Back to Search Start Over

The 10 Australian ecosystems most vulnerable to tipping points

Authors :
Laurance, William F
Dell, Bernard
Gawne, Ben
McMahon, Clive R
Yu, Richard
Hero, Jean-Marc
Schwarzkopf, Lin
Krockenberger, Andrew
Setterfield, Samantha A
Douglas, Michael
Silvester, Ewen
Mahony, Michael
Turton, Stephen M
Vella, Karen
Saikia, Udoy
Wahren, Carl-Henrik
Xu, Zhihong
Smith, Bradley
Cocklin, Chris
Lawes, Michael J
Hutley, Lindsay B
McCallum, Hamish
Dale, Patricia
Bird, Michael
Hardy, Giles
Prideaux, Gavin
Publication Year :
2023
Publisher :
La Trobe, 2023.

Abstract

MDFRC item.DOI:10.1016/j.biocon.2011.01.016.May 2011.We identify the 10 major terrestrial and marine ecosystems in Australia most vulnerable to tipping points, in which modest environmental changes can cause disproportionately large changes in ecosystem properties. To accomplish this we independently surveyed the coauthors of this paper to produce a list of candidate ecosystems, and then refined this list during a 2-day workshop. The list includes (1) elevationally restricted mountain ecosystems, (2) tropical savannas, (3) coastal floodplains and wetlands, (4) coral reefs, (5) drier rainforests, (6) wetlands and floodplains in the Murray-Darling Basin, (7) the Mediterranean ecosystems of southwestern Australia, (8) offshore islands, (9) temperate eucalypt forests, and (10) salt marshes and mangroves. Some of these ecosystems are vulnerable to widespread phase-changes that could fundamentally alter ecosystem properties such as habitat structure, species composition, fire regimes, or carbon storage. Others appear susceptible to major changes across only part of their geographic range, whereas yet others are susceptible to a large-scale decline of key biotic components, such as small mammals or stream-dwelling amphibians. For each ecosystem we consider the intrinsic features and external drivers that render it susceptible to tipping points, and identify subtypes of the ecosystem that we deem to be especially vulnerable.

Details

Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....9574a8fab81cab02048b1a84d4d203d1
Full Text :
https://doi.org/10.26181/22276357.v1