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Metadados

1. Identificação
Tipo de ReferênciaArtigo em Revista Científica (Journal Article)
Sitemtc-m21b.sid.inpe.br
Código do Detentorisadg {BR SPINPE} ibi 8JMKD3MGPCW/3DT298S
Identificador8JMKD3MGP3W34P/3QL7K3S
Repositóriosid.inpe.br/mtc-m21b/2018/03.02.16.34   (acesso restrito)
Última Atualização2018:03.02.16.34.39 (UTC) administrator
Repositório de Metadadossid.inpe.br/mtc-m21b/2018/03.02.16.34.39
Última Atualização dos Metadados2019:01.14.17.05.24 (UTC) administrator
DOI10.1016/j.agrformet.2018.02.009
ISSN0168-1923
Chave de CitaçãoAguilosHérBurWagBon:2018:WhDrLo
TítuloWhat drives long-term variations in carbon flux and balance in a tropical rainforest in French Guiana?
Ano2018
MêsMay
Data de Acesso09 maio 2024
Tipo de Trabalhojournal article
Tipo SecundárioPRE PI
Número de Arquivos1
Tamanho914 KiB
2. Contextualização
Autor1 Aguilos, Maricar
2 Héraultb, Bruno
3 Burban, Benoit
4 Wagner, Fabien Hubert
5 Bonal, Damien
Grupo1
2
3
4 DIDSR-CGOBT-INPE-MCTIC-GOV-BR
Afiliação1 AgroParisTech-CIRAD-INRA-CNRS-Université de Guyane-Université des Antilles
2 AgroParisTech-CIRAD-INRA-CNRS-Université de Guyane-Université des Antilles
3 AgroParisTech-CIRAD-INRA-CNRS-Université de Guyane-Université des Antilles
4 Instituto Nacional de Pesquisas Espaciais (INPE)
5 Université de Lorraine
Endereço de e-Mail do Autor1
2
3
4 fabien.wagner@inpe.br
5 damien.bonal@inra.fr
RevistaAgricultural and Forest Meteorology
Volume253/254
Páginas114-123
Histórico (UTC)2018-03-02 16:35:23 :: simone -> administrator :: 2018
2019-01-14 17:05:24 :: administrator -> simone :: 2018
3. Conteúdo e estrutura
É a matriz ou uma cópia?é a matriz
Estágio do Conteúdoconcluido
Transferível1
Tipo do ConteúdoExternal Contribution
Tipo de Versãopublisher
Palavras-ChaveTropical rainforest
NEE
GPP. Ecosystem respiration
Radiation
Drought
ResumoA thorough understanding of how tropical forests respond to climate is important to improve ecosystem process models and to reduce uncertainties in current and future global carbon balance calculations. The Amazon rainforest, a major contributor to the global carbon cycle, is subject to strong intra- and interannual variations in climate conditions. Understanding their effect on carbon fluxes between the ecosystem and the atmosphere and on the resulting carbon balance is still incomplete. We examined the long-term (over a 12-year period; 20042015) variations in gross primary productivity (GPP), ecosystem respiration (RE) and net ecosystem exchange (NEE) in a tropical rainforest in French Guiana and identified key climatic drivers influencing the changes. The study period was characterized by strong differences in climatic conditions among years, particularly differences in the intensity of the dry and wet seasons, as well as differences in annual carbon fluxes and balance. Annual average GPP varied from 3384.9 g C m−2 yr‒1 (95% CI [3320.7, 3445.9]) to 4061.2 g C m−2 yr‒1 (95% CI [3980.1, 4145.0]). RE varied even more than GPP, with a difference of 933.1 C m−2 yr‒1 between the minimum (3020.6 g C m−2 yr‒1; 95% CI [2889.4, 3051.3]) and maximum (3953.7 g C m−2 yr‒1; 95% CI [3887.6, 4019.6]) values. Although NEE showed large interannual variability (nine-fold), from ‒65.6 g C m−2 yr‒1 (95% CI [‒4.4, ‒126.0]) to ‒590.5 g C m−2 yr‒1 (95% CI [‒532.3, ‒651.6]), the forest remained a carbon sink over the 12-year period. A combination of global radiation (Rg), relative extractable water (REW) and soil temperature (Ts) explained 51% of the daily variations for GPP, 30% for RE and 39% for NEE. Global radiation was always the best predictor of these variations, but soil water content and temperature did also influence carbon fluxes and balance. Seasonally, Rg was the major controlling factor for GPP, RE and NEE during the wet season. During the dry season, variations in carbon fluxes and balance were poorly explained by climate factors. Yet, REW was the key driver of variations in NEE during the dry season. This study highlights that, over the long-term, carbon fluxes and balance in such tropical rainforest ecosystems are largely controlled by both radiation and water limitation. Even though variations in Rg have a greater impact on these fluxes, water limitation during seasonal droughts is enough to reduce ecosystem productivity, respiration and carbon uptake. The reduced precipitation expected in tropical rainforest areas under future climatic conditions will therefore strongly influence carbon fluxes and carbon uptake. This study also highlights the importance for land surface or dynamic global vegetation models to consider the main drivers of carbon fluxes and balance separately for dry and wet seasons.
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4. Condições de acesso e uso
Idiomaen
Arquivo Alvoaguilos_what.pdf
Grupo de Usuáriossimone
Grupo de Leitoresadministrator
simone
Visibilidadeshown
Política de Arquivamentodenypublisher denyfinaldraft24
Permissão de Leituradeny from all and allow from 150.163
Permissão de Atualizaçãonão transferida
5. Fontes relacionadas
Unidades Imediatamente Superiores8JMKD3MGPCW/3ER446E
DivulgaçãoWEBSCI; PORTALCAPES.
Acervo Hospedeirosid.inpe.br/mtc-m21b/2013/09.26.14.25.20
6. Notas
Campos Vaziosalternatejournal archivist callnumber copyholder copyright creatorhistory descriptionlevel e-mailaddress format isbn label lineage mark mirrorrepository nextedition notes number orcid parameterlist parentrepositories previousedition previouslowerunit progress project resumeid rightsholder schedulinginformation secondarydate secondarykey secondarymark session shorttitle sponsor subject tertiarymark tertiarytype url
7. Controle da descrição
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