Precipitation is the main control on the global distribution of soil clay minerals

IF 10.8 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Earth-Science Reviews Pub Date : 2024-08-08 DOI:10.1016/j.earscirev.2024.104891
Hengzhi Lyu, Huayu Lu
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Abstract

The global distribution of clay minerals is intricately linked with climatic conditions and bedrock composition, which interact to control the weathering intensity of silicate and other minerals. However, the quantitative relationship between clay minerals and climate is not well understood, partly due to the lack of quantitative assessments of the role of the various factors responsible for clay mineral formation. Here we examine the quantitative relationship between soil clay minerals and climatic factors on the global scale, by extrapolating clay mineral abundances to a large scale. We found that mean annual precipitation (MAP) is the first order control on the global clay mineral distribution, while mean annual temperature (MAT), elevation, slope, lithology, upland hillslope soil thickness (UHST), and upland hillslope regolith thickness (UHRT) have secondary roles or localized impacts on clay mineral distributions. We found that precipitation thresholds exist in weathering intensity and clay mineral formation: (1) Illite decreases monotonically and kaolinite increases monotonically with increasing MAP below the threshold of 1800–2000 mm, whereas gibbsite increases monotonically with increasing MAP below the threshold of 2200–2400 mm. (2) Smectite and Fe oxides increase with increasing MAP below the threshold of 600–800 mm, and then decrease with increasing MAP between 600 and 800 mm and 1800–2000 mm. (3) All clay minerals are insensitive to extremely high MAP, above 1800–2000 mm. We suggest that paleoprecipitation can be semi-quantitatively reconstructed based on variations in the relative contents of clay minerals, which can be used as a proxy indicator of wet and dry variations for paleoclimate studies.

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降水是控制全球土壤粘土矿物分布的主要因素
粘土矿物的全球分布与气候条件和基岩成分密切相关,它们相互作用,控制着硅酸盐和其他矿物的风化强度。然而,人们对粘土矿物与气候之间的定量关系并不十分了解,部分原因是缺乏对造成粘土矿物形成的各种因素的作用的定量评估。在这里,我们通过将粘土矿物丰度推断到大尺度,研究了全球范围内土壤粘土矿物与气候因素之间的定量关系。我们发现,年平均降水量(MAP)是全球粘土矿物分布的一阶控制因子,而年平均气温(MAT)、海拔、坡度、岩性、高地山坡土壤厚度(UHST)和高地山坡碎屑岩厚度(UHRT)对粘土矿物分布具有次要作用或局部影响。我们发现,在风化强度和粘土矿物形成方面存在降水阈值:(1)伊利石随着低于 1800-2000 毫米阈值的 MAP 的增加而单调减少,高岭石随着低于 2200-2400 毫米阈值的 MAP 的增加而单调增加;而辉绿岩随着低于 2200-2400 毫米阈值的 MAP 的增加而单调增加。(2) 在阈值 600-800 毫米以下,随着 MAP 的增加,直闪石和铁氧化物增加,而在 600-800 毫米和 1800-2000 毫米之间,随着 MAP 的增加,直闪石和铁氧化物减少。(3) 所有粘土矿物对 1800-2000 毫米以上的极高 MAP 都不敏感。我们认为,根据粘土矿物相对含量的变化,可以半定量地重建古沉淀,这可以作为干湿变化的替代指标,用于古气候研究。
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来源期刊
Earth-Science Reviews
Earth-Science Reviews 地学-地球科学综合
CiteScore
21.70
自引率
5.80%
发文量
294
审稿时长
15.1 weeks
期刊介绍: Covering a much wider field than the usual specialist journals, Earth Science Reviews publishes review articles dealing with all aspects of Earth Sciences, and is an important vehicle for allowing readers to see their particular interest related to the Earth Sciences as a whole.
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