Effect of Elevated CO2on Carbon Pools and Fluxes in a Brackish Marsh

The effects of long-term exposure to elevated atmospheric CO2(ambient + 340 ppmv) on carbon cycling were investigated for two plant communities in a Chesapeake Bay brackish marsh, one dominated by the C3sedge Schoenoplectus americanus and the other by the C4grass Spartina patens. Elevated CO2resulte...

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Veröffentlicht in:	Estuaries 2005-10, Vol.28 (5), p.694-704
Hauptverfasser:	Marsh, Anne S., Rasse, Daniel P., Drake, Bert G., Megonigal, J. Patrick
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Sprache:	eng
Schlagworte:	Atmospherics Carbon dioxide Carbon dioxide emissions Ecosystem models Growing seasons Marshes Methane Plants Respiration Soil respiration
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creator	Marsh, Anne S. Rasse, Daniel P. Drake, Bert G. Megonigal, J. Patrick
description	The effects of long-term exposure to elevated atmospheric CO2(ambient + 340 ppmv) on carbon cycling were investigated for two plant communities in a Chesapeake Bay brackish marsh, one dominated by the C3sedge Schoenoplectus americanus and the other by the C4grass Spartina patens. Elevated CO2resulted in a significant increase in porewater concentrations of DIC at 30 cm depth (p < 0.1). The CO2treatment also yielded increases in DOC (15 to 27%) and dissolved CH4(12-18%) in the C3marsh (means for several depths over the period of June 1998 and June 1999), but not at a significant level. Elevated CO2increased mean ecosystem emissions of CO2(34-393 g C m-2yr-1) and CH4(0.21-0.40 g C m-2yr-1) in the C3community, but the effects were only significant on certain dates. For example, CO2enrichment increased C export to the atmosphere in the C3community during one of two winter seasons measured (p = 0.09). In the C4community, gross photosynthesis responded relatively weakly to elevated CO2(18% increase, p > 0.1), and the concomitant effects on dissolved carbon concentrations, respiration, and CH4emissions were small or absent. We concluded that elevated CO2has the potential to increase dissolved inorganic carbon export to estuaries.
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For example, CO2enrichment increased C export to the atmosphere in the C3community during one of two winter seasons measured (p = 0.09). In the C4community, gross photosynthesis responded relatively weakly to elevated CO2(18% increase, p > 0.1), and the concomitant effects on dissolved carbon concentrations, respiration, and CH4emissions were small or absent. 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Patrick</creatorcontrib><jtitle>Estuaries</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Marsh, Anne S.</au><au>Rasse, Daniel P.</au><au>Drake, Bert G.</au><au>Megonigal, J. Patrick</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Effect of Elevated CO2on Carbon Pools and Fluxes in a Brackish Marsh</atitle><jtitle>Estuaries</jtitle><date>2005-10-01</date><risdate>2005</risdate><volume>28</volume><issue>5</issue><spage>694</spage><epage>704</epage><pages>694-704</pages><issn>0160-8347</issn><abstract>The effects of long-term exposure to elevated atmospheric CO2(ambient + 340 ppmv) on carbon cycling were investigated for two plant communities in a Chesapeake Bay brackish marsh, one dominated by the C3sedge Schoenoplectus americanus and the other by the C4grass Spartina patens. Elevated CO2resulted in a significant increase in porewater concentrations of DIC at 30 cm depth (p < 0.1). The CO2treatment also yielded increases in DOC (15 to 27%) and dissolved CH4(12-18%) in the C3marsh (means for several depths over the period of June 1998 and June 1999), but not at a significant level. Elevated CO2increased mean ecosystem emissions of CO2(34-393 g C m-2yr-1) and CH4(0.21-0.40 g C m-2yr-1) in the C3community, but the effects were only significant on certain dates. For example, CO2enrichment increased C export to the atmosphere in the C3community during one of two winter seasons measured (p = 0.09). In the C4community, gross photosynthesis responded relatively weakly to elevated CO2(18% increase, p > 0.1), and the concomitant effects on dissolved carbon concentrations, respiration, and CH4emissions were small or absent. We concluded that elevated CO2has the potential to increase dissolved inorganic carbon export to estuaries.</abstract><pub>Estuarine Research Federation</pub></addata></record>
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subjects	Atmospherics Carbon dioxide Carbon dioxide emissions Ecosystem models Growing seasons Marshes Methane Plants Respiration Soil respiration
title	Effect of Elevated CO2on Carbon Pools and Fluxes in a Brackish Marsh
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