2021
DOI: 10.1071/mf21057
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Flow to nowhere: the disconnect between environmental watering and the conservation of threatened species in the Murray–Darling Basin, Australia

Abstract: The Murray-Darling Basin Plan was established with the objective of restoring water from irrigation to the environment, thereby conserving wetlands and biodiversity. We examined whether the Plan is achieving this objective by assessing whether environmental watering has helped conserve threatened flow-dependent fauna. Two frog species, two waterbirds and four fishes, were assessed for their conservation status in relation to (1) whether they were targeted in environmental watering plans, (2) whether population… Show more

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Cited by 16 publications
(12 citation statements)
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“…Thus, the ability to positively impact native species with e‐flows might diminish over time; particularly in systems where human use and climate change limit the amount of water available to implement e‐flows (Bruckerhoff et al, 2022; Horne et al, 2019; Wineland et al, 2021). Few empirical tests of e‐flow implementations exist because of a lack of long‐term biological and hydrological data (Davies et al, 2014; Ryan et al, 2021), and it is possible that attempting to mimic or protect natural flow regimes will not completely compensate for the effects of other stressors on riverine ecosystems (e.g., non‐native species, water quality, habitat changes; Propst et al, 2008; McManamay et al, 2013; Thompson et al, 2018), especially if flow reductions from consumptive water use and climate change continue. Long‐term data on flow and biotic responses are critical for evaluating the effectiveness of e‐flows, and we demonstrate that failing to prioritise e‐flows has clear implications for native fishes.…”
Section: Discussionmentioning
confidence: 99%
“…Thus, the ability to positively impact native species with e‐flows might diminish over time; particularly in systems where human use and climate change limit the amount of water available to implement e‐flows (Bruckerhoff et al, 2022; Horne et al, 2019; Wineland et al, 2021). Few empirical tests of e‐flow implementations exist because of a lack of long‐term biological and hydrological data (Davies et al, 2014; Ryan et al, 2021), and it is possible that attempting to mimic or protect natural flow regimes will not completely compensate for the effects of other stressors on riverine ecosystems (e.g., non‐native species, water quality, habitat changes; Propst et al, 2008; McManamay et al, 2013; Thompson et al, 2018), especially if flow reductions from consumptive water use and climate change continue. Long‐term data on flow and biotic responses are critical for evaluating the effectiveness of e‐flows, and we demonstrate that failing to prioritise e‐flows has clear implications for native fishes.…”
Section: Discussionmentioning
confidence: 99%
“…This might be achieved by providing NRM bodies with stronger legislative and regulatory frameworks for sustainable management or creation of independent management authorities with appropriate powers. Such an approach was embodied in the establishment of the Murray-Darling Management Authority and associated legislation, but its progress has been beset by substantial failures, partly owing to interstate disagreement and vested interests (Beasley 2021;Chen et al 2021;Ryan et al 2021). Catchments within states should not have transboundary problems.…”
Section: Discussionmentioning
confidence: 99%
“…The knowledge base about environmental flow requirements and mechanisms developed in highly regulated systems, such as most of the Murray-Darling Basin, Australia, may provide useful insights for many Ramsar wetlands once the information becomes more widely available. Although some information has recently been published on the use of environmental flows in the Murray-Darling Basin (Koehn et al 2020), there are also concerns that these measures may not be as effective as anticipated (Chen et al 2021;Kirsch et al 2021;Ryan et al 2021). There is every possibility though that the adoption of complementary measures to assist with the restoration of the rivers and wetlands in the Murray-Darling Basin (Baumgartner et al 2020) may provide synergies with the 'no regrets' adaptation measures mentioned above.…”
Section: Water Management As An Adaptation Actionmentioning
confidence: 99%