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DOI	10.1007/s12665-021-09905-y
	Interpreting land subsidence impacts due to groundwater depletion using remote sensing-based GRACE gravity anomaly and DInSAR technique: a study on north-western parts of India
	Pranjal, Pranshu; Kadiyan, Neha; Chatterjee, R. S.; Kumar, Dheeraj; Sati, Madhu Sudan
通讯作者	Pranjal, P (corresponding author), Indian Sch Mines, Indian Inst Technol, Geodet & GPS Lab, Dhanbad 826004, Bihar, India. ; Pranjal, P (corresponding author), Indian Inst Remote Sensing, Geosci Dept, Dehra Dun 248001, Uttarakhand, India.
来源期刊	ENVIRONMENTAL EARTH SCIENCES
ISSN	1866-6280
EISSN	1866-6299
出版年	2021
卷号	80 期号:17
英文摘要	Extraction of water reserve is at risk, especially at several locations of north-western India due to tremendous growth in populations and excessive use of water over the decade. It has been evident through this study that several regions in Punjab such as Dera Bassi, Landran, Singhpura, and Ambala in Haryana are facing constant depletion of groundwater at the rate of 46.26 cm/year, 49.16 cm/year, 120.77 cm/year and 237.69 cm/year, respectively, during 2005-2018. Whereas, depleting trends have also been analysed with derived GRACE gravity anomaly of 12.65 cm/year at respective locations. Although these areas lie in arid to semiarid zone, with moderate precipitation in the monsoon month of June-August, it does not meet the requirement of recharging the aquifer to the previous level, hence causing land deformation, which is mostly witnessing tensional, compressional and shear cracks with vertical, horizontal and diagonal orientation in nature, which further deliberated using conventional DInSAR. To identify the deformed hotspots in the affected areas, DInSAR was performed using remotely sensed Sentinal-1 SAR sensor. Additionally, to interpret the seismic consequences around the study area, pre-seismic data were examined and categorised medium intensity (in between 4.5 and 4.9 mb) earthquake, which did not affect the structures. Therefore, from the study, it was agreeable to manifest that the deformation which took place in the area is due to massive long-term extraction of groundwater.
英文关键词	Groundwater depletion Land subsidence GRACE DInSAR Building cracks
类型	Article
语种	英语
收录类别	SCI-E
WOS记录号	WOS:000687680000009
WOS关键词	LAS-VEGAS VALLEY ; BASIN ; WITHDRAWAL ; RECOVERY ; NEVADA
WOS类目	Environmental Sciences ; Geosciences, Multidisciplinary ; Water Resources
WOS研究方向	Environmental Sciences & Ecology ; Geology ; Water Resources
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/368489
作者单位	[Pranjal, Pranshu] Indian Sch Mines, Indian Inst Technol, Geodet & GPS Lab, Dhanbad 826004, Bihar, India; [Kadiyan, Neha; Sati, Madhu Sudan] HNB Garhwal Univ, Srinagar 249161, Uttarakhand, India; [Pranjal, Pranshu; Kadiyan, Neha; Chatterjee, R. S.] Indian Inst Remote Sensing, Geosci Dept, Dehra Dun 248001, Uttarakhand, India; [Kumar, Dheeraj] Indian Sch Mines, Indian Inst Technol, Dept Min Engn, Dhanbad 826004, Bihar, India
推荐引用方式 GB/T 7714	Pranjal, Pranshu,Kadiyan, Neha,Chatterjee, R. S.,et al. Interpreting land subsidence impacts due to groundwater depletion using remote sensing-based GRACE gravity anomaly and DInSAR technique: a study on north-western parts of India[J],2021,80(17).
APA	Pranjal, Pranshu,Kadiyan, Neha,Chatterjee, R. S.,Kumar, Dheeraj,&Sati, Madhu Sudan.(2021).Interpreting land subsidence impacts due to groundwater depletion using remote sensing-based GRACE gravity anomaly and DInSAR technique: a study on north-western parts of India.ENVIRONMENTAL EARTH SCIENCES,80(17).
MLA	Pranjal, Pranshu,et al."Interpreting land subsidence impacts due to groundwater depletion using remote sensing-based GRACE gravity anomaly and DInSAR technique: a study on north-western parts of India".ENVIRONMENTAL EARTH SCIENCES 80.17(2021).