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基于XRF岩芯扫描的贵州喀斯特地区晚全新世泥炭古环境研究
APPLICATION OF XRF CORE SCANNING METHOD IN LATE HOLOCENE ENVIRONMENT CHANGE STUDY DERIVED FROM A PEAT CORE FROM SOUTHWESTERN GUIZHOU,SOUTHWESTERN CHINA

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杨欢 1   曾蒙秀 1 *   彭海军 2 *   李凯 3   李凤全 1   朱丽东 1   邓伯龙 4   廖梦娜 3   倪健 3  
文摘 文章选取发育于贵州喀斯特地区的兴义泥炭为研究对象,对钻孔上部300 cm岩芯进行高分辨率XRF连续扫描,并测定了样品含水量、色度(亮度L*、红度a*、黄度b*)和碳酸盐含量。通过对Rb、Ti、Zr、Al、Si、Ca、Sr、Mg等元素含量及其比值、色度和其他代用指标的综合分析,结合主成分分析方法,探讨XRF岩芯扫描在兴义泥炭研究中使用的可行性,并进一步分析兴义泥炭化学元素的来源、指示意义及所记录的古环境演化过程。基于AMS 14C测年构建的年代框架,发现:1)XRF岩芯扫描的Ca元素含量与气量法测定的碳酸盐含量具有较好的一致性。XRF岩芯扫描和分光测色计获得的L*、b*相关性高,尽管这两种方法获得的a*存在差异,但其数值表现上相似性仍较高;2)晚全新世以来兴义泥炭的地球化学元素主要来源于周边碳酸盐岩风化、淋溶、随流水搬运而最终沉积到湿地的物质;3)兴义泥炭Sr/Ca比值处于高值,Si/Al、Rb/Sr比值处于低值时,气候偏干,反之则指示气候偏湿润。此外,兴义泥炭Al、Si、Ca、Sr、Mg、Rb/Sr、Si/Al、Sr/Ca的变化趋势与烧失量、腐殖化度等具有较好的一致性;4)晚全新世以来兴义地区总体上呈现出由湿润向干转变的趋势,3270~2700cal.a B.P.由湿润持续转干,2300~1670cal.a B.P.降水持续减少,与西南季风主控区众多古环境记录能较好地对应,并揭示了2700~2300 cal.a B.P.降水稳步增加的过程。对兴义泥炭进行XRF岩芯扫描能挖掘其蕴含的物质来源、物质变化特征等多方面信息,有助于拓展XRF岩芯扫描分析方法在泥炭沉积中的应用,并能深化对西南地区古环境演化历史的认识及丰富泥炭研究档案。
其他语种文摘 X-ray fluorescence(XRF) core scanning is a method that has been widely used in loess,marine and lacustrine sediments.The application of this method in peat needs to be further enhanced.In this study,a 300-cm peat drilling core XY1801 (25.28°N,104.82°E;1317 m.a.s.l.) from Xingyi peatland in karst region,southwestern Guizhou Province was selected to scan with high resolution XRF.Furthermore,the water content,chromaticity(L*,a *,b *) and carbonate content in Xingyi peat were also measured.Based on the analysis of contents and ratios of Rb,Ti,Zr,Al,Si,Ca,Sr,Mg,chromaticity,humification and other proxies of Xingyi peat,and in combination of the principal component analysis method,this paper discussed the material source of elements,the environmental significances of element contents/ratios,and the recorded paleoenvironment evolution history in and around Xingyi peatland during Late Holocene.Based on the chronological framework constructed by AMS 14C dating,the results are shown below.(1)XRF core scanning analysis can achieve ideal results in the research of Xingyi peat,and the element records greatly corresponding to the data obtained by traditional methods.The content of Ca from XRF core scanning coincides well with the carbonate content measured by gas volume method.Furthermore,the variation trend of L* and b* obtained by XRF core scanning and colorimeter is also coincident.The correlation coefficient of L* observed from these two methods is 0.99(P< 0.01),and that of b * is 0.91 (P< 0.01).Moreover,the measured results of a* from these two methods have slightly different due to the influence of sample characteristics and the difference during experimental process.However,the numerical similarity of a* is still high,the correlation coefficient is 0.92 at the 0.01 significance level.(2) Through the analysis of the contents of geochemical elements in Xingyi peat,carbonate weathering process and weathering profiles in karst region,it can be found that the sources of geochemical elements in Xingyi peat are mainly from proximal material.Geochemical elements separated out from the surrounding carbonate and eventually deposited in the peatland during the processes of weathering,leaching,transporting,depositing and illuviation.(3) The correlation coefficient between Sr/Ca ratio and Ca element content is-0.38 (P< 0.01),and the correlation coefficient of Sr/Ca ratio and Sr element content is-0.03 (P< 0.01),indicating that Ca element content has more significant influence on Sr/Ca ratio;the correlation between Si/Al ratio and Si element content in Xingyi peat (R2=0.33,P<0.01) is higher than that between Si/Al ratio and Al element content (R2=-0.02,P<0.01),thus the ratio is more obviously affected by Si element;the Rb/Sr ratio is also more related to Rb element.It can be concluded that the climate is dry when Sr/Ca ratio is in high value,and the ratios of Rb/Sr and Si/Al are in low values;and vice versa.(4) Based on the comparative analysis of Ca,Mg,Al,Si,Rb/Sr,Si/Al,Sr/Ca,LOI,humification degree and carbon accumulation rate in Xingyi peat,it is found that the precipitation in Xingyi area decreased during 3270~2700 cal.a B.P,increased steadily during 2700~2300 cal.a B.P.,and decreased continuously during 2300~1670 cal.a B.P.(5) Through the principal component analysis of the main elements in Xingyi peat,it can be observed that the first principal component (F1) of Xingyi peat includes Al,Si,Mg,is as ideal index can be considered as a comprehensive factor reflecting precipitation and runoff in the basin;the second principal component(F2) includes Sr,Ca and other elements,is closely related to carbonate input and bedrock in and around of the surrounding karst landform area;the third principal component (F3) includes Rb,Zr and Ti,is related to stable particles.
来源 第四纪研究 ,2020,40(5):1154-1169 【核心库】
DOI 10.11928/j.issn.1001-7410.2020.05.06
关键词 贵州泥炭 ; XRF岩芯扫描 ; 元素地球化学 ; 喀斯特地貌 ; 古环境重建
地址

1. 浙江师范大学地理与环境科学学院, 浙江, 金华, 321004  

2. 中国科学院地球化学研究所, 环境地球化学国家重点实验室, 贵州, 贵阳, 550081  

3. 浙江师范大学化学与生命科学学院, 浙江, 金华, 321004  

4. 贵州省湿地保护中心, 贵州, 贵阳, 550001

语种 中文
文献类型 研究性论文
ISSN 1001-7410
学科 地质学;自然地理学
基金 国家自然科学基金面上项目 ;  国家973计划
文献收藏号 CSCD:6815895

参考文献 共 76 共4页

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引证文献 4

1 郁科科 六盘山朝那湫湖泊沉积物Rb/Sr比值及其古气候意义 第四纪研究,2023,43(1):122-130
CSCD被引 5

2 杨思敏 神东矿区典型矿井水中氟的分布特征及形成机制 煤炭科学技术,2023,51(6):246-256
CSCD被引 3

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论文科学数据集

1. 羌塘盆地北缘上三叠统藏夏河组砂岩主、微量元素地球化学数据

2. 安徽省南部白钨矿矿化花岗闪长斑岩地球化学数据集(2017)

3. 秦岭-大别造山带姚冲钼矿斑岩的全岩及单矿物地球化学数据

数据来源:
国家青藏高原科学数据中心
PlumX Metrics
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