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Registro Completo |
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Biblioteca(s): |
Embrapa Amazônia Oriental. |
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Data corrente: |
22/08/2003 |
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Data da última atualização: |
06/12/2022 |
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Autoria: |
POTTER, C.; DAVIDSON, E.; NEPSTAD, D.; CARVALHO, C. R. de. |
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Afiliação: |
CHRISTOPHER POTTER, NASA; ERIC DAVIDSON, WOODS HOLE RESEARCH CENTER; DANIEL NEPSTAD, WOODS HOLE RESEARCH CENTER; CLAUDIO JOSE REIS DE CARVALHO, CPATU. |
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Título: |
Ecosystem modeling and dynamic effects of deforestation on trace gas fluxes in Amazon tropical forests. |
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Ano de publicação: |
2001 |
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Fonte/Imprenta: |
Forest Ecology and Management, v. 152, n. 1/3, p. 97-117, Oct. 2001. |
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Descrição Física: |
il. |
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Idioma: |
Inglês |
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Conteúdo: |
To improve predictive capabilities for water, carbon, and nitrogen gas fluxes in the Amazon region, we evaluated the performance of the NASA?CASA simulation model for tropical ecosystem biogeochemistry against independent flux measurements from two Amazon forest sites located in the Brazilian states of Rondônia and Pará. Refinements of this ecosystem model include stand water balance equations, moisture holding and retention capacity for Amazon soils, and addition of a dynamic deforestation sequence to include land use change as a factor in simulations of tropical ecosystem fluxes. Results suggest that model predictions for evapotranspiration and soil water content are consistent with the overall range and seasonal changes in measured values at the two forest sites selected as test cases. The predicted carbon balance from the model implies that relatively undisturbed Amazon forest ecosystems may be large net sinks for atmospheric carbon, with annual net ecosystem production values on the order of 200 g C m?2 per year. Measured fluxes of soil N2O for the two Amazon forests closely match our model prediction for the Pará forest, but not for the Rondônia site, suggesting that process algorithms controlling nitrogen trace gas fluxes, particularly in relatively sandy tropical soils will require further study. In terms of net ecosystem carbon fluxes during deforestation and for 2 years afterward, the model predicts that these sites switch from being a net sink for carbon to a substantial source following the large loss of biomass from simulated burning. During crop regrowth simulation in the first year after deforestation, the net source of carbon to the atmosphere is nearly 1.6 kg C m?2 per year, a flux magnitude roughly equivalent to 10 years of undisturbed CO2 sink fluxes in the Amazon forest. Compared to the primary forest that was cut and burned, predicted changes in soil nitrogen cycling lead to a doubling in annual emissions of N2O gas during the first year following deforestation, with lower emissions thereafter. Implications for scaling up these model predictions to the Amazon forest region are discussed with reference to necessary improvements in land cover, land use, and soils classifications for the area. MenosTo improve predictive capabilities for water, carbon, and nitrogen gas fluxes in the Amazon region, we evaluated the performance of the NASA?CASA simulation model for tropical ecosystem biogeochemistry against independent flux measurements from two Amazon forest sites located in the Brazilian states of Rondônia and Pará. Refinements of this ecosystem model include stand water balance equations, moisture holding and retention capacity for Amazon soils, and addition of a dynamic deforestation sequence to include land use change as a factor in simulations of tropical ecosystem fluxes. Results suggest that model predictions for evapotranspiration and soil water content are consistent with the overall range and seasonal changes in measured values at the two forest sites selected as test cases. The predicted carbon balance from the model implies that relatively undisturbed Amazon forest ecosystems may be large net sinks for atmospheric carbon, with annual net ecosystem production values on the order of 200 g C m?2 per year. Measured fluxes of soil N2O for the two Amazon forests closely match our model prediction for the Pará forest, but not for the Rondônia site, suggesting that process algorithms controlling nitrogen trace gas fluxes, particularly in relatively sandy tropical soils will require further study. In terms of net ecosystem carbon fluxes during deforestation and for 2 years afterward, the model predicts that these sites switch from being a net sink for carbon to a subs... Mostrar Tudo |
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Palavras-Chave: |
Brasil; Fluxo de gás; Oxido de nitrogênio; Pará; Rondônia. |
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Thesagro: |
Carbono; Desmatamento; Dióxido de Carbono; Ecossistema; Floresta; Microelemento; Nitrogênio. |
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Thesaurus Nal: |
Amazonia. |
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Categoria do assunto: |
-- |
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Marc: |
LEADER 03144naa a2200325 a 4500
001 1403796
005 2022-12-06
008 2001 bl uuuu u00u1 u #d
100 1 $aPOTTER, C.
245 $aEcosystem modeling and dynamic effects of deforestation on trace gas fluxes in Amazon tropical forests.$h[electronic resource]
260 $c2001
300 $cil.
520 $aTo improve predictive capabilities for water, carbon, and nitrogen gas fluxes in the Amazon region, we evaluated the performance of the NASA?CASA simulation model for tropical ecosystem biogeochemistry against independent flux measurements from two Amazon forest sites located in the Brazilian states of Rondônia and Pará. Refinements of this ecosystem model include stand water balance equations, moisture holding and retention capacity for Amazon soils, and addition of a dynamic deforestation sequence to include land use change as a factor in simulations of tropical ecosystem fluxes. Results suggest that model predictions for evapotranspiration and soil water content are consistent with the overall range and seasonal changes in measured values at the two forest sites selected as test cases. The predicted carbon balance from the model implies that relatively undisturbed Amazon forest ecosystems may be large net sinks for atmospheric carbon, with annual net ecosystem production values on the order of 200 g C m?2 per year. Measured fluxes of soil N2O for the two Amazon forests closely match our model prediction for the Pará forest, but not for the Rondônia site, suggesting that process algorithms controlling nitrogen trace gas fluxes, particularly in relatively sandy tropical soils will require further study. In terms of net ecosystem carbon fluxes during deforestation and for 2 years afterward, the model predicts that these sites switch from being a net sink for carbon to a substantial source following the large loss of biomass from simulated burning. During crop regrowth simulation in the first year after deforestation, the net source of carbon to the atmosphere is nearly 1.6 kg C m?2 per year, a flux magnitude roughly equivalent to 10 years of undisturbed CO2 sink fluxes in the Amazon forest. Compared to the primary forest that was cut and burned, predicted changes in soil nitrogen cycling lead to a doubling in annual emissions of N2O gas during the first year following deforestation, with lower emissions thereafter. Implications for scaling up these model predictions to the Amazon forest region are discussed with reference to necessary improvements in land cover, land use, and soils classifications for the area.
650 $aAmazonia
650 $aCarbono
650 $aDesmatamento
650 $aDióxido de Carbono
650 $aEcossistema
650 $aFloresta
650 $aMicroelemento
650 $aNitrogênio
653 $aBrasil
653 $aFluxo de gás
653 $aOxido de nitrogênio
653 $aPará
653 $aRondônia
700 1 $aDAVIDSON, E.
700 1 $aNEPSTAD, D.
700 1 $aCARVALHO, C. R. de
773 $tForest Ecology and Management$gv. 152, n. 1/3, p. 97-117, Oct. 2001.
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Embrapa Amazônia Oriental (CPATU) |
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Registro Completo
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Biblioteca(s): |
Embrapa Pesca e Aquicultura. |
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Data corrente: |
22/01/2024 |
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Data da última atualização: |
22/01/2024 |
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Tipo da produção científica: |
Resumo em Anais de Congresso |
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Autoria: |
SOUSA, G. G. C. de; REZENDE, F. P.; KIRSCHNIK, L. N. G.; VILLELA, L. C. V.; SHIOTSUKI, L. |
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Afiliação: |
GABRYELLE GUIMARÃES CASTRO DE SOUSA, bolsista CNPASA; FABRICIO PEREIRA REZENDE, CNPASA; LUCIANA NAKAGHI GANECO KIRSCHNIK, CNPASA; LUCIANA CRISTINE VASQUES VILLELA, CNPASA; LUCIANA SHIOTSUKI, CNPASA. |
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Título: |
Dimorfismo sexual no desempenho do tambaqui Colossoma macropomum (Teleostei: serrasalmidae). |
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Ano de publicação: |
2023 |
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Fonte/Imprenta: |
In: JORNADA DE INICIAÇÃO CIENTÍFICA - SEMANA DE CIÊNCIA, TECNOLOGIA E INOVAÇÃO, 30., 2023, Palmas. Resumos. Palmas: UNITINS, 2023. |
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Idioma: |
Português |
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Conteúdo: |
Teve como objetivo comparar a média de peso de machos e fêmeas de diferentes famílias de tambaqui cultivados em viveiros escavados, para a identificação de uma possível vantagem de um dos sexos. |
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Palavras-Chave: |
Dimorfismo sexual. |
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Thesagro: |
Colossoma Macropomum; Peixe; Tambaqui; Viveiro. |
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Thesaurus NAL: |
Fish; Sexual dimorphism. |
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Categoria do assunto: |
L Ciência Animal e Produtos de Origem Animal |
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URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/doc/1161161/1/JIC-Dimorfismo-sexual-no-desempenho-do-tambaqui-2023.pdf
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Marc: |
LEADER 00986nam a2200241 a 4500
001 2161161
005 2024-01-22
008 2023 bl uuuu u00u1 u #d
100 1 $aSOUSA, G. G. C. de
245 $aDimorfismo sexual no desempenho do tambaqui Colossoma macropomum (Teleostei$bserrasalmidae).$h[electronic resource]
260 $aIn: JORNADA DE INICIAÇÃO CIENTÍFICA - SEMANA DE CIÊNCIA, TECNOLOGIA E INOVAÇÃO, 30., 2023, Palmas. Resumos. Palmas: UNITINS$c2023
520 $aTeve como objetivo comparar a média de peso de machos e fêmeas de diferentes famílias de tambaqui cultivados em viveiros escavados, para a identificação de uma possível vantagem de um dos sexos.
650 $aFish
650 $aSexual dimorphism
650 $aColossoma Macropomum
650 $aPeixe
650 $aTambaqui
650 $aViveiro
653 $aDimorfismo sexual
700 1 $aREZENDE, F. P.
700 1 $aKIRSCHNIK, L. N. G.
700 1 $aVILLELA, L. C. V.
700 1 $aSHIOTSUKI, L.
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Embrapa Pesca e Aquicultura (CNPASA) |
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