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Modelling stomatal responses of spring wheat (Triticum aestivum L. cv. Turbo) to ozone and different levels of water supply
1995
Gruters, U. | Fangmeier, A. | Jager, H.J. (Institut fur Pflanzenokologie, Heinrich-Buff-Ring 38, D-35392 Giessen (Germany))
Physical effects of dust on leaf physiology of cucumber and kidney bean plants
1995
Hirano, T. | Kiyota, M. | Aiga, I. (College of Agriculture, University of Osaka Prefecture, Sakai 593 (Japan))
Physiology, morphology, and ozone uptake of leaves of black cherry seedlings, saplings, and canopy trees
1995
Fredericksen, T.S. | Joyce, B.J. | Skelly, J.M. | Steiner, K.C. | Kolb, T.E. | Kouterick, K.B. | Savage, J.E. | Snyder, K.R. (Environmental Resources Research Institute, 220 Forest Resource Laboratory, Pennsylvania State University, University Park, Pennsylvania 16802 (USA))
The role of plant hormones as modifiers of sensitivity to air pollutants and other stresses
1995
Lucas, P.W. | Wolfended, J. (Lancaster Univ., (United Kingdom). Institute of Environmental and Biological Sciences)
Plant hormones play a major role in the development and control of a wide range of plant physiological processes. Here we examine the ways in which they may influence the response of plants to air pollutants both indirectly, for example through the control of stomatal behaviour by ABA and directly, through their reactions with oxidising pollutants, which can lead to the formation of further damaging molecular species.
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