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Cited by 461 publications
(335 citation statements)
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“…This low accumulation of assimilates under DSI during both phenophases reduced the grain number and weight (Table 3). Heading and grain-filling are the most critical stages of wheat, during which it exhibits more sensitivity to water scarcity [4]. Moreover, earlier reports indicate that moderate deficit water supply during the reproductive stage reduced wheat grain yield up to 30%, whereas a severe water deficit during the reproductive phase reduced the yield by between 58% and 92% [4,12,37,38].…”
Section: Discussionmentioning
confidence: 99%
“…This low accumulation of assimilates under DSI during both phenophases reduced the grain number and weight (Table 3). Heading and grain-filling are the most critical stages of wheat, during which it exhibits more sensitivity to water scarcity [4]. Moreover, earlier reports indicate that moderate deficit water supply during the reproductive stage reduced wheat grain yield up to 30%, whereas a severe water deficit during the reproductive phase reduced the yield by between 58% and 92% [4,12,37,38].…”
Section: Discussionmentioning
confidence: 99%
“…Soil C: N: P stoichiometry patterns could enhance our understanding of nutrient cycling and biological processes in terrestrial ecosystems (Tian et al, 2010;Yuan et al, 2011;Ding et al, 2014). Soil N: P dynamics directly reflect the availability of N and P, but are influenced by biotic and abiotic factors as well (Jiao et al, 2013;Farooq et al, 2014). Leaf C: N: P stoichiometry patterns could reflect plant nutrient balance and it is affected by many factors, especially plant species and the growth environment (Sardans et al, 2011).…”
Section: Introductionmentioning
confidence: 99%
“…Drought stress often occurs in parallel during rapid growth and grain filling period, which lead to about 10% loss in total grain output worldwide (Farooq et al, 2009;Celebi et al, 2010), and this situation seems to deteriorate in recent years, due to human disturbances and climate changes (Gong et al, 2013). Cereal plants have specific complex adaptation strategies to cope with drought stress, these mechanisms involve changes at cellular and whole-plant levels (Boomsma and Vyn, 2008;Farooq et al, 2014). However, only limited studies have been done on the development of physiological approaches for improving drought tolerance of minor cereals in arid and semi-arid areas.…”
Section: Introductionmentioning
confidence: 99%