Affiliation:
1. School of Earth Sciences and Engineering, Sun Yat-Sen University, Zhuhai 519082, China
2. Guangdong Provincial Key Laboratory of Geological Processes & Mineral Resources Survey, Zhuhai 519082, China
3. Natural Resources Bureau of Nanxiong City, Nanxiong 512400, China
4. Guangdong Institute of Environmental Geological Exploration, Guangzhou 510080, China
5. School of Geography and Remote Sensing, Guangzhou University, Guangzhou 510006, China
Abstract
Soil environmental issues in the red bed region are increasingly conspicuous, underscoring the critical importance of assessing soil quality for the region’s sustainable development and ecosystem security. This study examines six distinct land use types of soils—agricultural land (AL), woodland (WL), shrubland (SL), grassland (GL), bare rock land (BRL), and red bed erosion land (REL)—in the Nanxiong Basin of northern Guangdong Province. This area typifies red bed desertification in South China. Principal component analysis (PCA) was employed to establish a minimum data set (MDS) for calculating the soil quality index (SQI), evaluating soil quality, analyzing influencing factors, and providing suggestions for ecological restoration in desertification areas. The study findings indicate that a minimal data set comprising soil organic matter (SOM), pH, available phosphorus (AP), exchangeable calcium (Ca2+), and available copper (A-Cu) is most suitable for evaluating soil quality in the red bed desertification areas of the humid region in South China. Additionally, we emphasize that exchangeable salt ions and available trace elements should be pivotal considerations in assessing soil quality within desertification areas. Regarding comprehensive soil quality indicators across various land use types, the red bed erosion soils exhibited the lowest quality, followed by those in bare rock areas and forest land. Within the minimal data set, Ca2+ and pH contributed the most to overall soil quality, underscoring the significance of parent rock mineral composition in the red bed desertification areas. Moreover, the combined effects of SOM, A-Cu, and AP on soil quality indicate that anthropogenic land management and use, including fertilization methods and vegetation types, are crucial factors influencing soil quality. Our research holds significant implications for the scientific assessment, application, and enhancement of soil quality in desertification areas.
Funder
National Key R&D Program of China: Theory and Method of Big Data and Knowledge Fusion of Cross-scale Multi-source Heterogeneous Geological Resources
Local Government Commissioned Project: Monitoring Analysis and Evaluation Project of Comprehensive Remediation for Nanxiong red beds Desertification
Reference76 articles.
1. Land degradation and management of red beds in China: Two case studies;Yan;J. Mt. Sci.,2019
2. Red beds distribution and engineering geological problem in China;Guo;Hydrogeol. Eng. Geol.,2007
3. Material composition and microstructure of purple soil and purple mudstone in Chongqing area;Zhao;Acta Pedol. Sin.,2012
4. Discussion on desertification of humid region in southern China;Jin;Prog. Geogr.,2015
5. Perspectives on the red beds landforms in humid area of southern China and some related problems;Peng;Geogr. Res.,2011