辽河河岸植被缓冲带构建及其对固体颗粒物和氮阻控能力

生态学杂志

辽河河岸植被缓冲带构建及其对固体颗粒物和氮阻控能力

张鸿龄^1*,李天娇¹,赵志芳¹,马国峰²,陈苏¹,孙丽娜¹

(¹沈阳大学区域污染环境生态修复教育部重点实验室，沈阳 110044；²沈阳大学科技创新研究院，沈阳 110044)

出版日期:2020-07-10 发布日期:2021-01-09

Effects of riparian vegetation buffers on the removal efficiency of suspended solids and nitrogen in Liaohe River protected area.

ZHANG Hong-ling^1*, LI Tian-jiao¹, ZHAO Zhi-Fang¹, MA Guo-feng², CHEN Su¹, SUN Li-na¹

(¹Key Laboratory of Eco-restoration of Regional Contaminated Environment, Ministry of Education, Shenyang University, Shenyang 110044, China; ²Institute of Technical Innovation, Shenyang University, Shenyang 110044, China).

Online:2020-07-10 Published:2021-01-09

摘要/Abstract

摘要： 农田中氮向河流水体的迁移不但造成化肥利用率低，而且加重水体污染和富营养化。在河流水体与农田间构建合理的植被缓冲带对于水生态保护具有重要意义。本研究在辽河保护区干流近农田处设置了蒿草（CK）、黑麦草（LP）、紫穗槐+黑麦草（AL）和杞柳+黑麦草（SL）4种植被缓冲带。自然降雨后采集地表径流和土壤渗流液，对植被带阻控径流量、固体悬浮物及NO₃^--N、NH₄⁺-N和TN效果进行了测定。结果表明：随着河岸植被带宽度的增加，农田地表径流量、固体悬浮颗粒物（SS）和径流中氮阻控率逐渐增大；5 m宽黑麦草植被带可有效阻控径流中69.1%的固体颗粒物，黑麦草+紫穗槐植被带可有效阻控56.7%的NO₃^--N；而13 m宽植被带则平均可阻控95.6%、91.3%、75.9%、82.9%的固体悬浮颗粒物、NH₄⁺-N、NO₃^--N、TN；植被带对土壤渗流液中各形态氮的阻控率显著低于径流，其中渗流液中NO₃^--N和TN的阻控率在前5 m甚至出现负值，说明植被带的存在加强了径流中氮的下渗作用；4种植被缓冲带中，紫穗槐与黑麦草组合带（AL）对农田径流和渗流液中氮的去除效果均最好。

关键词: 养分吸收, 抗氧化酶, 缺铁, 硝普钠, 硝酸盐胁迫, 番茄幼苗

Abstract: Migration of nitrogen through runoff from cropland to river results in low utilization of fertilizer as well as water pollution and eutrophication. Proper riparian vegetation buffering between riverbank and cropland could protect the aquatic ecosystems. Four types of vegetation buffer strips (Artemisia strip, Lolium perenne strip, Salix integra +L. prenne strip, and Amorpha fruticosa +L. perenne strip) were constructed in Liaohe River protected area close to cropland. We measured the removal efficiency of runoff volume, suspended solids (SS), NO₃^--N, NH₄⁺-N and TN in runoff and ground water. The results showed that, with increasing riparian vegetation strip width, the removal rate of runoff volume, SS, and nitrogen increased. A 5mwidth L. perenne strip reduced SS by 69.1%, while a 5mwidth A. fruticosa+L. perenne strip removed 57.6% of NO₃^--N in runoff. Vegetation strips with 13mwidth averagely reduced SS, NH₄⁺-N, NO₃^--N and TN by 95.6%, 91.3%, 75.9%, and 82.9%, respectively. The removal rate of N in runoff was significantly lower than that in ground water. The removal rate of NO₃^--N and TN in ground water within 5mwidth vegetation strip recorded negative value, indicating that vegetation buffer strengthens infiltration of nonpoint source N and thus increases the risk of NO₃^--N loss in subsurface flow. Among the four types of vegetation buffers, A. fruticosa+L. perenne strip had the highest removal efficiency of N in runoff and ground water.

Key words: sodium nitroprusside, iron deficiency, tomato seedlings, antioxidant enzyme., NO₃^- stress, nutrients uptake

张鸿龄,李天娇,赵志芳,马国峰,陈苏,孙丽娜. 辽河河岸植被缓冲带构建及其对固体颗粒物和氮阻控能力[J]. 生态学杂志.

ZHANG Hong-ling, LI Tian-jiao, ZHAO Zhi-Fang, MA Guo-feng, CHEN Su, SUN Li-na. Effects of riparian vegetation buffers on the removal efficiency of suspended solids and nitrogen in Liaohe River protected area.[J]. cje.

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