Simulating the impacts of reduced streamflow on localised groundwater recharge in NSW

R. Crosbie, S. Charles, G. Fu, G. Hodgson, D. Dutta, A. McCallum
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Abstract

: The new climate data and modelled streamflow produced by DPE-Water for the development of NSW regional water strategies have been used to investigate how a drying climate could impact groundwater resources across NSW. The new climate data consists of two 10,000-year sequences of stochastically generated daily rainfall and potential evapotranspiration representing historical and future (dry scenario) climate conditions, respectively. Future rainfall projections have a wide range of uncertainty; hence a dry scenario was chosen to allow the assessment of an extreme climate risk. The modelled streamflow from the historical and future stochastic climate sequences were used to estimate changes to localised recharge through losing streams and overbank flooding. Changes in modelled streamflow were used to estimate how stage height and thus in-stream recharge from losing streams may change. The changes in recharge from in-stream losses were estimated to vary from -55.4% to -3.4% across NSW. Overbank flooding recharge changes estimated from the streamflow changes were more extreme than the other estimated recharge changes, with a projected range from -90.5% to +56.1% (with only a single gauge, out of 42 investigated, producing an increase).
模拟水流减少对新南威尔士州局部地下水补给的影响
DPE-Water为新南威尔士州区域水资源战略的发展而产生的新气候数据和模拟流量已被用于研究干燥气候如何影响整个新南威尔士州的地下水资源。新的气候数据由两个10000年随机生成的日降雨量和潜在蒸散量序列组成,分别代表历史和未来(干旱情景)气候条件。对未来降雨量的预测有很大的不确定性;因此,选择了干旱情景来评估极端气候风险。利用历史和未来随机气候序列模拟的河流流量来估计通过河流损失和河岸洪水引起的局部补给的变化。模拟河流流量的变化被用来估计阶段高度以及失去河流的河流补给可能发生的变化。据估计,整个新南威尔士州流内损失的补给变化在-55.4%到-3.4%之间。从河流流量变化中估计的河岸洪水补给变化比其他估计的补给变化更为极端,预测范围从-90.5%到+56.1%(在调查的42个测量中,只有一个测量产生了增加)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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