Abstract
Plant responses to environment are frequently influenced by stomatal functioning, through effects on plant water use, the development of plant water deficits, net photosynthesis, and temperature relations. In ecophysiology, predicting stomatal responses to environment and relating these responses to the functioning and physical state of plants are important objectives. Qualitative and quantitative differences in stomatal behavior between plant species and ecotypes, or at different phenological stages play important roles in plant performance and adaptation.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Akita, S., Moss, D.: Differential stomatal response between C3 and C4 species to atmospheric CO2 concentration and light. Crop Sci. 12 789–793 (1972).
Aston, M. J.: Changes in internal water status and the gas exchange of leaves in response to ambient evaporative demand. In: Plant response to climatic factors (ed. R. O. Slatyer), pp. 243–247. Paris: Unesco 1973.
Bauer, H.: CO2-Gaswechsel nach Hitzestress bei Abies alba Mill. und Acer pseudoplatanus L. Photosynthetica 6 424–434 (1972).
Beadle, C. L., Stevenson, K. R., Neumann, H. H., Thurtell, G. W., King, K. M.: Diffusive resistance, transpiration, and photosynthesis in single leaves of corn and sorghum in relation to leaf water potential. Can. J. Plant Sci. 53 537–544 (1973).
Beardsell, M. F., Jarvis, P. G., Davidson, B.: A null-balance diffusion porometer suitable for use with leaves of many shapes. J. Appl. Ecol. 9 677–690 (1972).
Beardsell, M. F., Mitchell, K. J., Thomas, R. G.: Transpiration and photosynthesis in soybean. Effects of temperature and vapor pressure deficit. J. Exp. Botany 24 587–595 (1973).
Biscoe, P. V.: The diffusion resistance and water status of leaves of Beta vulgaris. J. Exp. Botany 23 930–940 (1972).
Boyer, J. S.: Nonstomatal inhibition of photosynthesis in sunflower at low leaf water potentials and high light intensities. Plant Physiol.48 532–536 (1971).
Camacho-B, S. E., Hall, A. E., Kaufmann, M. R.: Efficiency and regulation of water transport in some woody and herbaceous species. Plant Physiol. 54 169–172 (1974).
Cowan, I.: Oscillations in stomatal conductance and plant functioning associated with stomatal conductance: observations and a model. Planta (Berl.) 106 185–219 (1972).
Crookston, R. K., O’Toole, J., Lee, R., Ozbun, J. L., Wallace, D. H.: Photosynthesis depression in beans after exposure to cold for one night. Crop Sci. 14 457–464 (1974).
Davies, W. J., Kozlowski, T. T.: Stomatal responses of five woody angiosperms to light intensity and humidity. Can. J. Botany 52 1 (1974).
Davies, W. J., Kozlowski, T. T.: Stomatal responses of five woody angiosperms to light intensity and humidity. Can. J. Botany 52 525–1 (1974).
Davies, W. J., Kozlowski, T. T.: Stomatal responses of five woody angiosperms to light intensity and humidity. Can. J. Botany 52 534 (1974).
Downes, R. W.: Effect of light intensity and leaf temperature on photosynthesis and transpiration in wheat and sorghum. Australian J. Biol. Sci. 23 775–782 (1970).
Downes, R. W.: Adaptation of sorghum plants to light intensity: its effects on gas exchange in response to changes in light, temperature and CO2. In: Photosynthesis and photorespiration (eds. M. O. Hatch, C. B. Osmond, R. O. Slatyer), pp. 57–62. New York, London, Sydney, Toronto: Wiley Interscience 1971.
Drake, B. G., Raschke, K., Salisbury, F. B.: Temperatures and transpiration resistances of Xanthium leaves as affected by air temperature, humidity and wind speed. Plant Physiol.46 324–330 (1970).
Drake, B. G., Salisbury, F. B.: Aftereffects of low and high temperature pretreatments on leaf resistance, transpiration and leaf temperature in Xanthium. Plant Physiol.50 572–575 (1972).
Farquhar, G. D.: A study of the responses of stomata to pertubations of environment. Ph. D. Thesis. Canberra City, Australia 1973.
Fischer, R. A.: Resistance to water loss in the mesophyll of leek (Allium porrum). J. Exp. Botany 19 135–145 (1968).
Fischer, R. A., Hsiao, T. C., Hagan, R. M.: After-effects of water stress on stomatal opening potential. I. Techniques and magnitudes. J. Exp. Botany 21 371–385 (1970).
Gaastra, P.: Photosynthesis of crop plants as influenced by light, carbon dioxide, temperature and stomatal diffusion resistance. Med. Landbouwhogesch. Wageningen 59 1–68 (1959).
Gale, J., Kohl, H. C., Hagan, R. M.: Mesophyll and stomatal resistances affecting photosynthesis under varying conditions of soil, water and evaporative demand. Israel J. Botany 15 64–71 (1966).
Gardner, W. R.: Internal water status and plant response in relation to the external water regime. In: Plant response to climatic factors (ed. R. O. Slatyer), pp. 221–225. Paris: Unesco 1973.
Gee, G. W., Federer, C. A.: Stomatal resistance during senescence of hard wood leaves. Water Resources Research 8 1456–1460 (1972).
Hall, A. E., Camacho-B, S. E., Kaufmann, M. R.: Regulation of water loss by citrus leaves. Physiol. Plantarum 33 62–65 (1975).
Hall, A. E., Kaufmann, M. R.: Regulation of water transport in the soil-plant-atmosphere continuum. In: Perspectives of biophysical ecology. Ecological Studies, vol. 12 (eds. D. M. Gates, R. B. Schmerl), pp. 187–202. Berlin-Heidelberg-New York: Springer 1975a.
Hall, A. E., Kaufmann, M. R.: Stomatal response to environment with Sesamum indicum L. Plant Physiol.55 455–459 (1975 b).
Hall, A. E., Loomis, R. S.: An explanation for the difference in photosynthetic capabilities of healthy and beet yellows virus-infected sugar beets (Beta vulgaris L.). Plant Physiol. 50 576–580 (1972).
Hall, A. E., Yermanos, D. M.: Leaf conductance and leaf water status of sesame strains in hot, dry climates. Crop Sci. 15 789–793 (1975).
Hammouda, M., Lange, O. L.: Zur Hitzeresistenz der Blätter höherer Pflanzen in Abhängigkeit von ihrem Wassergehalt. Naturwissenschaften 21 500–501 (1962).
Heath, O. V. S., Meidner, H.: Effects of carbon dioxide and temperature on stomata of Allium cepa L. Nature 180 181–182 (1957).
Heath, O. V. S., Milthorpe, F. L.: The role of carbon dioxide in the light response of stomata. J. Exp. Botany 1 227–254 (1950).
Heath, O. V. S., Orchard, B.: Temperature effects on the minimum intercellular space carbon dioxide concentration “Γ” Nature 180 180–181 (1957).
Hiron, R. W. P., Wright, S. T. C.: The role of endogenous abscisic acid in the response of plants to stress. J. Exp. Botany 24 769–781 (1973).
Hofstra, G., Hesketh, J. D.: The effect of temperature on stomatal aperture in different species. Can. J. Botany 47 1307–1310 (1969).
Hsiao, T. C.: Plant response to water stress. Ann. Rev. Plant Physiol. 24 519–570 (1973).
Jarvis, P. G., Slatyer, R. O.: The role of the mesophyll cell wall in leaf transpiration. Planta (Berl.) 90 303–322 (1970).
Jones, R. J., Mansfield, T. A.: Increases in the diffusion resistances of leaves in carbon dioxide-enriched atmosphere. J. Exp. Botany 21 951–958 (1970).
Jordan, W. R., Ritchie, J. T.: Influence of soil water stress on evaporation, root absorption, and internal water status of cotton. Plant Physiol.48 783–788 (1971).
Kanemasu, E. T., Tanner, C. B.: Stomatal diffusion resistance of snap beans. I. Influence of leaf water potential. Plant Physiol. 44 1 (1969).
Kanemasu, E. T., Tanner, C. B.: Stomatal diffusion resistance of snap beans. I. Influence of leaf water potential. Plant Physiol. 44 547–1 (1969).
Kanemasu, E. T., Tanner, C. B.: Stomatal diffusion resistance of snap beans. I. Influence of leaf water potential. Plant Physiol. 44 552 (1969).
Kassam, A. H.: The influence of light and water deficit upon diffusive resistance of leaves of Vicia faba L. New Phytologist 72 557–570 (1973).
Kaufmann, M. R.: Stomatal response of Engelmann spruce to humidity, light, and water stress. Plant Physiol. 57 898–901 (1976).
Ketellapper, H. J.: Stomatal physiology. Ann. Rev. Plant. Physiol. 14 249–270 (1963).
Kriedemann, P. E.: Photosynthesis and transpiration as a function of gaseous diffusive resistances in orange leaves. Physiol. Plantarum 24 218–225 (1971).
Lange, O. L., Koch, W., Schulze, E.-D.: CO2-Gaswechsel und Wasserhaushalt von Pflanzen in der Negev-Wüste am Ende der Trockenzeit. Ber. Deut. Botan. Ges. 82 39–61 (1969).
Lange, O. L., Lösch, R., Schulze, E.-D., Kappen, L.: Responses of stomata to changes in humidity. Planta (Bed.) 100 76–86 (1971).
Loveys, B. R., Kriedemann, P. E.: Rapid changes in abscisic acid-like inhibitors following alterations in vine leaf water potential. Physiol. Plantarum 28 476–479 (1973).
Ludlow, M. M., Jarvis, P. G.: Photosynthesis in Sitka spruce [Picea sitchensis (Bong.) Carr.] I. General characteristics. J. Appl. Ecol.8 925–953 (1971).
Ludlow, M. M., Wilson, G. L.: Photosynthesis of tropical pasture plants. I. Illuminance, carbon dioxide concentration, leaf temperature and leaf-air vapour pressure difference. Australian J. Biol. Sci. 24 449–470 (1971).
Macklon, A. E. S., Weatherley, P. E.: Controlled environment studies of the nature and origins of water deficits in plants. New Phytologist 64 414–427 (1965).
McCree, K. J.: Changes in the stomatal response characteristics of grain sorghum produced by water stress during growth. Crop Sci. 14 273–278 (1974).
McPherson, H. G., Slatyer, R. O.: Mechanisms regulating photosynthesis in Pennisetum typhoides. Australian J. Biol. Sci. 26 329–339 (1973).
Meidner, H., Mansfield, T. A.: Physiology of stomata. London: McGraw-Hill 1968.
Pallas, J. E.: Transpiration and stomatal opening with changes in carbon dioxide content of the air. Science 147 171–173 (1965).
Parkinson, K. J.: Apparatus for the simultaneous measurement of water vapor and carbon dioxide exchanges of single leaves. J. Exp. Botany 19 840–856 (1968).
Raschke, K.: Stomatal action. Ann. Rev. Plant Physiol. 26 309–340 (1975).
Raschke, K., Kühl, U.: Stomatal responses to changes in atmospheric humidity and water supply; experiments with leaf sections of Zea mays in CO2-free air. Planta (Berl.) 87 36–48 (1969).
Rees, A. R.: Midday closure of stomata in the oil palm Elaeis guineensis Jacq. J. Exp. Botany 12 129–146 (1961).
Running, S. W., Waring, R. H., Rydell, R. A.: Physiological control of water flux in conifers. A computer simulation model. Oecologia (Berl.) 18 1–16 (1975).
Schulze, E.-D., Lange, O. L., Buschbom, U., Kappen, L., Evenari, M.: Stomatal responses to changes in humidity in plants growing in the desert. Planta (Berl.) 108 259–270 (1972).
Schulze, E.-D., Lange, O. L., Evenari, M., Kappen, L., Buschbom, U.: The role of air humidity and leaf temperature in controlling stomatal resistance of Prunus armeniaca L. under desert conditions. I. A simulation of the daily course of stomatal resistance. Oecologia (Berl.) 17 159–170 (1974).
Schulze, E.-D., Lange, O. L., Kappen, L., Buschbom, U., Evenari, M.: Stomatal responses to changes in temperature at increasing water stress. Planta (Berl.) 110 29–42 (1973).
Schulze, E.-D., Lange, O. L., Kappen, L., Evenari, M., Buschbom, U.: The role of air humidity and leaf temperature in regulating stomatal resistance of Prunus armeniaca L. under desert conditions. II. The significance of leaf water status and internal carbon dioxide concentration. Oecologia (Berl.) 18 219–233 (1975).
Šesák, Z., Čatský, J., Jarvis, P. J. (eds.): Plant photosynthetic production—Manual of methods. The Hague: W. Junk 1971.
Seybold, A.: Ergebnisse und Probleme pflanzlicher Transpirationsanalyse. Jh. Heidelberger Akad. Wiss. 1961/62 5–8 (1961/62).
Sharpe, P. J. H.: Adaxial and abaxial stomatal resistance of cotton in the field. Agron. J. 65 570–574 (1973).
Sheriff, D. W., Meidner, H.: Water pathways in leaves of Hedera helix L. and Tradescantia virginiana L. J. Exp. Botany 25 1147–1156 (1974).
Slavík, B.: Transpiration resistance in leaves of maize grown in humid and dry air. In: Plant response to climatic factors (ed. R. O. Slatyer), pp. 267–269. Paris: Unesco 1973.
Stålfelt, M. G.: The effect of temperature on opening of the stomatal cells. Physiol. Plantarum 15 772–779 (1962).
Stålfelt, M. G.: The relation between the endogenous and induced elements of the stomatal movements. Physiol. Plantarum 18 177–184 (1965).
Tinklin, R., Bowling, D. J. F.: The water relations of bracken: a preliminary study. J. Ecol. 57 669–671 (1969).
Turner, N. C.: Response of adaxial and abaxial stomata to light. New Phytologist 69 647–653 (1970).
Turner, N. C.: Stomatal behavior and water status of maize, sorghum, and tobacco under field conditions. II. At low soil water potential. Plant Physiol. 53 360–365 (1974).
Watts, W. R., Jarvis, P. G., Neilson, R. E., Beadle, C. H.: Responses of stomata of Sitka spruce to environmental variables. Abstracts, Meeting Intern. Assoc. Plant Physiol., Würzburg, 85 (1974).
Whiteman, P. C., Koller, D.: Species characteristics in whole plant resistances to water vapor and CO2 diffusion. J. Appl. Ecol.4 363–377 (1967a).
Whiteman, P. C., Koller, D.: Interactions of carbon dioxide concentration, light intensity and temperature on plant resistances to water vapor and carbon dioxide diffusion. New Phytologist66 463–473 (1967 b).
Zelitch, I.: Stomatal control. Ann. Rev. Plant Physiol. 20 329–350 (1969).
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1976 Springer-Verlag Berlin · Heidelberg
About this chapter
Cite this chapter
Hall, A.E., Schulze, ED., Lange, O.L. (1976). Current Perspectives of Steady-state Stomatal Responses to Environment. In: Lange, O.L., Kappen, L., Schulze, ED. (eds) Water and Plant Life. Ecological Studies, vol 19. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-66429-8_11
Download citation
DOI: https://doi.org/10.1007/978-3-642-66429-8_11
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-66431-1
Online ISBN: 978-3-642-66429-8
eBook Packages: Springer Book Archive