地球科学进展 ›› 2013, Vol. 28 ›› Issue (12): 1326 -1334. doi: 10.11867/j.issn.1001-8166.2013.12.1326

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塔克拉玛干沙漠南缘红柳沙包落叶阳离子含量及气候环境变化
刘倩 1( ), 高辰晶 1, 赵元杰 1, *( ), 夏训诚 2   
  1. 1. 河北师范大学资源与环境科学学院,河北省环境演变与生态建设实验室,河北 石家庄 050024
    2. 中国科学院新疆生态与地理研究所,新疆 乌鲁木齐 830011
  • 收稿日期:2013-07-11 修回日期:2013-11-01 出版日期:2013-12-10
  • 通讯作者: 赵元杰 E-mail:liuqianstar@126.com;ecoenvir@aliyun.com
  • 基金资助:
    国家自然科学基金项目#cod#x0201c;基于红柳沙包信息重建数百年来塔克拉玛干沙漠南缘高分辨率气候变化序列#cod#x0201d;(编号:41071133);河北省重点学科自然地理学建设项目资助.

Positive Ion Contained in Tamarix Cone Sedimentary Veins and Climatic and Environmental Change in Southern Region of Taklimakan Desert

Qian Liu 1( ), Chenjing Gao 1, Yuanjie Zhao 1( ), Xuncheng Xia 2   

  1. 1. College of Resources and Environmental Sciences, Hebei Normal University, Hebei Key Laboratory of Environmental Change and Ecological Construction, Hebei Shijiazhuang 050024, China
    2. Xinjiang Institute of Ecology and Geography, CAS, Xinjiang Urumqi 830011, China
  • Received:2013-07-11 Revised:2013-11-01 Online:2013-12-10 Published:2013-12-10

通过研究塔克拉玛干沙漠南缘地区安迪尔故城、安迪尔牧场和达玛沟乡3个不同地点的红柳沙包沉积纹层,系统分析了近400多年来红柳沙包落叶阳离子与气候环境变化的关系。结果表明,3个采样点中4种阳离子的变化幅度排序均为Ca2+> K+> Mg2+> Na+,其中Ca2+含量的变化与阳离子总量变化的相关系数最高,表明可以用Ca2+含量的变化或阳离子总量的变化分析气候环境变化趋势。红柳沙包落叶阳离子含量与温度呈负相关,依此划分塔南地区近400多年来的冷暖期,1590#cod#x02014;1691年为暖期,1692#cod#x02014;1896年为冷期(其中暖波动为1799#cod#x02014;1808年、1825#cod#x02014;1829年、1878#cod#x02014;1881年和1887#cod#x02014;1891年),1897#cod#x02014;2010年为暖期(其中冷波动为1939#cod#x02014;1941年、1992#cod#x02014;1998年);降水量与红柳落叶阳离子含量的相关性较差;阳离子含量变化与区域洪水事件有较好对应。进一步完善了利用红柳沙包阳离子含量变化揭示气候环境变化的可行性,填补了塔南地区近400多年来高分辨率气候变化部分时段的空白。

Based on the research on Tamarix cone sedimentary veins in three different places which are Andier Ancient City, Andier Meadow, and Damagou Township in the southern region of the Taklimakan Desert, the relationship between the characteristics of the positive ion content in Tamarix fallen leaves and climatic change during the past 400 years is systematically analyzed. The results show: the order of four kinds of positive ion content#cod#x02019;s change range in three sampling sites is Ca2+> K+> Mg2+> Na+. The correlation coefficient between Ca2+ content and the total positive ion content is higher, which indicates that Ca2+ content or the total positive ion content can reflect the change trends. There is an inverse correlation between positive ion content in Tamarix fallen leaves and the local temperature. According to the change of positive ion content, the climate in the southern region of the Taklimakan Desert can be divided into cold and warm periods during the past 400 years, among which the period of 1590-1691 is warm period, of 1692-1896 is cold period (warm fluctuations are 1799-1808,1825-1829,1878-1881,1887-1891), of 1897-2010 is warm period (cold fluctuations are 1939-1941,1992-1998); Precipitation has a poor correlation with the positive ion content; There is a better correspondence between the changes of positive ion content and the regional flood events. This research provides a kind of research method for the environmental evolution in the southern region of the Taklimakan Desert,and it is of great help to environmental change research of the arid desert regions. It has further perfected the feasibility of using positive ion content in Tamarix cone sedimentary veins to reveal the environmental change, and fills up the blank of high resolution climatic change during the past 400 years in the southern region of the Taklimakan Desert.

图1 塔克拉玛干沙漠南缘地区红柳沙包采样点位置图
Fig.1 The location map of Tamarix cone sampling sites in southern region of Taklimakan desert
图2 塔克拉玛干沙漠南缘采样点红柳沙包沉积纹层的年代序列
Fig.2 Age sequence of Tamarix cone sedimentary veins at sampling sites in southern region of Taklimakan desert
图3 A采样点阳离子含量年际变化
Fig.3 Inter-annual variation of positive ion content in sampling site A
图4 B采样点阳离子含量年际变化
Fig.4 Inter-annual variation of positive ion content in sampling site B
图5 C采样点阳离子含量年际变化
Fig.5 Inter-annual variation of positive ion content in sampling site C
表1 各阳离子含量之间以及与阳离子总量变化的相关系数
Table 1 Correlation coefficients between positive ion content and their total content
表2 采样点钙离子含量变化与塔南地区温度之间的关系
Table 2 The relationship between Ca2+ content change at sampling sites and the temperature in southern region of Taklimakan desert
图6 采样点红柳落叶Ca 2+含量距平值变化
Fig.6 Anomaly curve of Ca 2+ content at sampling sites
图6 塔南地区气候冷暖期划分
Table 3 The division of temperature periods in southern region of Taklimakan desert
表4 新疆及周边地区气候变化冷暖期
Table 4 Cold and warm periods of climate change in different areas of Xinjiang and its surrounding area
表5 塔南地区洪水发生年份
Table 5 Flood years in southern region of Taklimakan desert
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