Fungi and bacteria trade-off mediates drought-induced reduction in wood decomposition

Climate change has significantly increased the frequency and intensity of drought events in recent decades, which may affect the decomposition of organic matter such as deadwood. Previous studies have examined the impacts of microclimate and wood traits on deadwood decomposition, but how wood microb...

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Detalles Bibliográficos
Autores: Jia, Shuxian, Yuan, Tengfeng, Fu, Yuling, Peñuelas, Josep|||0000-0002-7215-0150, Zhou, Guiyao|||0000-0002-1385-3913, Zhou, Lingyan, Liu, Dingqin, He, Yanghui|||0000-0002-9192-7017, Liu, Ruiqiang, Wang, Xinxin, Song, Bingqian, Jiang, Zheng, Zhou, Xuhui
Tipo de recurso: artículo
Fecha de publicación:2024
País:España
Institución:Universitat Autònoma de Barcelona
Repositorio:Dipòsit Digital de Documents de la UAB
Idioma:inglés
OAI Identifier:oai:ddd.uab.cat:294343
Acceso en línea:https://ddd.uab.cat/record/294343
https://dx.doi.org/urn:doi:10.1016/j.catena.2024.108169
Access Level:acceso embargado
Palabra clave:Wood CO2 efflux
Drought intensity
Microbe
Microclimate
Descripción
Sumario:Climate change has significantly increased the frequency and intensity of drought events in recent decades, which may affect the decomposition of organic matter such as deadwood. Previous studies have examined the impacts of microclimate and wood traits on deadwood decomposition, but how wood microbes regulate effects of drought intensity on deadwood decomposition remains unclear. In this study, a field drought experiment was conducted with three throughfall exclusion levels (i.e., control, -35% and -70% rainfall treatments) in a subtropical forest to probe relative importance of microclimate, wood traits, and microbial biomass on wood decomposition. Our results showed that the -35% and -70% rainfall treatments significantly decreased wood CO2 efflux by 28.27% and 47.49%, respectively. Drought-induced decreases in wood CO2 efflux were mainly mediated by wood microbial biomass, particularly wood fungi biomass. The structural equation modelling indicated a shift in the dominant wood microbial communities in regulating wood CO2 efflux from bacteria to fungi as drought intensities increased. Our findings highlight the crucial role of wood microbial community with the trade-off between fungi and bacteria on deadwood decomposition under drought, which should be taken into account to decode forest carbon cycle - climate feedback in the future research.