Comparative analysis of water-use behavior and drought resilience in selected tropical sorghum (Sorghum bicolor L.) cultivars

Comparative analysis of water-use behavior and drought resilience in selected tropical sorghum (Sorghum bicolor L.) cultivars

Sorghum is an important crop for climate change adaptation, especially in drought-prone areas of the tropics. Our study aimed to identify how physiological and agronomic traits of different sorghum cultivars respond to drought stress. We utilized a high-throughput functional phenotyping platform to...

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Bibliographic Details
Main Authors: Elvira Sari Dewi, Mercy Appiah, Issaka Abdulai, Reimund P. Rötter
Format: Article
Language:English
Published: Elsevier 2025-08-01
Series:Journal of Agriculture and Food Research
Subjects:
High-throughput functional phenotyping
Transpiration
Critical water content
Biomass allocation
Yield traits
Resilience
Online Access:http://www.sciencedirect.com/science/article/pii/S2666154325004648
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Summary:Sorghum is an important crop for climate change adaptation, especially in drought-prone areas of the tropics. Our study aimed to identify how physiological and agronomic traits of different sorghum cultivars respond to drought stress. We utilized a high-throughput functional phenotyping platform to monitor growth and physiological characteristics of three tropical sorghum cultivars subjected to extended drought. Notable variations in cultivar response to water stress regarding morphological, agronomic and physiological traits were observed. In cv. Kuali, we observed a 21 % and 55 % reduction in plant height and total tiller number, respectively, under drought. In contrast, cv. Numbu showed only marginal reductions of 5 % and 28 % and cv. Samurai2, 8 % and 39 %, of plant height and total tiller number, respectively. The drought induced reductions in cv. Samurai were lower than in cv. Kuali but higher than in cv. Numbu. The reduction of the cumulated daily transpiration in response to drought was 52 %, 24 % and 5 % for cv. Kuali, cv. Numbu, and cv. Samurai2, respectively. Under high soil water content, cv. Kuali showed high transpiration which quickly declined after the point of physiological drought stress (Ɵcrit) was reached, representing typical non-conserving water use behavior. In contrast, cv. Numbu with much lower transpiration under high soil water content only reduced transpiration gradually beyond Ɵcrit making it a typical water conserver. Cv. Samurai was an intermediate between the two. Upon re-irrigation, all cultivars re-increased transpiration rates, especially cv. Kuali due to its heighest total number of tillers. Yield analyses indicated that cv. Numbu had the highest grain yield and water-use efficiency under drought, followed by cv. Samurai2, while cv. Kuali had the lowest for both traits, an indication of drought vulnerability. The study emphasized the importance of selecting sorghum cultivars according to examined drought response traits and provides valuable insights for climate change adaptation.
ISSN:2666-1543

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