D. C. Davenport scite author profile

Transpiration and photosynthesis are influenced by the optical properties of leaves. Application of a uniform white coating of kaolinitc (about 225 mg dm -2) to the upper leaf surface produced significant changes in the spectral curves (reflectivity, transmissivity, and absorptivity) of Valencia orange leaves. Photosynthetic light response curves of leaves of orange, lemon, rubber plant (all hypostomatous), and bean (a. mphibiostomatous) were modified by the reflective material, which at low light intensities decreased photosynthetic rates and increased light saturation levels. The white coating cooled the leaves 3-4øC and reduced transpiration 22-28% under conditions of high light intensity, warm air, low relativ• humidity, and low wind velocity. However the rubber plant under the same conditions showed • smaller reduction in transpiration (less than 10%), indicating effective self-regulation of its water loss. These experiments demonstrated that water-use efficiency of leaves can be improved, particularly under high light intensities.

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Effects of Film Antitranspirants on Growth

Davenport

Uriu

Hagan

1974

J Exp Bot

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Effects of Chemical Antitranspirants on Transpiration and Growth of Grass

Davenport

1967

J Exp Bot

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D. C. Davenport

Some Counteractive Effects of Antitranspirants

Effects of kaolinite as a reflective antitranspirant on leaf temperature, transpiration, photosynthesis, and water‐use efficiency

Effects of Film Antitranspirants on Growth

Effects of Chemical Antitranspirants on Transpiration and Growth of Grass

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