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Registro Completo |
Biblioteca(s): |
Embrapa Recursos Genéticos e Biotecnologia. |
Data corrente: |
22/06/1994 |
Data da última atualização: |
15/12/2014 |
Autoria: |
CANHOS, V. P.; SOUZA, S. de; CANHOS, D. A. L. de. |
Título: |
Catalogo nacional de linhagens. |
Edição: |
3.ed. |
Ano de publicação: |
1989 |
Fonte/Imprenta: |
Campinas: Fundacao Tropical de Pesquisas e Tecnologia Andre Tosello, 1989. |
Volume: |
2v. |
Idioma: |
Português |
Conteúdo: |
v.1 - Bacterias. v.2 - Leveduras e fungos filamentos. Anexo; National catalogue of strains. |
Palavras-Chave: |
Genealogia; Genealogy; Hibridaca. |
Thesaurus Nal: |
hybridization. |
Categoria do assunto: |
-- |
Marc: |
LEADER 00634nam a2200217 a 4500 001 1163991 005 2014-12-15 008 1989 bl uuuu de 00u1 u #d 100 1 $aCANHOS, V. P. 245 $aCatalogo nacional de linhagens. 250 $a3.ed. 260 $aCampinas: Fundacao Tropical de Pesquisas e Tecnologia Andre Tosello$c1989 300 $a2v. 490 $v2v. 520 $av.1 - Bacterias. v.2 - Leveduras e fungos filamentos. Anexo; National catalogue of strains. 650 $ahybridization 653 $aGenealogia 653 $aGenealogy 653 $aHibridaca 700 1 $aSOUZA, S. de 700 1 $aCANHOS, D. A. L. de
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Embrapa Recursos Genéticos e Biotecnologia (CENARGEN) |
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Registro Completo
Biblioteca(s): |
Embrapa Semiárido. |
Data corrente: |
18/11/2019 |
Data da última atualização: |
01/10/2021 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 1 |
Autoria: |
MIRANDA, R. de Q.; NÓBREGA, R. L. B.; MOURA, M. S. B. de; RAGHAVANE, S.; GALVÍNCIO, J. D. |
Afiliação: |
Rodrigo de Queiroga Miranda, UFPE; Rodolfo Luiz Bezerra Nóbrega, University of Reading, Reading, UK; MAGNA SOELMA BESERRA DE MOURA, CPATSA; Srinivasan Raghavane, Texas A&M University, College Station, TX, USA; Josiclêda Domiciano Galvíncio, UFPE. |
Título: |
Realistic and simplified models of plant and leaf area indices for a seasonally dry tropical forest. |
Ano de publicação: |
2020 |
Fonte/Imprenta: |
International Journal of Applied Earth Observation and Geoinformation, v. 85, 2020. |
DOI: |
10.1016/j.jag.2019.101992 |
Idioma: |
Inglês |
Conteúdo: |
Leaf Area Index (LAI) models that consider all phenological stages have not been developed for the Caatinga, the largest seasonally dry tropical forest in South America. LAI models that are currently used show moderate to high covariance when compared to in situ data, but they often lack accuracy in the whole spectra of possible values and do not consider the impact that the stems and branches have over LAI estimates, which is of great influence in the Caatinga. In this study, we develop and assess PAI (Plant Area Index) and LAI models by using ground-based measurements and satellite (Landsat) data. The objective of this study was to create and test new empirical models using a multi-year and multi-source of reflectance data. The study was based on measurements of photosynthetic photon flux density (PPFD) from above and below the canopy during the periods of 2011?2012 and 2016?2018. Through iterative processing, we obtained more than a million candidate models for estimating PAI and LAI. To clean up the small discrepancies in the extremes of each interpolated series, we smoothed out the dataset by fitting a logarithmic equation with the PAI data and the inverse contribution of WAI (Wood Area Index) to PAI, that is the portion of PAI that is actually LAI (LAIC). LAIC can be calculated as follows: LAIC = 1 (WAI/PAI)). We subtracted the WAI values from the PAI to develop our in situ LAI dataset that was used for further analysis. Our in situ dataset was also used as a reference to compare our models with four other models used for the Caatinga, as well as the MODIS-derived LAI products (MCD15A3H/A2H). Our main findings were as follows: (i) Six models use NDVI (Normalized Difference Vegetation Index), SAVI (Soil-Adjusted Vegetation Index) and EVI (Enhanced Vegetation Index) as input, and performed well, with r2 ranging from 0.77 to 0.79 (PAI) and 0.76 to 0.81 (LAI), and RMSE with a minimum of 0.41m2m?2 (PAI) and 0.40m2m?2 (LAI). The SAVI models showed values 20% and 32% (PAI), and 21% and 15% (LAI) smaller than those found for the models that use EVI and NDVI, respectively; (ii) the other models (ten) use only two bands, and in contrast to the first six models, these new models may abstract other physical processes and components, such as leaves etiolation and increasing protochlorophyll. The developed models used the near-infrared band, and they varied only in relation to the inclusion of the red, green, and blue bands. (iii) All previously published models and MODIS-LAI underperformed against our calibrated models. Our study was able to provide several PAI and LAI models that realistically represent the phenology of the Caatinga. MenosLeaf Area Index (LAI) models that consider all phenological stages have not been developed for the Caatinga, the largest seasonally dry tropical forest in South America. LAI models that are currently used show moderate to high covariance when compared to in situ data, but they often lack accuracy in the whole spectra of possible values and do not consider the impact that the stems and branches have over LAI estimates, which is of great influence in the Caatinga. In this study, we develop and assess PAI (Plant Area Index) and LAI models by using ground-based measurements and satellite (Landsat) data. The objective of this study was to create and test new empirical models using a multi-year and multi-source of reflectance data. The study was based on measurements of photosynthetic photon flux density (PPFD) from above and below the canopy during the periods of 2011?2012 and 2016?2018. Through iterative processing, we obtained more than a million candidate models for estimating PAI and LAI. To clean up the small discrepancies in the extremes of each interpolated series, we smoothed out the dataset by fitting a logarithmic equation with the PAI data and the inverse contribution of WAI (Wood Area Index) to PAI, that is the portion of PAI that is actually LAI (LAIC). LAIC can be calculated as follows: LAIC = 1 (WAI/PAI)). We subtracted the WAI values from the PAI to develop our in situ LAI dataset that was used for further analysis. Our in situ dataset was also used as a reference... Mostrar Tudo |
Palavras-Chave: |
Índice de área arborizada; Índice de área foliar; Plant Area Index; Semiárido. |
Thesagro: |
Caatinga; Fenologia; Floresta Tropical. |
Thesaurus NAL: |
Landsat; Phenology; Tropical forests. |
Categoria do assunto: |
P Recursos Naturais, Ciências Ambientais e da Terra |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/204857/1/Realistic-and-simplified-models-of-plant-2019.pdf
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Marc: |
LEADER 03602naa a2200301 a 4500 001 2114427 005 2021-10-01 008 2020 bl uuuu u00u1 u #d 024 7 $a10.1016/j.jag.2019.101992$2DOI 100 1 $aMIRANDA, R. de Q. 245 $aRealistic and simplified models of plant and leaf area indices for a seasonally dry tropical forest.$h[electronic resource] 260 $c2020 520 $aLeaf Area Index (LAI) models that consider all phenological stages have not been developed for the Caatinga, the largest seasonally dry tropical forest in South America. LAI models that are currently used show moderate to high covariance when compared to in situ data, but they often lack accuracy in the whole spectra of possible values and do not consider the impact that the stems and branches have over LAI estimates, which is of great influence in the Caatinga. In this study, we develop and assess PAI (Plant Area Index) and LAI models by using ground-based measurements and satellite (Landsat) data. The objective of this study was to create and test new empirical models using a multi-year and multi-source of reflectance data. The study was based on measurements of photosynthetic photon flux density (PPFD) from above and below the canopy during the periods of 2011?2012 and 2016?2018. Through iterative processing, we obtained more than a million candidate models for estimating PAI and LAI. To clean up the small discrepancies in the extremes of each interpolated series, we smoothed out the dataset by fitting a logarithmic equation with the PAI data and the inverse contribution of WAI (Wood Area Index) to PAI, that is the portion of PAI that is actually LAI (LAIC). LAIC can be calculated as follows: LAIC = 1 (WAI/PAI)). We subtracted the WAI values from the PAI to develop our in situ LAI dataset that was used for further analysis. Our in situ dataset was also used as a reference to compare our models with four other models used for the Caatinga, as well as the MODIS-derived LAI products (MCD15A3H/A2H). Our main findings were as follows: (i) Six models use NDVI (Normalized Difference Vegetation Index), SAVI (Soil-Adjusted Vegetation Index) and EVI (Enhanced Vegetation Index) as input, and performed well, with r2 ranging from 0.77 to 0.79 (PAI) and 0.76 to 0.81 (LAI), and RMSE with a minimum of 0.41m2m?2 (PAI) and 0.40m2m?2 (LAI). The SAVI models showed values 20% and 32% (PAI), and 21% and 15% (LAI) smaller than those found for the models that use EVI and NDVI, respectively; (ii) the other models (ten) use only two bands, and in contrast to the first six models, these new models may abstract other physical processes and components, such as leaves etiolation and increasing protochlorophyll. The developed models used the near-infrared band, and they varied only in relation to the inclusion of the red, green, and blue bands. (iii) All previously published models and MODIS-LAI underperformed against our calibrated models. Our study was able to provide several PAI and LAI models that realistically represent the phenology of the Caatinga. 650 $aLandsat 650 $aPhenology 650 $aTropical forests 650 $aCaatinga 650 $aFenologia 650 $aFloresta Tropical 653 $aÍndice de área arborizada 653 $aÍndice de área foliar 653 $aPlant Area Index 653 $aSemiárido 700 1 $aNÓBREGA, R. L. B. 700 1 $aMOURA, M. S. B. de 700 1 $aRAGHAVANE, S. 700 1 $aGALVÍNCIO, J. D. 773 $tInternational Journal of Applied Earth Observation and Geoinformation$gv. 85, 2020.
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