Process understanding of soil BVOC fluxes in natural ecosystems: a review

Publikation: Bidrag til tidsskriftReviewfagfællebedømt

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Process understanding of soil BVOC fluxes in natural ecosystems : a review. / Tang, J.; Schurgers, G.; Rinnan, R.

I: Reviews of Geophysics, Bind 57, Nr. 3, 2019, s. 966-986.

Publikation: Bidrag til tidsskriftReviewfagfællebedømt

Harvard

Tang, J, Schurgers, G & Rinnan, R 2019, 'Process understanding of soil BVOC fluxes in natural ecosystems: a review', Reviews of Geophysics, bind 57, nr. 3, s. 966-986. https://doi.org/10.1029/2018RG000634

APA

Tang, J., Schurgers, G., & Rinnan, R. (2019). Process understanding of soil BVOC fluxes in natural ecosystems: a review. Reviews of Geophysics, 57(3), 966-986. https://doi.org/10.1029/2018RG000634

Vancouver

Tang J, Schurgers G, Rinnan R. Process understanding of soil BVOC fluxes in natural ecosystems: a review. Reviews of Geophysics. 2019;57(3):966-986. https://doi.org/10.1029/2018RG000634

Author

Tang, J. ; Schurgers, G. ; Rinnan, R. / Process understanding of soil BVOC fluxes in natural ecosystems : a review. I: Reviews of Geophysics. 2019 ; Bind 57, Nr. 3. s. 966-986.

Bibtex

@article{c9a261d884fa4820ba11fb091a7d52b6,
title = "Process understanding of soil BVOC fluxes in natural ecosystems: a review",
abstract = "Biogenic volatile organic compounds (BVOCs) can be released from soils to the atmosphere through microbial decomposition of plant residues or soil organic carbon, root emission, evaporation of litter-stored BVOCs, and other physical processes. Soils can also act as a sink of BVOCs through biotic and abiotic uptake. Currently, the source and sink capabilities of soils have not been explicitly accounted for in global BVOC estimates from the terrestrial biosphere. In this review, we summarize the current knowledge of soil BVOC processes and aim to propose a generic framework for modelling soil BVOCs based on current understanding and data availability. To achieve this target, we start by reviewing measured sources and sinks of soil BVOCs and summarize commonly reported compounds. Next, we strive to disentangle the drivers for the underlying biotic and abiotic processes. We have ranked the list of compounds, known to be emitted from soils, based on our current understanding of how each process controls emission and uptake. We then present a modelling framework to describe soil BVOC emissions. The proposed framework is an important step towards initializing modelling exercises related to soil BVOC fluxes. Finally, we also provide suggestions for measurements needed to separate individual processes, as well as explore long-term and large-scale patterns in soil BVOC fluxes.",
author = "J. Tang and G. Schurgers and R. Rinnan",
note = "CENPERM[2019]",
year = "2019",
doi = "10.1029/2018RG000634",
language = "English",
volume = "57",
pages = "966--986",
journal = "Reviews of Geophysics",
issn = "8755-1209",
publisher = "JohnWiley & Sons, Inc.",
number = "3",

}

RIS

TY - JOUR

T1 - Process understanding of soil BVOC fluxes in natural ecosystems

T2 - a review

AU - Tang, J.

AU - Schurgers, G.

AU - Rinnan, R.

N1 - CENPERM[2019]

PY - 2019

Y1 - 2019

N2 - Biogenic volatile organic compounds (BVOCs) can be released from soils to the atmosphere through microbial decomposition of plant residues or soil organic carbon, root emission, evaporation of litter-stored BVOCs, and other physical processes. Soils can also act as a sink of BVOCs through biotic and abiotic uptake. Currently, the source and sink capabilities of soils have not been explicitly accounted for in global BVOC estimates from the terrestrial biosphere. In this review, we summarize the current knowledge of soil BVOC processes and aim to propose a generic framework for modelling soil BVOCs based on current understanding and data availability. To achieve this target, we start by reviewing measured sources and sinks of soil BVOCs and summarize commonly reported compounds. Next, we strive to disentangle the drivers for the underlying biotic and abiotic processes. We have ranked the list of compounds, known to be emitted from soils, based on our current understanding of how each process controls emission and uptake. We then present a modelling framework to describe soil BVOC emissions. The proposed framework is an important step towards initializing modelling exercises related to soil BVOC fluxes. Finally, we also provide suggestions for measurements needed to separate individual processes, as well as explore long-term and large-scale patterns in soil BVOC fluxes.

AB - Biogenic volatile organic compounds (BVOCs) can be released from soils to the atmosphere through microbial decomposition of plant residues or soil organic carbon, root emission, evaporation of litter-stored BVOCs, and other physical processes. Soils can also act as a sink of BVOCs through biotic and abiotic uptake. Currently, the source and sink capabilities of soils have not been explicitly accounted for in global BVOC estimates from the terrestrial biosphere. In this review, we summarize the current knowledge of soil BVOC processes and aim to propose a generic framework for modelling soil BVOCs based on current understanding and data availability. To achieve this target, we start by reviewing measured sources and sinks of soil BVOCs and summarize commonly reported compounds. Next, we strive to disentangle the drivers for the underlying biotic and abiotic processes. We have ranked the list of compounds, known to be emitted from soils, based on our current understanding of how each process controls emission and uptake. We then present a modelling framework to describe soil BVOC emissions. The proposed framework is an important step towards initializing modelling exercises related to soil BVOC fluxes. Finally, we also provide suggestions for measurements needed to separate individual processes, as well as explore long-term and large-scale patterns in soil BVOC fluxes.

U2 - 10.1029/2018RG000634

DO - 10.1029/2018RG000634

M3 - Review

VL - 57

SP - 966

EP - 986

JO - Reviews of Geophysics

JF - Reviews of Geophysics

SN - 8755-1209

IS - 3

ER -

ID: 224941099