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不同雨强条件下太湖流域典型蔬菜地土壤磷素的径流特征
引用本文:杨丽霞,杨桂山,苑韶峰,吴业.不同雨强条件下太湖流域典型蔬菜地土壤磷素的径流特征[J].环境科学,2007,28(8):1763-1769.
作者姓名:杨丽霞  杨桂山  苑韶峰  吴业
作者单位:1. 中国科学院南京地理与湖泊研究所,南京,210008;中国科学院研究生院,北京,100049
2. 中国科学院南京地理与湖泊研究所,南京,210008
3. 浙江工商大学公共管理学院土地资源管理系,杭州,310035
基金项目:国家自然科学基金项目(40371111)
摘    要:以太湖流域典型区域无锡市近郊区鸿声镇的蔬菜地为研究对象,采用人工模拟降雨的方法,通过野外径流小区试验,研究了不同雨强对菜地土壤磷素径流流失的影响.结果表明,初始产流时间随雨强的增大呈幂函数减小(R2=0.99),径流量在雨强较小时,缓慢上升,但随着雨强的增大急剧上升,在雨强0.83、1.17和1.67 mm·min-1时,总磷(TP)和颗粒态磷(PP)都表现为初始流失浓度较高,随降雨历时延长略有下降,最终趋于稳定,而在大雨强2.50 mm·min-1时,TP和PP呈现波浪式起伏,没有明显的变化趋势;在整个降雨-径流过程中,溶解态磷(DP)变化比较平缓,占TP的比例为20%~32%,而PP占TP的比例为68%~80%,其变化规律与TP相一致,由此可见,PP是土壤磷素流失的主要形态;通过对比不同雨强下不同形态磷素的流失率,发现TP的流失率,大雨强2.50 mm·min-1是小雨强0.83 mm·min-1的20倍,而DP的流失率,却是33倍,这表明随着雨强的增加,加速土壤PP流失的同时,也大大促进了DP的流失,主要原因是降雨前表施磷肥,使得磷肥中大量的无机态磷溶解释放到水环境中,增加了DP的流失,从而会加重受纳水体富营养化的程度.

关 键 词:雨强  土壤磷素  径流  人工模拟降雨  磷素流失速率
文章编号:0250-3301(2007)08-1763-07
收稿时间:2006/10/18 0:00:00
修稿时间:2006-10-18

Characteristics of Soil Phosphorus Runoff Under Different Rainfall Intensities in the Typical Vegetable Plot of Taihu Basin
YANG Li-xi,YANG Gui-shan,YUAN Shao-feng and WU Ye.Characteristics of Soil Phosphorus Runoff Under Different Rainfall Intensities in the Typical Vegetable Plot of Taihu Basin[J].Chinese Journal of Environmental Science,2007,28(8):1763-1769.
Authors:YANG Li-xi  YANG Gui-shan  YUAN Shao-feng and WU Ye
Institution:1. Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing 210008, China; 2. Department of Land Resources Management, College of Public Administration, Zhejiang Gongshang University, Hangzhou 310035, China; 3. Graduate School of Chinese Academy of Sciences, Beijing 100049, China
Abstract:Experiments of field runoff plots, which were conducted at vegetable plots in Hongsheng town of Wuxi city--the typical region of Taihu Basin, were designed to assess the effects of different rainfall intensities on soil phosphorus runoff loss from vegetable plots by artificial rainfall simulations. Results showed that there was a relationship of power function between initial runoff-generation time and rainfall intensity. Runoff amount slowly increased under small rainfall intensity, but rapidly increased with rainfall intensity increase. The concentrations of total phosphorus (TP) and particulate phosphorus (PP) were higher at the early stage, then gradually decreased with time and finally reached a comparative steady stage under 0.83, 1.17 and 1.67 mm x min(-1). However they indicated no obvious trend except wavy undulation under 2.50 mm x min(-1). In the course of rainfall-runoff, dissolved phosphorus (DP) gently varied and accounted for 20% - 32% of TP. PP was 68% - 80% of TP and its change trend was consistent with TP. Therefore, PP was main loss form of soil phosphorus runoff. Comparison of different phosphorous loss rate under different rainfall intensities suggested that loss rate of TP and DP under 2.50 mm x min(-1) was 20 times and 33 times higher than that under 0.83 mm x min(-1), which showed that loss rate of PP and DP increased with the increase of rainfall intensities. Results indicated that lots of inorganic dissolved phosphorus (DIP) of phosphorous fertilizer was discharged into water environment by using fertilizer in soil surface before rainfall, which increased loss of DP and greatly aggravated degree of water eutrophication.
Keywords:rainfall intensity  soil phosphorus  runoff  artificial simulations rainfall  phosphorous loss rate
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