期刊文献+

北京市北环水系富营养化因子分析 被引量:10

Factor analysis of Beijing north ring water system eutrophication
下载PDF
导出
摘要 以北京市北环水系水体为例,利用聚类分析将研究区分为河流子系统和湖泊子系统.因子分析表明,河流子系统第一主成分富营养元素为总磷(TP)、总氮(TN)和氨氮(NH4-N),第二主成分为温度(T)和溶解氧(DO);湖泊子系统第一主成分为总氮和氨氮,第二主成分为总磷、酸碱度(pH)、透明度(SD)和温度,第三主成分为溶解氧和叶绿素a(Chla),表明研究区的水体富营养化主要由富营养盐负荷引起.结合逐步回归分析方法,建立富营养水平预测回归模型,根据模型自变量选择证明河流子系统富营养化特征为磷限制型,湖泊子系统为氮限制型.从水量和水质上对营养盐浓度负荷变化分析表明,研究区年最小生态环境用水为4872×104m3,1990~1998年,除1998年外,现实的生态环境需水均不能满足需求.随着流域人口的不断增长,生活污水、城市径流和固体废弃物淋溶液中营养物质进入水体,研究区营养盐浓度负荷有随时间不断增长的趋势,针对这种趋势提出了应对措施. Eutrophication is caused by hydrological, physical or chemical factors such as temperature, illumination, or shapes of waters. It is very important to identify the main factors to understand and control the process of eutrophication. In this paper, Beijing north circle water system was divided into river subsystem and lake subsystem by cluster analysis. Factor analysis indicated that the main factors of river subsystem eutrophication were TP, TN and NH4-N, while those for lake subsystem were TN and NH4-N, which meant that in the study area, the main cause for eutrophication was the overload of nutrients. Stepwise regression was introduced to build forecasting model, and the choice results of independent variables in the regression model inferred that the type of eutrophication in river subsystem was P limited, while that of lake was N limited. Two main causes for nutrient load were found from water quantity and quality analysis of the study area, one was the ecological water demands be not able to satisfy from 1990 to 1998 except 1998, and the other was the increase of nutrient load coming from domestic waste and non-point pollutant, resulting from the rapid population increase and city expansion. The measures to control the eutrophication process were put forward.
出处 《应用生态学报》 CAS CSCD 北大核心 2005年第8期1513-1517,共5页 Chinese Journal of Applied Ecology
基金 国家"863"计划项目(2003AA601010) 国家自然科学基金重点资助项目(50239020)
关键词 城市水系 富营养化 特征 因子分析 逐步回归 Urban water system, Eutrophication, Characteristics, Factor analysis, Stepwise regression
  • 相关文献

参考文献19

  • 1韩秀娣.最佳管理措施在非点源污染防治中的应用[J].上海环境科学,2000,19(3):102-104. 被引量:40
  • 2孙刚,盛连喜.湖泊富营养化治理的生态工程[J].应用生态学报,2001,12(4):590-592. 被引量:96
  • 3全为民,沈新强,严力蛟.富营养化水体生物净化效应的研究进展[J].应用生态学报,2003,14(11):2057-2061. 被引量:83
  • 4Biswas AK. 2001. Water Resources Management and Planning.Zhengzhou: Water Conservancy for Yellow River Press. 238- 239(in Chinese).
  • 5Bottcher AB, Tremwel TK, Campbell KL. 1995. Best management practices for water quality improvement in the lake Okeechobee watershed. Ecol Eng, 5 : 341 -- 356.
  • 6Endreny TA. 2004. Storm water management for society and nature via service learning, ecological engineering and ecohydrology.Water Resour Dew, 20(3) :445-- 462.
  • 7Gelbrecht J, Tremwel TK, Campbell KL, et al. 1996. Diffuse nutrient impact on surface water bodies and its abatement by restoration measures in a small catchment area in Northeast Germany. Water Sci Technol, 33(4 -- 5) : 167-174.
  • 8Hosper SH. 1998. Stable states buffers and switches: An ecosystem approach to the restoration and management of shallow lakes in the Netherlands. Water Scl Technol, 37(3) : 151 -- 164.
  • 9金相灿.Control and management teehnique of lake eutrophication[M].Beijing:Chemical Industry Press.15~17(in Chinese),2001..
  • 10Klinge M, Grimm MP, Hosper SH. 1995. Eutrophication and ecological rehabilitation of Dutch lakes: Presentation of a new conceptual framework. Water Sci Technol , 31( 8 ) :207--218.

二级参考文献48

共引文献473

同被引文献105

引证文献10

二级引证文献60

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部