Comment on sustainable salinity management in ‘the three-infrastructures framework and water risks in the Murray-Darling Basin, Australia’ by Williams et al. (2022)

IF 2.4 Q2 WATER RESOURCES
Glen Walker, Barry Hart
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引用次数: 0

Abstract

ABSTRACTIn their recent paper, Williams et al. (2022) evaluated salinity management in the Murray-Darling Basin (MDB) as ‘unsustainable’, and a risk to water availability and quality in the Basin. However, this evaluation was weakened first by a failure to analyse the Basin salinity strategies of the last thirty-five years, noting that these have led to Basin salinity target being met since 2010; and second to not providing Basin-specific data to support their evaluation. Contrary to Williams et al. comments, existing evidence indicates that infrastructure intended to improve water use efficiency (e.g. salt leaching, salt disposal basins) will generally reduce stream salinity. The requirement for a leaching efficiency means that there is a lower limit to water use efficiency improvements, but this is unlikely itself to be a major risk. We agree that the changes that have occurred over the last twenty years would warrant a review of salt storage options in the MDB that better matches future needs.KEYWORDS: Murray Basinsalinitysalt disposalstream salinitysaline ecosystems AcknowledgementsThe authors would like thank Asitha Katupitiya, Acting General Manager, Sustainable Diversion Limit Adjustment Mechanism, River Management Portfolio, Murray–Darling Basin Authority, Canberra for his comments on earlier draft of the manuscript. We would also like to thank the reviewers for constructive comments that have improved the manuscript.Disclosure statementThe authors are not aware of any conflicts of interest.Additional informationFundingThis work received no funding.Notes on contributorsGlen WalkerGlen Walker has over 30 years research experience with CSIRO in groundwater and salinity before forming Grounded in Water. Glen has been awarded the WE Woods Award for salinity research; and has been a member of the Independent Audit Group-Salinity for the MDBA; the Independent Expert Scientific Committee Coal Seam Gas and Large Coal Developments and a member of the University of Melbourne Expert panel on irrigation return flows.Barry HartBarry Hart is an Emeritus Professor at Monash University and previously was Director of the Monash University Water Studies Centre. He is currently Chair of Alluvium Holdings and Alluvium Consulting Australia, and a board member of EcoFutures. Barry was a member of the Murray-Darling Basin Authority Board for 9 years (2009-2018) and, amongst many other past appointments, has had leadership roles on the Commonwealth Environmental Water Scientific Advisory Panel, the Great Barrier Reef Water Quality Partnership Science Advisory Panel and the Gippsland Lakes and Catchment Task Force. In 2003, Barry received a Centenary Medal for services to water quality management and environmental protection. He was also made a Member of the Order of Australia (AM) in June 2012.
Williams等人在《澳大利亚墨累-达令盆地的三个基础设施框架和水风险》中对可持续盐度管理的评论(2022)
在他们最近的论文中,Williams等人(2022)评估墨累-达令盆地(MDB)的盐度管理是“不可持续的”,并且对盆地的水可用性和质量构成风险。然而,由于未能对过去35年的盆地盐度策略进行分析,这一评估首先被削弱了,注意到这些策略导致了自2010年以来盆地盐度目标的实现;第二,没有提供特定盆地的数据来支持他们的评估。与Williams等人的评论相反,现有证据表明,旨在提高水利用效率的基础设施(如盐浸出、盐处理盆地)通常会降低河流的盐度。对浸出效率的要求意味着提高用水效率有一个下限,但这本身不太可能是一个主要风险。我们同意,鉴于过去20年发生的变化,有必要对多边开发银行的盐储存方案进行审查,以更好地满足未来需求。作者感谢堪培拉默里-达令流域管理局河流管理部门可持续导流限制调整机制代理总经理Asitha Katupitiya对本文早期草稿的评论。我们还要感谢审稿人提出的建设性意见,这些意见改进了本文。披露声明作者不知道有任何利益冲突。本工作未获得资助。格伦沃克在形成水中接地之前,与CSIRO在地下水和盐度方面有超过30年的研究经验。格伦曾因盐度研究获得WE Woods奖;并一直是MDBA独立审计小组的成员;煤层气和大型煤炭开发独立专家科学委员会以及墨尔本大学灌溉回流专家小组成员。Barry Hart是莫纳什大学名誉教授,曾任莫纳什大学水资源研究中心主任。他目前是冲积控股和冲积咨询澳大利亚的主席,以及EcoFutures的董事会成员。巴里是穆雷-达令盆地管理局董事会9年(2009-2018)的成员,在许多其他过去的任命中,曾在英联邦环境水科学咨询小组、大堡礁水质伙伴关系科学咨询小组和吉普斯兰湖泊和集水区工作队担任领导职务。2003年,他因在水质管理和环境保护方面的服务而获得百年奖章。2012年6月,他被授予澳大利亚勋章(AM)。
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来源期刊
CiteScore
5.10
自引率
21.90%
发文量
25
期刊介绍: The Australasian Journal of Water Resources ( AJWR) is a multi-disciplinary regional journal dedicated to scholarship, professional practice and discussion on water resources planning, management and policy. Its primary geographic focus is on Australia, New Zealand and the Pacific Islands. Papers from outside this region will also be welcomed if they contribute to an understanding of water resources issues in the region. Such contributions could be due to innovations applicable to the Australasian water community, or where clear linkages between studies in other parts of the world are linked to important issues or water planning, management, development and policy challenges in Australasia. These could include papers on global issues where Australasian impacts are clearly identified.
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