Articles | Volume 17, issue 18
https://doi.org/10.5194/acp-17-11453-2017
© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
https://doi.org/10.5194/acp-17-11453-2017
© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Research article
| 
26 Sep 2017
Research article |
| 26 Sep 2017
Canopy uptake dominates nighttime carbonyl sulfide fluxes in a boreal forest
Linda M. J. Kooijmans
Centre for Isotope Research, University of Groningen, Groningen, the Netherlands
Kadmiel Maseyk
School of Environment, Earth and Ecosystem Sciences, The Open University, Milton Keynes, UK
Ulli Seibt
Department of Atmospheric and Oceanic Sciences, University of California, Los Angeles, California, USA
Department of Atmospheric and Oceanic Sciences, University of California, Los Angeles, California, USA
Timo Vesala
Department of Physics, University of Helsinki, Helsinki, Finland
Department of Forest Sciences, University of Helsinki, Helsinki, Finland
Ivan Mammarella
Department of Physics, University of Helsinki, Helsinki, Finland
Pasi Kolari
Department of Physics, University of Helsinki, Helsinki, Finland
Juho Aalto
Department of Physics, University of Helsinki, Helsinki, Finland
SMEAR II, Hyytiälä Forestry Field Station, University of Helsinki, Korkeakoski, Finland
Alessandro Franchin
Department of Physics, University of Helsinki, Helsinki, Finland
Cooperative Institute for Research in Environmental Sciences (CIRES), University of Colorado, Boulder, Colorado, USA
Roberta Vecchi
Department of Physics, Università degli Studi di Milano and INFN, Milan, Italy
Gianluigi Valli
Department of Physics, Università degli Studi di Milano and INFN, Milan, Italy
Centre for Isotope Research, University of Groningen, Groningen, the Netherlands
Cooperative Institute for Research in Environmental Sciences (CIRES), University of Colorado, Boulder, Colorado, USA
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Cited
31 citations as recorded by crossref.
- Seasonal dynamics of the COS and CO<sub>2</sub> exchange of a managed temperate grassland F. Spielmann et al. 10.5194/bg-17-4281-2020
- Predictions of Entropy and Gibbs Energy for Carbonyl Sulfide C. Jia et al. 10.1021/acsomega.9b02950
- Influences of light and humidity on carbonyl sulfide-based estimates of photosynthesis L. Kooijmans et al. 10.1073/pnas.1807600116
- Atomic emission detector with gas chromatographic separation and cryogenic pre-concentration (CryoTrap–GC–AED) for atmospheric trace gas measurements E. Karu et al. 10.5194/amt-14-1817-2021
- Inverse modelling of carbonyl sulfide: implementation, evaluation and implications for the global budget J. Ma et al. 10.5194/acp-21-3507-2021
- Long-term fluxes of carbonyl sulfide and their seasonality and interannual variability in a boreal forest T. Vesala et al. 10.5194/acp-22-2569-2022
- COS-derived GPP relationships with temperature and light help explain high-latitude atmospheric CO 2 seasonal cycle amplification L. Hu et al. 10.1073/pnas.2103423118
- Sources and sinks of carbonyl sulfide inferred from tower and mobile atmospheric observations in the Netherlands A. Zanchetta et al. 10.5194/bg-20-3539-2023
- Studying Urban Climate and Air Quality in the Alps: The Innsbruck Atmospheric Observatory T. Karl et al. 10.1175/BAMS-D-19-0270.1
- Effectiveness of airborne radon progeny assessment for atmospheric studies F. Crova et al. 10.1016/j.atmosres.2020.105390
- Gross Primary Productivity of Four European Ecosystems Constrained by Joint CO2 and COS Flux Measurements F. Spielmann et al. 10.1029/2019GL082006
- Stomatal control of leaf fluxes of carbonyl sulfide and CO<sub>2</sub> in a <i>Typha</i> freshwater marsh W. Sun et al. 10.5194/bg-15-3277-2018
- Simulating canopy carbonyl sulfide uptake of two forest stands through an improved ecosystem model and parameter optimization using an ensemble Kalman filter B. Chen et al. 10.1016/j.ecolmodel.2022.110212
- Exploring the Potential of Using Carbonyl Sulfide to Track the Urban Biosphere Signal G. Villalba et al. 10.1029/2020JD034106
- Large Uptake of Atmospheric OCS Observed at a Moist Old Growth Forest: Controls and Implications for Carbon Cycle Applications B. Rastogi et al. 10.1029/2018JG004430
- Towards standardized processing of eddy covariance flux measurements of carbonyl sulfide K. Kohonen et al. 10.5194/amt-13-3957-2020
- Intercomparison of methods to estimate gross primary production based on CO2 and COS flux measurements K. Kohonen et al. 10.5194/bg-19-4067-2022
- Ongoing Decline in the Atmospheric COS Seasonal Cycle Amplitude over Western Europe: Implications for Surface Fluxes S. Belviso et al. 10.3390/atmos13050812
- Light and Water Conditions Co-Regulated Stomata and Leaf Relative Uptake Rate (LRU) during Photosynthesis and COS Assimilation: A Meta-Analysis P. Wang et al. 10.3390/su14052840
- Restricted internal diffusion weakens transpiration–photosynthesis coupling during heatwaves: Evidence from leaf carbonyl sulphide exchange W. Sun et al. 10.1111/pce.14840
- Reviews and syntheses: Carbonyl sulfide as a multi-scale tracer for carbon and water cycles M. Whelan et al. 10.5194/bg-15-3625-2018
- Sea animal colonies enhance carbonyl sulfide emissions from coastal Antarctic tundra W. Zhang et al. 10.1038/s43247-023-00990-4
- Soil fluxes of carbonyl sulfide (COS), carbon monoxide, and carbon dioxide in a boreal forest in southern Finland W. Sun et al. 10.5194/acp-18-1363-2018
- Plant Uptake of Atmospheric Carbonyl Sulfide in Coast Redwood Forests J. Campbell et al. 10.1002/2016JG003703
- Carbon and Water Fluxes of the Boreal Evergreen Needleleaf Forest Biome Constrained by Assimilating Ecosystem Carbonyl Sulfide Flux Observations C. Abadie et al. 10.1029/2023JG007407
- Carbonyl sulfide: comparing a mechanistic representation of the vegetation uptake in a land surface model and the leaf relative uptake approach F. Maignan et al. 10.5194/bg-18-2917-2021
- Optimizing the carbonic anhydrase temperature response and stomatal conductance of carbonyl sulfide leaf uptake in the Simple Biosphere model (SiB4) A. Cho et al. 10.5194/bg-20-2573-2023
- Partitioning gross primary production of a boreal forest among species and strata: A multi-method approach A. Vernay et al. 10.1016/j.agrformet.2023.109857
- Seasonal Evolution of Canopy Stomatal Conductance for a Prairie and Maize Field in the Midwestern United States from Continuous Carbonyl Sulfide Fluxes M. Berkelhammer et al. 10.1029/2019GL085652
- Ecosystem fluxes of carbonyl sulfide in an old-growth forest: temporal dynamics and responses to diffuse radiation and heat waves B. Rastogi et al. 10.5194/bg-15-7127-2018
- Evaluation of carbonyl sulfide biosphere exchange in the Simple Biosphere Model (SiB4) L. Kooijmans et al. 10.5194/bg-18-6547-2021
31 citations as recorded by crossref.
- Seasonal dynamics of the COS and CO<sub>2</sub> exchange of a managed temperate grassland F. Spielmann et al. 10.5194/bg-17-4281-2020
- Predictions of Entropy and Gibbs Energy for Carbonyl Sulfide C. Jia et al. 10.1021/acsomega.9b02950
- Influences of light and humidity on carbonyl sulfide-based estimates of photosynthesis L. Kooijmans et al. 10.1073/pnas.1807600116
- Atomic emission detector with gas chromatographic separation and cryogenic pre-concentration (CryoTrap–GC–AED) for atmospheric trace gas measurements E. Karu et al. 10.5194/amt-14-1817-2021
- Inverse modelling of carbonyl sulfide: implementation, evaluation and implications for the global budget J. Ma et al. 10.5194/acp-21-3507-2021
- Long-term fluxes of carbonyl sulfide and their seasonality and interannual variability in a boreal forest T. Vesala et al. 10.5194/acp-22-2569-2022
- COS-derived GPP relationships with temperature and light help explain high-latitude atmospheric CO 2 seasonal cycle amplification L. Hu et al. 10.1073/pnas.2103423118
- Sources and sinks of carbonyl sulfide inferred from tower and mobile atmospheric observations in the Netherlands A. Zanchetta et al. 10.5194/bg-20-3539-2023
- Studying Urban Climate and Air Quality in the Alps: The Innsbruck Atmospheric Observatory T. Karl et al. 10.1175/BAMS-D-19-0270.1
- Effectiveness of airborne radon progeny assessment for atmospheric studies F. Crova et al. 10.1016/j.atmosres.2020.105390
- Gross Primary Productivity of Four European Ecosystems Constrained by Joint CO2 and COS Flux Measurements F. Spielmann et al. 10.1029/2019GL082006
- Stomatal control of leaf fluxes of carbonyl sulfide and CO<sub>2</sub> in a <i>Typha</i> freshwater marsh W. Sun et al. 10.5194/bg-15-3277-2018
- Simulating canopy carbonyl sulfide uptake of two forest stands through an improved ecosystem model and parameter optimization using an ensemble Kalman filter B. Chen et al. 10.1016/j.ecolmodel.2022.110212
- Exploring the Potential of Using Carbonyl Sulfide to Track the Urban Biosphere Signal G. Villalba et al. 10.1029/2020JD034106
- Large Uptake of Atmospheric OCS Observed at a Moist Old Growth Forest: Controls and Implications for Carbon Cycle Applications B. Rastogi et al. 10.1029/2018JG004430
- Towards standardized processing of eddy covariance flux measurements of carbonyl sulfide K. Kohonen et al. 10.5194/amt-13-3957-2020
- Intercomparison of methods to estimate gross primary production based on CO2 and COS flux measurements K. Kohonen et al. 10.5194/bg-19-4067-2022
- Ongoing Decline in the Atmospheric COS Seasonal Cycle Amplitude over Western Europe: Implications for Surface Fluxes S. Belviso et al. 10.3390/atmos13050812
- Light and Water Conditions Co-Regulated Stomata and Leaf Relative Uptake Rate (LRU) during Photosynthesis and COS Assimilation: A Meta-Analysis P. Wang et al. 10.3390/su14052840
- Restricted internal diffusion weakens transpiration–photosynthesis coupling during heatwaves: Evidence from leaf carbonyl sulphide exchange W. Sun et al. 10.1111/pce.14840
- Reviews and syntheses: Carbonyl sulfide as a multi-scale tracer for carbon and water cycles M. Whelan et al. 10.5194/bg-15-3625-2018
- Sea animal colonies enhance carbonyl sulfide emissions from coastal Antarctic tundra W. Zhang et al. 10.1038/s43247-023-00990-4
- Soil fluxes of carbonyl sulfide (COS), carbon monoxide, and carbon dioxide in a boreal forest in southern Finland W. Sun et al. 10.5194/acp-18-1363-2018
- Plant Uptake of Atmospheric Carbonyl Sulfide in Coast Redwood Forests J. Campbell et al. 10.1002/2016JG003703
- Carbon and Water Fluxes of the Boreal Evergreen Needleleaf Forest Biome Constrained by Assimilating Ecosystem Carbonyl Sulfide Flux Observations C. Abadie et al. 10.1029/2023JG007407
- Carbonyl sulfide: comparing a mechanistic representation of the vegetation uptake in a land surface model and the leaf relative uptake approach F. Maignan et al. 10.5194/bg-18-2917-2021
- Optimizing the carbonic anhydrase temperature response and stomatal conductance of carbonyl sulfide leaf uptake in the Simple Biosphere model (SiB4) A. Cho et al. 10.5194/bg-20-2573-2023
- Partitioning gross primary production of a boreal forest among species and strata: A multi-method approach A. Vernay et al. 10.1016/j.agrformet.2023.109857
- Seasonal Evolution of Canopy Stomatal Conductance for a Prairie and Maize Field in the Midwestern United States from Continuous Carbonyl Sulfide Fluxes M. Berkelhammer et al. 10.1029/2019GL085652
- Ecosystem fluxes of carbonyl sulfide in an old-growth forest: temporal dynamics and responses to diffuse radiation and heat waves B. Rastogi et al. 10.5194/bg-15-7127-2018
- Evaluation of carbonyl sulfide biosphere exchange in the Simple Biosphere Model (SiB4) L. Kooijmans et al. 10.5194/bg-18-6547-2021
Latest update: 18 Apr 2024
Short summary
Carbon cycle studies rely on the accuracy of models to estimate the amount of CO2 being taken up by vegetation. The gas carbonyl sulfide (COS) can serve as a tool to estimate the vegetative CO2 uptake by scaling the ecosystem uptake of COS to that of CO2. Here we investigate the nighttime fluxes of COS. The relationships found in this study will aid in implementing nighttime COS uptake in models, which is key to obtain accurate estimates of vegetative CO2 uptake with the use of COS.
Carbon cycle studies rely on the accuracy of models to estimate the amount of CO2 being taken up...
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