4.7 Article

Climate change adaptation strategies for sustainable water management in the Indus basin of Pakistan

期刊

SCIENCE OF THE TOTAL ENVIRONMENT
卷 878, 期 -, 页码 -

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ELSEVIER
DOI: 10.1016/j.scitotenv.2023.163143

关键词

Water security; Climate change; Indus basin; Water management strategies; Improved irrigation technologies; Sustainable development

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Pakistan's agriculture is facing water security challenges due to insecure water supply and poor governance. The increasing food demand and vulnerability to climate change pose future threats to water sustainability. This study evaluates the current and future water demands and management strategies for the Punjab and Sindh provinces in Pakistan, considering two climate change scenarios (RCP2.6 and RCP8.5). The results show that future water consumption increases significantly under both scenarios, but can be restrained by adapting alternative cropping patterns and implementing improved irrigation technologies.
Pakistan's agriculture faces water security challenges owing to insecure water supply and bad governance. The increas-ing food demand of the growing population and climate change vulnerability are future key threats to water sustain-ability. In this study, the current and future water demands as well as management strategies are evaluated for two climate change Representative Concentration Pathways (RCP2.6 and RCP8.5) for the Punjab and Sindh provinces in the Indus basin of Pakistan. The RCPs are assessed for the regional climate model REMO2015, which was found to be the best-fitting model for the current situation in a preceding model comparison using Taylor diagrams. The status quo water consumption (CWRarea) is estimated to 184 km3 yr-1, consisting of 76 % blue water (freshwater from sur -face water and groundwater), 16 % green water (precipitation), and 8 % grey water (required to leach out the salts from the root zone). The results of the future CWRareaindicates that RCP2.6 is more vulnerable than RCP8.5 in view of water consumption as the vegetation period of crops is reduced under RCP8.5. For both pathways (RCP2.6 and RCP8.5), CWRarea increases gradually in the midterm (2031-2070) and becomes extreme at the end of the long term (2061-2090). The future CWRarea increases up to +73 % under the RCP2.6 and up to +68 % in the RCP8.5 com-pared to the status quo. However, the increase in CWRarea could be restrained up to -3 % compared to the status quo through the adaptation of alternative cropping patterns. The results further show that the future CWRarea under climate change could be even decreased by up to -19 % through the collective implementation of improved irrigation tech-nologies and optimized cropping patterns.

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