A New Approach to estimate GHG content of air entering the Amazon basin for purpose of GHG fluxes using air column budgets

Amazon humid forests are an important part of the tropical climate system and are a large pool of organic carbon which can be released rapidly both as a result of human destruction as well possibly in response to changing climate. In 2000 we started to measure regularly vertical profiles over the Br...

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Main Authors: GATTI, LUCIANA V., DOMINGUES, LUCAS G., CORREIA, CAIO S.C., SANCHEZ, ALBER, GLOOR, MANUEL, MILLER, JOHN B., ALDEN, CAROLINE, MARANI, LUCIANO, SANTOS, RICARDO S., COSTA, WELLISON R., CRISPIM, STEPHANE P., BORGES, VIVIANE F., AQUINO, AFONSO R., INTERNATIONAL CARBON DIOXIDE CONFERENCE, 10th
Format: Other/Unknown Material
Language:unknown
Published: Swiss Academy of Sciences (SCNAT) 2017
Subjects:
North East Atlantic
Online Access:http://repositorio.ipen.br/handle/123456789/29150
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spelling ftipen:oai:repositorio.ipen.br:123456789/29150 2023-11-12T04:23:00+01:00 A New Approach to estimate GHG content of air entering the Amazon basin for purpose of GHG fluxes using air column budgets GATTI, LUCIANA V. DOMINGUES, LUCAS G. CORREIA, CAIO S.C. SANCHEZ, ALBER GLOOR, MANUEL MILLER, JOHN B. ALDEN, CAROLINE MARANI, LUCIANO SANTOS, RICARDO S. COSTA, WELLISON R. CRISPIM, STEPHANE P. BORGES, VIVIANE F. AQUINO, AFONSO R. INTERNATIONAL CARBON DIOXIDE CONFERENCE, 10th I August 21-25, 2017 242-242 http://repositorio.ipen.br/handle/123456789/29150 unknown Swiss Academy of Sciences (SCNAT) http://repositorio.ipen.br/handle/123456789/29150 openAccess Resumo de eventos cient??ficos 2017 ftipen 2023-10-30T16:28:39Z Amazon humid forests are an important part of the tropical climate system and are a large pool of organic carbon which can be released rapidly both as a result of human destruction as well possibly in response to changing climate. In 2000 we started to measure regularly vertical profiles over the Brazilian Amazon Basin to estimate GHG balances as a large scale diagnostic of longer-term changes and short term responses to climate anomalies. To estimate Amazon Basin regional fluxes based on vertical profile data, we use an air column budget technique. To do so we profit from the primary air flow pattern over the basin with trade winds entering the basin along the North-east Atlantic coast, then travelling westwards towards the Andes, from where the air flow is bent south-eats-wards returning back towards the sea. Thus we can estimate fluxes from the difference in air column greenhouse gas content at a site in the Amazon basin and the air column content of air entering the basin, and an estimate of the time it takes for air parcels to travel from the Atlantic coast to the site in the Amazon. To estimate travel time we use back-trajectories calculated based on meteorological fields [Hysplit1 GDAS 1degree] One approach to estimate the greenhouse gas air column content of air entering the basin is to express air entering the basin as a mixture of northern hemisphere and southern hemisphere air. Specifically we use as end-members air concentrations measured at Barbados (RPB, NOAA site) and Ascension (ASC, NOAA site) respectively. To estimate fractional contributions we use a linear mixing model expressing in situ measured SF6 as a weighted sum of SF6 measured at the two NOAA background sites. Because flux estimates are very sensitive to SF6 precision and accuracy we have developed an alternative approach. Instead of determining weights from SF6 we base the weights on the latitude where a back-trajectory extending backwards in time from the site intersects a line connecting RPB, ASC (until 30??S). Now we use RPB, ASC ... Other/Unknown Material North East Atlantic Repositório Digital do IPEN (Instituto de Pesquisas Energéticas e Nucleares)
institution Open Polar
collection Repositório Digital do IPEN (Instituto de Pesquisas Energéticas e Nucleares)
op_collection_id ftipen
language unknown
description Amazon humid forests are an important part of the tropical climate system and are a large pool of organic carbon which can be released rapidly both as a result of human destruction as well possibly in response to changing climate. In 2000 we started to measure regularly vertical profiles over the Brazilian Amazon Basin to estimate GHG balances as a large scale diagnostic of longer-term changes and short term responses to climate anomalies. To estimate Amazon Basin regional fluxes based on vertical profile data, we use an air column budget technique. To do so we profit from the primary air flow pattern over the basin with trade winds entering the basin along the North-east Atlantic coast, then travelling westwards towards the Andes, from where the air flow is bent south-eats-wards returning back towards the sea. Thus we can estimate fluxes from the difference in air column greenhouse gas content at a site in the Amazon basin and the air column content of air entering the basin, and an estimate of the time it takes for air parcels to travel from the Atlantic coast to the site in the Amazon. To estimate travel time we use back-trajectories calculated based on meteorological fields [Hysplit1 GDAS 1degree] One approach to estimate the greenhouse gas air column content of air entering the basin is to express air entering the basin as a mixture of northern hemisphere and southern hemisphere air. Specifically we use as end-members air concentrations measured at Barbados (RPB, NOAA site) and Ascension (ASC, NOAA site) respectively. To estimate fractional contributions we use a linear mixing model expressing in situ measured SF6 as a weighted sum of SF6 measured at the two NOAA background sites. Because flux estimates are very sensitive to SF6 precision and accuracy we have developed an alternative approach. Instead of determining weights from SF6 we base the weights on the latitude where a back-trajectory extending backwards in time from the site intersects a line connecting RPB, ASC (until 30??S). Now we use RPB, ASC ...
format Other/Unknown Material
author GATTI, LUCIANA V.
DOMINGUES, LUCAS G.
CORREIA, CAIO S.C.
SANCHEZ, ALBER
GLOOR, MANUEL
MILLER, JOHN B.
ALDEN, CAROLINE
MARANI, LUCIANO
SANTOS, RICARDO S.
COSTA, WELLISON R.
CRISPIM, STEPHANE P.
BORGES, VIVIANE F.
AQUINO, AFONSO R.
INTERNATIONAL CARBON DIOXIDE CONFERENCE, 10th
spellingShingle GATTI, LUCIANA V.
DOMINGUES, LUCAS G.
CORREIA, CAIO S.C.
SANCHEZ, ALBER
GLOOR, MANUEL
MILLER, JOHN B.
ALDEN, CAROLINE
MARANI, LUCIANO
SANTOS, RICARDO S.
COSTA, WELLISON R.
CRISPIM, STEPHANE P.
BORGES, VIVIANE F.
AQUINO, AFONSO R.
INTERNATIONAL CARBON DIOXIDE CONFERENCE, 10th
A New Approach to estimate GHG content of air entering the Amazon basin for purpose of GHG fluxes using air column budgets
author_facet GATTI, LUCIANA V.
DOMINGUES, LUCAS G.
CORREIA, CAIO S.C.
SANCHEZ, ALBER
GLOOR, MANUEL
MILLER, JOHN B.
ALDEN, CAROLINE
MARANI, LUCIANO
SANTOS, RICARDO S.
COSTA, WELLISON R.
CRISPIM, STEPHANE P.
BORGES, VIVIANE F.
AQUINO, AFONSO R.
INTERNATIONAL CARBON DIOXIDE CONFERENCE, 10th
author_sort GATTI, LUCIANA V.
title A New Approach to estimate GHG content of air entering the Amazon basin for purpose of GHG fluxes using air column budgets
title_short A New Approach to estimate GHG content of air entering the Amazon basin for purpose of GHG fluxes using air column budgets
title_full A New Approach to estimate GHG content of air entering the Amazon basin for purpose of GHG fluxes using air column budgets
title_fullStr A New Approach to estimate GHG content of air entering the Amazon basin for purpose of GHG fluxes using air column budgets
title_full_unstemmed A New Approach to estimate GHG content of air entering the Amazon basin for purpose of GHG fluxes using air column budgets
title_sort new approach to estimate ghg content of air entering the amazon basin for purpose of ghg fluxes using air column budgets
publisher Swiss Academy of Sciences (SCNAT)
publishDate 2017
url http://repositorio.ipen.br/handle/123456789/29150
op_coverage I
genre North East Atlantic
genre_facet North East Atlantic
op_relation http://repositorio.ipen.br/handle/123456789/29150
op_rights openAccess
_version_ 1782337910588047360

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