Climatic controls of decomposition drive the global biogeography of forest tree symbioses

The identity of the dominant root-associated microbial symbionts in a forest determines the ability of trees to access limiting nutrients from atmospheric or soil pools1,2, sequester carbon3,4 and withstand the effects of climate change5,6. Characterizing the global distribution of these symbioses a...

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Detalles Bibliográficos
Autores principales:	Steidinger, B. S., Crowther, T. W., Liang, J., Van Nuland, M. E., Werner, G. D. A., Reich, P. B., Nabuurs, G., de-Miguel, S., Zhou, M., Picard, N., Herault, B., Zhao, X., Zhang, C., Routh, D., Peri, Pablo Luis
Formato:	info:ar-repo/semantics/artículo
Lenguaje:	Inglés
Publicado:	Springer Nature 2021
Materias:	Forests Microbial Flora Nutrients Soil Carbon Nitrogen Climate Change Forest Ecosystems Environmental Factors Descomposition Arbuscular Mycorrhiza Bosques Flora Microbiana Nutrientes Suelo Carbono Nitrógeno Cambio Climático Ecosistemas Forestales Factores Ambientales Descomposición Micorrizas Arbusculares Climatic Control Descomposition Drive Tree Symbioses Control Climático Control de la Descomposición Simbiosis Arbórea
Acceso en línea:	http://hdl.handle.net/20.500.12123/8952 https://www.nature.com/articles/s41586-019-1128-0 https://doi.org/10.1038/s41586-019-1128-0

Climatic controls of decomposition drive the global biogeography of forest tree symbioses

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