacific Conservation Biology, 2011; 17(3):168-178 |
Publisher: | Surrey Beatty & Sons |
Issue Date: | 2011 |
ISSN: | 1038-2097 |
Statement of Responsibility: | Thomas A.A. Prowse and Barry W. Brook |
Abstract: | Australian conservation scientists, managers and decision makers must come to grips with anthropogenic climate change, imposed upon an already variable regional climate system. Pre- and post-instrumental records and climate proxies indicate that Australia has experienced wet and dry cycles over intra-decadal to millennial time scales. Precipitation variation across Australia is correlated with different climate features but reliable tools for seasonal rainfall prediction are still some years away. Atmosphere-Ocean General Circulation Models predict a widening of the Hadley circulation and strengthening of the Southern Annular Mode, which should result in reduced cool season rainfall over southern Australia. Shifts in the Australian climate over the Holocene epoch, most notably increased ENSO variability after 5 000 years ago, are associated with substantial vegetation change and indicate the speed at which ecosystems may be altered. The CO2 fertilization of plant biomes may mitigate increasing aridity to some extent but, in general, climate change is expected to negatively affect native vegetation and agricultural productivity. Sea-level rise is predicted to be substantial over this century and, when coupled with increased storm intensity, poses threats in the form of erosion, salinization and flooding. The best chance of building adaptable ecosystems and preserving ecosystem services requires the extension, integration and possibly optimization of reserve systems, in concert with improved management of other threatening processes (habitat loss, invasive species, overexploitation, pollution and disease). In addition, a price on carbon dioxide emissions would provide incentives for privately funded reforestation schemes, but additional incentives promoting mixed species over monoculture plantings would be required to assure maximum biodiversity benefits. |
Keywords: | Conservation management drought El Niño-Southern Oscillation Southern Annular Mode reserve system carbon market review |
Rights: | © Surrey Beatty and Sons Pty Ltd |
DOI: | 10.1071/PC110168 |
Description (link): | http://search.informit.com.au/documentSummary;dn=663310439244548;res=IELHSS |
Published version: | http://dx.doi.org/10.1071/pc110168 |
Appears in Collections: | Aurora harvest Earth and Environmental Sciences publications Environment Institute Leaders publications Environment Institute publications |
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