Biological Crusts to Increase Soil Carbon Sequestration: New Challenges in a New Environment

Biological Crusts to Increase Soil Carbon Sequestration: New Challenges in a New Environment

The major priority of research in the present day is to conserve the environment by reducing GHG emissions. A proposed solution by an expert panel from 195 countries meeting at COP 21 was to increase global SOC stocks by 0.4% year<sup>−1</sup> to compensate for GHG emissions, the ‘<i&...

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Autores principales: Paola Duran, María de la Luz Mora, Francisco Matus, Patricio Javier Barra, Ignacio Jofré, Yakov Kuzyakov, Carolina Merino
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
biocrust functions
soil microbiota
CO<sub>2</sub> mitigation
greenhouse gas (GHG) emissions
carbon balance
mineral weathering
Biology (General)
QH301-705.5
Acceso en línea:https://doaj.org/article/b92212908929486a910a0d4b0644ff50
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Sumario:The major priority of research in the present day is to conserve the environment by reducing GHG emissions. A proposed solution by an expert panel from 195 countries meeting at COP 21 was to increase global SOC stocks by 0.4% year<sup>−1</sup> to compensate for GHG emissions, the ‘<i>4 per 1000′</i> agreement. In this context, the application of biocrusts is a promising framework with which to increase SOC and other soil functions in the soil–plant continuum. Despite the importance of biocrusts, their application to agriculture is limited due to: (1) competition with native microbiota, (2) difficulties in applying them on a large scale, (3) a lack of studies based on carbon (C) balance and suitable for model parameterization, and (4) a lack of studies evaluating the contribution of biocrust weathering to increase C sequestration. Considering these four challenges, we propose three perspectives for biocrust application: (1) natural microbiome engineering by a host plant, using biocrusts; (2) quantifying the contribution of biocrusts to C sequestration in soils; and (3) enhanced biocrust weathering to improve C sequestration. Thus, we focus this opinion article on new challenges by using the specialized microbiome of biocrusts to be applied in a new environment to counteract the negative effects of climate change.

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