Rhizodeposition under drought and consequences for soil communities and ecosystem resilience

Background Rhizodeposition is the release of organic compounds from plant roots into soil. Positive relationships between rhizodeposition and soil microbial biomass are commonly observed. Rhizodeposition may be disrupted by increasing drought however the effects of water stress on this process are n...

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Published in	Plant and soil Vol. 409; no. 1/2; pp. 1 - 17
Main Authors	Preece, Catherine, Peñuelas, Josep
Format	Journal Article
Language	English
Published	Cham Springer 01.12.2016 Springer International Publishing Springer Nature B.V
Subjects	Agricultural soils Biomass Biomedical and Life Sciences Dehydration Drought Droughts ecological resilience Ecology Ecosystem resilience Environmental impact Extreme drought Forest soils Grassland soils Life Sciences MARSCHNER REVIEW meta-analysis Microbial activity microbial biomass microbial communities Microbial ecology Observations Organic compounds Organic soils phytomass Plant biology Plant biomass Plant communities Plant Physiology Plant roots Plant Sciences Plant-soil relationships Plants Rhizodeposition roots soil soil ecology Soil microbiology Soil microorganisms Soil Science & Conservation soil-plant interactions Soils Water stress Soil microbial community Drought Root exudation Rhizodeposition Roots Resilience
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Abstract	Background Rhizodeposition is the release of organic compounds from plant roots into soil. Positive relationships between rhizodeposition and soil microbial biomass are commonly observed. Rhizodeposition may be disrupted by increasing drought however the effects of water stress on this process are not sufficiently understood. Scope We aimed to provide a synthesis of the current knowledge of drought impacts on rhizodeposition. The current scarcity of well-defined studies hinders a quantitative meta-analysis, but we are able to identify the main effects of water stress on this process and how changes in the severity of drought may produce different responses. We then give an overview of the links between rhizodeposition and microbial communities, and describe how drought may disrupt these interactions. Conclusions Overall, moderate drought appears to increase rhizodeposition per gram of plant, but under extreme drought rhizodeposition is more variable. Concurrent decreases in plant biomass may lessen the total amount of rhizodeposits entering the soil. Effects on rhizodeposition may be strongly species-dependant therefore impacts on soil communities may also vary, either driving subsequent changes or conferring resilience in the plant community. Advances in the study of rhizodeposition are needed to allow a deeper understanding of this plant-soil interaction and how it will respond to drought.
AbstractList	Rhizodeposition is the release of organic compounds from plant roots into soil. Positive relationships between rhizodeposition and soil microbial biomass are commonly observed. Rhizodeposition may be disrupted by increasing drought however the effects of water stress on this process are not sufficiently understood. We aimed to provide a synthesis of the current knowledge of drought impacts on rhizodeposition. The current scarcity of well-defined studies hinders a quantitative meta-analysis, but we are able to identify the main effects of water stress on this process and how changes in the severity of drought may produce different responses. We then give an overview of the links between rhizodeposition and microbial communities, and describe how drought may disrupt these interactions. Overall, moderate drought appears to increase rhizodeposition per gram of plant, but under extreme drought rhizodeposition is more variable. Concurrent decreases in plant biomass may lessen the total amount of rhizodeposits entering the soil. Effects on rhizodeposition may be strongly species-dependant therefore impacts on soil communities may also vary, either driving subsequent changes or conferring resilience in the plant community. Advances in the study of rhizodeposition are needed to allow a deeper understanding of this plant-soil interaction and how it will respond to drought. Background Rhizodeposition is the release of organic compounds from plant roots into soil. Positive relationships between rhizodeposition and soil microbial biomass are commonly observed. Rhizodeposition may be disrupted by increasing drought however the effects of water stress on this process are not sufficiently understood. Scope We aimed to provide a synthesis of the current knowledge of drought impacts on rhizodeposition. The current scarcity of well-defined studies hinders a quantitative meta-analysis, but we are able to identify the main effects of water stress on this process and how changes in the severity of drought may produce different responses. We then give an overview of the links between rhizodeposition and microbial communities, and describe how drought may disrupt these interactions. Conclusions Overall, moderate drought appears to increase rhizodeposition per gram of plant, but under extreme drought rhizodeposition is more variable. Concurrent decreases in plant biomass may lessen the total amount of rhizodeposits entering the soil. Effects on rhizodeposition may be strongly species-dependant therefore impacts on soil communities may also vary, either driving subsequent changes or conferring resilience in the plant community. Advances in the study of rhizodeposition are needed to allow a deeper understanding of this plant-soil interaction and how it will respond to drought. Background Rhizodeposition is the release of organic compounds from plant roots into soil. Positive relationships between rhizodeposition and soil microbial biomass are commonly observed. Rhizodeposition may be disrupted by increasing drought however the effects of water stress on this process are not sufficiently understood. Scope We aimed to provide a synthesis of the current knowledge of drought impacts on rhizodeposition. The current scarcity of well-defined studies hinders a quantitative meta-analysis, but we are able to identify the main effects of water stress on this process and how changes in the severity of drought may produce different responses. We then give an overview of the links between rhizodeposition and microbial communities, and describe how drought may disrupt these interactions. Conclusions Overall, moderate drought appears to increase rhizodeposition per gram of plant, but under extreme drought rhizodeposition is more variable. Concurrent decreases in plant biomass may lessen the total amount of rhizodeposits entering the soil. Effects on rhizodeposition may be strongly species-dependant therefore impacts on soil communities may also vary, either driving subsequent changes or conferring resilience in the plant community. Advances in the study of rhizodeposition are needed to allow a deeper understanding of this plant-soil interaction and how it will respond to drought.
Audience	Academic
Author	Peñuelas, Josep Preece, Catherine
Author_xml	– sequence: 1 givenname: Catherine surname: Preece fullname: Preece, Catherine – sequence: 2 givenname: Josep surname: Peñuelas fullname: Peñuelas, Josep
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Keywords	Soil microbial community Drought Root exudation Rhizodeposition Roots Resilience
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PublicationSubtitle	An International Journal on Plant-Soil Relationships
PublicationTitle	Plant and soil
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Snippet	Background Rhizodeposition is the release of organic compounds from plant roots into soil. Positive relationships between rhizodeposition and soil microbial... Background Rhizodeposition is the release of organic compounds from plant roots into soil. Positive relationships between rhizodeposition and soil microbial... Rhizodeposition is the release of organic compounds from plant roots into soil. Positive relationships between rhizodeposition and soil microbial biomass are... BACKGROUND: Rhizodeposition is the release of organic compounds from plant roots into soil. Positive relationships between rhizodeposition and soil microbial...
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SubjectTerms	Agricultural soils Biomass Biomedical and Life Sciences Dehydration Drought Droughts ecological resilience Ecology Ecosystem resilience Environmental impact Extreme drought Forest soils Grassland soils Life Sciences MARSCHNER REVIEW meta-analysis Microbial activity microbial biomass microbial communities Microbial ecology Observations Organic compounds Organic soils phytomass Plant biology Plant biomass Plant communities Plant Physiology Plant roots Plant Sciences Plant-soil relationships Plants Rhizodeposition roots soil soil ecology Soil microbiology Soil microorganisms Soil Science & Conservation soil-plant interactions Soils Water stress
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Title	Rhizodeposition under drought and consequences for soil communities and ecosystem resilience
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