期刊文献+

苕溪流域非点源污染特征及其影响因子 被引量:17

Characteristics of non-point source pollution in Tiaoxi watershed and related affecting factors
原文传递
导出
摘要 应用土壤水体评价模型(SWAT)对苕溪流域径流量、泥沙、营养盐负荷进行模拟计算,分析了2008年苕溪流域非点源污染的时空分布特性.结果表明:苕溪流域非点源污染单位面积产生量表现为北部高于南部、东部高于西部、中部地区最少;耕地是泥沙和污染物产生的主要来源,其单位面积负荷远大于其他土地利用类型;产流量、产沙量与降水量呈显著正相关关系(P<0.05),雨季(6—9月)的营养盐输出大于旱季(12月至次年3月);平均坡度与泥沙负荷、有机氮负荷及硝态氮负荷呈显著相关关系(P<0.05). By using soil and water assessment tool(SWAT) model,this paper simulated the surface runoff intensity and the export loadings of sediment particulates and nutrients via non-point source hydrological pathway in Tiaoxi watershed,and integrated with the simulation results,analyzed the temporal and spatial distribution characteristics of non-point source pollution in the watershed in 2008.In the study area,the per unit area non-point source pollution was stronger in northern region than in southern region and in eastern region than in western region,and the weakest in central region.Among the land utilization types,farmland had the biggest contribution to the sediment loading.There were significantly positive correlations between the loadings of surface runoff and associated sediment particulates and the rainfall intensity.The export loadings of nutrients through surface runoff were higher in rainy season(from June to September) than in dry season(from December to next March),and there existed significant correlations between the surface runoff loadings of sediment particulates,organic nitrogen,and nitrate and the average gradient of lands.
出处 《应用生态学报》 CAS CSCD 北大核心 2011年第8期2119-2125,共7页 Chinese Journal of Applied Ecology
基金 国家水体污染控制与治理科技重大专项(2008ZX07101-006)资助
关键词 SWAT 模型 非点源污染 苕溪流域 土地利用 降雨 SWAT model non-point source pollution Tiaoxi watershed land utilization rainfall.
  • 相关文献

参考文献37

  • 1樊娟,刘春光,石静,王春生,赵乐军.非点源污染研究进展及趋势分析[J].农业环境科学学报,2008,27(4):1306-1311. 被引量:29
  • 2Dowd BM, Press D, Huertos ML. Agricultural nonpoint source water pollution policy: The case of California' s Central Coast. Agriculture, Ecosystema & Environment, 2008, 128:151-161.
  • 3Arabi M, Govindaraju RS, Hantush MM. A pmhahilis- tic approach for analysis of uncertainty in the evaluation of watershed management practices. Journal of Hydrolo- gy, 2007, 333:459-471.
  • 4郝芳华,杨胜天,程红光,步青松,郑玲芳.大尺度区域非点源污染负荷计算方法[J].环境科学学报,2006,26(3):375-383. 被引量:89
  • 5Wang X, Shang S, Yang W, et al. Simulation of land use-soil interactive effects on water and sediment yields at watershed scale. Ecological Engineering, 2010, 36 : 328 -344.
  • 6Richards CE, Munster CL, Vietor DM, et al. Assess- ment of a turfgrass sod best management practice on water quality in a suburban watershed. Journal of Envi- ronmental Management, 2008, 86:229-245.
  • 7Stewart GR, Munster CL, Vietor DM, et al. Simulating water quality improvements in the Upper North Bosque River watershed due to phosphorus export through turf- grass sod. Transactions of the ASAE, 2006, 49: 357- 366.
  • 8Barlund I, Kirkkala T. Examining a model and assess- ing its performance in describing nutrient and sediment transport dynamics in a catchment in southwestern Fin- land. Boreal Environment Research, 2008, 13: 195- 207.
  • 9Lam QD, Schmalz B, Fohrer N. Modelling point and diffuse source pollution of nitrate in a rural lowland catchment using the SWAT model. Agricultural Water Management, 2010, 97 : 317-325.
  • 10Park M J, Park JY, Shin HJ, et al. Projection of future climate change impacts on nonpoint source pollution loads for a forest dominant dam watershed by reflecting future vegetation canopy in a soil and water assessment tool model. Water Science and Technology, 2010, 61: 1975-1986.

二级参考文献155

共引文献636

同被引文献313

引证文献17

二级引证文献98

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