Morpho-physiological effects of moisture, heat and combined stresses on Sorghum bicolor [Moench (L.)] and its acclimation mechanisms
Elton Ndlovu,Johannes Van Staden,M. Maphosa +2 more
- Vol. 2, pp 100018
TLDR
In this paper, the authors discuss the morphological and physiological effects of drought and heat stresses, with specific emphasis on their combined effects on sorghum, a hardy small grain crop of diverse uses and suitable for marginal areas of the semiarid tropics.Abstract:
Increasing incidences of combined drought and heat stress poses a serious threat to production and productivity of crops in sub-Saharan Africa where 95% of crop production is rainfed. In this review we discuss the morphological and physiological effects of drought and heat stresses, with specific emphasis on their combined effects on sorghum, a hardy small grain crop of diverse uses and suitable for marginal areas of the semi-arid tropics. Resistance mechanisms to drought stress were reviewed to enhance understanding amongst crop scientists and botanists. The most important physiological processes in sorghum that is sensitive to drought and heat stresses include cell division, cell metabolism, photosynthesis, biosynthesis of bioactive and secondary metabolites, nutrient uptake and membrane stability. All of which affects germination, growth, reproduction and consequently controls crop yield. Various morphological and physiological traits enable sorghum to tolerate drought and heat stress through escaping, avoiding and tolerating their effects to sustain physiological and metabolic activities. A deep root system, thick leaf cuticle layers and leaf rolling enable drought avoidance, while physiological adjustments include osmotic adjustment and stomatal regulation. Drought tolerance mechanisms are mainly physiological adjustments such as antioxidative capacity, membrane stability, cooler canopies and a stay green trait that achieves photosynthetic capacity and transpiration efficiency. However, there is great genetic variability even within sorghum on the genotypic responses to drought and heat stress. Understanding of morphological and physiological effects of abiotic stresses, especially when combined and tolerance mechanisms of a specified important crop like sorghum, gives us better insight and a more holistic approach in understanding biological systems that affect its productivity that may enhance its management and improvement.read more
Citations
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Journal ArticleDOI
Drought Stress Tolerance in Plants: Interplay of Molecular, Biochemical and Physiological Responses in Important Development Stages
TL;DR: In this article , the progression of molecular, biochemical, and physiological mechanisms involved in the drought stress tolerance in plants and the responses of field crops to drought stress at different development stages.
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Effects of drought and heat stresses during reproductive stage on pollen germination, yield, and leaf reflectance properties in maize ( Zea mays L.)
Raju Bheemanahalli,Purushothaman Ramamoorthy,Sadikshya Poudel,Sathishkumar Samiappan,Nuwan K. Wijewardane,K. Raja Reddy +5 more
TL;DR: In this paper , the impact of optimum daytime (30°C) and warmer daytime temperatures (35°C, heat stress) on pollen germination, morpho-physiology, and yield potential using two maize genotypes (Mo17 and B73) under contrasting soil moisture content.
Exogenous melatonin protects alfalfa (Medicago sativa L.) seedlings from drought-induced damage by modulating reactive oxygen species metabolism, mineral balance and photosynthetic efficiency
Momi Roy,Junpeng Niu,Annie Irshad,Hafiz Abdul Kareem,Mahmood Ul Hassan,Nan Xu,Xin Sui,Zhipeng Guo,Aduragbemi Amo,Quanzhen Wang +9 more
TL;DR: In this article, the effects of foliar-sprayed melatonin at different doses (50, 100, 200 μM) on alfalfa seedlings' growth and physiological responses under drought stress were investigated.
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Corn (Zea mays L.) and sorghum (Sorghum bicolor (L.) Moench) yield and nutritional quality affected by drought stress
TL;DR: In this paper , the effects of drought stress on grain yield and nutritional quality of different corn (Zea mays L.) (Maxima (sensitive) and 704 (tolerant)) and sorghum (Sorghum bicolor (L.) Moench) genotypes were investigated.
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