Sloping Farmlands Conversion to Mixed Forest Improves Soil Carbon Pool on the Loess Plateau

Li, Binbin; Shen, Xuejian; Zhao, Yongjun; Cong, Peijuan; Wang, Haiyan; Wang, Aijuan; Chang, Shengwei

Sloping Farmlands Conversion to Mixed Forest Improves Soil Carbon Pool on the Loess Plateau

Binbin Li, Xuejian Shen, Yongjun Zhao, Peijuan Cong, Haiyan Wang, Aijuan Wang and Shengwei Chang
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Binbin Li: Water and Soil Conservation Monitoring Center of Ministry of Water Resources, Beijing 100055, China
Xuejian Shen: Water and Soil Conservation Monitoring Center of Ministry of Water Resources, Beijing 100055, China
Yongjun Zhao: Water and Soil Conservation Monitoring Center of Ministry of Water Resources, Beijing 100055, China
Peijuan Cong: Water and Soil Conservation Monitoring Center of Ministry of Water Resources, Beijing 100055, China
Haiyan Wang: Water and Soil Conservation Monitoring Center of Ministry of Water Resources, Beijing 100055, China
Aijuan Wang: Water and Soil Conservation Monitoring Center of Ministry of Water Resources, Beijing 100055, China
Shengwei Chang: Water and Soil Conservation Monitoring Center of Ministry of Water Resources, Beijing 100055, China

IJERPH, 2022, vol. 19, issue 9, 1-12

Abstract: Vegetation restoration is considered a potentially useful strategy for controlling soil erosion and improving soil organic carbon (SOC) in arid and semiarid ecosystems. However, there is still debate regarding which vegetation restoration type is the best choice. In this study, four vegetation restoration types (i.e., grasslands, shrubs, forests and mixed forests) converted from sloping farmlands were selected to explore the SOC variation among the four types and to investigate which soil factors had the greatest effect on SOC. The results showed while the magnitude of effect differed between vegetation restoration type, all studied systems significantly increased SOC and labile organic carbon contents ( p < 0.01), soil nutrients such as total nitrogen (TN) ( p < 0.01), available nitrogen (AN) ( p < 0.01), total phosphorus (TP) ( p < 0.05) and available phosphorus (AP) ( p < 0.05), soil enzyme activities such as phosphatase ( p < 0.01), soil microbial biomass carbon (MBC) ( p < 0.05), and basal respiration (BR) ( p < 0.05), but had significant negative correlationswith polyphenol oxidase ( p < 0.05). However, the effects of vegetation restoration of farmland converted to natural grasslands, shrubs, forests and mixed forests varied. Among the types studied, the mixed forests had the largest overall positive effects on SOC overall, followed by the natural grasslands. Soil nutrients such as N and P and soil microbial activities were the main factors that affected SOC after vegetation restoration. Mixed forests such as Robinia pseudoacacia and Caragana korshinskii are the best choice for farmland conversion on the central of the Loess Plateau.

Keywords: afforestation; carbon sequestration; forest soils; land management; land use; soil organic carbon (search for similar items in EconPapers)
JEL-codes: I I1 I3 Q Q5 (search for similar items in EconPapers)
Date: 2022
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