Variação do potencial da água da folha com o desenvolvimento da planta de batatinha (Solanum tuberosum L. cv. 'Bintje')

Scalopi, E. J.; Ferraz, E. C.

doi:10.1590/S0071-12761974000100036

Resumos

A manutenção de um balanço hídrico favorável à planta é uma condição reconhecidamente necessária para assegurar a seqüência das reações metabólicas que se desenvolvem nas células vegetais. Os deficits de água¹ nas plantas poderiam ser quantitativamente avaliados a partir de determinações do teor ou do estado de energia da água dos tecidos. Neste trabalho, o potencial osmótico das hastes e folhas, o potencial da água da folha e as relações entre este e o teor relativo de água da folha foram determinados em plantas de batata (Solanum tuberosum L.) adequadamente supridas com água do solo, em condições de campo. Os resultados revelaram que os potenciais determinados variaram durante o ciclo fenológico. Assim, o potencial da água da folha foi sendo reduzido com o desenvolvimento das plantas. Após o completo desenvolvimento vegetativo, não foi possível identificar qualquer tendência definida, crescente ou decrescente. Esta variação modificou as relações entre o potencial e o teor relativo de água da folha, de tal maneira, que o potencial associado a um determinado teor relativo de água, foi sendo reduzido a medida que as plantas se desenvolveram. A par destes resultados, pode-se concluir que o potencial da água da folha não parece ser um indicador seguro da existência de déficits fisiológicos de água na planta. O conhecimento do teor relativo de água, associado ao potencial, poderia contribuir decisivamente para fornecer uma avaliação mais precisa da condição da água nos tecidos vegetais.

The maintainance of a favorable plant water budget is a condition generally regarded to assure the sequence of cell metabolism. Plant water deficits should be quantitatively evaluated through the determination of tissue water content or tissue water content or tissue water potential. In this work the osmotic potential of stems and leaves, the leaf water potential, and the relative water content-water potential relationships were determined in adequately irrigated patatoes (Solanum tuberosum L.) growing in the field. The results showed that potentials changed during the growing season. Leaf water potential decreseased with aging of the plants and after the complete vegetative growth it was not possible to observe any definite trend, either increasing or decreasing. This change affected relative water content-water potential relationships, so that the relationships shifted to progressively lower water potential for a given relative water content. The data indicated that leaf water potential does not seem a reliable indicator of physiological water deficits. The knowledge of relative water content associated with leaf water potential measurement would provide a more precise condition of water in the plant tissues.

E. J. Scalopi^I; E. C. Ferraz^II

^IDeptº de Engª Rural - Fac. Cienc. Méd. e Biol. de Botucatu, S. P

^IIDeptº de Botânica - Esc. Sup. Agric. «Luiz de Queiroz», Piracicaba, S. P

RESUMO

A manutenção de um balanço hídrico favorável à planta é uma condição reconhecidamente necessária para assegurar a seqüência das reações metabólicas que se desenvolvem nas células vegetais. Os deficits de água¹ nas plantas poderiam ser quantitativamente avaliados a partir de determinações do teor ou do estado de energia da água dos tecidos. Neste trabalho, o potencial osmótico das hastes e folhas, o potencial da água da folha e as relações entre este e o teor relativo de água da folha foram determinados em plantas de batata (Solanum tuberosum L.) adequadamente supridas com água do solo, em condições de campo.

Os resultados revelaram que os potenciais determinados variaram durante o ciclo fenológico. Assim, o potencial da água da folha foi sendo reduzido com o desenvolvimento das plantas. Após o completo desenvolvimento vegetativo, não foi possível identificar qualquer tendência definida, crescente ou decrescente. Esta variação modificou as relações entre o potencial e o teor relativo de água da folha, de tal maneira, que o potencial associado a um determinado teor relativo de água, foi sendo reduzido a medida que as plantas se desenvolveram. A par destes resultados, pode-se concluir que o potencial da água da folha não parece ser um indicador seguro da existência de déficits fisiológicos de água na planta. O conhecimento do teor relativo de água, associado ao potencial, poderia contribuir decisivamente para fornecer uma avaliação mais precisa da condição da água nos tecidos vegetais.

SUMMARY

The maintainance of a favorable plant water budget is a condition generally regarded to assure the sequence of cell metabolism. Plant water deficits should be quantitatively evaluated through the determination of tissue water content or tissue water content or tissue water potential. In this work the osmotic potential of stems and leaves, the leaf water potential, and the relative water content-water potential relationships were determined in adequately irrigated patatoes (Solanum tuberosum L.) growing in the field.

The results showed that potentials changed during the growing season. Leaf water potential decreseased with aging of the plants and after the complete vegetative growth it was not possible to observe any definite trend, either increasing or decreasing. This change affected relative water content-water potential relationships, so that the relationships shifted to progressively lower water potential for a given relative water content. The data indicated that leaf water potential does not seem a reliable indicator of physiological water deficits. The knowledge of relative water content associated with leaf water potential measurement would provide a more precise condition of water in the plant tissues.

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LITERATURA CITADA

Entregue para publicação em 26/12/1974.

BARRS, H. D. 1968 - Determination of water deficits in plant tissues. In, Kozlowsky, T. T. (ed.) Water Deficits and Plant Growth (vol. I). New York, Academic press, p. 235-268.
__________ & WEATHERLEY, P. E. 1962 - A re-examination of the relative turgidity tecnique for estimating water deficits in leaves. Aust. J. biol. Sci. 15(3): 413-428.
BOYER, J. S. 3.968 - Relationship of water potential to growth of leaves. Pl. Physiol., Lancaster 43(7): 1056-1062.
__________. 1970 - Leaf enlargement and metabolic rates in corn, soybean, and sunflower at various leaf potentials. Pl. Physiol., Lancaster 46(2): 233-235.
CATSKY, J. 1962 - Water saturation deficit in the wilting plant. The preference of young leaves and translocation of water from old into young leaves. Biol. Pl. 4: 306-314.
CHEN, D., KESSLER, B. & MONSELISE, S, P. 1964 - Studies on water regime and nitrogen metabolism of citrus seedlings grown under water stress. Pl. Physiol., Lancaster 39(3) : 379-386.
CLARK, R. N. & HILER, E. A. 1973 - Plant measurements as indicators of crop water deficit. Crop Sci. 13(4): 466-469.
COX, L. M. & BOERSMA, L. 1967 - Transpiration as a function of soil temperature and soil water stress. Pl. Physiol., Lancaster 42(4): 550-556.
CRRIER, E. B. 1944 - Cryoscopy of small amounts of expressed tissue sap. Pl. Physiol., Lancaster 19: 544-550.
EDELMAN, J. & SINGH, S. P. 1966 - Studies on the biochemical basis of physiological processes in the potato tuber. Changes in carbohidrates in the sprouting tuber. J. exp. Bot. 17(53): 696-702.
__________ & __________. 1968 - Studies on the biochemical basis of physiological processes in the portato tuber. Changes in nucleic acids and protein in the sprouting tuber. J. exp. Bot. 19(59): 288-294.
EWING, E. E. & FARKAS, L. 1969 - Determination of need for potato irrigation using refratometric index of sap from frozem leaves. J. Am. Soc. hort. Sci. 94(2): 163-167.
GARDNER, W. R. 1965 - Dynamic aspects of soil-water availability to plants. A. Rev. Pl. Physiol. 16: 323-342.
__________ & EHLIG, C. F. 1963 - The influence of soil water on transpiration by plants. J. geophys. Res. 68(20): 5719-5724.
__________ & NIEMAN, R. H. 1964 - Lower limit of water availability to plants. Science, Wash. 143(3613): 1460-1462.
GATES, C. T. 1968 - Water deficits and growth of herbaceous plants. In, Kozlowsky, T. T. (ed.) Water Deficits and Plant Growth (vol. II). New York, Academic Press, p. 135-190.
HOFFMAN, G. J. & SPLINTER, W. E. 1968 - Water potential measurements of an intact plant-soil system. Agron. J. 60(4): 408-413.
HSIAO, T. C. 1973 - Plant responses to water stress. A. Rev. Pl. Physiol. 24: 519-570.
JORDAN, W. R. 1970 - Growth of cotton seedlings in relation to maximum daily plant-water potential. Agron. J. 62(6): 699-701.
__________ & RITCHIE, J. T. 1971 - Influence of soil water stress on evaporation, root absorption, and internal water status of cotton. Pl. Physiol., Lancaster 48(6): 783-788.
KNIPLING, E. B. 1967a - Effect of leaf aging on water deficit - water potential relationships of dogwood leaves growing in two environments. Physiol. Pl. 20: 65-72.
__________ - 1967b - Measurement of leaf water potential by the dye method. Ecology. 48(6): 1038-1040.
KRAMER, P. J. 1969 - Plant and Soil Water Relationships: A Modern Synthesis. New York, McGraw-Hill Book Co, 482 p.
LEVITT, J. 1956 - The Hardiness of Plants. New York, Academic press, 278 p.
LUTMAN, B. F. 1919 - Osmotic pressures in the potato plant at various estages of growth. Am. J. Bot. 6(5): 181-202.
MILLIAR, A. A., DUYSEN, M. E. & WILKINSON, G. E. 1968 - Internal water balance of barley under soil moisture stress. Pl. Physiol., Lancaster 43(6): 968-972.
RAWITZ, E. 1970 - The dependence of growth rate and transpiration rate on plant and soil physical parameters under controlled conditions. Soil Sci. 110(3): 172-182.
RAWLINS, S. L., GARDNER, W. R. & DALTON, F. N. 1968 - In situ measurement of soil and plant leaf water potential. Proc. Soil Sci. Soc. Am. 32(4): 468-470.
SHINN, J. H. & LEMON, E. R. 1963 - Photosyntesis under field conditions. XI. Soil-plant-water relations during drought stress in corn. Agron. J. 60(4): 337-343.
SLATYER, R. O. 1957 - The influence of progressive increases in total soil moisture sitress on transpiration, growth, and internal water relationships of plants. Aust. J. biol. Sci. 10(3): 320-336.
__________. 1963 - Climatic control of plant water relations. In, Evans, L. T. (ed.) Environmental Control of Plant Growth. New York, Academic, press, p. 33-54.
__________. 1967 - Plant-Water Relationship. New York, Academic press, 366 p.
TANNER, C. B. 1968 - Terminology in plant and soil water relations. In, Kozlowsky, T. T. (ed.) Water Deficits and Plant Growth (vol. I). New York, Academic press, p. 49-72.
VAADIA, Y., RANEY, F. C. & HAGAN, R. M. 1961 - Plant water deficits and physiological processes. A. Rev. Pl. Physiol. 12: 265-192.
WERNER, H. O. 1954 - Influence of atmospheric and soil moisture conditions on durnal variations in relative turgidity of potato leaves. Res. Bull. Nebr. agric. Exp. Stn 176. 39 p.

**Variação do potencial da água da folha com o desenvolvimento da planta de batatinha (Solanum tuberosum L. cv. 'Bintje')**

Variation of leaf water potential with the growth of potato plant

Datas de Publicação

Publicação nesta coleção
29 Maio 2012
Data do Fascículo
1974

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] BARRS, H. D. 1968 - Determination of water deficits in plant tissues. In, Kozlowsky, T. T. (ed.) Water Deficits and Plant Growth (vol. I). New York, Academic press, p. 235-268.

[2] __________ & WEATHERLEY, P. E. 1962 - A re-examination of the relative turgidity tecnique for estimating water deficits in leaves. Aust. J. biol. Sci. 15(3): 413-428.

[3] BOYER, J. S. 3.968 - Relationship of water potential to growth of leaves. Pl. Physiol., Lancaster 43(7): 1056-1062.

[4] __________. 1970 - Leaf enlargement and metabolic rates in corn, soybean, and sunflower at various leaf potentials. Pl. Physiol., Lancaster 46(2): 233-235.

[5] CATSKY, J. 1962 - Water saturation deficit in the wilting plant. The preference of young leaves and translocation of water from old into young leaves. Biol. Pl. 4: 306-314.

[6] CHEN, D., KESSLER, B. & MONSELISE, S, P. 1964 - Studies on water regime and nitrogen metabolism of citrus seedlings grown under water stress. Pl. Physiol., Lancaster 39(3) : 379-386.

[7] CLARK, R. N. & HILER, E. A. 1973 - Plant measurements as indicators of crop water deficit. Crop Sci. 13(4): 466-469.

[8] COX, L. M. & BOERSMA, L. 1967 - Transpiration as a function of soil temperature and soil water stress. Pl. Physiol., Lancaster 42(4): 550-556.

[9] CRRIER, E. B. 1944 - Cryoscopy of small amounts of expressed tissue sap. Pl. Physiol., Lancaster 19: 544-550.

[10] EDELMAN, J. & SINGH, S. P. 1966 - Studies on the biochemical basis of physiological processes in the potato tuber. Changes in carbohidrates in the sprouting tuber. J. exp. Bot. 17(53): 696-702.

[11] __________ & __________. 1968 - Studies on the biochemical basis of physiological processes in the portato tuber. Changes in nucleic acids and protein in the sprouting tuber. J. exp. Bot. 19(59): 288-294.

[12] EWING, E. E. & FARKAS, L. 1969 - Determination of need for potato irrigation using refratometric index of sap from frozem leaves. J. Am. Soc. hort. Sci. 94(2): 163-167.

[13] GARDNER, W. R. 1965 - Dynamic aspects of soil-water availability to plants. A. Rev. Pl. Physiol. 16: 323-342.

[14] __________ & EHLIG, C. F. 1963 - The influence of soil water on transpiration by plants. J. geophys. Res. 68(20): 5719-5724.

[15] __________ & NIEMAN, R. H. 1964 - Lower limit of water availability to plants. Science, Wash. 143(3613): 1460-1462.

[16] GATES, C. T. 1968 - Water deficits and growth of herbaceous plants. In, Kozlowsky, T. T. (ed.) Water Deficits and Plant Growth (vol. II). New York, Academic Press, p. 135-190.

[17] HOFFMAN, G. J. & SPLINTER, W. E. 1968 - Water potential measurements of an intact plant-soil system. Agron. J. 60(4): 408-413.

[18] HSIAO, T. C. 1973 - Plant responses to water stress. A. Rev. Pl. Physiol. 24: 519-570.

[19] JORDAN, W. R. 1970 - Growth of cotton seedlings in relation to maximum daily plant-water potential. Agron. J. 62(6): 699-701.

[20] __________ & RITCHIE, J. T. 1971 - Influence of soil water stress on evaporation, root absorption, and internal water status of cotton. Pl. Physiol., Lancaster 48(6): 783-788.

[21] KNIPLING, E. B. 1967a - Effect of leaf aging on water deficit - water potential relationships of dogwood leaves growing in two environments. Physiol. Pl. 20: 65-72.

[22] __________ - 1967b - Measurement of leaf water potential by the dye method. Ecology. 48(6): 1038-1040.

[23] KRAMER, P. J. 1969 - Plant and Soil Water Relationships: A Modern Synthesis. New York, McGraw-Hill Book Co, 482 p.

[24] LEVITT, J. 1956 - The Hardiness of Plants. New York, Academic press, 278 p.

[25] LUTMAN, B. F. 1919 - Osmotic pressures in the potato plant at various estages of growth. Am. J. Bot. 6(5): 181-202.

[26] MILLIAR, A. A., DUYSEN, M. E. & WILKINSON, G. E. 1968 - Internal water balance of barley under soil moisture stress. Pl. Physiol., Lancaster 43(6): 968-972.

[27] RAWITZ, E. 1970 - The dependence of growth rate and transpiration rate on plant and soil physical parameters under controlled conditions. Soil Sci. 110(3): 172-182.

[28] RAWLINS, S. L., GARDNER, W. R. & DALTON, F. N. 1968 - In situ measurement of soil and plant leaf water potential. Proc. Soil Sci. Soc. Am. 32(4): 468-470.

[29] SHINN, J. H. & LEMON, E. R. 1963 - Photosyntesis under field conditions. XI. Soil-plant-water relations during drought stress in corn. Agron. J. 60(4): 337-343.

[30] SLATYER, R. O. 1957 - The influence of progressive increases in total soil moisture sitress on transpiration, growth, and internal water relationships of plants. Aust. J. biol. Sci. 10(3): 320-336.

[31] __________. 1963 - Climatic control of plant water relations. In, Evans, L. T. (ed.) Environmental Control of Plant Growth. New York, Academic, press, p. 33-54.

[32] __________. 1967 - Plant-Water Relationship. New York, Academic press, 366 p.

[33] TANNER, C. B. 1968 - Terminology in plant and soil water relations. In, Kozlowsky, T. T. (ed.) Water Deficits and Plant Growth (vol. I). New York, Academic press, p. 49-72.

[34] VAADIA, Y., RANEY, F. C. & HAGAN, R. M. 1961 - Plant water deficits and physiological processes. A. Rev. Pl. Physiol. 12: 265-192.

[35] WERNER, H. O. 1954 - Influence of atmospheric and soil moisture conditions on durnal variations in relative turgidity of potato leaves. Res. Bull. Nebr. agric. Exp. Stn 176. 39 p.

Brasil

Brasil

Variação do potencial da água da folha com o desenvolvimento da planta de batatinha (Solanum tuberosum L. cv. 'Bintje')

Variation of leaf water potential with the growth of potato plant

Resumos

**Variação do potencial da água da folha com o desenvolvimento da planta de batatinha (Solanum tuberosum L. cv. 'Bintje')**

Datas de Publicação