Indirect Regulation of SOC by Different Land Uses in Karst Areas Through the Modulation of Soil Microbiomes and Aggregate Stability

Natural restoration of vegetation and plantation are effective land use measures to promote soil organic carbon (SOC) sequestration. How soil physicochemical properties, microorganisms, Glomalin-related soil proteins (GRSPs), and aggregates interact to regulate SOC accumulation and sequestration rem...

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Published inAgriculture (Basel) Vol. 15; no. 11; p. 1220
Main Authors Shu, Haiyuan, Liang, Xiaoling, Hou, Lei, Li, Meiting, Zhang, Long, Zhang, Wei, Song, Yali
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.06.2025
Subjects
Accumulation
Aggregates
Agricultural land
Agricultural production
Analysis
Biomass
Carbon
Carbon content
Carbon sequestration
China
Corn
Decomposition
Entanglement
Forests
GRSP
Hyphae
Intercropping
Karst
Land use
Land use planning
Maryland
Massachusetts
Microbiomes
Microorganisms
Mineralization
Organic carbon
Physicochemical properties
Plantations
Restoration
Secretions
SOC
Soil aggregates
Soil improvement
Soil microbiology
Soil microorganisms
Soil properties
Soil stability
Soil structure
Soils
Tennessee
United States
Vegetation
United States
Maryland
Massachusetts
Tennessee
China
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Abstract Natural restoration of vegetation and plantation are effective land use measures to promote soil organic carbon (SOC) sequestration. How soil physicochemical properties, microorganisms, Glomalin-related soil proteins (GRSPs), and aggregates interact to regulate SOC accumulation and sequestration remains unclear. This study examined five land uses in the karst region of Southwest China: corn field (CF), corn intercropped with cabbage fields (CICF), orchard (OR), plantation (PL), and natural restoration of vegetation (NRV). The results revealed that SOC, total nitrogen (TN), total phosphorus (TP), total GRSP (T-GRSP), and easily extractable GRSP (EE-GRSP) contents were significantly higher under NRV and PL than in the CF, CICF, and OR, with increases ranging from 10.69% to 266.72%. Land use significantly influenced bacterial α-diversity, though fungal α-diversity remained unaffected. The stability of soil aggregates among the five land uses followed the order: PL > NRV > CF > OR > CICF. Partial least-squares path modeling (PLS-PM) identified land use as the most critical factor influencing SOC. SOC accumulation and stability were enhanced through improved soil properties, increased microbial diversity, and greater community abundance, promoting GRSP secretion and strengthening soil aggregate stability. In particular, soil microorganisms adhere to the aggregates of soil particles through the entanglement of fine roots and microbial hyphae and their secretions (GRSPs, etc.) to maintain the stability of the aggregates, thus protecting SOC from decomposition. Natural restoration of vegetation and plantation proved more effective for soil carbon sequestration in the karst region of Southwest China compared to sloping cropland and orchards.
AbstractList Natural restoration of vegetation and plantation are effective land use measures to promote soil organic carbon (SOC) sequestration. How soil physicochemical properties, microorganisms, Glomalin-related soil proteins (GRSPs), and aggregates interact to regulate SOC accumulation and sequestration remains unclear. This study examined five land uses in the karst region of Southwest China: corn field (CF), corn intercropped with cabbage fields (CICF), orchard (OR), plantation (PL), and natural restoration of vegetation (NRV). The results revealed that SOC, total nitrogen (TN), total phosphorus (TP), total GRSP (T-GRSP), and easily extractable GRSP (EE-GRSP) contents were significantly higher under NRV and PL than in the CF, CICF, and OR, with increases ranging from 10.69% to 266.72%. Land use significantly influenced bacterial α-diversity, though fungal α-diversity remained unaffected. The stability of soil aggregates among the five land uses followed the order: PL > NRV > CF > OR > CICF. Partial least-squares path modeling (PLS-PM) identified land use as the most critical factor influencing SOC. SOC accumulation and stability were enhanced through improved soil properties, increased microbial diversity, and greater community abundance, promoting GRSP secretion and strengthening soil aggregate stability. In particular, soil microorganisms adhere to the aggregates of soil particles through the entanglement of fine roots and microbial hyphae and their secretions (GRSPs, etc.) to maintain the stability of the aggregates, thus protecting SOC from decomposition. Natural restoration of vegetation and plantation proved more effective for soil carbon sequestration in the karst region of Southwest China compared to sloping cropland and orchards.
Audience Academic
Author Shu, Haiyuan
Hou, Lei
Zhang, Long
Zhang, Wei
Liang, Xiaoling
Li, Meiting
Song, Yali
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Snippet Natural restoration of vegetation and plantation are effective land use measures to promote soil organic carbon (SOC) sequestration. How soil physicochemical...
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StartPage 1220
SubjectTerms Accumulation
Aggregates
Agricultural land
Agricultural production
Analysis
Biomass
Carbon
Carbon content
Carbon sequestration
China
Corn
Decomposition
Entanglement
Forests
GRSP
Hyphae
Intercropping
Karst
Land use
Land use planning
Maryland
Massachusetts
Microbiomes
Microorganisms
Mineralization
Organic carbon
Physicochemical properties
Plantations
Restoration
Secretions
SOC
Soil aggregates
Soil improvement
Soil microbiology
Soil microorganisms
Soil properties
Soil stability
Soil structure
Soils
Tennessee
United States
Vegetation
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Title Indirect Regulation of SOC by Different Land Uses in Karst Areas Through the Modulation of Soil Microbiomes and Aggregate Stability
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Volume 15
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