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Registros recuperados : 45 | |
22. | | ROMÃO, W.; CORREIA, R. M.; PEREIRA, L. L.; ARAÚJO, J. B. S.; PADOVAN, M. da P.; PARTELLI, F. L.; FILGUEIRAS, P. R.; LACERDA JR, V. Análise do café conilon cultivado em sistemas agroflorestais por análise sensorial, espectrometria de massas com ionização por electrospray e ressonância ciclotrônica de íons por transformada de fourier e espectroscopia na região do infravermelhoo próximo portátil. In: CONGRESSO CAPIXABA DE PESQUISA AGROPECUÁRIA, 1., Vitória, ES. Anais 2021 : congresso capixaba de pesquisa agropecuária [recurso eletrônico]. Vitória, ES: Incaper, 2021. color. PDF ; 25,4 MB. E-book, no formato PDF. (Incaper, Documentos, 289). Pedro Luís Pereira Teixeira de Carvalho, Carlos Henrique Rodrigues de Oliveira, José Aires Ventura, Marcos Vinicius Winckler Caldeira e Romário Gava Ferrão, editores. p. 297Biblioteca(s): Biblioteca Rui Tendinha. |
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26. | | DE MUNER, L. H.; CAPORAL, F. R.; FORNAZIER, M. J.; RONCA, P. P. de F.; BRANDO, J. A. P.; PADOVAN, M. da P. Cafeicultura sustentável do Conilon. In: FERRÃO, R. G.; FONSECA, A. F. A. da.; FERRÃO, M. A. G.; DE MUNER, L. H. (Ed.). Café Conilon. 2 ed. atual. ampli. Vitória, ES: Incaper, p. 621-653, 2017.Biblioteca(s): Biblioteca Rui Tendinha. |
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28. | | PADOVAN, M. da P.; TAQUES, R. C.; MARQUES, N. B.; GRANGEIRO, L. P. P.; LAZZARINI, A. L.; CULIK, M. P.; VENTURA, J. A. An allometric model to estimate total leaf area of banana plants of the cultivar Vitória (AAAB). Ciência Rural, Santa Maria, v.52, n.10, e20210403, 2022.Biblioteca(s): Biblioteca Rui Tendinha. |
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30. | | DE MUNER, L. H.; FORNAZIER, M. J.; ALIXANDRE, F. T.; DONNA, J. U.; PADILHA, M. C.; PADOVAN, M. da P.; SCHMIDT, H. C. Conilon certification and Espirito Santo experience. In: FERRÃO, R. G.; FONSECA, A. F. A. da.; FERRÃO, M. A. G.; DE MUNER, L. H. (Ed.). Conilon Coffee. 3 edition updated and expanded Vitória, ES : Incaper, 2019. Cap. 27, p. 823-839. Translated from: Café Conilon, 2017 - Incaper. English translation: Marcele Gualda Pasolini.Biblioteca(s): Biblioteca Rui Tendinha. |
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31. | | GALEANO, E. A. V.; PADOVAN, M. da P.; DOUSSEAU, S.; MOREIRA, S. O.; DIAS, R. Q.; SILVA, A. E. S. da. Caracterização socioeconômica da produção de cacau no Espírito Santo. In: SIMPÓSIO INCAPER PESQUISA, 1. , Vitória, ES. Caracterização socioeconômica da produção de cacau no Espírito Santo. Editores, Andre Guarçoni Martins... [et al]., Vitória, ES : Incaper, 2022. Anais... Vitória, ES : Incaper, p. 48, 2022.Biblioteca(s): Biblioteca Rui Tendinha. |
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32. | | GALEANO, E. A. V.; DOUSSEAU, S.; PADOVAN, M. da P.; COSTA, A. N. da.; VINAGRE, D. O. V. B.; DIAS, R. Q. Caracterização socioeconômica da produção do maracujá no ES. In: SIMPÓSIO INCAPER PESQUISA, 2., 2022, Vitória, ES. Caracterização socioeconômica da produção do maracujá no ES. Editores, Andréa Ferreira da Costa... [et al]., Vitória, ES : Incaper, 2023. Anais... Vitória, ES : Incaper, p. 23, 2023. p. 23Biblioteca(s): Biblioteca Rui Tendinha. |
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33. | | DE MUNER, L. H.; FORNAZIER, M. J.; PADOVAN, M. da P.; PADILHA, M. C.; SCHIMIDT, H. C.; MELO, E. V. de Certificação de café. In: FERRÃO, R. G.; FONSECA, A. F. A. da.; BRAGANÇA, S. M.; FERRÃO, M. A. G.; DE MUNER, L. H. (Ed.). Café Conilon. Vitória: Incaper, 2007. 648-665 p.Biblioteca(s): Biblioteca Rui Tendinha. |
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34. | | DE MUNER, L. H.; FORNAZIER, M. J.; ALIXANDRE, F. T.; DONNA, J. U.; PADILLA, M. C.; PADOVAN, M. da P.; SCHMIDT, H. C.; MELO, E. V. Certificação do Conilon e experiência do Espírito Santo. In: FERRÃO, R. G.; FONSECA, A. F. A. da.; FERRÃO, M. A. G.; DE MUNER, L. H. (Ed.). Café Conilon. 2 ed. atual. ampli. Vitória, ES: Incaper, p. 655-667, 2017.Biblioteca(s): Biblioteca Rui Tendinha. |
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35. | | PADOVAN, M. da P.; TAQUES, R. C.; MAIA, I. F.; BRESSAN JR., A.; MARQUES, N. B.; GRANGEIRO, L. P. P.; MILHEIROS, I. S.; BROOK, R. M. O efeito das árvores na interceptação da chuva e na umidade do solo em café sombreado com gliricÃdia, bananeira ou ingá. In: ARAÚJO, J. B. S.; SIQUEIRA, H. M. de; PANDOVAN, M. da P.; SALES, E. F. (org.). Café sombreado: uma abordagem multidisciplinar. Vitória, ES : Incaper, 2024. p. 63-87. ISBN 978-85-89274-46-3. p. 63-87 Il.; Color.Biblioteca(s): Biblioteca Rui Tendinha. |
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36. | | PADOVAN, M. da P.; TAQUES, R. C.; MAIA, I. F.; BRESSAN JR., A.; MARQUES, N. B.; MILHEIROS, I. S.; BARRETO, F. C. C. Interceptação da chuva em café conilon sombreado com gliricídia, banana ou ingá. In: CONGRESSO CAPIXABA DE PESQUISA AGROPECUÁRIA, 1., Vitória, ES. Anais 2021 : congresso capixaba de pesquisa agropecuária [recurso eletrônico]. Vitória, ES: Incaper, 2021. color. PDF ; 25,4 MB. E-book, no formato PDF. (Incaper, Documentos, 289). Pedro Luís Pereira Teixeira de Carvalho, Carlos Henrique Rodrigues de Oliveira, José Aires Ventura, Marcos Vinicius Winckler Caldeira e Romário Gava Ferrão, editores. p.242-245Biblioteca(s): Biblioteca Rui Tendinha. |
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37. | | MORES, M.; HENRIQUES, J. H. P.; ROCHA, G. B.; PADOVAN, M. da P.; NASCIMENTO, M. I. M.; GOMES, F. J. S.; VARGAS, J. O.; LEDERMAN, M. R. Projeto Corredores Ecológicos - ES. In: SIMPÓSIO INTERNO DE PESQUISA, DESENVOLVIMENTO E INOVAÇÃO, 1., 2004, Vitória. Resumo das ações de pesquisa, desenvolvimento e inovações tecnológicas. Vitória, ES : Incaper, 2005. p. 218-220. (Incaper. Documentos, 140).Biblioteca(s): Biblioteca Rui Tendinha. |
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38. | | GARCIA, A. N.; PADOVAN, M. da P.; CREPALDI, M. O. S.; KATAOKA, S. Y.; MENDEZ, J. M. D.; TEBALDI, A. L. C. Monitoramento das condições do manejo do Parque Estadual de Itaunas, Espírito Santo, Brasil. In: CONGRESSO BRASILEIRO DE UNIDADES DE CONSERVAÇÃO, 5., 2007, Foz do Iguaçú. Anais: Trabalhos técnicos. Foz do Iguaçú, 2007.Biblioteca(s): Biblioteca Rui Tendinha. |
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40. | | DADALTO, G. G.; GALVÊAS, P. A. O.; VENTURIM, J. B.; PERIM, S.; PADOVAN, M. da P.; SOUZA, I. A. de.; TANNURE, M. S. Proteção de nascentes - "Olhos D'Água". In: SIMPÓSIO INTERNO DE PESQUISA, DESENVOLVIMENTO E INOVAÇÃO, 1., 2004, Vitória. Resumo das ações de pesquisa, desenvolvimento e inovações tecnológicas. Vitória, ES : Incaper, 2005. p. 217-218. (Incaper. Documentos, 140).Biblioteca(s): Biblioteca Rui Tendinha. |
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Registros recuperados : 45 | |
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Registro Completo |
Biblioteca(s): |
Biblioteca Rui Tendinha. |
Data corrente: |
29/11/2017 |
Data da última atualização: |
18/06/2019 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 1 |
Autoria: |
PADOVAN, M. da P.; BROOK, R. M.; BARRIOS, M.; CRUZ-CASTILHO, J. B.; VILCHEZ-MENDOZA; COSTA, A. N. da.; RAPIDEL, B. |
Afiliação: |
Maria da Penha Padovan, Incaper; R.M. Brook, CATIE; M. Barrios, CATIE; J.B. Cruz-Castillo, UNA; S.J. Vilchez-Mendoza, CATIE; Aureliano Nogueira da Costa, Incaper; B. Rapidel, CIRAD. |
Título: |
Water loss by transpiration and soil evaporation in coffee shaded by Tabebuia rosea Bertol. and Simarouba glauca dc. compared to unshaded coffee in sub-optimal environmental conditions |
Ano de publicação: |
2018 |
Fonte/Imprenta: |
Agricultural and Forest Meteorology, v. 248, p. 1-14, 2018. |
Idioma: |
Inglês |
Conteúdo: |
There is increasing concern that due to land pressure and the need to maximize income, smallholder coffee farmers are increasingly being forced to cultivate in areas which are considered to be sub-optimal for coffee. Little is known about optimal coffee and tree combinations in these conditions and the degree to which crops and trees compete or are synergistic. In environmental conditions which were sub optimal for coffee cultivation in Nicaragua (1470 mm annual rainfall, 27 °C mean annual temperature and 455 m altitude compared to optima of 2000 mm, 23?24 °C and altitude between 1000 and 1400 m at that latitude, respectively), coffee and shade tree transpiration and soil evaporation were directly and separately measured in agroforestry (AFS) and full sun systems (FS). AFS was found to be a more efficient water user than FS because a greater proportion of rainfall was used by plant transpiration rather than being lost by soil evaporation. Plant transpiration accounted for 83% and 69% of evapotranspiration while soil evaporation represented 17% and 31%, in AFS and FS respectively. In AFS most of the water transpiration was due to coffee (72.5%) and much less by deciduous Tabebuia rosea (19%) and evergreen Simarouba glauca shade trees (8.5%). Furthermore, the study demonstrated the vastly different behaviour in water use by the shade trees. When in leaf, Tabebuia rosea transpired at four to six times the rate of evergreen Simarouba glauca, although crown sizes were similar. Contrasting precipitation between two consecutive years of study demonstrated that competition for water between coffee and shade tree occurred only in a severe dry season when coffee leaf water potential (LWP) reached its lowest values of ?2.33 MPa in AFS. It was concluded that in most circumstances there was sufficient water for both coffee and trees, that coffee in AFS was a more efficient user of water than FS coffee, and that evergreen Simarouba glauca was more suitable as coffee shade tree compared to deciduous Tabebuia rosea in the sub optimal environmental condition studied MenosThere is increasing concern that due to land pressure and the need to maximize income, smallholder coffee farmers are increasingly being forced to cultivate in areas which are considered to be sub-optimal for coffee. Little is known about optimal coffee and tree combinations in these conditions and the degree to which crops and trees compete or are synergistic. In environmental conditions which were sub optimal for coffee cultivation in Nicaragua (1470 mm annual rainfall, 27 °C mean annual temperature and 455 m altitude compared to optima of 2000 mm, 23?24 °C and altitude between 1000 and 1400 m at that latitude, respectively), coffee and shade tree transpiration and soil evaporation were directly and separately measured in agroforestry (AFS) and full sun systems (FS). AFS was found to be a more efficient water user than FS because a greater proportion of rainfall was used by plant transpiration rather than being lost by soil evaporation. Plant transpiration accounted for 83% and 69% of evapotranspiration while soil evaporation represented 17% and 31%, in AFS and FS respectively. In AFS most of the water transpiration was due to coffee (72.5%) and much less by deciduous Tabebuia rosea (19%) and evergreen Simarouba glauca shade trees (8.5%). Furthermore, the study demonstrated the vastly different behaviour in water use by the shade trees. When in leaf, Tabebuia rosea transpired at four to six times the rate of evergreen Simarouba glauca, although crown sizes were similar. Co... Mostrar Tudo |
Palavras-Chave: |
Coffee agroforestry; Coffee leaf water potential; Competition for water; Evapotranspiration. |
Categoria do assunto: |
J Meteorologia |
URL: |
https://biblioteca.incaper.es.gov.br/digital/bitstream/123456789/2879/1/BRT-PadovanBrooketal2017AgriculturalandForestMeteorology-padovan.pdf
https://www.sciencedirect.com/science/article/pii/S0168192317302873
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Marc: |
LEADER 02921naa a2200241 a 4500 001 1017263 005 2019-06-18 008 2018 bl uuuu u00u1 u #d 100 1 $aPADOVAN, M. da P. 245 $aWater loss by transpiration and soil evaporation in coffee shaded by Tabebuia rosea Bertol. and Simarouba glauca dc. compared to unshaded coffee in sub-optimal environmental conditions$h[electronic resource] 260 $c2018 520 $aThere is increasing concern that due to land pressure and the need to maximize income, smallholder coffee farmers are increasingly being forced to cultivate in areas which are considered to be sub-optimal for coffee. Little is known about optimal coffee and tree combinations in these conditions and the degree to which crops and trees compete or are synergistic. In environmental conditions which were sub optimal for coffee cultivation in Nicaragua (1470 mm annual rainfall, 27 °C mean annual temperature and 455 m altitude compared to optima of 2000 mm, 23?24 °C and altitude between 1000 and 1400 m at that latitude, respectively), coffee and shade tree transpiration and soil evaporation were directly and separately measured in agroforestry (AFS) and full sun systems (FS). AFS was found to be a more efficient water user than FS because a greater proportion of rainfall was used by plant transpiration rather than being lost by soil evaporation. Plant transpiration accounted for 83% and 69% of evapotranspiration while soil evaporation represented 17% and 31%, in AFS and FS respectively. In AFS most of the water transpiration was due to coffee (72.5%) and much less by deciduous Tabebuia rosea (19%) and evergreen Simarouba glauca shade trees (8.5%). Furthermore, the study demonstrated the vastly different behaviour in water use by the shade trees. When in leaf, Tabebuia rosea transpired at four to six times the rate of evergreen Simarouba glauca, although crown sizes were similar. Contrasting precipitation between two consecutive years of study demonstrated that competition for water between coffee and shade tree occurred only in a severe dry season when coffee leaf water potential (LWP) reached its lowest values of ?2.33 MPa in AFS. It was concluded that in most circumstances there was sufficient water for both coffee and trees, that coffee in AFS was a more efficient user of water than FS coffee, and that evergreen Simarouba glauca was more suitable as coffee shade tree compared to deciduous Tabebuia rosea in the sub optimal environmental condition studied 653 $aCoffee agroforestry 653 $aCoffee leaf water potential 653 $aCompetition for water 653 $aEvapotranspiration 700 1 $aBROOK, R. M. 700 1 $aBARRIOS, M. 700 1 $aCRUZ-CASTILHO, J. B. 700 1 $aVILCHEZ-MENDOZA 700 1 $aCOSTA, A. N. da. 700 1 $aRAPIDEL, B. 773 $tAgricultural and Forest Meteorology$gv. 248, p. 1-14, 2018.
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