Assessment of Surface Hydrological Connectivity in an Ungauged Multi-Lake System with a Combined Approach Using Geostatistics and Spaceborne SAR Observations

	Assessment of Surface Hydrological Connectivity in an Ungauged Multi-Lake System with a Combined Approach Using Geostatistics and Spaceborne SAR Observations
	Chen, Yueqing; Wu, Lili; Zhang, Guangxin; Xu, Y. Jun; Tan, Zhiqiang; Qiao, Sijia
刊名	WATER
	2020
卷号	12 期号:10
英文摘要	Connectivity metrics for surface water are important for predicting floods and droughts, and improving water management for human use and ecological integrity at the landscape scale. The integrated use of synthetic aperture radar (SAR) observations and geostatistics approach can be useful for developing and quantifying these metrics and their changes, including geostatistical connectivity function (GCF), maximum distance of connection (MDC), surface water extent (SWE), and connection frequency. In this study, we conducted a geostatistical analysis based on 52 wet and dry binary state (i.e., water and non-water) rasters derived from Sentinel-1 A/B GRD products acquired from 2015 to 2019 for China's Momoge National Nature Reserve to investigate applicability and dynamics of the hydrologic connectivity metrics in an ungauged (i.e., data such as flow and water level are scarce) multi-lake system. We found: (1) generally, the change of GCF in North-South and Northeast-Southwest directions was greater than that in the West-East and Northwest-Southeast directions; (2) MDC had a threshold effect, generally at most 25 km along the W-E, NW-SE and NE-SW directions, and at most 45 km along the N-S direction; (3) the flow paths between lakes are diverse, including channelized flow, diffusive overbank flow, over-road flow and fill-and-merge; (4) generally, the values of the three surface hydrological connectivity indicators (i.e., the MDC, the SWE, and the conneciton frequency) all increased from May to August, and decreased from August to October; (5) generally, the closer the distance between the lakes, the greater the connection frequency, but it is also affected by the dam and road barrier. The study demonstrates the usefulness of the geostatistical method combining Sentinel-1 SAR image analysis in quantifying surface hydrological connectivity in an ungagged area. This approach should be applicable for other geographical regions, in order help resource managers and policymakers identify changes in surface hydrological connectivity, as well as address potential impacts of these changes on water resources for human use and/or ecological integrity at the landscape level.
内容类型	期刊论文
源URL	[http://159.226.73.51/handle/332005/20166]
专题	中国科学院南京地理与湖泊研究所
推荐引用方式 GB/T 7714	Chen, Yueqing,Wu, Lili,Zhang, Guangxin,et al. Assessment of Surface Hydrological Connectivity in an Ungauged Multi-Lake System with a Combined Approach Using Geostatistics and Spaceborne SAR Observations[J]. WATER,2020,12(10).
APA	Chen, Yueqing,Wu, Lili,Zhang, Guangxin,Xu, Y. Jun,Tan, Zhiqiang,&Qiao, Sijia.(2020).Assessment of Surface Hydrological Connectivity in an Ungauged Multi-Lake System with a Combined Approach Using Geostatistics and Spaceborne SAR Observations.WATER,12(10).
MLA	Chen, Yueqing,et al."Assessment of Surface Hydrological Connectivity in an Ungauged Multi-Lake System with a Combined Approach Using Geostatistics and Spaceborne SAR Observations".WATER 12.10(2020).