ASSESSMENT OF POTENTIAL IMPACTS OF CLIMATE AND SOCIO-ECONOMIC CHANGES ON FUTURE WATER SECURITY IN THE HIMALAYAS, INDIA

IF 0.7 Q4 GEOGRAPHY, PHYSICAL Geographia Technica Pub Date : 2021-05-31 DOI:10.21163/GT_2021.162.01

Q. V. Dau, K. Kuntiyawichai

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Abstract

: The shifts in socio-economic development and climate conditions currently become the challenge for water resources system security in the Himalayan region. The aforesaid concern was found pertinent to the main objective of this study, which is to evaluate the combined impacts of climate and socioeconomic changes on likely future water security in the Himalayan basin, India. The future climate was projected by Multi-model Ensembles under the Representative Concentration Pathway (RCP) 4.5 scenario. Land use projection under the Shared Socioeconomic Pathway (SSP) 1 scenario was performed using Markov Chain, whose transition probabilities were derived using multi-layer perceptron neural networks. The results showed that future annual precipitation and temperature at the downstream part will increase from baseline by 5% – 10% and 1.0 o C – 1.55 o C, respectively. The land use projections showed that irrigated areas will decrease for Punjab by 10% – 30% and Haryana by 5% – 10% due to the increase in urbanisation, whereas it will be increased in Rajasthan by 12% – 18%. Consequently, the annual irrigation water demand was found to be decreased by 10% for Punjab and 5% for Haryana, while it will be increased by 13% for Rajasthan. Eventually, the obtained findings will be beneficial for planning strategies to ensure water security in the Himalayan region, in particular the Beas-Sutlej basin.

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气候和社会经济变化对印度喜马拉雅山未来水安全的潜在影响评估

当前，社会经济发展和气候条件的变化成为喜马拉雅地区水资源系统安全面临的挑战。上述担忧与本研究的主要目标有关，该研究旨在评估气候和社会经济变化对印度喜马拉雅盆地未来可能的水安全的综合影响。在代表性浓度路径(RCP) 4.5情景下，通过多模式组合对未来气候进行了预估。利用马尔可夫链进行了共享社会经济路径(SSP) 1情景下的土地利用预测，并利用多层感知器神经网络推导了其转移概率。结果表明，未来下游年降水量和气温将分别比基线增加5% ~ 10%和1.0℃~ 1.55℃。土地利用预测显示，由于城市化的增加，旁遮普邦的灌溉面积将减少10% - 30%，哈里亚纳邦的灌溉面积将减少5% - 10%，而拉贾斯坦邦的灌溉面积将增加12% - 18%。因此，旁遮普的年灌溉用水需求减少了10%，哈里亚纳邦减少了5%，而拉贾斯坦邦的年灌溉用水需求将增加13%。最终，获得的研究结果将有利于规划战略，以确保喜马拉雅地区，特别是Beas-Sutlej盆地的水安全。

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来源期刊

Geographia Technica GEOGRAPHY, PHYSICAL-

CiteScore

2.30

自引率

14.30%

发文量

期刊介绍： Geographia Technica is a journal devoted to the publication of all papers on all aspects of the use of technical and quantitative methods in geographical research. It aims at presenting its readers with the latest developments in G.I.S technology, mathematical methods applicable to any field of geography, territorial micro-scalar and laboratory experiments, and the latest developments induced by the measurement techniques to the geographical research. Geographia Technica is dedicated to all those who understand that nowadays every field of geography can only be described by specific numerical values, variables both oftime and space which require the sort of numerical analysis only possible with the aid of technical and quantitative methods offered by powerful computers and dedicated software. Our understanding of Geographia Technica expands the concept of technical methods applied to geography to its broadest sense and for that, papers of different interests such as: G.l.S, Spatial Analysis, Remote Sensing, Cartography or Geostatistics as well as papers which, by promoting the above mentioned directions bring a technical approach in the fields of hydrology, climatology, geomorphology, human geography territorial planning are more than welcomed provided they are of sufficient wide interest and relevance.