Modellering af landoverflade flukse af CO2 i relation til klimaforandringer og kvælstof deposition

Kristina Hansen, Carsten Ambelas Skjøth, Camilla Geels, Lise Lotte Sørensen, Eva Boegh

Publikation: KonferencebidragKonferenceabstrakt til konferenceForskning

Resumé

Climate change, land use variations, and impacts of atmospheric nitrogen (N) deposition represent uncertainties for the prediction of future greenhouse gas exchange between land surfaces and the atmosphere as the mechanisms describing nutritional effects are not well developed in climate and ecosystems models. Recent research indicate the need for incorporating the ammonia (NH3) compensation point in atmospheric N deposition models to quantify the N budget for vegetative surfaces. This poster presents a PhD project within ECOCLIM of incorporating the NH3 compensation point in a coupled photosynthesis-stomatal conductance model to allow more realistic estimation of the predictions NH3 deposition rates and CO2 fluxes of terrestrial ecosystems. Such an integrated model system will improve the understanding of processes responsible for net sources and sinks of CO2 enabling us to predict important climate feedback mechanisms of CO2 between changes in management, land use practise, and climate change.
Bidragets oversatte titelModellering af landoverflade flukse af CO2 i relation til klimaforandringer og kvælstof deposition
OriginalsprogEngelsk
Publikationsdatonov. 2011
Antal sider1
StatusUdgivet - nov. 2011
BegivenhedCRES Annual Meeting 2011 - Carlsberg Academy, Valby, Copenhagen, Danmark
Varighed: 21 nov. 201123 nov. 2011

Konference

KonferenceCRES Annual Meeting 2011
LokationCarlsberg Academy, Valby
LandDanmark
ByCopenhagen
Periode21/11/201123/11/2011

Emneord

  • Greenhouse gas exchange
  • SVAT modelling system
  • NH3
  • CO2
  • forest

Citer dette

Hansen, K., Ambelas Skjøth, C., Geels, C., Sørensen, L. L., & Boegh, E. (2011). Modelling land surface fluxes of CO2 in response to climate change and nitrogen deposition. Abstract fra CRES Annual Meeting 2011, Copenhagen, Danmark.
Hansen, Kristina ; Ambelas Skjøth, Carsten ; Geels, Camilla ; Sørensen, Lise Lotte ; Boegh, Eva. / Modelling land surface fluxes of CO2 in response to climate change and nitrogen deposition. Abstract fra CRES Annual Meeting 2011, Copenhagen, Danmark.1 s.
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abstract = "Climate change, land use variations, and impacts of atmospheric nitrogen (N) deposition represent uncertainties for the prediction of future greenhouse gas exchange between land surfaces and the atmosphere as the mechanisms describing nutritional effects are not well developed in climate and ecosystems models. Recent research indicate the need for incorporating the ammonia (NH3) compensation point in atmospheric N deposition models to quantify the N budget for vegetative surfaces. This poster presents a PhD project within ECOCLIM of incorporating the NH3 compensation point in a coupled photosynthesis-stomatal conductance model to allow more realistic estimation of the predictions NH3 deposition rates and CO2 fluxes of terrestrial ecosystems. Such an integrated model system will improve the understanding of processes responsible for net sources and sinks of CO2 enabling us to predict important climate feedback mechanisms of CO2 between changes in management, land use practise, and climate change.",
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Hansen, K, Ambelas Skjøth, C, Geels, C, Sørensen, LL & Boegh, E 2011, 'Modelling land surface fluxes of CO2 in response to climate change and nitrogen deposition' CRES Annual Meeting 2011, Copenhagen, Danmark, 21/11/2011 - 23/11/2011, .

Modelling land surface fluxes of CO2 in response to climate change and nitrogen deposition. / Hansen, Kristina; Ambelas Skjøth, Carsten; Geels, Camilla; Sørensen, Lise Lotte; Boegh, Eva.

2011. Abstract fra CRES Annual Meeting 2011, Copenhagen, Danmark.

Publikation: KonferencebidragKonferenceabstrakt til konferenceForskning

TY - ABST

T1 - Modelling land surface fluxes of CO2 in response to climate change and nitrogen deposition

AU - Hansen, Kristina

AU - Ambelas Skjøth, Carsten

AU - Geels, Camilla

AU - Sørensen, Lise Lotte

AU - Boegh, Eva

PY - 2011/11

Y1 - 2011/11

N2 - Climate change, land use variations, and impacts of atmospheric nitrogen (N) deposition represent uncertainties for the prediction of future greenhouse gas exchange between land surfaces and the atmosphere as the mechanisms describing nutritional effects are not well developed in climate and ecosystems models. Recent research indicate the need for incorporating the ammonia (NH3) compensation point in atmospheric N deposition models to quantify the N budget for vegetative surfaces. This poster presents a PhD project within ECOCLIM of incorporating the NH3 compensation point in a coupled photosynthesis-stomatal conductance model to allow more realistic estimation of the predictions NH3 deposition rates and CO2 fluxes of terrestrial ecosystems. Such an integrated model system will improve the understanding of processes responsible for net sources and sinks of CO2 enabling us to predict important climate feedback mechanisms of CO2 between changes in management, land use practise, and climate change.

AB - Climate change, land use variations, and impacts of atmospheric nitrogen (N) deposition represent uncertainties for the prediction of future greenhouse gas exchange between land surfaces and the atmosphere as the mechanisms describing nutritional effects are not well developed in climate and ecosystems models. Recent research indicate the need for incorporating the ammonia (NH3) compensation point in atmospheric N deposition models to quantify the N budget for vegetative surfaces. This poster presents a PhD project within ECOCLIM of incorporating the NH3 compensation point in a coupled photosynthesis-stomatal conductance model to allow more realistic estimation of the predictions NH3 deposition rates and CO2 fluxes of terrestrial ecosystems. Such an integrated model system will improve the understanding of processes responsible for net sources and sinks of CO2 enabling us to predict important climate feedback mechanisms of CO2 between changes in management, land use practise, and climate change.

KW - Greenhouse gas exchange

KW - SVAT modelling system

KW - NH3

KW - CO2

KW - forest

M3 - Conference abstract for conference

ER -

Hansen K, Ambelas Skjøth C, Geels C, Sørensen LL, Boegh E. Modelling land surface fluxes of CO2 in response to climate change and nitrogen deposition. 2011. Abstract fra CRES Annual Meeting 2011, Copenhagen, Danmark.