Bibliographie complète
Linkage between tree species richness and soil microbial diversity improves phosphorus bioavailability
Type de ressource
Auteurs/contributeurs
- Wu, Huili (Auteur)
- Xiang, Wenhua (Auteur)
- Ouyang, Shuai (Auteur)
- Forrester, David I. (Auteur)
- Zhou, Bo (Auteur)
- Chen, Lingxiu (Auteur)
- Ge, Tida (Auteur)
- Lei, Pifeng (Auteur)
- Chen, Liang (Auteur)
- Zeng, Yelin (Auteur)
- Song, Xinzhang (Auteur)
- Peñuelas, Josep (Auteur)
- Peng, Changhui (Auteur)
- Gallery, Rachel (Éditeur)
Titre
Linkage between tree species richness and soil microbial diversity improves phosphorus bioavailability
Résumé
Abstract
Increased availability of soil phosphorus (P) has recently been recognised as an underlying driving factor for the positive relationship between plant diversity and ecosystem function. The effects of plant diversity on the bioavailable forms of P involved in biologically mediated rhizospheric processes and how the link between plant and soil microbial diversity facilitates soil P bioavailability, however, remain poorly understood.
This study quantified four forms of bioavailable P (CaCl
2
‐P, citric‐P, enzyme‐P and HCl‐P) in mature subtropical forests using a novel biologically based approach, which emulates how rhizospheric processes influence the release and supply of available P. Soil microbial diversity was measured by Illumina high‐throughput sequencing.
Our results suggest that tree species richness significantly affects soil microbial diversity (
p
< 0.05), increases litter decomposition, fine‐root biomass and length and soil organic carbon and thus increases the four forms of bioavailable P. A structural equation model that links plants, soil microbes and P forms indicated that soil bacterial and fungal diversity play dominant roles in mediating the effects of tree species richness on soil P bioavailability.
An increase in the biodiversity of plants, soil bacteria and fungi could maintain soil P bioavailability and alleviate soil P limitations. Our results imply that biodiversity strengthens plant and soil feedback and increases P recycling.
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Publication
Functional Ecology
Volume
33
Numéro
8
Pages
1549-1560
Date
08/2019
Abrév. de revue
Functional Ecology
Langue
en
ISSN
0269-8463, 1365-2435
Consulté le
12/11/2024 21:29
Catalogue de bibl.
DOI.org (Crossref)
Référence
Wu, H., Xiang, W., Ouyang, S., Forrester, D. I., Zhou, B., Chen, L., Ge, T., Lei, P., Chen, L., Zeng, Y., Song, X., Peñuelas, J., & Peng, C. (2019). Linkage between tree species richness and soil microbial diversity improves phosphorus bioavailability. Functional Ecology, 33(8), 1549–1560. https://doi.org/10.1111/1365-2435.13355
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