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云南白水台钙华景区的水化学和碳氧同位素特征及其在古环境重建研究中的意义
引用本文:刘再华, 游省易, 李强, 张美良. 云南白水台钙华景区的水化学和碳氧同位素特征及其在古环境重建研究中的意义[J]. 第四纪研究, 2002, 22(5): 459-467.
作者姓名:刘再华  游省易  李强  张美良
作者单位:1. 中国地质科学院岩溶地质研究所, 国土资源部岩溶动力学开放研究实验室, 桂林 541004;; 2. 中国地质大学研究生院, 武汉 430074;; 3. 广西师范大学生物系, 桂林 541004
基金项目:科技部社会公益研究专项资金项目 (批准号 :2 0 0 0 -1 6 4 ),国家自然科学基金项目 (批准号 :4 0 0 730 2 6 ),广西自然科学基金项目 (批准号 :桂科回 0 1 4 4 0 1 0 )联合资助
摘    要:采用水化学仪器自动记录、现场滴定和样品碳氧稳定同位素测试相结合等方法,对云南中甸白水台钙华景区的水化学和碳氧稳定同位素特征进行了综合分析。主要结论是:形成白水台钙华的泉水具有很高的钙和重碳酸根离子浓度,相应地,泉水的CO2分压显著高于土壤生物成因所能产生的CO2分压。结合泉水出露的地质条件及其碳稳定同位素特征(δ13C=-1.23‰)的分析,进一步发现,高CO2分压主要与深部地热成因的CO2有关,而非原来普遍认为的“是温暖湿润气候的产物”。可见,白水台钙华属于热成因类钙华。由此,根据白水台不同时代钙华氧稳定同位素组成的差异,对钙华形成时的水温进行了计算。结果发现自白水台钙华形成以来,水温变化高达11℃,即从最老(2)的干扰及由深源CO2和CO2自水中逸出导致的钙华13C富集,后者在利用类似热成因碳酸盐沉积的δ13C进行古植被重建时也是必须考虑的问题。

关 键 词:水化学   碳氧稳定同位素   热成因钙华   古环境重建   白水台
收稿时间:2000-01-12
修稿时间:2000-01-12

HYDROCHEMICAL AND ISOTOPIC CHARACTERISTICS OF TUFA IN THE BAISHUITAI SCENIC AREA OF YUNNAN AND THEIR IMPLICATIONS FOR PALEOENVIRONMENT RECONSTRUCTION
Liu Zaihua, You Shengyi, Li Qiang, Zhang Meiliang. HYDROCHEMICAL AND ISOTOPIC CHARACTERISTICS OF TUFA IN THE BAISHUITAI SCENIC AREA OF YUNNAN AND THEIR IMPLICATIONS FOR PALEOENVIRONMENT RECONSTRUCTION[J]. Quaternary Sciences, 2002, 22(5): 459-467.
Authors:Liu Zaihua  You Shengyi  Li Qiang  Zhang Meiliang
Affiliation:1. Institute of Karst Geology, Chinese Academy of Geological Science|Karst Dynamics Laboratory, Ministry of Land and Resources, Guilin 541004;; 2. The Graduate School,China University of Geosciences, Wuhan 430074;; 3. Department of Biology, Guangxi Normal University, Guilin 541004
Abstract:Methods of automatic hydrochemical logging and in-situ titrating combinied with the measurement of stable carbon and oxygen isotope were used to study the hydrochemical and isotopic characteristics of tufa in the Baishuitai scenic area, Yunnan, China. It was found that the tufa-forming springs have a very high concentration of calcium and bicarbonate, and accordingly a very high CO2 partial pressure, which is not likely to be produced by biological activity in soil alone. Further analysis on the stable carbon isotopic composition of the spring water ( δ13C=-1.23‰) shows that the high pressure of CO2 is mainly related to a deep-seated CO2 source, meaning that the Baishuitai tufa should be thermo-genetic. This is contrast to the commonly accepted saying that the tufa deposition simply is a product of warm and humid climate in the karst ecological environment. According to relevant calculations based on differences in stable oxygen isotopic compositions of the tufa depositions formed in different epochs at Baishuitai, the change in water temperature is as high as 11℃, i.e., from 21℃ at start of the Baishuitai tufa deposition (<350,000 yr), to 10℃ at present, which may reflect an effect that the strong uplift of the area, and/or the deep geothermal source weakening would have on water temperature. Problems related to paleoenvironmental reconstruction by thermogenetic tufa are also discussed. These problems include the interference of "dead carbon" in radiocarbon dating and the 13C enrichment in tufa by deep-seated CO2 and degassing of CO2 from water. The latter must be considered when reconstructing the paleovegetation by using δ13C data of thermogenetic carbonate deposits.
Keywords:hydrochemistry   stable carbon and oxygen isotope   thermogene tufa   paleoenvironment reconstruction   Baishuitai
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