[Characteristics and Indicative Significance of Groundwater Stable Isotopes in the Loess Plateau at the Regional Scale]

Huan Jing Ke Xue. 2024 Sep 8;45(9):5290-5297. doi: 10.13227/j.hjkx.202311066.
[Article in Chinese]

Abstract

Regional groundwater recharge is a critical scientific issue for sustainable groundwater resource development and management. However, spatial variations in groundwater recharge in the Loess Plateau (LP) remain poorly understood. To fill this knowledge gap, a systematic sampling campaign and stable isotope analysis were carried out for groundwater (shallow aquifer) in 13 major catchments during July 2019. The main objectives of this study were: ① to understandthe spatial distribution and influencing factors of stable isotopes in groundwater and to reveal the groundwater recharge sources and pathways and their spatial variations, combined with the precipitation stable isotope datasets. Stable isotopes in groundwater had poor spatial variations at the regional scale; however, they became isotopically depleted with the increase in annual average precipitation on the catchment scale (r = -0.87). Compared with the stable isotope of precipitation, stable isotopes of groundwater were generally depleted and were similar to the precipitation of the rainy season (July-September). These together indicated that there was pronounced seasonality of groundwater recharge, and the main recharge period was the rainy season. In particular, the recharge seasonality index (δP/G) was closely related to the catchment's average annual precipitation (r = -0.77) and leaf area index (r = -0.63). In addition, groundwater lc-excess was generally negative, with the catchment-mean value ranging from -4.3‰ to -0.7‰. Hydrologically, this indicated that groundwater recharge pathways (ratio of matrix flow vs. preferential flow) were different among these catchments, which should be quantitatively determined by combining the saturated zone (groundwater) and the unsaturated zone (soil) in future work. Our findings can improve the understanding of groundwater recharge in LP and provide a scientific basis for sustainable management of groundwater resources at the regional scale.

Keywords: groundwater recharge; hydrogen and oxygen isotopes; preferential flow; stable isotopes; the Loess Plateau(LP).

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