留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

海河干流表层沉积物总磷、总铁和有机质的含量及相关性分析

安 敏 黄岁

安 敏, 黄岁. 海河干流表层沉积物总磷、总铁和有机质的含量及相关性分析[J]. 环境科学研究, 2007, 20(3): 63-67.
引用本文: 安 敏, 黄岁. 海河干流表层沉积物总磷、总铁和有机质的含量及相关性分析[J]. 环境科学研究, 2007, 20(3): 63-67.
AN Min, HUANG Sui-liang. Distribution and Correlation between Total Content of Phosphorus, Iron and Organic Matter of Surface Sediment in Haihe River Mainstream[J]. Research of Environmental Sciences, 2007, 20(3): 63-67.
Citation: AN Min, HUANG Sui-liang. Distribution and Correlation between Total Content of Phosphorus, Iron and Organic Matter of Surface Sediment in Haihe River Mainstream[J]. Research of Environmental Sciences, 2007, 20(3): 63-67.

海河干流表层沉积物总磷、总铁和有机质的含量及相关性分析

基金项目: 津市科技发展计划项目(05YFSZSF02100);国家自然科学基金资助项目(50479034);南开大学引进人才科研启动项目

Distribution and Correlation between Total Content of Phosphorus, Iron and Organic Matter of Surface Sediment in Haihe River Mainstream

  • 摘要: 采用深水表层沉积物采样器采集海河干流8个断面的表层沉积物,测定不同粒径表层沉积物的总磷(TP)、总铁(TFe)和有机质(OM)含量,并采用多元线性回归分析方法对TP与TFe和OM含量进行相关性分析.结果表明:海河干流表层沉积物的颗粒组成除光华桥断面分布较均匀外,其余各断面主要以砂粒(>54%)为主;沉积物的TP含量为29.00~78.99 μmol/g,TFe含量为595.67~719.91 μmol/g,w(OM)为3.77%~8.79%;同一断面不同粉砂粒之间的TP,TFe和OM含量没有显著性差异(P>0.05),而不同断面之间的差异十分显著(P<0.01).TP与OM和TFe的相关分析结果显示:除金刚桥、外环河桥与中心桥外,其余断面的TP与TFe和OM均具有良好的相关性(R2>0.85).

     

  • [1] 孟凡德,姜霞,金相灿.长江中下游湖泊沉积物理化性质研究[J].环境科学研究,2004,17 (增刊):24—29.
    [2] Meng Fande, Jiang Xia, Jin Xiangcan. Physical-chemical characteristics of the sediments in Lakes from the middle and lower reaches of the Yangtze River[J]. Research of Environmental Sciences, 2004,17 (suppl): 24—29.
    [3] Jarvie H P, Jürgens M D, Richard J Williams. Role of bed sediments as sources and sinks of phophorus across two major eutrophic UK river basins: the Hampshire Avon and Herefordshire Wye[J]. Journal of Hydrology, 2005, 304: 51—74.
    [4] Zhou A M,Tang H X,Wang D S. Phosphorus adsorption on naturalsediments: modeling and effects of pH and sediment composition[J].Water Res,2005, 39:1245—1254.
    [5] Forsgren G, Jansson M, Nilsson P. Aggregation and sedimentation of iron,phosphorus and organic carbon in experimental mixtures of freshwaterand estuarine water[J]. Esturine,Coastal and Shelf Science,1996,43:259—268.
    [6] House W A, Denison F H. Total phosphorus content of rivers sediments in relationship to calcium, iron and organic matter concentrations[J].Sci Total Environ, 2002,(282/283): 341—351.
    [7] Coelho J P, Flindt M R. Phosphorus speciation and availabilityin intertidal sediments of a temperature estuary: relation to eutrophication and annal P-fluxes[J]. Estuarine, Coastal and Shelf Science, 2004, 61:583—590.
    [8] 刘国华,傅伯杰,杨平. 海河水环境质量及污染物入海通量[J].环境科学,2001,22(4):46—50.
    [9] Liu Guohua, Fu Bojie, Yang Ping. Quality of aquatic environment at Haihe River and the pollutant fluxes flowing into sea[J]. Chinese Journal of Environmental Science, 2001, 22 (4): 46—50.
    [10] 秦保平,翟德华,袁倩,等.海河水生生态系统研究[J].城市环境与生态,1998,11(1):48—51.
    [11] Qin Baoping, Zhai Dehua, Yuan Qian,et al. Study on the aquatic ecosystem of Haihe River[J]. Urban Environment & Urban Ecology,1998, 11 (1): 48—51.
    [12] 袁倩,林坚,袁秀文,等. 天津市汛期排水对海河的污染[J]. 城市环境与城市生态,1998,11(增刊): 23—25.
    [13] Yuan Qian, Lin Jian, Yuan Xiuwen, et al. Study on the Haihe River pollution caused by waste water discharge in the flooding season[J]. Urban Environment &Urban Ecology, 1998, 11 (suppl): 23—25.
    [14] 刘成,王兆印,何耘, 等.环渤海湾诸河口底质现状的调查研究[J].环境科学学报,2003,23(1):58—63.
    [15] Liu Cheng, Wang Zhaoyin, He Yun, et al. Investigation on sediment quality ofthe river mouth around Bohai Bay[J]. Acta Scientiae Circumstantiae, 2003, 23 (1): 58—63.
    [16] Del Bubba M, Arias C A, Brix H. Phosphorus adsorption maximum of sandsfor use as media in subsurface flow constructed reed beds as measured by the Langmuir isotherm[J]. Water Res, 2003, 37: 339—340.
    [17] Brix H, Arias C A, Del Bubba M. Media selection for sustainable phosphorus removal in subsurface flow constructed wetlands[J]. Water Sci Technol, 2001, 44 (11/12): 47—54.
    [18] 刘俐,宋存仪,熊代群,等. 渤海湾表层沉积物重金属在不同粒级有机-矿质复合体中的分布[J].环境科学研究, 2006,19 (1):75—79.
    [19] Liu Li, Song Cunyi, Xiong Daiqun,et al. Distribution of heavy metals in different fractions of organo-mineral aggregates in surficial sediments of Bohai Bay[J]. Research of Environmental Sciences, 2006, 19 (1): 75—79.
    [20] 国家环境保护总局.水和废水监测分析方法 [M].第4版. 北
    [21] 京:中国环境科学出版社,2002.
    [22] SEPA. Water & wastewater measure and analysis measure[M].4th ed. Beijing: China Environmental Science Press,2002.
    [23] 刘光菘.土壤理化性质与剖面描述[M].北京:中国标准出版社,1996.
    [24] Liu Guangsong. Soil physical and chemical analysis & description of soil profiles[M]. Beijing: Standard Press of China, 1996.
    [25] 王圣瑞,赵海超,周小宁,等.五里湖与贡湖不同粒径沉积物中有机质、总氮和磷形态分布研究[J].环境科学研究,2004,17(增刊):11—14.
    [26] Wang Shengrui, Zhao Haichao, Zhou Xiaoning, et al. Study on the organic matter, total nitrogen and phosphorus form distribution of different particle size fractions in the sediment from Wuli Lake and Gonghu Lake[J]. Research of Environmental Sciences, 2004, 17 (suppl): 11—14.
    [27] Bergamaschi B A, Tsamakis E, Ceil R G, et al. The effect of grain size and surface area on organic matter, lignin and carbohydrate concentration, and molecular compositions in Peru Margin sediments[J]. Geochimica et Cosmochimica Acta, 1997, 61 (6): 1247—1260.
    [28] Zhou Aimin, Tang Hongxiao, Wang Dongsheng. Phosphorus adsorption on natural sediments: modeling and effects of pH and sediment composition[J]. WaterRes, 2005, 39:1245—1254.
    [29] 杨洪,易朝路,谢平, 等. 武汉东湖沉积物碳氮磷垂向分布研究[J]. 地球化学,2004,33(5):507—514.
    [30] Yang Hong, Yi Chaolu, Xie Ping, et al. Vertical distribution of carbon, nitrogen and phosphorus of sediments at stations Ⅰand Ⅱ in Lake Donghu, Wuhan[J]. Geochimica, 2004, 33(5): 507—514.
    [31] 薛联青, 吕锡武,吴磊. 湖水-沉积物界面内源物质交换动态复水模拟研究[J].水科学进展,2004,15(2):189—192.
    [32] Xue Lianqing, Lv Xiwu, Wu Lei. Dynamic simulation study on inner source nutrientexchange between water-sediment interfaces in Xuanwu Lake[J]. Advances in Water Science, 2004, 15 (2): 189—192.
    [33] Michael Hupfe,Rosemarie Pthig. Mechanical resuspension of autochthonous,Calcite (seekreide) failed to control internal phosphorus cycle in a eutrophic lake[J]. Water Res, 2000,34(3): 859—867.
  • 加载中
计量
  • 文章访问数:  1600
  • HTML全文浏览量:  18
  • PDF下载量:  100
  • 被引次数: 0
出版历程
  • 刊出日期:  2007-06-25

目录

    /

    返回文章
    返回