Effects of tree mycorrhizal type on soil respiration and carbon stock via fine root biomass and litter dynamic in tropical plantations

Effects of tree mycorrhizal type on soil respiration and carbon stock via fine root biomass and litter dynamic in tropical plantations

Tropical forests are among the most productive and vulnerable ecosystems in the planet. Several global forestation programs are aiming to plant millions of trees in tropical regions in the future decade. Mycorrhizal associations are known to largely influence forest soil carbon (C) stocks. However,...

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Veröffentlicht in:Journal of plant ecology 2023-02, Vol.16 (1)
Hauptverfasser: Zhang, Guodong, Zhou, Guiyao, Zhou, Xuhui, Zhou, Lingyan, Shao, Junjiong, Liu, Ruiqiang, Gao, Jing, He, Yanghui, Du, Zhenggang, Tang, Jianwei, Delgado-Baquerizo, Manuel
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Afforestation
Analysis
Biomass
Carbon content
Carbon sequestration
Ecosystem components
Forest soils
Mycorrhizas
Soil microbiology
Soils
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container_issue 1
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container_title Journal of plant ecology
container_volume 16
creator Zhang, Guodong
Zhou, Guiyao
Zhou, Xuhui
Zhou, Lingyan
Shao, Junjiong
Liu, Ruiqiang
Gao, Jing
He, Yanghui
Du, Zhenggang
Tang, Jianwei
Delgado-Baquerizo, Manuel
description Tropical forests are among the most productive and vulnerable ecosystems in the planet. Several global forestation programs are aiming to plant millions of trees in tropical regions in the future decade. Mycorrhizal associations are known to largely influence forest soil carbon (C) stocks. However, to date, little is known on whether and how different tree mycorrhizal types affect soil respiration (Rs) and C stocks in tropical forests. In this study, we used a three-decade tropical common garden experiment, with three arbuscular mycorrhizal (AM) and three ectomycorrhizal (EM) monocultures, to investigate the impacts of tree mycorrhizal type on Rs and soil C stocks. Associating biotic (e.g. root biomass, litter dynamic, soil microbes) and abiotic factors (e.g. microclimate) were also measured. Our results showed that AM stands supported significantly higher Rs and soil C stock, litter turnover rate and fine root biomass than EM stands. Further statistical analysis displayed that tree mycorrhizal type was the most important factor in regulating Rs and soil C stock compared with other biotic or abiotic factors. Moreover, we found that mycorrhizal type directly and indirectly affected Rs and soil C stocks via fine root biomass and litter dynamic, i.e. litter production, litter standing crop and litter turnover rate. Our findings highlight important effects of tree mycorrhizal type on forest C cycle, suggesting that planting AM tree species could contribute to promotion of soil C stock in tropical ecosystems.
doi_str_mv 10.1093/jpe/rtac056
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Further statistical analysis displayed that tree mycorrhizal type was the most important factor in regulating Rs and soil C stock compared with other biotic or abiotic factors. Moreover, we found that mycorrhizal type directly and indirectly affected Rs and soil C stocks via fine root biomass and litter dynamic, i.e. litter production, litter standing crop and litter turnover rate. 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subjects Afforestation
Analysis
Biomass
Carbon content
Carbon sequestration
Ecosystem components
Forest soils
Mycorrhizas
Soil microbiology
Soils
title Effects of tree mycorrhizal type on soil respiration and carbon stock via fine root biomass and litter dynamic in tropical plantations
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