2006
DOI: 10.1016/j.eja.2005.08.004
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Impact of water supply on photosynthesis, water use and carbon isotope discrimination of sugar beet genotypes

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Cited by 103 publications
(88 citation statements)
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“…δ 13 C, which provides an integration of the environmental conditions during the period of CO 2 assimilation [6], differed with moisture level. δ 13 C values were more negative under well-watered conditions compared to water-limited conditions, which corroborates the findings of many other studies on C 3 plants [13,27,28]. Less negative δ 13 C values under SD were attributed to lower 13 C discrimination due to the partial closure of the stomata occurring under soil drying.…”
Section: Variation In Leaf Gas Exchange With Genotype Moisture Levelsupporting
confidence: 81%
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“…δ 13 C, which provides an integration of the environmental conditions during the period of CO 2 assimilation [6], differed with moisture level. δ 13 C values were more negative under well-watered conditions compared to water-limited conditions, which corroborates the findings of many other studies on C 3 plants [13,27,28]. Less negative δ 13 C values under SD were attributed to lower 13 C discrimination due to the partial closure of the stomata occurring under soil drying.…”
Section: Variation In Leaf Gas Exchange With Genotype Moisture Levelsupporting
confidence: 81%
“…In addition, stomata are generally known to be more open early in the season than at its end [22] hence the decrease of gs with DAP. Another interesting observation was the gs observed under WW in this study were relatively lower than those observed in intercropped sorghum and cowpea [23] and in sugar beet [13]. However, they were in the same range as those reported by [24] in cowpea and by [25] in wheat.…”
Section: Variation In Leaf Gas Exchange With Genotype Moisture Levelcontrasting
confidence: 47%
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“…These results suggested that twomonth-old sugar beet plants display the drought tolerance to some extent, which can be due to increased ability for maintaining adequate water uptake by lateral root. There was also evidence that water deficit of leaf can inhibit the activity of photosystem II and the rate of CO 2 assimilation (Bloch et al 2006, Monti et al 2006), which in turn could decrease photosynthesis. Therefore, the growth of sugar beet plants inhibited by drought was probably associated with the reduction of photosynthesis rate, and loss of cellular turgor in leaf under osmotic stress.…”
Section: Discussionmentioning
confidence: 99%