中国新疆博斯腾湖全新世沉积环境年代学特征

张成君; 曹洁; 类延斌; 尚华明

中国新疆博斯腾湖全新世沉积环境年代学特征

兰州大学资源环境学院兰州 730000

基金项目: 国家重点基础研究规划项目“中国西部干旱区生态环境演变与调控研究”(批准号:G1999043501)；国家自然科学基金项目(批准号:40041004)资助

详细信息

作者简介:
张成君男 1966年出生教授有机同位素地球化学

中图分类号: P534.63;P512.2

计量

文章访问数: 591
HTML全文浏览量: 15
PDF下载量: 640
被引次数: 0

The Chronological Characteristics of Bosten Lake Holocene Sediment Environment in Xinjiang, China

School of Resources and Environmental Sciences, Lanzhou University, Lanzhou 730000

摘要

摘要: 通过对博斯腾湖沉积物湖芯样品进行¹³⁷Cs,¹⁴C-AMS测年分析,湖芯剖面上有明显的1986年的切尔诺贝利核事故蓄积峰,以及1975年和1963年次蓄积峰,这些137Cs蓄积峰对博斯腾湖现代沉积有明显的时标意义。通过质量深度与年代分析,博斯腾湖的沉积速率相对稳定,平均沉积速率为0.13±0.01g/cm².a。与¹⁴C年代获得的中全新世以来的平均沉积速率0.13±0.03cm/a和0.12±0.05cm/a相似,表明博斯腾湖中全新世以来的沉积环境较稳定,并且也说明¹⁴C-AMS测年分析所得的结果较为可靠,可以利用博斯腾湖沉积物样品测定的¹⁴C年代进行线性回归作年代校正,由于湖泊沉积物中老碳效应的影响,博斯腾湖沉积物有机质14C测年偏老约650a左右。
- 博斯腾湖 /
- ¹³⁷Cs计年 /
- 沉积速率 /
- ¹⁴CAMS年代
Abstract: Cs and ¹⁴C AMS were analyzed for the Bosten Lake sediment cores in Xinjiang, arid China. In the BST-4 core ¹³⁷ Cs section, there are obvious 1986 Chemobyl nucleus accident peak and 1975, 1963 peaks, which are important age characteristics for the Bosten lake sediment. The sedimentation rate, which was average 0.13±0.01 g/cm ² .a, was stable in the Bosten Lake by analysing the mass depth and ages. It is very similar to that from the ¹⁴C age, 0.13±0.03cm/a for BSTC-1 core and 0.12±0.05cm/a for xb46 core, in Bosten Lake after middle Holocene and show that the depositional environment was stable and the ¹⁴C ages were accurate. From the ¹⁴C age of the samples in Bosten Lake, it can be calibrated the old carbon effect produced by the hard water in the lakes and old carbon effect can lead to the old age for the ¹⁴C age in analysing the lake organic matters in sediments. We obtained the result of about 650a old effect in Bosten lake from the ¹⁴C age and the sedimentation rate by the ¹³⁷ Cs data.
- Bosten lake,¹³⁷Cs /
- sedimentation rate,¹⁴C AMS age /

HTML全文

参考文献(25)

[1]	王苏民,李建仁.湖泊沉积-研究历史气候的有效手段--以青海湖、岱海为例.科学通报,1991,1:54～56[Wang Sumin, Li Jianren. Lake sediments-an effective way to research the palaeoclimate: as exampe of Qinghai lake and Daihai lake. Chinese Science Bulletim,1991,1:54～56]
[2]	Deevey E S, Jr Gross M S, Hutchinson G E, and Kraybill H L. The natural ¹⁴C contents of materials from hard water lakes. Proceedings of the National Academy of Sciences USA, 1954,40:285～288
[3]	Shotton F W. An example of hard-water error in radiocarbon dating of vegetable matter. Nature, 1972,240:460～461
[4]	Karrow P E, Warner B G, Fritz P. Corry Bog, Pennsylvania: A case study of the radiocarbon dating of marl. Quaternary Research, 1984,21:326～336
[5]	MacDonald G M, Beuken R P, Kieser W E, Vitt D H. Comparative radiocarbon dating of terrestrial plant macrofossils and aquatic moss from the "ice-free corridor" of western Canada. Geology, 1987,15:837～840
[6]	任国玉. 内蒙古湖相沉积14C年代测定中"硬水"影响的发现. 湖泊科学,1998,10(3):80～82[Ren Guoyu. A finding of the influence of "Hard Water" on radiocarbon dating for lake sediments in Inner Mongolia, China. Journal of Lake Sciences,1998,10(3):80～82]
[7]	Aravena R, Warner B G, MacDonald G M, Hanf k. Carbon isotope composition of lake sediments in relation to lake productivity and radiocarbon dating. Quaternary Research, 1992,37:333～345
[8]	许英勤.新疆博斯腾湖地区全新世以来的孢粉组合与环境.干旱区地理,1998,21(2):43～ 49[Xu Yingqing. The assemblage of Holocene spore pollen and its environment in Bosten lake area, Xinjiang. Arid Land Geography,1998,2(2):43～49]
[9]	严平,董光荣,张信宝,张一云. ¹³⁷Cs法测定青藏高原土壤侵蚀的初步结果.科学通报,2000a,45(2):199～204[Yan Ping, Dong Guangrong, Zhang Xinbao,et al. Preliminary results of using ¹³⁷Cs to study wind erosion in the Qinghai-Tibet Plateau. Chinese Science Bulletin,2000a,11:1019～1024]
[10]	Lomenick T F, Tamura T. Naturally occurring fixation of cesium-137 on sediments of lacustrine origin. Soil Science Society of American Proceeding, 1965, 29:383～386
[11]	Richie J C, MeHenry J R. Fallout cesium-137: A tool in conservation research. Journal Soil Water Conservation, 1975, 30:283～286
[12]	Collins A L, Walling D E, Leeks G J L. Using of the geochemical record preserved in floodplain deposits to reconstruct recent changes in river basin sediment sources. Geomorphology, 1997, 19:151～167
[13]	万国江.现代沉积物年分辨的¹³⁷Cs记年--以云南洱海和贵州红枫湖为例.第四纪研究,1999,(1):73～80[Wan Guojiang. 137Cs dating by annual distinguishment for recent sedimentation: samples from Erhai lake and Hongfeng lake. Quaternary Sciences,1999,(1):73～80]
[14]	万国江. ¹³⁷Cs及²¹⁰Pbex方法湖泊沉积物计年研究新进展. 地球科学进展,1995,10(2):198～192[Wang Guojiang. Progresses on ¹³⁷Cs and sup>210Pbex dating of lake sediments. Advance in Earth Sciences, 1995,10(2):198～192]
[15]	项亮,吴瑞金,吉磊. ¹³⁷Cs和²⁴¹在滇池、剑湖沉积孔柱中的蓄积分布及时标意义.湖泊科学,1996,8(1):27～34[Xiang Liang,Wu Ruijin, Ji Lei. ¹³⁷Cs and ²⁴¹Am profiles and dating of sediments from two lakes in Yunnan province, China. Journal of Lake Sciences,1996,8(1):27～34]
[16]	严平,董光荣,董治宝,等.青海共和盆地达连海湖积物¹³⁷Cs示踪的初步结果. 地球化学,2000b,29(5):469～474[Yan Ping., Dong Guangrong, Dong Zhibao, et al.137Cs tracing of lacustrine sediments from Dalianhai lake, Qinghai province, China. Geochimica,2000b,29(5):469～474]
[17]	林瑞芬,卫克勤,程致远,等.新疆博斯腾湖沉积岩芯的²¹⁰Pb、²²⁸Th、^239,240Pu和³H的分布及意义.地球化学,1992,1:63～69[Lin Ruifen, WeiKeqin, Cheng Zhiyuan, et al. Distributions of ²¹⁰Pb,²²⁸Th,^239,240Pu and ³H and their implications in sediment core from Bosten lake, Xinjiang, China. Geochimica,1992,1:63～69]
[18]	Krishnaswami S, Lai D, Martin J M, Meybeck M. Geochronology of lake sediments. Earth Planetary Science Letters, 1971,11:407～414
[19]	Pennington Cambrary W R S and Fisher E M. Observation on lake sediments using fallout ¹³⁷Cs as a tracer. Nature, 1973, 242:324～326
[20]	Ritchie J C, Mchenry J R and Gill A C. Dating recent reservoir sediments. Limnology Oceanography. 1973, 18:254～263
[21]	Robbins J A and Edgington D N. Determination of recent sedimentation rates in lake Michigan using ²¹⁰Pb and ¹³⁷Cs. Geochimica et Cosmochimica Acta, 1975,39:285～304
[22]	钟巍,舒强. 南疆博斯腾湖近12.0kaB.P.以来古气候与古水文状况的变化. 海洋与湖沼,2001,32(2):213～219[Zhong Wei, Shu Qiang. Palaeoclimatic and palaeohydrologic oscillations since about 12.0kaB.P. at Bosten lake, Southern Xinjiang. Oceanologia et Limnologia Sinica, 2001,32(2):213～219]
[23]	范德江,杨作升,郭志刚. 中国陆架210Pb测年应用现状与思考. 地球科学进展,2000,15(3):297～302[Fan Dejiang, Yang Zuosheng, Guo Zhigang. Review of 210Pb dating in the continental shelf of China. Advance in Earth Sciences,2000,15(3):297～302]
[24]	Regnell J. Preparing pollen concentrations for AMS dating-a methodological study from a hard-water lake in southern Sweden. Boreas, 1992, 21:373～377
[25]	孙湘君,杜乃秋,陈因硕, 等.西藏色林错湖相沉积物的花粉分析.植物学报,1993,35(12):943～ 950[Sun Xiangjun, Du Naiqiu, Chen Yinshun,et al. Holocene palynological resords in lake Selincuo, Northern Xizang. Acta Botanica Sinica,1993,35(12):943～950]

[1]	高抒. 南京地区早三叠世碳酸盐沉积动力过程初探 . 沉积学报, 2023, 41(6): 1673-1680. doi: 10.14027/j.issn.1000-0550.2023.124
[2]	刘涛, 褚冠宇, 徐慧鹏. 基于风暴潮记录研究红树林淤积速率时间变化 . 沉积学报, 2022, 40(5): 1346-1354. doi: 10.14027/j.issn.1000-0550.2021.042
[3]	宗娴, 石学法, 葛晨东, 邹建军, Sergey Gorbarenko, 乔淑卿, 董智. 日本海百年来沉积速率及粒度指示意义 . 沉积学报, 2016, 34(3): 516-522. doi: 10.14027/j.cnki.cjxb.2016.03.009
[4]	夏鹏, 孟宪伟, 丰爱平, 李珍, 杨刚. 压实作用下广西典型红树林区沉积速率及海平面上升对红树林迁移效应的制衡 . 沉积学报, 2015, 33(3): 551-560. doi: 10.14027/j.cnki.cjxb.2015.03.013
[5]	闵凤阳. 深圳湾西北部海域表层沉积物的分布特征及输运趋势 . 沉积学报, 2009, 27(4): 714-722.
[6]	张瑞. 长江河口水下三角洲210Pb分布特征及其沉积速率 . 沉积学报, 2009, 27(4): 704-713.
[7]	薛春汀. 西汉末—北宋黄河三角洲（公元11～1099年）的沉积记录 . 沉积学报, 2008, 26(5): 804-812.
[8]	潘少明. ¹³⁷Cs剖面的沉积信息提取——以香港贝澳湿地为例 . 沉积学报, 2008, 26(4): 655-661.
[9]	. 库车坳陷北部白垩系沉积速率分析 . 沉积学报, 2006, 24(05): 641-649.
[10]	章伟艳, 张富元, 陈荣华, 张霄宇. 南海深水区晚更新世以来沉积速率、沉积通量与物质组成 . 沉积学报, 2002, 20(4): 668-674.
[11]	吴智平, 周瑶琪. 一种计算沉积速率的新方法——宇宙尘埃特征元素法 . 沉积学报, 2000, 18(3): 395-399.
[12]	刘晓东, 鹿化煜, 安芷生. 利用黄土沉积速率与粒度的相关性建立黄土序列年龄的新方法 . 沉积学报, 1999, 17(1): 145-148.
[13]	陈建芳, 郑连福, 陈荣华, 郑玉龙, 陈文斌, M.G.Wiesner, H.K.Wong. 南海颗粒物质的通量、组成及其与沉积物积累率的关系初探 . 沉积学报, 1998, 16(3): 14-19.
[14]	潘少明, 朱大奎, 李炎, 许其高. 河口港湾沉积物中的(¹³⁷)Cs剖面及其沉积学意义 . 沉积学报, 1997, 15(4): 67-71,66.
[15]	刘国臣, 金之钧, 李京昌. 沉积盆地沉积－剥蚀过程定量研究的一种新方法──盆地波动分析应用之一 . 沉积学报, 1995, 13(3): 23-31.
[16]	赖志云, 周维. 舌状三角洲和鸟足状三角洲形成及演变的沉积模拟实验 . 沉积学报, 1994, 12(2): 37-44.
[17]	潘少明, 王雪瑜, John N.Smith. 海南岛洋浦港现代沉积速率 . 沉积学报, 1994, 12(2): 86-93.
[18]	杨松林, 刘国贤, 杜瑞芝, 张兵. 用²¹⁰Pb年代学方法对辽东湾现代沉积速率的研究 . 沉积学报, 1993, 11(1): 128-135.
[19]	叶崇开. ¹³⁷Cs法和²¹⁰Pb法对比研究鄱阳湖近代沉积速率 . 沉积学报, 1991, 9(1): 106-114.
[20]	孙建中, 李虎侯. 马兰黄土沉积速率及其地质意义 . 沉积学报, 1989, 7(1): 109-116.

施引文献

资源附件(0)

访问统计

点击查看大图

计量

文章访问数: 591
HTML全文浏览量: 15
PDF下载量: 640
被引次数: 0

姓名
邮箱
手机号码
标题
留言内容
验证码

留言板

中国新疆博斯腾湖全新世沉积环境年代学特征

作者简介:
张成君男 1966年出生教授有机同位素地球化学

计量

The Chronological Characteristics of Bosten Lake Holocene Sediment Environment in Xinjiang, China

计量

目录

中国新疆博斯腾湖全新世沉积环境年代学特征

兰州大学资源环境学院兰州 730000

作者简介:
张成君男 1966年出生教授有机同位素地球化学

English Abstract

The Chronological Characteristics of Bosten Lake Holocene Sediment Environment in Xinjiang, China

School of Resources and Environmental Sciences, Lanzhou University, Lanzhou 730000

全文HTML

目录

友情链接

期刊在线

联系我们

留言板

中国新疆博斯腾湖全新世沉积环境年代学特征

作者简介: 张成君 男 1966年出生 教授 有机同位素地球化学

计量

出版历程

The Chronological Characteristics of Bosten Lake Holocene Sediment Environment in Xinjiang, China

计量

出版历程

目录

中国新疆博斯腾湖全新世沉积环境年代学特征

兰州大学资源环境学院 兰州 730000

作者简介: 张成君 男 1966年出生 教授 有机同位素地球化学

English Abstract

The Chronological Characteristics of Bosten Lake Holocene Sediment Environment in Xinjiang, China

School of Resources and Environmental Sciences, Lanzhou University, Lanzhou 730000

全文HTML

目录

友情链接

期刊在线

联系我们

作者简介:
张成君男 1966年出生教授有机同位素地球化学

兰州大学资源环境学院兰州 730000

作者简介:
张成君男 1966年出生教授有机同位素地球化学