2015
DOI: 10.7740/kjcs.2015.60.3.266
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Effect of High Temperature on Leaf Physiological Changes as Chlorophyll composition and Photosynthesis Rate of Rice

Abstract: High temperature impairs rice grain yield and quality. To understand the effect of high temperature on leaf physiological activity and grain filling, two cultivars of rice that Dongan and Ilpum were exposed to high temperature during ripening stage. Grain filling rate, perfect grain ratio and grain weight of high temperature (27℃±4℃) treated both rice cultivars were decreased than those of control temperature (22℃±4℃) treated. The reduction rates of grain filling ratio, perfect grain ratio and grain weight of … Show more

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Cited by 5 publications
(2 citation statements)
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“…The highest carbohydrate content was determined when infected plants were grown at medium temperatures and elevated CO 2 . Total carbohydrates have been reported to increase in rice under elevated CO 2 conditions, but they might also decrease in rice when high temperature is applied (Shon et al, 2015;Uprety et al, 2007). This study has shown that the increase in carbohydrates oc- expressed in a resistant rice cultivar (Selenio), inoculated with F. fujikuroi, which apparently showed no symptoms of infection (Matić et al, 2016).…”
Section: Discussionmentioning
confidence: 99%
“…The highest carbohydrate content was determined when infected plants were grown at medium temperatures and elevated CO 2 . Total carbohydrates have been reported to increase in rice under elevated CO 2 conditions, but they might also decrease in rice when high temperature is applied (Shon et al, 2015;Uprety et al, 2007). This study has shown that the increase in carbohydrates oc- expressed in a resistant rice cultivar (Selenio), inoculated with F. fujikuroi, which apparently showed no symptoms of infection (Matić et al, 2016).…”
Section: Discussionmentioning
confidence: 99%
“…The present results suggest that the anticipated global warming will adversely affect temperate japonica rice production in South Korea and highlight the need for new cultivars with the high‐temperature tolerance in the ripening stage. Recently, some progress has been achieved with the screening and breeding of the temperate japonica rice with high‐temperature tolerance during the ripening stage: Donganbyeo for mid‐late cultivar (Shon et al., 2015) and Jungmo1024 for early cultivar (Jeung et al., 2016). However, heat‐induced sterility should also gain attention since it can be intensified by not only increased temperature but also elevated CO 2 concentration, which increases panicle (canopy) temperature by reducing the transpiration rate (Matsui et al., 1997).…”
Section: Discussionmentioning
confidence: 99%