Multiple isotopes reveal the driving mechanism of high NO3– level and key processes of nitrogen cycling in the lower reaches of Yellow River-Reference-Cited by-同舟云学术

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Multiple isotopes reveal the driving mechanism of high NO3– level and key processes of nitrogen cycling in the lower reaches of Yellow River

Published:2024-04 Issue: Volume:138 Page:597-606
ISSN:1001-0742
Container-title:Journal of Environmental Sciences
language:en
Short-container-title:Journal of Environmental Sciences

Author:

Zhang Qianqian,Wang Huiwei,Liu Lu,Zhai Tianlun,Zhang Xueqing

Publisher

Elsevier BV

Subject

General Environmental Science,General Medicine,Environmental Chemistry,Environmental Engineering

Reference44 articles.

1. Source and fate of nitrate in contaminated groundwater systems: assessing spatial and temporal variations by hydrogeochemistry and multiple stable isotope tools;Biddau;Sci. Total Environ.,2019

2. Willamette River Basin surface water isoscape (δ18O and δ2H): temporal changes of source water within the river;Brooks;Ecosphere,2012

3. Isotopic signature of nitrate in river waters of the lower mississippi and its distributary, the atchafalaya;BryantMason;Hydrol. Process.,2013

4. Combining multi-isotopic and molecular source tracking methods to identify nitrate pollution sources in surface and groundwater;Carrey;Water Res.,2021

5. The response of river water quality and quantity to the development of irrigated agriculture in the last 4 decades in the yellow river basin, China;Chen;Water Resour. Res.,2003

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1. Development and application of a comprehensive evaluation index system for groundwater quality evolution patterns;Environmental Research;2024-12

2. Nitrate transformation and source tracking of Yarlung Tsangpo River using a multi-tracer approach combined with Bayesian stable isotope mixing model;Environmental Research;2024-07

3. Under the Strong Influence of Human Activities: The Patterns and Controlling Factors of River Water Chemistry Changes—A Case Study of the Lower Yellow River;Water;2024-07-01

4. Nitrogen Removal Performance and Microbial Community Structure of IMTA Ponds (Apostistius japonicus-Penaeus japonicus-Ulva);Microbial Ecology;2024-06-03

5. Groundwater hydrochemical signatures, nitrate sources, and potential health risks in a typical karst catchment of North China using hydrochemistry and multiple stable isotopes;Environmental Geochemistry and Health;2024-04-09

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