Soil organic carbon storage in forest restoration models and environmental conditions

The scale of forest and landscape restoration is expected to increase during the UN Decade on Ecosystem Restoration and its contribution to the provision of critical ecosystem services to society. Several models of forest restoration may improve ecosystem services, including soil organic carbon (SOC...

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Bibliographic Details
Published in:Journal of forestry research 2022-08, Vol.33 (4), p.1123-1134
Main Authors: Paula, Ranieri Ribeiro, Calmon, Miguel, Lopes-Assad, Maria Leonor, Mendonça, Eduardo de Sá
Format: Article
Language:English
Subjects:
Agricultural land
Agroforestry
Analysis
Biomedical and Life Sciences
Carbon
Carbon content
Carbon sequestration
Clay
Clay soils
Climate effects
Climate models
Ecological restoration
Ecosystem restoration
Ecosystem services
Ecosystems
Environment models
Environmental conditions
Environmental quality
Environmental restoration
Forest management
Forestry
Forests
Grasslands
Land use
Life Sciences
Mixed forests
Monoculture
Organic carbon
Organic soils
Pasture
Regeneration
Review Article
Sandy soils
Soil depth
Soil layers
Soil properties
Soil texture
Soils
Texture
Vegetation type
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Summary:The scale of forest and landscape restoration is expected to increase during the UN Decade on Ecosystem Restoration and its contribution to the provision of critical ecosystem services to society. Several models of forest restoration may improve ecosystem services, including soil organic carbon (SOC) storage. A review was carried out to access: (1) the variability of SOC storage between worldwide forest restoration models and, (2) the effects of climate, soil class, soil texture, and vegetation type on SOC storage. We reviewed 119 primary studies with information on SOC and soil texture for different forest restoration models. The restoration models were grouped into four categories: natural regeneration, monocultures, agroforestry, and mixed forest. SOC data was extracted from these four restoration models, other land uses (cropland, bare land, grassland, and natural forest), climate regimes, and soil properties. The SOC storage in the forest restoration models and other land uses at a global scale ranged between 0.1 to 514 Mg ha −1 . The overall mean value for SOC storage was higher for natural regeneration (112 Mg ha −1 ), followed by agroforestry (74 Mg ha −1 ), mixed forest (73 Mg ha −1 ), and monocultures (68 Mg ha −1 ). However, the average SOC storage was similar among the four restoration models in the moist warm climate zone. The SOC storage mean value in the moist cool zone was 23% higher than the dry cool zone (81 and 62 Mg ha −1 , respectively), and 50% higher for the moist warm zone when compared to the dry warm climatic zone (74 and 38 Mg ha −1 , respectively). The SOC storage of the restoration models was positively related to soil depth (0.59; p  
ISSN:1007-662X
1993-0607
DOI:10.1007/s11676-021-01426-5