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地下水埋深对农田排水沟氮磷去除效应的影响机制

王雅楠韩玉国詹喜凡张艳

生态学报2026，Vol.46Issue(9)：4437-4446,10.

生态学报2026，Vol.46Issue(9)：4437-4446,10.DOI:10.20103/j.stxb.202510272797

地下水埋深对农田排水沟氮磷去除效应的影响机制

Study on the influence mechanism of groundwater depth on nitrogen and phosphorus removal effect in farmland drainage ditches

王雅楠 ¹韩玉国 ²詹喜凡 ¹张艳¹

作者信息

1. 北京林业大学水土保持学院,北京 100083||北京林业大学水土保持国家林业和草原局重点实验室,北京 100083
2. 北京林业大学水土保持学院,北京 100083||北京林业大学水土保持国家林业和草原局重点实验室,北京 100083||山西省吉县森林生态系统国家野外科学观测研究站,临汾 042200
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摘要

Abstract

Farmland drainage ditches are often used to exclude surface water and irrigation tail water.While undertaking agricultural water withdrawal,they also show significant pollution interception potential.However,its pollution removal efficiency is not only affected by its own structural characteristics and internal microbial activities,but also closely related to the surrounding hydrological and environmental conditions.Clarifying the interaction mechanism between the hydrological environment and the sewage interception efficiency of farmland drainage ditches is the key to further optimize its pollution control function.Therefore,in this study,two drainage ditches with distinct groundwater depths'G-S(0.6-1.8 m)and G-D(4.8-5.9 m)'were selected for in-situ monitoring,index quantification,and path analysis to elucidate the influence of groundwater depth on nitrogen and phosphorus removal.Results showed that the flow reduction rates of G-S and G-D ranged from-38.18%-7.11%and 16.76%—57.99%,respectively.G-D showed strong retention and infiltration capacity,while G-S had weak or even negative flow reduction capacity.In terms of pollutant removal per 100 m,G-D achieved significantly higher removal rates for total nitrogen(TN:17.20%—58.35%)and total phosphorus(TP:-1.17%—57.83%)compared with G-S(TN:-3.59%—5.71%;TP:-6.56%—2.16%).This phenomenon was attributed to the difference in hydrological conditions caused by groundwater depth(path coefficient 0.99,P＜0.01).G-D maintained lower soil water content((20.94±4.59)%)and a larger hydraulic relative head difference(5.75 m),resulting in higher infiltration capacity(1.06 cm/h).In contrast,G-S had a low relative head difference(1.81m)and the soil was close to saturation(water content(30.74±8.32)%),leading to lower infiltration(0.38 cm/h).This study provides a scientific basis for designing farmland drainage ditches with enhanced capacity to intercept non-point source pollutants.

关键词

农业面源污染/农田排水沟/脱氮除磷/地下水埋深

Key words

agricultural non-point source pollution/farmland drainage ditch/nitrogen and phosphorus removal/groundwater depth

引用本文复制引用

王雅楠,韩玉国,詹喜凡,张艳..地下水埋深对农田排水沟氮磷去除效应的影响机制[J].生态学报,2026,46(9):4437-4446,10.

基金项目

国家重点研发计划资助(2024YFD1700801) （2024YFD1700801）

生态学报

OACHSSCD

ISSN：1000-0933

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