Abstract
Temperature is of fundamental importance in affecting rates of metabolic activity in plant tissues. In this chapter, we will focus on methods for temperature measurement under field conditions and on the energy budget equation, which basically describes the influences of abiotic/biotic factors in affecting a deviation in plant tissue temperature from the surrounding ambient air temperature. As such the primary emphases of this chapter will be to describe (1) the principles behind the energy budget approach, (2) the leaf parameters which will influence leaf energy balance and thus need to be measured, (3) how leaf, air and soil temperatures are most commonly measured and (4) the precautions necessary to minimize errors in leaf, air and soil temperature measurements.
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References
Birkebak, R.C. (1966) Heat transfer in biological systems. Int. Rev. Gen. Exp. Zool. 2, 269–344.
Birkebak, R.C. and Birkebak, R. (1964) Solar radiation characteristics of tree leaves. Ecology, 45, 646–9.
Campbell, G.S. (1977) An Introduction to Environmental Biophysics, Springer-Verlag, New York, 159 pp.
Collier, B.D., Cox, G.W., Johnson, A.W. and Miller, P.C. (1973) Dynamic Ecology, Prentice-Hall, Englewood Cliffs, 563 pp.
Comstock, J.P. and Mahall, B.E. (1985) Drought and changes in leaf orientation for two California chaparral shrubs: Ceanothus megacarpus and Ceanothus crassifolius. Oecologia 65, 531–5.
Drake, B.G., Raschke, K. and Salisbury, F.B. (1970) Temperatures and transpiration resistances of Xanthium leaves as affected by air temperature, humidity, and wind speed. Plant Physiol., 46, 324–30.
Ehleringer, J.R. (1981) Leaf absorptances of Mohave and Sonoran Desert plants. Oecologia, 49, 366–70.
Ehleringer, J.R. (1985) Annuals and perennials of warm deserts. In Physiological Ecology of North American Plant Communities (eds B.F. Chabot and H.A. Mooney), Chapman and Hall, New York, pp. 162–80.
Ehleringer, J.R. (1988) Changes in leaf characteristics in species along elevational gradients in the Wasatch Front, Utah. Am. J. Bot., 75, 680–89.
Ehleringer, J.R. and Björkman, O. (1978) Pubescence and leaf spectral characteristics in a desert shrub, Encelia farinosa. Oecologia, 36, 151–62.
Ehleringer, J.R. and Forseth, I.N. (1980) Solar tracking by plants. Science, 210, 1094–8.
Gates, D.M. (1962) Energy Exchange in the Biosphere, Harper and Row, New York. 151 pp.
Gates, D.M. (1980) Biophysical Ecology, Springer-Verlag, New York.
Gates, D.M., Keegan, H.J., Schleter, J.C. and Weidner, V.R. (1965) Spectral properties of plants. Appl. Opt., 4, 11–20.
Geiger, R. (1966) The Climate near the Ground, Harvard University Press, Cambridge. 611pp.
Hays, R.L. (1975) The thermal conductivity of leaves. Planta 125, 281–7.
Holman, J.P. (1968) Heat Transfer. McGraw-Hill Book Co., New York, 401pp.
Idso, S.B., Jackson, R.D., Ehrler, W.L. and Mitchell, S.T. (1969) A method for determination of infrared emittance of leaves. Ecology 50, 899–902.
Jones, H.G. (1983) Plants and Microclimate, Cambridge University Press, Cambridge. 323pp.
Kortüm, G. (1969) Reflectance Spectroscopy, Springer-Verlag, New York.
Lee, R. (1978) Forest Microclimatology, Columbia University Press, New York, 276pp.
Lin, Z.F. and Ehleringer, J.R. (1982) Changes in spectral properties of leaves as related to chlorophyll and age in papaya. Photosynthetica, 16, 520–5.
Lin, Z.F. and Ehleringer, J.R. (1983) Epidermal effects on spectral properties of leaves of four herbaceous species. Physiol. Plant., 59, 91–4.
List, R.J. (1968) Smithsonian Meteorological Tables, 6th edn, Smithsonian Misc. Coll. 114., Smithsonian Press, Washington, 527pp.
Miller, P.C. (1971) Sampling to estimate mean leaf temperatures and transpiration rates in vegetation canopies. Ecology, 52, 885–9.
Miller, P.C. (1972) Bioclimate. leaf temperature, and primary production in red mangrove canopies in south Florida. Ecology, 53, 22–45.
Monteith, J.L. (1973) Principles of Environmental Physics, Edward Arnold, London, 241pp.
Moss, R.A. and Loomis, W.E. (1952) Absorption spectra of leaves. I. The visible spectrum. Plant Physiol., 27, 370–91.
Rabideau, G.S., French, C.S. and Holt, A.S. (1946) The absorption and reflection spectra of leaves, chloroplast suspensions, and chloroplast fragments as measured in an Ulbricht sphere. Am. J. Bot., 33, 769–77.
Rosenberg, N.J., Blad, B.L. and Verma, S.B. (1983) Microclimate the Biological Environment, 2nd edn, John Wiley and Sons, New York, 495pp.
Taylor, A.H. (1920) The measurement of diffuse reflection factors and a new absolute reflectometer. J. Opt. Soc. Am., 4, 9–23.
Wiebe, H.H. and Drake, B.G. (1980) Leaf temperature mapping with thermosensitive liquid crystal models. BioScience 30, 32–3.
Weigand, C.L. and Swanson, W.A. (1973) Time constants for thermal equilibration of leaf, canopy, and soil surfaces with changes in insolation. Agron. J., 65, 722–4.
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Ehleringer, J.R. (1989). Temperature and energy budgets. In: Pearcy, R.W., Ehleringer, J.R., Mooney, H.A., Rundel, P.W. (eds) Plant Physiological Ecology. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-2221-1_7
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DOI: https://doi.org/10.1007/978-94-009-2221-1_7
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-010-7496-4
Online ISBN: 978-94-009-2221-1
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