Plant Physiology

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Chapter 3 References

Textbook

Water in Plant Life

Day, W., Legg, B. J., French, B. K., Johnston, A. E., Lawlor, D. W., and Jeffers, W. de C. (1978) A drought experiment using mobile shelters: The effect of drought on barley yield, water use and nutrient uptake. J. Agric. Sci. 91: 599–623.

Innes, P., and Blackwell, R. D. (1981) The effect of drought on the water use and yield of two spring wheat genotypes. J. Agric. Sci. 102: 341–351.

Jones, H. G. (1992) Plants and Microclimate, 2nd ed., Cambridge University Press, Cambridge.

Whittaker, R. H. (1970) Communities and Ecosystems. Macmillan, New York.

The Structure and Properties of Water

Wheeler, T. D., and Stroock, A. D. (2008) The transpiration of water at negative pressures in a synthetic tree. Nature 455: 208–212.

Diffusion and Osmosis

Nobel, P. S. (1999) Physicochemical and Environmental Plant Physiology, 2nd ed. Academic Press, San Diego, CA.

Stein, W. D. (1986) Transport and Diffusion across Cell Membranes. Academic Press, Orlando, FL.

Water Potential

Friedman, M. H. (1986) Principles and Models of Biological Transport. Springer Verlag, Berlin.

Nobel, P. S. (1999) Physicochemical and Environmental Plant Physiology, 2nd ed. Academic Press, San Diego, CA.

Water Potential of Plant Cells

Loo, D. D. F., Zeuthen, T., Chandy, G., and Wright, E. M. (1996) Cotransport of water by the Na+/glucose cotransporter. Proc. Natl. Acad. Sci. USA 93: 13367–13370.

Cell Wall and Membrane Properties

Dainty, J. (1976) Water relations of plant cells. In Transport in Plants, Vol. 2, Part A: Cells (Encyclopedia of Plant Physiology, New Series, Vol. 2.), U. Lüttge and M. G. Pitman, eds., Springer, Berlin, pp. 12–35.

Goldstein, G., Andrade, J. L., and Nobel, P. S. (1991) Differences in water relations parameters for the chlorenchyma and parenchyma of Opuntia ficus-indica under wet versus dry conditions. Aust. J. Plant Physiol. 18: 95–107.

Hsiao, T. C., and Xu, L. K. (2000) Sensitivity of growth of roots versus leaves to water stress: Biophysical analysis and relation to water transport. J. Exp. Bot. 51: 1595–1616.

Maurel, C., Verdoucq, L., Luu, D.-T., and Santoni, V. (2008) Plant aquaporins: Membrane channels with multiple integrated functions. Annu. Rev. Plant Biol. 59: 595–624.

Nobel, P. S. (1988) Environmental Biology of Agaves and Cacti. Cambridge University Press, New York.

Rockwell, F. E., Holbrook, N. M., and Stroock, A. D. (2014) Leaf hydraulics I: Scaling transport properties from single cells to tissues. J. Theor. Biol. 340: 267–284.

Schäffner, A. R. (1998) Aquaporin function, structure, and expression: Are there more surprises to surface in water relations? Planta 204: 131–139.

Steudle, E. (1989) Water flow in plants and its coupling to other processes: An overview. Meth. Enzymol. 174: 183–225.

Tyerman, S. D., Bohnert, H. J., Maurel, C., Steudle, E., and Smith, J. A. C. (1999) Plant aquaporins: Their molecular biology, biophysics and significance for plant–water relations. J. Exp. Bot. 50: 1055–1071.

Tyerman, S. D., Niemietz, C. M., and Bramley, H. (2002) Plant aquaporins: Multifunctional water and solute channels with expanding roles. Plant Cell Environ. 25: 173–194.

Weig, A., Deswarte, C., and Chrispeels, M. J. (1997) The major intrinsic protein family of Arabidopsis has 23 members that form three distinct groups with functional aquaporins in each group. Plant Physiol. 114: 1347–1357.

Plant Water Status

Hsiao, T. C., and Acevedo, E. (1974) Plant responses to water deficits, efficiency, and drought resistance. Agr. Meteorol. 14: 59–84.

Web Topics

Bearce, B. C., and Kohl, H. C., Jr. (1970) Measuring osmotic pressure of sap within live cells by means of a visual melting point apparatus. Plant Physiol. 46: 515–519.

Boyer , J.S. (1995) Measuring the Water Status of Plants and Soils. Academic Press, N.Y.

Boyer, J. S., and Knipling, E. B. (1965) Isopiestic technique for measuring leaf water potentials with thermocouple sychrometer. Proc. Natl. Acad. Sci. USA 54: 1044–1051.

Brown, R. W., and Van Haveren, B. P., eds. (1972) Psychrometry in Water Relations Research. Proceedings of the Symposium on Thermocouple Psychrometers. Utah Agricultural Experiment Station, Utah State University, Provo.

Dainty, J. (1976) Water relations of plant cells. In Transport in Plants II, Part A, Cells, U. Lüttge and M. G. Pitman, eds. Encyclopedia of Plant Physiology, New Series, Vol. 2. Springer-Verlag, Berlin, pp. 12–35.

Green, P. B. (1968) Growth physics in Nitella: A method for continuous in vivo analysis of extensibility based on a micro-manometer technique for turgor pressure. Plant Physiol. 43: 1169–1184.

Green, P. B., and Stanton, F. W. (1967) Turgor pressure: Direct manometric measurement in single cells of Nitella. Science 155: 1675–1676.

Hammel, H. T., and Scholander, P. F. (1976) Osmosis and tensile solvent. Springer, Berlin.

Heydt, H., and Steudle, E. (1991) Measurement of negative pressure in the xylem of excised roots. Effects on water and solute relations. Planta 184: 389–396.

Hüsken, D., Steudle, E., and Zimmermann, U. (1978) Pressure probe technique for measuring water relations of cells in higher plants. Plant Physiol. 61: 158–163.

Malone, M., and Tomos, A. D. (1992) Measurement of gradients of water potential in elongating pea stem by pressure probe and picolitre osmometry. J. Exp. Bot. 43: 1325–1331.

Nobel, P. S. (1999) Physicochemical and Environmental Plant Physiology. Academic Press, San Diego.

Oertli, J. J., Lips, S. H., and Agami, M. 1990. The strength of sclerophyllous cells to resist collapse due to negative turgor pressure. Acta Oecol. 11: 281–289.

Passioura, J. B. (1980) The meaning of matric potential. J. Exp. Bot. 31: 1161–1169.

Pickard, W. F. 1983. The ascent of sap in plants. Prog. Biophys. Mol. Biol. 37: 181–229.

Prager, D. J., and Bowman, R. L. (1963) Freezing-point depression: New method for measuring ultramicro quantities of fluids. Science 142: 237–239.

Scholander, P. F., Hammel, H. T., Bradstreer, E. D., and Hemmingsen, E. A. (1965) Sap pressure in vascular plants. Science 148: 339–346.

Slavik, B. (1974) Methods of Studying Plant Water Relations. Academia, Prague.

Steudle, E. (1993) Pressure probe techniques: Basic principles and application to studies of water and solute relations at the cell, tissue and organ level. In Water Deficits: Plant Responses from Cell to Community, J. A. C. Smith and H. Griffiths, eds., BIOS Scientific, Oxford, pp. 5–36.

Tyree, M. T. 1976. Negative turgor pressure in plant cells: Fact or fallacy? Can. J. Botany 54: 2738–2746.

Tyree, M. T., and Hammel, H. T. (1972) The measurement of the turgor pressure and the water relations of plants by the pressure-bomb technique

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