流域盆地化学风化强度空间分布及控制因素研究:以长江和珠江为例

	流域盆地化学风化强度空间分布及控制因素研究:以长江和珠江为例
其他题名	Spatial Distribution and Controlling Factors of Chemical Weathering Intensity in Drainage Basins:A Case Study in the Yangtze River Basin and Pearl River Basin
	常海钦 1; 付亚龙 2; 林鑫 3; 张苗苗 4; 孟刚刚 5
	2019
发表期刊	地球科学进展
ISSN	1001-8166
卷号	34 期号:1 页码:93-102
摘要	Chemical weathering in large-scale drainage basins has significant effects on cycling of sea and land matters and climatic change on Earth. Various sediment geochemical proxies have been proposed to study the influencing factors of chemical weathering intensity. However, quantitative description of chemical weathering intensity and knowledge of controlling factors of chemical weathering are still insufficient. Exemplified by the sediment geochemical data from the Yangtze River and Pearl River Basins,the chemical weathering intensity was quantified by Chemical Index of Alteration(CIA)and Weathering Index of Parker (WIP). In addition,the spatial distribution characteristics were studied by using Trend Surface Analysis(TSA), and the correlation of the chemical weathering intensity with temperature and precipitation was completed based on Spatial Correlation Analysis(SCA). The following results were obtained:① The average values of the CIA and WIP in the Yangtze River Basin are 72.9 and 34.2,indicating an intermediate weathering intensity. The average values of the CIA and WIP in the Pearl River Basin are 93.8 and 6.4,indicating a strong weathering degree. ② The TSA shows that the distribution of chemical weathering intensity has obvious latitude effect,that is,the lower the latitude,the stronger the chemical weathering. ③ The abnormal values of the CIA and WIP coincide with a higher annual temperature and precipitation in space. Meanwhile,the correlation coefficients of the CIA and WIP with annual precipitation and annual mean temperature are all above 0.85 in the study area. In conclusion,the chemical weathering in the Yangtze River and the Pearl River Basin is mainly controlled by climatic conditions. The CIA and WIP can be used as a quantitative indicator for the chemical weathering intensity in drainage basins,and the trend surface analysis well depicts the regional and local distribution characteristics.
其他摘要	大型流域盆地化学风化对全球海陆物质循环和气候变化有着显著影响。许多学者提出了不同的化学风化指数,并对影响因素进行了研究。然而,目前对化学风化强度的定量刻画以及化学风化控制因素的认识仍存在不足。以长江和珠江流域盆地水系沉积物地球化学数据为例,利用化学蚀变指数(CIA)和帕克风化指数(WIP)定量刻画了化学风化强度,利用趋势面分析完成了空间分布特征研究,同时基于空间相关分析完成了化学风化强度同气温和降水的相关性分析。获得了以下结果:①长江流域CIA平均值为72.9,WIP平均值为34.2,指示中等强度风化;珠江流域CIA平均值为93.8,WIP平均值为6.4,指示强风化。②趋势面分析显示化学风化强度存在由北向南逐渐增强的趋势。局部地区的CIA和WIP异常值与该地区较高的年降水量和年均气温相吻合。③长江和珠江流域的化学风化同气候条件紧密相关。研究区内CIA和WIP同年均降水量和年均气温的相关系数均在0.85以上。综上,认为CIA和WIP可以作为定量刻画流域盆地化学风化强度的指标,趋势面分析较好地刻画了区域及局部分布特征。
关键词	流域盆地化学风化强度趋势面分析长江流域珠江流域 Drainage basin Chemical weathering intensity Trend surface analysis Yangtze River Basin Pearl River Basin
收录类别	CSCD
语种	中文
WOS关键词	Geology
WOS研究方向	Science & Technology
WOS类目	GEOLOGY
CSCD记录号	CSCD:6438865
引用统计
文献类型	期刊论文
专题	任务一_子任务一循证社会科学证据集成任务一
作者单位	1.长安大学地球科学与资源学院, 西安, 陕西 710054, 中国 2.长安大学地球科学与资源学院, 西安, 陕西 710054, 中国 3.长安大学地球科学与资源学院;;西安时空地质矿产技术有限公司, ;;, 西安;;西安, 陕西;;陕西 710054;;710068, 中国 4.长安大学地球科学与资源学院, 西安, 陕西 710054, 中国 5.长安大学地球科学与资源学院, 西安, 陕西 710054, 中国
推荐引用方式 GB/T 7714	常海钦,付亚龙,林鑫,等. 流域盆地化学风化强度空间分布及控制因素研究:以长江和珠江为例[J]. 地球科学进展,2019,34(1):93-102.
APA	常海钦,付亚龙,林鑫,张苗苗,&孟刚刚.(2019).流域盆地化学风化强度空间分布及控制因素研究:以长江和珠江为例.地球科学进展,34(1),93-102.
MLA	常海钦,et al."流域盆地化学风化强度空间分布及控制因素研究:以长江和珠江为例".地球科学进展 34.1(2019):93-102.