抚仙湖全新世自生碳酸盐及其区域气候和湖泊水位指示意义  被引量：12

作　　者：李婷 张虎才[1,2] 蔡萌 常凤琴 胡京九 段立曾 张龙吴 张扬 Li Ting;Zhang Hucai;Cai Meng;Chang Fenqin;Hu Jingjiu;Duan Lizeng;Zhang Longwu;Zhang Yang(Key Laboratory of Plateau Lake Ecology and Global Change, College of Tourism and Geography Science, Yunnan Normal University, Kunming 650500, Yunnan;Key Laboratory of Plateau Lake Ecology and Environment Change, Institute of Plateau Lake Ecology and Pollution Management, School of Resource Environment and Earth Science, Yunnan University, Kunming 650504, Yunnan)

机构地区：[1]云南师范大学旅游与地理科学学院,高原湖泊生态与全球变化实验室,云南昆明650500 [2]云南大学资源环境与地球科学学院,高原湖泊生态与污染治理研究院,高原湖泊生态与环境变化实验室,云南昆明650504

出　　处：《第四纪研究》2019年第3期642-654,共13页Quaternary Sciences

基　　金：云南省领军人才项目(批准号:2015HA024);云南省高端人才引进项目(批准号:2010CI111)共同资助.

摘　　要：抚仙湖是我国面积、蓄水量最大的高原湖泊之一。通过对抚仙湖FXH-B2钻孔岩芯296 cm沉积物的矿物组成和碳酸盐含量分析,结合岩芯XRF扫描数据和AMS^14C年代的测定,探讨了抚仙湖湖泊沉积物中碳酸盐含量与方解石矿物及沉积物Ca元素相对含量之间的关系及其环境指示意义,在对比和参考水下地形测量、地球物理勘探、水质和地球化学监测和不同部位钻孔岩芯的分析结果的基础上,重建了抚仙湖全新世以来气候和湖泊水位的变化。结果指示,抚仙湖碳酸盐含量与方解石的XRD信号强度、沉积物Ca元素的XRF扫描数据之间存在很高的相关性,沉积物中碳酸盐类物质主要为方解石(其他碳酸盐类矿物相对含量极微甚至可以忽略不计),沉积物中Ca元素主要来自碳酸盐,因此其含量由碳酸盐、即方解石矿物含量决定。沉积物中碳酸盐含量的变化可以用沉积物中Ca元素XRF扫描结果进行表示。由于抚仙湖处于亚热带季风气候区,以10月至次年4月降水量极少而蒸发强烈为特点的干季和以5月至9月降水为主的湿季所形成的干湿变化控制了湖泊演化的主要过程,区域气候变化是湖泊演化和水位变化的主要动力。结合湖泊沉积碳酸盐稳定同位素δ^18O和δ^13C、有机质含量及其同位素δ^13C、抚仙湖北部边缘水下侵蚀地形测量、地球物理勘探和沉积地层年代的确定和讨论,明确了抚仙湖沉积碳酸盐含量指示湖泊水位的变化,并重建了抚仙湖过去约12 ka以来水位变化的历史。结果显示,在约12 cal.ka B.P.至2.2 cal.ka B.P.期间的湖泊水位变化主要经历了波动式降低的过程,其中4.37~2.2 cal.ka B.P.期间高CaCO3含量、偏正的碳酸盐δ^18O、δ^13C值指示抚仙湖一度出现低于现代湖面约30 m左右的低水位,可能记录了抚仙湖流域极端的干旱时期,在2.2~2.0 cal.ka B.P.期间抚仙湖水位经历了快速升高的变化事件,期间湖水�Lake Fuxian(24°21'13"~24°37'57"N, 102°49'14"~102°57'33"E) is one of the deepest inland large lakes in China. In this paper, the carbonate contents, calcite mineral compositions by XRD and element Ca by XRF on the core FXH-B2 drilling from southern center of the lake was analyzed,. The studied core FXH-B2, located at 24°24'57.48"N, 102°52'06.24"E is 296 cm long. Combing with the chronology established by 9^14C dates using AMS^14C dating method, stable isotope analyses on carbonate and organic matters and geophysical data, the contents of carbonate and calcite minerals and element Ca, and their relationships, the significances to reveal water level fluctuations were discussed. Based on these discussions, the water level change history of Lake Fuxian since the last ca. 12 ka was reconstructed. It was calculated that the studied core had a sedimentation rate of 0.24 mm/a. The analysis results show that there is a high correlation between carbonate content and the XRD signal strength of calcite(R^2=0.87) and XRF scanning data of sediment Ca elements(R^2=0.85). The carbonate in the sediments of Lake Fuxian are composed of mainly calcite(the relative content of other carbonate minerals is low or even negligible). The high correlations between carbonate contents, the calcite contents and the relative content of Ca element indicate that in Fuxian Lake sedimentation the Ca element mainly come from calcite. Therefore, their contents were determined by the content of carbonate. Changes in carbonate content in sediments can be expressed by the results of XRF results of Ca elements in sediments. Because Lake Fuxian is located in the subtropical monsoon climate zone, dry and wet oscillations of the climate control the main process of lake evolution process, the lake sedimentary proxies, such as the Ca element, and or carbonate and calcite contents mainly reveal the water level change history in the past. Based on this assumption, the reconstructed lake water level changes during last 12 ka demonstrates a gradual decrease

关 键 词：抚仙湖 方解石 环境变化 碳酸盐 

分 类 号：P941.78[天文地球—自然地理学] P534.632