气候变化领域集成服务门户(CCPortal): Approaches and progress in breeding drought-tolerant maize hybrids for tropical lowlands in west and central Africa

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DOI	10.1002/tpg2.20437
	Approaches and progress in breeding drought-tolerant maize hybrids for tropical lowlands in west and central Africa
	Menkir, Abebe; Dieng, Ibnou; Gedil, Melaku; Mengesha, Wende; Oyekunle, Muhyideen; Riberio, Priscillia F.; Adu, Gloria Boakyewaa; Yacoubou, Abdoul-Madjidou; Coulibaly, Mmadou; Bankole, Folusho A.; Derera, John; Bossey, Bunmi; Unachukwu, Nnanna; Ilesanmi, Yinka; Meseka, Silvestro
发表日期	2024
EISSN	1940-3372
英文摘要	Drought represents a significant production challenge to maize farmers in West and Central Africa, causing substantial economic losses. Breeders at the International Institute of Tropical Agriculture have therefore been developing drought-tolerant maize varieties to attain high grain yields in rainfed maize production zones. The present review provides a historical overview of the approaches used and progress made in developing drought-tolerant hybrids over the years. Breeders made a shift from a wide area testing approach, to the use of managed screening sites, to precisely control the intensity, and timing of drought stress for developing drought-tolerant maize varieties. These sites coupled with the use of molecular markers allowed choosing suitable donors with drought-adaptive alleles for integration into existing elite maize lines to generate new drought-tolerant inbred lines. These elite maize inbred lines have then been used to develop hybrids with enhanced tolerance to drought. Genetic gains estimates were made using performance data of drought-tolerant maize hybrids evaluated in regional trials for 11 years under managed drought stress, well-watered conditions, and across diverse rainfed environments. The results found significant linear annual yield gains of 32.72 kg ha-1 under managed drought stress, 38.29 kg ha-1 under well-watered conditions, and 66.57 kg ha-1 across multiple rainfed field environments. Promising hybrids that deliver high grain yields were also identified for areas affected by drought and variable rainfed growing conditions. The significant genetic correlations found among the three growing conditions highlight the potential to exploit the available genetic resources and modern tools to further enhance tolerance to drought in hybrids. Drought affects the growth and development of maize in smallholder farmers' fields. Phenotyping sites providing precise control of the severity of drought stress permitted the selection of suitable drought-tolerant parents for developing maize hybrids. Genetic gain estimates from 11 years of data on maize hybrids found significant yield gains under managed drought stress, well-watered conditions and across multiple rainfed environments. Drought poses a major challenge to maize farmers in West and Central Africa, resulting in significant economic losses. To address this, breeders at the International Institute of Tropical Agriculture have developed drought-tolerant maize varieties for rainfed maize production zones. This review provides an overview of the approaches used and progress made in developing drought-tolerant hybrids. Breeders shifted from wide area testing to managed screening sites, allowing precise control of drought stress intensity and timing. Molecular markers were used to select suitable donors with drought-adaptive alleles, which were integrated into elite maize lines to create new drought-tolerant inbred lines. These inbred lines were then used to develop hybrids with improved drought tolerance. Over 11 years of regional trials, significant annual grain yield gains were observed under managed drought stress, well-watered conditions, and diverse rainfed environments. Promising hybrids that deliver high grain yields were also identified for areas affected by drought and variable rainfed growing conditions. The significant genetic correlations found among the three growing conditions highlight the potential to exploit the available genetic resources and modern tools to further enhance tolerance to drought in hybrids.
语种	英语
WOS研究方向	Plant Sciences ; Genetics & Heredity
WOS类目	Plant Sciences ; Genetics & Heredity
WOS记录号	WOS:001166496300001
来源期刊	PLANT GENOME
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/306820
作者单位	CGIAR; International Institute of Tropical Agriculture (IITA); Institute for Agricultural Research, Samaru, Zaria; Ahmadu Bello University; University of Ilorin
推荐引用方式 GB/T 7714	Menkir, Abebe,Dieng, Ibnou,Gedil, Melaku,et al. Approaches and progress in breeding drought-tolerant maize hybrids for tropical lowlands in west and central Africa[J],2024.
APA	Menkir, Abebe.,Dieng, Ibnou.,Gedil, Melaku.,Mengesha, Wende.,Oyekunle, Muhyideen.,...&Meseka, Silvestro.(2024).Approaches and progress in breeding drought-tolerant maize hybrids for tropical lowlands in west and central Africa.PLANT GENOME.
MLA	Menkir, Abebe,et al."Approaches and progress in breeding drought-tolerant maize hybrids for tropical lowlands in west and central Africa".PLANT GENOME (2024).