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Sorghum in dryland: morphological, physiological, and molecular responses of sorghum under drought stress.
Abreha, Kibrom B; Enyew, Muluken; Carlsson, Anders S; Vetukuri, Ramesh R; Feyissa, Tileye; Motlhaodi, Tiny; Ng'uni, Dickson; Geleta, Mulatu.
Affiliation
  • Abreha KB; Department of Plant Breeding, Swedish University of Agricultural Sciences, Box 190, 234 22, Lomma, Sweden. kibrom.abreha@slu.se.
  • Enyew M; Department of Plant Breeding, Swedish University of Agricultural Sciences, Box 190, 234 22, Lomma, Sweden.
  • Carlsson AS; Institute of Biotechnology, Addis Ababa University, Box 1176, Addis Ababa, Ethiopia.
  • Vetukuri RR; Department of Plant Breeding, Swedish University of Agricultural Sciences, Box 190, 234 22, Lomma, Sweden.
  • Feyissa T; Department of Plant Breeding, Swedish University of Agricultural Sciences, Box 190, 234 22, Lomma, Sweden.
  • Motlhaodi T; Institute of Biotechnology, Addis Ababa University, Box 1176, Addis Ababa, Ethiopia.
  • Ng'uni D; Department of Agricultural Research, Private Bag, 0033, Gaborone, Botswana.
  • Geleta M; Zambia Agriculture Research Institute, Mount Makulu Research Station, P/B 7, Chilanga, Zambia.
Planta ; 255(1): 20, 2021 Dec 11.
Article in En | MEDLINE | ID: mdl-34894286
MAIN CONCLUSION: Droughts negatively affect sorghum's productivity and nutritional quality. Across its diversity centers, however, there exist resilient genotypes that function differently under drought stress at various levels, including molecular and physiological. Sorghum is an economically important and a staple food crop for over half a billion people in developing countries, mostly in arid and semi-arid regions where drought stress is a major limiting factor. Although sorghum is generally considered tolerant, drought stress still significantly hampers its productivity and nutritional quality across its major cultivation areas. Hence, understanding both the effects of the stress and plant response is indispensable for improving drought tolerance of the crop. This review aimed at enhancing our understanding and provide more insights on drought tolerance in sorghum as a contribution to the development of climate resilient sorghum cultivars. We summarized findings on the effects of drought on the growth and development of sorghum including osmotic potential that impedes germination process and embryonic structures, photosynthetic rates, and imbalance in source-sink relations that in turn affect seed filling often manifested in the form of substantial reduction in grain yield and quality. Mechanisms of sorghum response to drought-stress involving morphological, physiological, and molecular alterations are presented. We highlighted the current understanding about the genetic basis of drought tolerance in sorghum, which is important for maximizing utilization of its germplasm for development of improved cultivars. Furthermore, we discussed interactions of drought with other abiotic stresses and biotic factors, which may increase the vulnerability of the crop or enhance its tolerance to drought stress. Based on the research reviewed in this article, it appears possible to develop locally adapted cultivars of sorghum that are drought tolerant and nutrient rich using modern plant breeding techniques.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Sorghum / Droughts Language: En Journal: Planta Year: 2021 Document type: Article Affiliation country: Sweden Country of publication: Germany

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Sorghum / Droughts Language: En Journal: Planta Year: 2021 Document type: Article Affiliation country: Sweden Country of publication: Germany