TY - JOUR
T1 - How well is the Basin Plan meeting its objectives? From the perspective of the Coorong, a sentinel of change in the Murray-Darling Basin
AU - Brookes, Justin D.
AU - Busch, Brendan
AU - Cassey, Phill
AU - Chilton, Daniel
AU - Dittmann, Sabine
AU - Dornan, Tyler
AU - Giatas, George
AU - Gillanders, Bronwyn M.
AU - Hipsey, Matt
AU - Huang, Peisheng
AU - Keneally, Christopher
AU - Jackson, Micha V.
AU - Mosley, Luke
AU - Mott, Rowan
AU - Paton, David
AU - Prowse, Thomas
AU - Waycott, Michelle
AU - Ye, Qifeng
AU - Zhai, Sherry
AU - Gibbs, Matthew
PY - 2023
Y1 - 2023
N2 - Freshwater aquatic ecosystems can be considered sentinels of change as they integrate signals from catchment, hydrology and biogeochemistry to provide an indication of how the system fluctuates. The Coorong estuary acts as a sentinel for the Murray-Darling Basin (MDB), Australia. Its location at the terminus of the Murray-Darling River systems, which drains more than 1 million square kilometres across 22 major catchments, means that any change to climate, water extraction or land use in the upstream catchments will have repercussions for the Coorong. It therefore acts as an indicator of the health of the MDB and the effectiveness of the Murray-Darling Basin Plan at protecting this ecosystem. Environmental water secured through the Murray-Darling Basin Plan and establishment of the Commonwealth Environmental Water Holder has been critical to preventing significant ecosystem decline in the Coorong. For most water years in the last decade environmental water has contributed to the majority of flow through the barrages. This has exported salt from the basin, reduced influx of salt from the ocean, and expanded available habitat for fish in the Coorong. However, the environmental flows have not been sufficient to arrest sand build up, and dredges still operate at the Murray Mouth during all but the highest flow events. There is a clear case for continued water management and reform, extending beyond the boundaries of the MDB, to further increase security of water flowing along the river system through the barrages and supporting the ecological health of the Coorong, and by association the full MDB.
AB - Freshwater aquatic ecosystems can be considered sentinels of change as they integrate signals from catchment, hydrology and biogeochemistry to provide an indication of how the system fluctuates. The Coorong estuary acts as a sentinel for the Murray-Darling Basin (MDB), Australia. Its location at the terminus of the Murray-Darling River systems, which drains more than 1 million square kilometres across 22 major catchments, means that any change to climate, water extraction or land use in the upstream catchments will have repercussions for the Coorong. It therefore acts as an indicator of the health of the MDB and the effectiveness of the Murray-Darling Basin Plan at protecting this ecosystem. Environmental water secured through the Murray-Darling Basin Plan and establishment of the Commonwealth Environmental Water Holder has been critical to preventing significant ecosystem decline in the Coorong. For most water years in the last decade environmental water has contributed to the majority of flow through the barrages. This has exported salt from the basin, reduced influx of salt from the ocean, and expanded available habitat for fish in the Coorong. However, the environmental flows have not been sufficient to arrest sand build up, and dredges still operate at the Murray Mouth during all but the highest flow events. There is a clear case for continued water management and reform, extending beyond the boundaries of the MDB, to further increase security of water flowing along the river system through the barrages and supporting the ecological health of the Coorong, and by association the full MDB.
KW - environmental flows
KW - estuary
KW - hypersaline
KW - Murray-Darling Basin Plan
KW - water reform
UR - http://www.scopus.com/inward/record.url?scp=85167426071&partnerID=8YFLogxK
U2 - 10.1080/13241583.2023.2241161
DO - 10.1080/13241583.2023.2241161
M3 - Review article
AN - SCOPUS:85167426071
SN - 1324-1583
VL - 27
SP - 223
EP - 240
JO - Australian Journal of Water Resources
JF - Australian Journal of Water Resources
IS - 2
ER -