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Registro Completo |
Biblioteca(s): |
Embrapa Uva e Vinho. |
Data corrente: |
22/05/2012 |
Data da última atualização: |
12/06/2017 |
Tipo da produção científica: |
Capítulo em Livro Técnico-Científico |
Autoria: |
CHAVARRIA, G.; SANTOS, H. P. dos. |
Afiliação: |
GERALDO CHAVARRIA, UPF; HENRIQUE PESSOA DOS SANTOS, CNPUV. |
Título: |
Plant water relations: absorption, transport and control mechanisms. |
Ano de publicação: |
2012 |
Fonte/Imprenta: |
In: MONTANARO, G.; DICHIO, B. (Ed.). Advances in selected plant physiology aspects. Rijeka: In Tech, 2012. |
Páginas: |
p. 105-132. |
Descrição Física: |
il., color. |
ISSN: |
978-953-51-0557-2 |
Idioma: |
Inglês |
Conteúdo: |
Although water is abundant on Earth - covering 71% of the total surface - its distribution is not uniform and can easily cause restrictions in availability to vegetal production. At global scale, these restrictions are easily observed in dry climates and can appear in other regions which do not currently experience drought, as provided by the future backdrop of climate change (IPCC, 2007). The influences of water restriction on losses in the production and distribution of vegetation on the terrestrial surface are significantly larger than all other losses combined which are caused by biotic and abiotic factors (Boyer, 1985). This striking effect of water on plants emerges from its physiological importance, being an essential factor for successful plant growth, involving photosynthesis and several other biochemical processes such as the synthesis of energetic composites and new tissue. Therefore, in order to characterise the growth and productive behaviour of plant species it is essential to have an understanding of plant water relations, as well as the consequences of an inadequate water supply. Broadly, the water state of a plant is controlled by relative rates of loss and absorption, moreover it depends on the ability to adjust and keep an adequate water status. This will be considered throughout this chapter. |
Thesagro: |
Água; Fisiologia vegetal; Planta. |
Categoria do assunto: |
-- |
URL: |
https://www.intechopen.com/books/advances-in-selected-plant-physiology-aspects/plant-water-relations-absorption-transport-and-control-mechanisms
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/59779/1/InTech-Plant-water-relations-absorption-transport-and-control-mechanisms.pdf
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Marc: |
LEADER 01943naa a2200193 a 4500 001 1925116 005 2017-06-12 008 2012 bl uuuu u00u1 u #d 022 $a978-953-51-0557-2 100 1 $aCHAVARRIA, G. 245 $aPlant water relations$babsorption, transport and control mechanisms.$h[electronic resource] 260 $c2012 300 $ap. 105-132.$cil., color. 520 $aAlthough water is abundant on Earth - covering 71% of the total surface - its distribution is not uniform and can easily cause restrictions in availability to vegetal production. At global scale, these restrictions are easily observed in dry climates and can appear in other regions which do not currently experience drought, as provided by the future backdrop of climate change (IPCC, 2007). The influences of water restriction on losses in the production and distribution of vegetation on the terrestrial surface are significantly larger than all other losses combined which are caused by biotic and abiotic factors (Boyer, 1985). This striking effect of water on plants emerges from its physiological importance, being an essential factor for successful plant growth, involving photosynthesis and several other biochemical processes such as the synthesis of energetic composites and new tissue. Therefore, in order to characterise the growth and productive behaviour of plant species it is essential to have an understanding of plant water relations, as well as the consequences of an inadequate water supply. Broadly, the water state of a plant is controlled by relative rates of loss and absorption, moreover it depends on the ability to adjust and keep an adequate water status. This will be considered throughout this chapter. 650 $aÁgua 650 $aFisiologia vegetal 650 $aPlanta 700 1 $aSANTOS, H. P. dos 773 $tIn: MONTANARO, G.; DICHIO, B. (Ed.). Advances in selected plant physiology aspects. Rijeka: In Tech, 2012.
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8. | ![Imagem marcado/desmarcado](/consulta/web/img/desmarcado.png) | SANTOS, H. P. dos; CHAVARRIA, G. Cultivo de videira em ambiente protegido. In: TANIGUCHI, G. C.; FUJIMOTO, F. T. S.; MEDEIROS, W. N.; GROSSI, J. A. S. (Ed.). Cultivo em ambiente protegido: olericultura, fruticultura e floricultura. Viçosa, MG: UFV, 2008. p. 69-104 il., color.Tipo: Capítulo em Livro Técnico-Científico |
Biblioteca(s): Embrapa Uva e Vinho. |
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13. | ![Imagem marcado/desmarcado](/consulta/web/img/desmarcado.png) | CHAVARRIA, G.; ZART, M.; BOTTON, M.; SANTOS, H. P. dos; MARODIN, G. A. B. Avaliação da população de adultos de Anastrepha fraterculus (Wied.) em cultivo protegido de videira. In: ENCONTRO DE INICIAÇÃO CIENTÍFICA DA EMBRAPA UVA E VINHO, 5., ENCONTRO DE PÓS-GRADUANDOS DA EMBRAPA UVA E VINHO, 1., 2007, Bento Gonçalves. Resumos. Bento Gonçalves: Embrapa Uva e Vinho, 2007. p. 48. (Embrapa Uva e Vinho. Documentos, 63). Resumo.Tipo: Resumo em Anais de Congresso |
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14. | ![Imagem marcado/desmarcado](/consulta/web/img/desmarcado.png) | CHAVARRIA, G.; SANTOS, H. P. dos; CASTRO, L. A. S. de; MARODIN, A. B.; BERGAMASCHI, H. Anatomia, teor de clorofila e potencial fotossintético de folhas de videiras (Vitis vinifera L.) sob cobertura plástica. In: CONGRESSO BRASILEIRO DE FRUTICULTURA, 20., 2008, Vitória, ES. Anais... Vitória: Incaper, 2008. Não paginado. 1 DVD.Tipo: Artigo em Anais de Congresso / Nota Técnica |
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18. | ![Imagem marcado/desmarcado](/consulta/web/img/desmarcado.png) | CHAVARRIA, G.; SANTOS, H. P. dos; ZANUS, M. C.; ZORZAN, C.; MARODIN, G. A. B. Caracterização físico-química do mosto e do vinho Moscato Giallo em videiras cultivadas sob cobertura de plástico. Pesquisa Agropecuária Brasileira, Brasília, DF, v. 43, n. 7, p. 911-916, 2008.Tipo: Artigo em Periódico Indexado | Circulação/Nível: Internacional - A |
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