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地质论评 2007

胶州湾沉积岩心化学元素聚集特征

Keywords: 210Pb分布元素聚集速率沉积通量沉积岩心胶州湾

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Abstract:

本文对胶州湾沉积岩心B3、C2、C4、B6、D4和D6进行了210^Pb放射活度的测定,在相应的岩层测定了化学元素Ca、K、Li、Mg、Na、Rb、Sr和V。结果表明,^210Pb的分布模式反映了胶州湾不同区域沉积速率和沉积环境。胶州湾沉积岩心中化学元素Ca、K、Li、Mg、Na、Rb、Sr、和V的垂直分布,在不同的区域和不同的地层年代都有明显的变化。胶州湾现在和过去沉积过程中化学元素的聚集速率发生了明显的变化,揭示了采样站位物质来源和沉积环境。反映了近百年来人类工农业活动对胶州湾环境的影响。

References

[1]	边淑华夏东兴陈义兰等.胶州湾口海底沙波的类型,特征及发育影响因素[J].中国海洋大学学报:自然科学版,2006,36(2):327-330.
[2]	边淑华夏东兴李朝新.胶州湾潮汐通道地貌体系[J].海洋科学进展,2005,23(2):144-151.
[3]	周莉赵其渊李巍然.山东半岛南部表层沉积物粒度分布与泥沙动态[J].山东海洋学院学报,1983,13(3):45-58.
[4]	朱诚马春梅黄林燕赵宁曦.南京江北地区9490～4840aBP环境演变的地层记录研究[J].地质论评,2005,51(3):347-352.
[5]	Nittrouer C A, Sternberg R W, Carpenter R, Bennett J T. 1979. The use of 210pb geochronology as a sedimentological tool : Application to the Washington continental shelf. Marine Geology, 1979,31: 297-316.
[6]	Roussiez V, Ludwig W, Monaco A, Probst J L, Bouloubassi I, Buscail R, Saragoni G. 2006. Sources and sinks of sediment- bound contaminants in the Gulf of Lions (NW Mediterranean Sea): A multi-tracer approach. Continental Shelf Research, 26:1843-1857.
[7]	戴纪翠宋金明郑国侠.胶州湾沉积环境演变的分析[J].海洋科学进展,2006,24(3):397-406.
[8]	孔令双刘德辅李炎保曹祖德.胶州湾海域中随机因素对流场模拟结果的影响[J].水动力学研究与进展：A辑,2004,(2):225―230.
[9]	李凡林宝荣.薛家岛湾沉积动力学特征及海港开发研究[J].海洋与湖沼,:.
[10]	李凤业高抒贾建军.冲绳海槽北部晚第四纪沉积速率[A].高抒和李家彪主编.中国边缘海的形成演化[C].北京:海洋出版社,2002a.140-146.
[11]	李凤业高抒等.黄、渤海泥质沉积区现代沉积速率[J].海洋与湖沼,:.
[12]	李凤业史玉兰.同位素记录南黄海现代沉积环境[J].海洋与湖沼,:.
[13]	李玉瑛沈渭铨章伟.鲁南沿海沉积物分布及规律的研究[J].青岛海洋大学学报,1997,27(4):546-552.
[14]	刘广虎李军陈道华刘坚.台西南海域表层沉积物元素地球化学特征及其物源指示意义[J].海洋地质与第四纪地质,2006,26(5):61-68.
[15]	杨世伦孟翊张经薛元忠陈洪涛魏皓刘哲吴瑞明王玲香杨华王亮张文祥.胶州湾悬浮体特性及其对水动力和排污的响应[J].科学通报,2003,48(23):2493-2498.
[16]	张铭汉.胶州湾海水中悬浮体的分布及其季节变化[J].海洋科学集刊,2000,42:49-54.
[17]	赵亮魏皓等.胶州湾水交换的数值研究[J].海洋与湖沼,:.
[18]	Demaster, D J. 1985. Rates of sediment reworking at the Hebble site based on measurements of Th-234, Cs-137 and Pb-210. Marine Geology , 1985,66: 133-148.
[19]	Hong Gi Hoon , Park Sun Kyu, Baskaran M, Kim Suk-Huyn, Chung Chang-Soo, Lee Sang-Han. 1999. Lead-210 and polonium-210 in the winter well-mixed turbid waters in the mouth of the Yellow Sea. Continental Shelf Research, 19:1049-1064.
[20]	Joseph M S, Demaster D J, Steven A K,Pope R H, McKee B A. 1996. The behavior of particle-reactive tracers in a high turbidity environment: 234Th and 210Pb on the Amazon continental shelf. Geochimica et Cosmochimica Acta, 1996,60 (12) : 2123-2137.
[21]	Karageorgis A P, Kaberia H, Price N B, Muir G K P, Pates J M, Lykousis V, 2005. Chemical composition of short sediment cores from Thermaikos Gulf ( Eastern Mediterranean ): Sediment accumulation rates, trawling and winnowing effects. Continental Shelf Research, 25: 2456-2475.
[22]	Li Feng Ye, Li Xue Gang, Song Jin Ming, Wang Gui Zhi, Cheng Peng, Gao Su, 2006. Sediment flux and source in northern Yellow Sea by 2t~Pb technique. Chinese journal of Oceanology and Limnology, 24(3):255-263.
[23]	Li Feng Ye, 1993. Modern sedimentation rates and sedimentation feature in the Huanghe River Estuary based on 210Pb technique. Chinese journal of oceanology and limnology, 11 (4): 333 - 342.
[24]	Lu Xue Qiang, Eiji M,2006. LEADAT: a MATLAB-based program for lead-210 data analysis of sediment cores. Acta oceanologica sinica, 25(6): 128-137.
[25]	Vazquez F G, Sharma V K. 2004. Major and trace elements in sediments of the Campeche Sound, southeast Gulf of Mexico. Marine Pollution Bulletin, 48 : 87-90.

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