亚热带红层母质形成土壤的发生特征与分类问题

doi:10.3785/j.issn.1008-9209.2021.04.271

浙江大学学报（农业与生命科学版）

2022, Vol. 48

Issue (2): 182-190 DOI: 10.3785/j.issn.1008-9209.2021.04.271

资源利用与环境保护

亚热带红层母质形成土壤的发生特征与分类问题

章明奎(

),吴梦洁

浙江大学环境与资源学院，杭州 310058

Genetic characteristics and classification of soils developed from parent materials of red bed in the subtropical region: take Zhejiang Province as an example

Mingkui ZHANG(

),Mengjie WU

College of Environmental and Resource Sciences, Zhejiang University, Hangzhou 310058, China

全文: PDF(869 KB) HTML

摘要：

为理解红层母质形成土壤性状的空间变异性及影响因素，以浙江省为例，剖析了亚热带地区红层母质形成土壤的分布、成土特点和发生特征，分析了红层形成古环境、现代地形和土地利用方式对红层母质形成土壤理化性质的影响，并探讨了红层母质形成土壤的分类问题。分析认为，地质构造决定了红层母质形成土壤的分布，红层母质上土层的形成主要是物理风化与地表侵蚀平衡的结果，化学风化和脱钙作用导致了土壤的酸化。红层母质形成土壤趋于幼年性是母质的特殊风化特性和成土时间较短共同作用的结果；红层形成的古环境深刻影响着土壤的物质组成，现代地形影响着土壤发育的阶段性，土地利用方式可改变土壤的垂直发育。红层母质形成的土壤颜色并非一般认为的始终保留母质的颜色，在某些情况下其土壤颜色与红层有着明显的差异。由于红层成因的复杂性和物质组成的多样性，红层母质形成的土壤远比一般认为的要复杂、多变，浙江省红层母质形成的土壤在“中国土壤分类系统”中只划分为紫色土1个土类和石灰性紫色土与酸性紫色土2个亚类，不能很好地反映红层母质形成土壤的多变特点。根据“中国土壤系统分类”的诊断层和诊断特性，可把浙江省红层母质形成的土壤划分为雏形土和新成土2个土纲、湿润雏形土和正常新成土2个亚纲及7个土类和14个亚类。

关键词： 红层; 紫色土; 古环境; 地形; 物理风化; 脱钙; 诊断分类

Abstract:

To understand the spatial variability and influencing factors of soil properties developed from parent materials of red bed, taking Zhejiang Province as an example, the distribution, formation features and genetic characteristics of soils developed from parent materials of red bed in the subtropical region were examined, and the effects of paleoenvironment of red bed formation, modern topography and land-use mode on the physical and chemical properties of the soils were analyzed, and the classification of the soils was discussed. The results showed that the distribution of soils developed from parent materials of red bed was determined by the geological structure. The formation of the soils on red bed was a result of balance between physical weathering and surface erosion, while chemical weathering and decalcification led to soil acidification. The soils developed from parent materials of red bed tended to be juvenile, which was the common result of the special weathering characteristics of the parent material and the short soil forming time. The paleoenvironment of red bed formation had a profound impact on the material composition of the soils, and the modern topography affected the stage of soil development, and the land-use mode could change the vertical development of the soils. The color of soils developed from parent materials of red bed was not generally believed to always retain the color of the parent materials. In some cases, the former was different from the latter. Due to the complexity of red bed genesis and the diversity of material composition, the soils developed from parent materials of red bed were far more complex and changeable than generally believed. According to the “Chinese soil classification system”, the soils developed from parent materials of red bed in Zhejiang Province were only classified as purple soil group, and divided into calcareous purple soil and acid purple soil subgroups, which could not well reflect the changeable characteristics of soils developed from parent materials of red bed. According to the diagnostic horizons and diagnostic characteristics of “Chinese soil taxonomy”, the soils developed from parent materials of red bed in Zhejiang Province could be divided into two soil orders (Cambosols and Primosols), two suborders (Udic Cambosols and Orthic Primosols), seven soil groups and fourteen subgroups.

Key words: red bed purple soil paleoenvironment topography physical weathering decalcification diagnosis classification

收稿日期: 2021-04-27 出版日期: 2022-04-29

CLC:

S 151

基金资助: 国家自然科学基金(41977001)

通讯作者: 章明奎 E-mail: mkzhang@zju.edu.cn

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引用本文:

章明奎,吴梦洁. 亚热带红层母质形成土壤的发生特征与分类问题[J]. 浙江大学学报（农业与生命科学版）, 2022, 48(2): 182-190.

Mingkui ZHANG,Mengjie WU. Genetic characteristics and classification of soils developed from parent materials of red bed in the subtropical region: take Zhejiang Province as an example. Journal of Zhejiang University (Agriculture and Life Sciences), 2022, 48(2): 182-190.

链接本文:

https://www.zjujournals.com/agr/CN/10.3785/j.issn.1008-9209.2021.04.271 或 https://www.zjujournals.com/agr/CN/Y2022/V48/I2/182

表1 不同地形部位和土地利用方式下紫色土有效土层厚度和物理性状

表2 不同地形部位和土地利用方式下紫色土酸碱度和有机质积累及阳离子交换量

表3 不同地形部位和土地利用方式下紫色土养分状况

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