流域尺度氮滞留研究现状、趋势及展望

Xihua Wang; Shunqing Jia; Yijun Xu; Zejun Liu; Boyang Mao; Qinya Lyu; Xuming Ji; Chengming Luo; Yan Dai; Yanxin Rong

doi:10.3880/j.issn.10046933.2025.06.001

流域尺度氮滞留研究现状、趋势及展望

Translated title of the contribution: Current status, trends, and prospects in watershed-scale nitrogen retention research

Xihua Wang
, Shunqing Jia
, Yijun Xu
, Zejun Liu
, Boyang Mao
, Qinya Lyu
, Xuming Ji
, Chengming Luo
, Yan Dai
, Yanxin Rong

Research output: Contribution to journal › Article › peer-review

Abstract

The study systematically reviews the intrinsic mechanisms and reservoir dynamics of watershed-scale nitrogen retention, summarizing its spatiotemporal distribution characteristics, key influencing factors, as well as the current research and application status of numerical models. Research has found that there are bottlenecks in understanding the coupling mechanism of multimedia interfaces, quantifying the lag effect of nitrogen retention, and uncertainty in cross scale models, leading to spatial and temporal mismatches between management policies and water quality responses. Future research needs to deepen the understanding of the surface water-sediment-groundwater continuum coupling mechanism, promote the deep integration of artificial intelligence and mechanistic models, and innovate adaptive management paradigms based on nature-based solutions.

Translated title of the contribution	Current status, trends, and prospects in watershed-scale nitrogen retention research
Original language	Chinese (Traditional)
Pages (from-to)	1-11
Number of pages	11
Journal	Water Resources Protection
Volume	41
Issue number	6
DOIs	https://doi.org/10.3880/j.issn.10046933.2025.06.001
State	Published - Nov 2025
Externally published	Yes

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Cite this

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title = "流域尺度氮滞留研究现状、趋势及展望",

abstract = "The study systematically reviews the intrinsic mechanisms and reservoir dynamics of watershed-scale nitrogen retention, summarizing its spatiotemporal distribution characteristics, key influencing factors, as well as the current research and application status of numerical models. Research has found that there are bottlenecks in understanding the coupling mechanism of multimedia interfaces, quantifying the lag effect of nitrogen retention, and uncertainty in cross scale models, leading to spatial and temporal mismatches between management policies and water quality responses. Future research needs to deepen the understanding of the surface water-sediment-groundwater continuum coupling mechanism, promote the deep integration of artificial intelligence and mechanistic models, and innovate adaptive management paradigms based on nature-based solutions.",

keywords = "nature-based solution, nitrogen cycle, nitrogen retention, surface water-sediment-groundwater, watershed-scale",

author = "Xihua Wang and Shunqing Jia and Yijun Xu and Zejun Liu and Boyang Mao and Qinya Lyu and Xuming Ji and Chengming Luo and Yan Dai and Yanxin Rong",

year = "2025",

month = nov,

doi = "10.3880/j.issn.10046933.2025.06.001",

language = "繁体中文",

volume = "41",

pages = "1--11",

journal = "Water Resources Protection",

issn = "1004-6933",

publisher = "Editorial Board of Water Resources Protection",

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}

TY - JOUR

T1 - 流域尺度氮滞留研究现状、趋势及展望

AU - Wang, Xihua

AU - Jia, Shunqing

AU - Xu, Yijun

AU - Liu, Zejun

AU - Mao, Boyang

AU - Lyu, Qinya

AU - Ji, Xuming

AU - Luo, Chengming

AU - Dai, Yan

AU - Rong, Yanxin

PY - 2025/11

Y1 - 2025/11

N2 - The study systematically reviews the intrinsic mechanisms and reservoir dynamics of watershed-scale nitrogen retention, summarizing its spatiotemporal distribution characteristics, key influencing factors, as well as the current research and application status of numerical models. Research has found that there are bottlenecks in understanding the coupling mechanism of multimedia interfaces, quantifying the lag effect of nitrogen retention, and uncertainty in cross scale models, leading to spatial and temporal mismatches between management policies and water quality responses. Future research needs to deepen the understanding of the surface water-sediment-groundwater continuum coupling mechanism, promote the deep integration of artificial intelligence and mechanistic models, and innovate adaptive management paradigms based on nature-based solutions.

AB - The study systematically reviews the intrinsic mechanisms and reservoir dynamics of watershed-scale nitrogen retention, summarizing its spatiotemporal distribution characteristics, key influencing factors, as well as the current research and application status of numerical models. Research has found that there are bottlenecks in understanding the coupling mechanism of multimedia interfaces, quantifying the lag effect of nitrogen retention, and uncertainty in cross scale models, leading to spatial and temporal mismatches between management policies and water quality responses. Future research needs to deepen the understanding of the surface water-sediment-groundwater continuum coupling mechanism, promote the deep integration of artificial intelligence and mechanistic models, and innovate adaptive management paradigms based on nature-based solutions.

KW - nature-based solution

KW - nitrogen cycle

KW - nitrogen retention

KW - surface water-sediment-groundwater

KW - watershed-scale

UR - https://www.scopus.com/pages/publications/105023836995

U2 - 10.3880/j.issn.10046933.2025.06.001

DO - 10.3880/j.issn.10046933.2025.06.001

M3 - 文章

AN - SCOPUS:105023836995

SN - 1004-6933

VL - 41

SP - 1

EP - 11

JO - Water Resources Protection

JF - Water Resources Protection

IS - 6

ER -

流域尺度氮滞留研究现状、趋势及展望

Abstract

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