西江河口段溶解无机碳稳定同位素组成的时空变化(英文)

编号 zgly0001586846

文献类型 期刊论文

文献题名 西江河口段溶解无机碳稳定同位素组成的时空变化(英文)

作者 焦树林  陶贞  高全洲  刘昆  佘建伟  丁健  刘祖发 

作者单位 SchoolofGeographyandPlanningSunYat-senUniversity  SchoolofGeographyandBiology  GuizhouNormalUniversity  Guiyang550001  China  SchoolofGeographyandPlanning  SunYat-senUniversity  Guangzhou510275 

母体文献 Journal of Geographical Sciences 

年卷期 2008年03期

年份 2008 

分类号 X52 

关键词 XijiangRiverInnerEstuary  dissolvedinorganiccarbon  stableisotopiccarbon  spatio-temporalvariation 

文摘内容 For researching the spatio-temporal variation of the stable isotopic composition of the riverine dissolved inorganic carbon(DIC),we had carried out a survey throughout the hydrologic year during which theδ 13 CDIC of the surface water and its physicochemical parameter were examined along the Xijiang River Inner Estuarine waterway from September 2006 to June 2007.There was a striking seasonal variation on the averageδ 13 CDIC,as the averageδ 13 CDIC in summer(-13.91‰)or autumn(-13.09‰)was much less than those in spring(-11.71‰)or winter(-12.26‰).The riverineδ13C DIC was controlled by decomposed condition of the riverine organic matter linking the seasonal variation of the physicochemical parameter in the surface water according to the correlation analysis which indicated notable relations betweenδ 13 CDIC and water temperature(p=0.000;r=-0.569)or betweenδ 13 CDIC and oxide-reduction potential(p=0.000;r=0.646).The striking positive correlation between δ 13 CDIC and the sampling distance happened in the summer rainy season,while striking negative correlation happened in the spring dry season,indicating that river-sea interaction influenced water physicochemical parameters and controlled the riverine DIC property in the survey waterway.In view of the riverineδ 13 CDIC decreasing for the decomposition of the terrestrial organic matter in the rainy season in summer and increasing for the briny invaded zone extending in the spring dry season along the waterway from the Makou gauging station to the Modaomen outlet,theδ 13 CDIC spatio-temporal variation was closely related to the geographical environment of the Xijiang drainage basin.