Photosynthesis and transpiration in rice as influenced by soil moisture and air humidity
MK Singh, T Sasahara - Annals of Botany, 1981 - academic.oup.com
MK Singh, T Sasahara
Annals of Botany, 1981•academic.oup.comThe paper describes the effect of soil moisture content and air humidity on CO2 exchange
(PN), CO2 diffusion resistance (Cr) and transpiration (E) in four varieties of japonica rice
(Oryza sativa L.). A decrease in soil moisture content reduced the rate of photosynthesis to a
varying degree in the varieties. Reduction in photosynthesis was attributed to increase in Cr.
The effect of low soil moisture on photosynthesis and CO2 diffusion was further intensified
by decrease in air humidity. By maintaining a high humidity in the air around the leaves …
(PN), CO2 diffusion resistance (Cr) and transpiration (E) in four varieties of japonica rice
(Oryza sativa L.). A decrease in soil moisture content reduced the rate of photosynthesis to a
varying degree in the varieties. Reduction in photosynthesis was attributed to increase in Cr.
The effect of low soil moisture on photosynthesis and CO2 diffusion was further intensified
by decrease in air humidity. By maintaining a high humidity in the air around the leaves …
Abstract
The paper describes the effect of soil moisture content and air humidity on CO2 exchange (PN), CO2 diffusion resistance (Cr) and transpiration (E) in four varieties of japonica rice (Oryza sativa L.). A decrease in soil moisture content reduced the rate of photosynthesis to a varying degree in the varieties. Reduction in photosynthesis was attributed to increase in Cr. The effect of low soil moisture on photosynthesis and CO2 diffusion was further intensified by decrease in air humidity. By maintaining a high humidity in the air around the leaves however, the effect of soil moisture deficiency was reduced considerably, except in Rikuto Norin 21 which was very sensitive to soil-moisture deficiency alone. Dryness of the air enhanced the transpiration rate, although the increase was relatively less in the plants facing a simultaneous water crisis at the root surface. In plants growing under flooded conditions, a decrease in air humidity caused a slight depression in PN despite the simultaneous decrease in Cr.
Oxford University Press
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