文章摘要
张 浩, 刘明喆, 缪萍萍, 周绪申, 郭丽峰, 高金强.汛期前后白洋淀主要污染物空间特征及来源分析Journal of Water Resources and Water Engineering[J].,2016,27(5):28-31
汛期前后白洋淀主要污染物空间特征及来源分析
Analysis of spatial characteristics and source of main pollutants in Baiyangdian before and after flood season
  
DOI:10.11705/j.issn.1672-643X.2016.05.05
中文关键词: 白洋淀  污染物  分布  面源污染  汛期
英文关键词: Baiyangdian  pollutant  distribution  non-point source pollution  flood season
基金项目:国家国际科技合作专项资助项目(2013DFA71340)
Author NameAffiliation
ZHANG Hao1,2, LIU Mingzhe1, MIAO Pingping3, ZHOU Xushen4, GUO Lifeng4, GAO Jinqiang3 (1.海河流域水资源保护局 天津 300170 2.河海大学 水文水资源学院 南京 2100983.海河流域水资源保护科学研究所 天津 300170 4.海河流域水环境监测中心天津 300170) 
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中文摘要:
      为研究白洋淀汛期前后主要污染物变化规律,对白洋淀10个采样点的水质进行了采集和分析。分析的指标包括氨氮(NH3—N),总磷(TP),化学需氧量(COD),5 d生化需氧量(BOD5)。汛前,NH3—N的平均浓度为0.09 mg/L,变化范围为0.01~0.27 mg/L;TP的平均浓度为0.07 mg/L,变化范围为0.04~0.18 mg/L;COD的平均浓度为52.6 mg/L,变化范围为32.8~64.9 mg/L;BOD5的平均浓度为6.0 mg/L,变化范围为4.9~6.7mg/L。汛后,NH3—N的平均浓度为0.35 mg/L,变化范围为0.11~0.58 mg/L;TP的平均浓度为0.18 mg/L,变化范围为0.04~0.79 mg/L;COD的平均浓度为33.2 mg/L,变化范围为23.6~47.0 mg/L;BOD5的平均浓度为3.5 mg/L,变化范围为2.2~5.1mg/L。经过汛期降雨冲淋,淀内NH3—N和TP大幅升高,COD和BOD5小幅下降。采用ArcGIS进行空间分析,发现NH3—N和TP污染严重地区分布在淀内村落周边,由此推断汛后白洋淀内NH3—N和TP主要由淀区内面源污染物溶淋引发。为了保障汛后白洋淀水质安全,应采取升级淀内污水处理设施、加强农村环境整治等措施。
英文摘要:
      In order to study the variation law of main pollutants in Baiyangdian before and after flood season,the paper collected and analyzed the water quality of 10 sampling points. The indicators include NH3—N, TP, COD, BOD5. Before flood season, the average concentration of NH3—N is 0.09 mg/L, and the range of change is 0.01 to 0.27mg/L. The average concentration of TP is 0.07mg/L, and the range is 0.04 to 0.18 mg/L. The average concentration of COD is 52.6mg/L, and the range is 32.8 to 64.9mg/L. The average concentration of BOD5 is 6.0 mg/L, and the range is 4.9 to 6.7mg/L. After flood season, the average concentration of NH3—N is 0.35mg/L, and the range is 0.11 to 0.58mg/L. The average concentration of TP is 0.18mg/L, and the range is 0.04 to 0.79mg/L. The average concentration of COD is 33.2mg/L, and the range is 23.6 to 47.0 mg/L. The average concentration of BOD5 is 3.5mg/L, and the range is 2.2 to 5.1mg/L. After the rainfall, the concentrations of NH3—N and TP are greatly risen while that of COD and BOD5 are less fall.The paper used ArcGIS to analyze spatial characteristics. The results show that NH3—N and TP concentrate in the surrounding villages,which infers that NH3—N and TP are mainly caused by non-point source pollution.In order to guarantee the safety of water quality of Baiyangdian,it is necessary to upgrade the sewage treatment facility and strength the treament of rural environment.
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