Spatiotemporal Variation of Groundwater Nitrate Concentration Controlled by Groundwater Flow in a Large Basin: Evidence From Multi-Isotopes (15N, 11B, 18O, and 2H)

IF 4.6 1区地球科学 Q2 ENVIRONMENTAL SCIENCES

Water Resources Research Pub Date : 2024-01-12 DOI:10.1029/2023wr035299

Hairu Mao, Guangcai Wang, Fu Liao, Zheming Shi, Zhi Rao, Hongyu Zhang, Zhiyuan Qiao, Yunfei Bai, Xianglong Chen, Xin Yan, Chenyu Wang, Yang Yang

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The location of <math altimg=\"urn:x-wiley:00431397:media:wrcr27032:wrcr27032-math-0004\" display=\"inline\" location=\"graphic/wrcr27032-math-0004.png\">\n<semantics>\n<mrow>\n<msup>\n<msub>\n<mtext>NO</mtext>\n<mn>3</mn>\n</msub>\n<mo>−</mo>\n</msup>\n</mrow>\n${{\\text{NO}}_{3}}^{-}$</annotation>\n</semantics></math> hotspots identified by LISA tended to move from the middle to lower reaches of Ganfu Plain with groundwater flow, and hotspots area expanded in the upper reaches of Xin River Basin and northwest of the study area during the transition from dry season to wet season. 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引用次数: 0

Abstract

Elevated and increasing

{NO}_{3}^{-} ${{\text{NO}}_{3}}^{-}$

concentration in groundwater affect groundwater supplies in China and elsewhere. However, how groundwater flow affects

{NO}_{3}^{-} ${{\text{NO}}_{3}}^{-}$

concentration in groundwater has yet to be fully understood. Herein, multi-isotopes (¹⁵N, ¹¹B, ¹⁸O, and ²H) and local indicators of spatial association (LISA) were used to elucidate the spatiotemporal variation, sources, and patterns of

{NO}_{3}^{-} ${{\text{NO}}_{3}}^{-}$

and its response to groundwater flow in Poyang Lake Basin where agriculture, industry and urban coexist. The location of

{NO}_{3}^{-} ${{\text{NO}}_{3}}^{-}$

hotspots identified by LISA tended to move from the middle to lower reaches of Ganfu Plain with groundwater flow, and hotspots area expanded in the upper reaches of Xin River Basin and northwest of the study area during the transition from dry season to wet season. Our results revealed that variations of regional

{NO}_{3}^{-} ${{\text{NO}}_{3}}^{-}$

concentration were controlled by groundwater recharge or flow mode (vertical or lateral), biogeochemical processes and sources (sewage and manure). In some areas with the single stratigraphic structure (unconfined aquifer), spatiotemporal variation of

{NO}_{3}^{-} ${{\text{NO}}_{3}}^{-}$

concentration was influenced by local pollution sources and vertical recharge of current precipitation (vertical flow). In some areas with binary structures (confined aquifer), groundwater was mainly recharged by lateral flow and

{NO}_{3}^{-} ${{\text{NO}}_{3}}^{-}$

concentration was mainly affected by mixing effect of upstream groundwater, reflecting human activities in the upper reaches rather than local human activities. In lakeside floodplain, groundwater

{NO}_{3}^{-} ${{\text{NO}}_{3}}^{-}$

was attenuated by the dissimilatory

{NO}_{3}^{-} ${{\text{NO}}_{3}}^{-}$

reduction to

{NH}_{4}^{+} ${{\text{NH}}_{4}}^{+}$

. This study provides a novel insight into groundwater flow controlling on spatiotemporal distribution of

{NO}_{3}^{-} ${{\text{NO}}_{3}}^{-}$

concentration in the regional scale.

查看原文本刊更多论文

一个大盆地中受地下水流控制的地下水硝酸盐浓度时空变化：来自多同位素（15N、11B、18O 和 2H ）的证据

地下水中 NO3-${{text\{NO}}_{3}}^{-}$ 浓度的升高和增加会影响中国和其他地区的地下水供应。然而，地下水流如何影响地下水中 NO3-${text{NO}}_{3}}^{-}$ 的浓度尚未完全清楚。本文采用多同位素（15N、11B、18O和2H）和空间关联局域指标（LISA），阐明了鄱阳湖流域农业、工业和城市共存的地下水中NO3-${text{NO}}_{3}^{-}$的时空变化、来源和模式及其对地下水流的响应。在旱季向雨季过渡期间，LISA 发现的 NO3-${{text{NO}}_{3}^{-}$热点位置随地下水流向有从赣抚平原中下游移动的趋势，热点区域在新河流域上游和研究区西北部扩大。研究结果表明，区域NO3-${{text\{NO}}_{3}}^{-}$浓度的变化受地下水补给或流动方式（垂直或侧向）、生物地球化学过程和来源（污水和粪便）的控制。在一些具有单一地层结构（非承压含水层）的地区，NO3-${{text\{NO}}_{3}^{-}$浓度的时空变化受到当地污染源和当前降水的垂直补给（垂直流）的影响。）在一些具有二元结构的地区（承压含水层），地下水主要由侧向流补给，NO3-${{text{NO}}_{3}^{-}$浓度主要受上游地下水混合效应的影响，反映了上游的人类活动而非当地的人类活动。在湖边冲积平原，地下水 NO3-${{text{NO}}_{3}^{-}$ 被异化作用 NO3-${{text{NO}}_{3}}^{-}$ 还原成 NH4+${{text{NH}}_{4}}^{+}$ 所削弱。这项研究为了解地下水流对区域尺度上 NO3-${{text{NO}}_{3}^{-}$ 浓度时空分布的影响提供了新的视角。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Water Resources Research 环境科学-湖沼学

CiteScore

8.80

自引率

13.00%

发文量

599

审稿时长

3.5 months

期刊介绍： Water Resources Research (WRR) is an interdisciplinary journal that focuses on hydrology and water resources. It publishes original research in the natural and social sciences of water. It emphasizes the role of water in the Earth system, including physical, chemical, biological, and ecological processes in water resources research and management, including social, policy, and public health implications. It encompasses observational, experimental, theoretical, analytical, numerical, and data-driven approaches that advance the science of water and its management. Submissions are evaluated for their novelty, accuracy, significance, and broader implications of the findings.