Hydrochemical processes and inorganic nitrogen sources of shallow groundwater in the Sanjiang Plain, northeast China.

IF 2.5 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL Water Environment Research Pub Date : 2024-09-01 DOI:10.1002/wer.11121
Tingwen Wu, Zhihong Li, Huqun Cui, Weipo Liu, Jiangtao Liu, Xuxue Cheng, Mingzhu Liu
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Abstract

This study investigates the chemical characteristics, formation, and sources of inorganic nitrogen (IN) of shallow groundwater across the Sanjiang Plain, aiming to enhance drinking water safety management and pollution control. A total of 167 groundwater and 27 surface water samples were collected for constituents and isotopes (H2 and O18). The hydrogeochemical characteristics showed that the major type is HCO3- Ca·Mg, with low total dissolved solids and a neutral to weak alkaline nature. Rock weathering processes govern the hydrochemical composition of groundwater. Hydrogen and oxygen stable isotopes analyses revealed that precipitation serves as the main water source. In alluvial areas, oxidative conditions lead to the enrichment of NO3-N concentrations, with sewage, manure, and fertilizers being the primary IN sources. In lacustrine areas, intensive rice cultivation results in reductive conditions and strong denitrification processes, causing the loss of NO3-N and leaving NH4-N as the dominant IN form. Organic matter mineralization is likely a more significant contributor to NH4-N concentrations than ammonium fertilizers. These findings provide valuable information for further research on natural sources and groundwater pollution in areas with similar hydrogeological conditions. PRACTITIONER POINTS: Rock weathering processes govern the hydrochemical composition of groundwater, and precipitation serves as the main water source. In alluvial areas, oxidative conditions lead to the enrichment of NO3-N. In lacustrine areas, intensive rice cultivation results in reductive conditions and strong denitrification processes. Organic matter mineralization is likely a more significant contributor to NH4-N concentrations than ammonium fertilizers. These findings provide references for water management and information for further research on natural sources and groundwater pollution in areas with similar hydrogeological conditions.

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中国东北三江平原浅层地下水的水化学过程和无机氮源。
本研究调查了三江平原浅层地下水无机氮(IN)的化学特征、形成和来源,旨在加强饮用水安全管理和污染控制。共采集了 167 个地下水样本和 27 个地表水样本,对其成分和同位素(H2 和 O18)进行了分析。水文地球化学特征显示,主要类型为 HCO3- Ca-Mg,溶解性总固体含量低,呈中性至弱碱性。岩石风化过程决定了地下水的水化学组成。氢和氧稳定同位素分析表明,降水是主要水源。在冲积地区,氧化条件导致 NO3-N 浓度增高,污水、粪便和化肥是主要的 IN 来源。在湖泊地区,密集的水稻种植导致还原条件和强烈的反硝化过程,造成 NO3-N 的损失,使 NH4-N 成为 IN 的主要形式。有机物矿化对 NH4-N 浓度的贡献可能比铵盐肥料更大。这些发现为进一步研究具有类似水文地质条件地区的天然来源和地下水污染提供了宝贵信息。实践点:岩石风化过程控制着地下水的水化学组成,降水是地下水的主要水源。在冲积地区,氧化条件导致 NO3-N 富集。在湖泊地区,密集的水稻种植导致还原条件和强烈的反硝化过程。有机物矿化可能比铵盐肥料对 NH4-N 浓度的影响更大。这些发现为水资源管理提供了参考,也为在具有类似水文地质条件的地区进一步研究天然来源和地下水污染提供了信息。
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来源期刊
Water Environment Research
Water Environment Research 环境科学-工程:环境
CiteScore
6.30
自引率
0.00%
发文量
138
审稿时长
11 months
期刊介绍: Published since 1928, Water Environment Research (WER) is an international multidisciplinary water resource management journal for the dissemination of fundamental and applied research in all scientific and technical areas related to water quality and resource recovery. WER''s goal is to foster communication and interdisciplinary research between water sciences and related fields such as environmental toxicology, agriculture, public and occupational health, microbiology, and ecology. In addition to original research articles, short communications, case studies, reviews, and perspectives are encouraged.
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