On the Relationship Between Aquatic CO2 Concentration and Ecosystem Fluxes in Some of the World’s Key Wetland Types

Jessica L. Richardson; Ankur R. Desai; Jonathan Thom; Kim Lindgren; Hjalmar Laudon; Matthias Peichl; Mats Nilsson; Audrey Campeau; Järvi Järveoja; Peter Hawman; Deepak R. Mishra; Dontrece Smith; Brenda D’Acunha; Sara H. Knox; Darian Ng; Mark S. Johnson; Joshua Blackstock; Sparkle L. Malone; Steve F. Oberbauer; Matteo Detto; Kimberly P. Wickland; Inke Forbrich; Nathaniel Weston; Jacqueline K.Y. Hung; Colin Edgar; Eugenie S. Euskirchen; Syndonia Bret-Harte; Jason Dobkowski; George Kling; Evan S. Kane; Pascal Badiou; Matthew Bogard; Gil Bohrer; Thomas O’Halloran; Jonny Ritson; Ariane Arias-Ortiz; Dennis Baldocchi; Patty Oikawa; Julie Shahan; Maiyah Matsumura

doi:10.1007/s13157-023-01751-x

On the Relationship Between Aquatic CO₂ Concentration and Ecosystem Fluxes in Some of the World’s Key Wetland Types

Jessica L. Richardson^*, Ankur R. Desai, Jonathan Thom, Kim Lindgren, Hjalmar Laudon, Matthias Peichl, Mats Nilsson, Audrey Campeau, Järvi Järveoja, Peter Hawman, Deepak R. Mishra, Dontrece Smith, Brenda D’Acunha, Sara H. Knox, Darian Ng, Mark S. Johnson, Joshua Blackstock, Sparkle L. Malone, Steve F. Oberbauer, Matteo DettoKimberly P. Wickland, Inke Forbrich, Nathaniel Weston, Jacqueline K.Y. Hung, Colin Edgar, Eugenie S. Euskirchen, Syndonia Bret-Harte, Jason Dobkowski, George Kling, Evan S. Kane, Pascal Badiou, Matthew Bogard, Gil Bohrer, Thomas O’Halloran, Jonny Ritson, Ariane Arias-Ortiz, Dennis Baldocchi, Patty Oikawa, Julie Shahan, Maiyah Matsumura

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Resum

To understand patterns in CO₂ partial pressure (P_CO2) over time in wetlands’ surface water and porewater, we examined the relationship between P_CO2 and land–atmosphere flux of CO₂ at the ecosystem scale at 22 Northern Hemisphere wetland sites synthesized through an open call. Sites spanned 6 major wetland types (tidal, alpine, fen, bog, marsh, and prairie pothole/karst), 7 Köppen climates, and 16 different years. Ecosystem respiration (R_eco) and gross primary production (GPP), components of vertical CO₂ flux, were compared to P_CO2, a component of lateral CO₂ flux, to determine if photosynthetic rates and soil respiration consistently influence wetland surface and porewater CO₂ concentrations across wetlands. Similar to drivers of primary productivity at the ecosystem scale, P_CO2 was strongly positively correlated with air temperature (T_air) at most sites. Monthly average P_CO2 tended to peak towards the middle of the year and was more strongly related to R_eco than GPP. Our results suggest R_eco may be related to biologically driven P_CO2 in wetlands, but the relationship is site-specific and could be an artifact of differently timed seasonal cycles or other factors. Higher levels of discharge do not consistently alter the relationship between R_eco and temperature normalized P_CO2. This work synthesizes relevant data and identifies key knowledge gaps in drivers of wetland respiration.

Idioma original	Anglès
Número d’article	1
Nombre de pàgines	20
Revista	Wetlands
Volum	44
DOIs	https://doi.org/10.1007/s13157-023-01751-x
Estat de la publicació	Publicada - 5 de des. 2023

SDG de les Nacions Unides

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10.1007/s13157-023-01751-x

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Richardson, J. L., Desai, A. R., Thom, J., Lindgren, K., Laudon, H., Peichl, M., Nilsson, M., Campeau, A., Järveoja, J., Hawman, P., Mishra, D. R., Smith, D., D’Acunha, B., Knox, S. H., Ng, D., Johnson, M. S., Blackstock, J., Malone, S. L., Oberbauer, S. F., ... Matsumura, M. (2023). On the Relationship Between Aquatic CO₂ Concentration and Ecosystem Fluxes in Some of the World’s Key Wetland Types. Wetlands, 44, Article 1. https://doi.org/10.1007/s13157-023-01751-x

@article{afee603ed0c74620aa5774580d576695,

title = "On the Relationship Between Aquatic CO2 Concentration and Ecosystem Fluxes in Some of the World{\textquoteright}s Key Wetland Types",

abstract = "To understand patterns in CO2 partial pressure (PCO2) over time in wetlands{\textquoteright} surface water and porewater, we examined the relationship between PCO2 and land–atmosphere flux of CO2 at the ecosystem scale at 22 Northern Hemisphere wetland sites synthesized through an open call. Sites spanned 6 major wetland types (tidal, alpine, fen, bog, marsh, and prairie pothole/karst), 7 K{\"o}ppen climates, and 16 different years. Ecosystem respiration (Reco) and gross primary production (GPP), components of vertical CO2 flux, were compared to PCO2, a component of lateral CO2 flux, to determine if photosynthetic rates and soil respiration consistently influence wetland surface and porewater CO2 concentrations across wetlands. Similar to drivers of primary productivity at the ecosystem scale, PCO2 was strongly positively correlated with air temperature (Tair) at most sites. Monthly average PCO2 tended to peak towards the middle of the year and was more strongly related to Reco than GPP. Our results suggest Reco may be related to biologically driven PCO2 in wetlands, but the relationship is site-specific and could be an artifact of differently timed seasonal cycles or other factors. Higher levels of discharge do not consistently alter the relationship between Reco and temperature normalized PCO2. This work synthesizes relevant data and identifies key knowledge gaps in drivers of wetland respiration.",

keywords = "Biogeochemistry, Carbon Dioxide, Dissolved CO2, Emissions, Flux, Wetlands",

author = "Richardson, \{Jessica L.\} and Desai, \{Ankur R.\} and Jonathan Thom and Kim Lindgren and Hjalmar Laudon and Matthias Peichl and Mats Nilsson and Audrey Campeau and J{\"a}rvi J{\"a}rveoja and Peter Hawman and Mishra, \{Deepak R.\} and Dontrece Smith and Brenda D{\textquoteright}Acunha and Knox, \{Sara H.\} and Darian Ng and Johnson, \{Mark S.\} and Joshua Blackstock and Malone, \{Sparkle L.\} and Oberbauer, \{Steve F.\} and Matteo Detto and Wickland, \{Kimberly P.\} and Inke Forbrich and Nathaniel Weston and Hung, \{Jacqueline K.Y.\} and Colin Edgar and Euskirchen, \{Eugenie S.\} and Syndonia Bret-Harte and Jason Dobkowski and George Kling and Kane, \{Evan S.\} and Pascal Badiou and Matthew Bogard and Gil Bohrer and Thomas O{\textquoteright}Halloran and Jonny Ritson and Ariane Arias-Ortiz and Dennis Baldocchi and Patty Oikawa and Julie Shahan and Maiyah Matsumura",

note = "Funding Information: JR acknowledges support from the UW-Madison Student Research Grant Competition, PeatNeeds Microgrant from PeatECR Action Team, NSF, and the Eco-meteorology lab at UW-Madison. Funding for the AmeriFlux data portal is provided by the U.S. Department of Energy Office of Science. US-EvM is supported in part by funds from the Department of Energy{\textquoteright}s National Institute for Climate Change Research grant (07‐SC‐NICCR‐1059) and the National Science Foundation Division of Atmospheric \& Geospace Sciences Atmospheric Chemistry Program awards (1561139, 1233006, and 1807533). Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive licence to Society of Wetland Scientists.",

year = "2023",

month = dec,

day = "5",

doi = "10.1007/s13157-023-01751-x",

language = "English",

volume = "44",

journal = "Wetlands",

issn = "0277-5212",

publisher = "Springer Science and Business Media B.V.",

}

Richardson, JL, Desai, AR, Thom, J, Lindgren, K, Laudon, H, Peichl, M, Nilsson, M, Campeau, A, Järveoja, J, Hawman, P, Mishra, DR, Smith, D, D’Acunha, B, Knox, SH, Ng, D, Johnson, MS, Blackstock, J, Malone, SL, Oberbauer, SF, Detto, M, Wickland, KP, Forbrich, I, Weston, N, Hung, JKY, Edgar, C, Euskirchen, ES, Bret-Harte, S, Dobkowski, J, Kling, G, Kane, ES, Badiou, P, Bogard, M, Bohrer, G, O’Halloran, T, Ritson, J, Arias-Ortiz, A, Baldocchi, D, Oikawa, P, Shahan, J & Matsumura, M 2023, 'On the Relationship Between Aquatic CO₂ Concentration and Ecosystem Fluxes in Some of the World’s Key Wetland Types', Wetlands, vol. 44, 1. https://doi.org/10.1007/s13157-023-01751-x

TY - JOUR

T1 - On the Relationship Between Aquatic CO2 Concentration and Ecosystem Fluxes in Some of the World’s Key Wetland Types

AU - Richardson, Jessica L.

AU - Desai, Ankur R.

AU - Thom, Jonathan

AU - Lindgren, Kim

AU - Laudon, Hjalmar

AU - Peichl, Matthias

AU - Nilsson, Mats

AU - Campeau, Audrey

AU - Järveoja, Järvi

AU - Hawman, Peter

AU - Mishra, Deepak R.

AU - Smith, Dontrece

AU - D’Acunha, Brenda

AU - Knox, Sara H.

AU - Ng, Darian

AU - Johnson, Mark S.

AU - Blackstock, Joshua

AU - Malone, Sparkle L.

AU - Oberbauer, Steve F.

AU - Detto, Matteo

AU - Wickland, Kimberly P.

AU - Forbrich, Inke

AU - Weston, Nathaniel

AU - Hung, Jacqueline K.Y.

AU - Edgar, Colin

AU - Euskirchen, Eugenie S.

AU - Bret-Harte, Syndonia

AU - Dobkowski, Jason

AU - Kling, George

AU - Kane, Evan S.

AU - Badiou, Pascal

AU - Bogard, Matthew

AU - Bohrer, Gil

AU - O’Halloran, Thomas

AU - Ritson, Jonny

AU - Arias-Ortiz, Ariane

AU - Baldocchi, Dennis

AU - Oikawa, Patty

AU - Shahan, Julie

AU - Matsumura, Maiyah

N1 - Funding Information: JR acknowledges support from the UW-Madison Student Research Grant Competition, PeatNeeds Microgrant from PeatECR Action Team, NSF, and the Eco-meteorology lab at UW-Madison. Funding for the AmeriFlux data portal is provided by the U.S. Department of Energy Office of Science. US-EvM is supported in part by funds from the Department of Energy’s National Institute for Climate Change Research grant (07‐SC‐NICCR‐1059) and the National Science Foundation Division of Atmospheric & Geospace Sciences Atmospheric Chemistry Program awards (1561139, 1233006, and 1807533). Publisher Copyright: © 2023, The Author(s), under exclusive licence to Society of Wetland Scientists.

PY - 2023/12/5

Y1 - 2023/12/5

N2 - To understand patterns in CO2 partial pressure (PCO2) over time in wetlands’ surface water and porewater, we examined the relationship between PCO2 and land–atmosphere flux of CO2 at the ecosystem scale at 22 Northern Hemisphere wetland sites synthesized through an open call. Sites spanned 6 major wetland types (tidal, alpine, fen, bog, marsh, and prairie pothole/karst), 7 Köppen climates, and 16 different years. Ecosystem respiration (Reco) and gross primary production (GPP), components of vertical CO2 flux, were compared to PCO2, a component of lateral CO2 flux, to determine if photosynthetic rates and soil respiration consistently influence wetland surface and porewater CO2 concentrations across wetlands. Similar to drivers of primary productivity at the ecosystem scale, PCO2 was strongly positively correlated with air temperature (Tair) at most sites. Monthly average PCO2 tended to peak towards the middle of the year and was more strongly related to Reco than GPP. Our results suggest Reco may be related to biologically driven PCO2 in wetlands, but the relationship is site-specific and could be an artifact of differently timed seasonal cycles or other factors. Higher levels of discharge do not consistently alter the relationship between Reco and temperature normalized PCO2. This work synthesizes relevant data and identifies key knowledge gaps in drivers of wetland respiration.

AB - To understand patterns in CO2 partial pressure (PCO2) over time in wetlands’ surface water and porewater, we examined the relationship between PCO2 and land–atmosphere flux of CO2 at the ecosystem scale at 22 Northern Hemisphere wetland sites synthesized through an open call. Sites spanned 6 major wetland types (tidal, alpine, fen, bog, marsh, and prairie pothole/karst), 7 Köppen climates, and 16 different years. Ecosystem respiration (Reco) and gross primary production (GPP), components of vertical CO2 flux, were compared to PCO2, a component of lateral CO2 flux, to determine if photosynthetic rates and soil respiration consistently influence wetland surface and porewater CO2 concentrations across wetlands. Similar to drivers of primary productivity at the ecosystem scale, PCO2 was strongly positively correlated with air temperature (Tair) at most sites. Monthly average PCO2 tended to peak towards the middle of the year and was more strongly related to Reco than GPP. Our results suggest Reco may be related to biologically driven PCO2 in wetlands, but the relationship is site-specific and could be an artifact of differently timed seasonal cycles or other factors. Higher levels of discharge do not consistently alter the relationship between Reco and temperature normalized PCO2. This work synthesizes relevant data and identifies key knowledge gaps in drivers of wetland respiration.

KW - Biogeochemistry

KW - Carbon Dioxide

KW - Dissolved CO2

KW - Emissions

KW - Flux

KW - Wetlands

UR - https://www.scopus.com/pages/publications/85178897155

UR - https://www.mendeley.com/catalogue/504a3c3f-d355-3cdb-ae7f-db6266cca2b9/

U2 - 10.1007/s13157-023-01751-x

DO - 10.1007/s13157-023-01751-x

M3 - Article

AN - SCOPUS:85178897155

SN - 0277-5212

VL - 44

JO - Wetlands

JF - Wetlands

M1 - 1

ER -