Comparison of non-overlapping maize populations of unequal sizes for resistance to maize lethal necrosis

AbstractDrought is the main stress for agriculture, and maize (Zea mays L.) germplasm from the Sahara has been identified as potential source of drought tolerance; however, information about adaptation of semitropical maize germplasm from the Sahara to temperate areas has not been reported. Our objective was assessing the adaptation of maize germplasm from Saharan oases as sources of drought tolerance for improving yield and biomass production under drought conditions in temperate environments. A collection of maize populations from Saharan oases was evaluated under drought and control conditions in Spain and Algeria. Algerian populations were significantly different under drought for most traits, and the significant genotype × environment interactions indicated that drought tolerance is genotype-dependent, but tolerance differences among genotypes change across environments. Based on yield, the Algerian maize populations PI527474, PI527478, PI527472, PI527467, PI527470, and PI527473 would be appropriate sources of drought tolerance for temperate environments. Concerning biomass production, the most interesting populations were PI527467, PI542685, PI527478, and PI527472. These Saharan populations could provide favorable alleles for drought tolerance for temperate breeding programs, and could also be used for studying mechanisms and genetic regulation of drought tolerance.

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Combining Ability and Heterosis of Algerian Saharan Maize Populations (Zea mays L.) for Tolerance to No-Nitrogen Fertilization and Drought

Agronomy ◽

10.3390/agronomy11030492 ◽

2021 ◽

Vol 11 (3) ◽

pp. 492

Author(s):

Meriem Riache ◽

Pedro Revilla ◽

Oula Maafi ◽

Rosa Ana Malvar ◽

Abderahmane Djemel

Keyword(s):

Zea Mays ◽

Stress Tolerance ◽

Nitrogen Fertilization ◽

Recurrent Selection ◽

Zea Mays L ◽

Base Material ◽

N Fertilization ◽

Nitrogen Stress ◽

Reciprocal Recurrent Selection ◽

Maize Populations

Drought and low nitrogen are major stresses for maize (Zea mays L.), and maize populations from the Sahara Desert are potential sources of stress tolerance. The objectives were to assess the tolerance and varietal and heterosis effects of Algerian populations under no-nitrogen fertilization and water stress. A diallel among six Algerian maize population was evaluated under drought (300 mm irrigation) vs. control (600 mm) and no-nitrogen fertilization vs. 120 kh ha−1 N fertilization. Genotypes showed significant differences and genetic effects for water- and nitrogen-stress tolerance. We propose a reciprocal recurrent selection to take advantage of additive and non-additive effects, using AOR and IGS, since they showed good performance in optimum and stress conditions, for improving yield heterosis for AOR × IGS. Negative effects are not expected on plant height, anthesis–silking interval or early vigor. These populations and BAH could be sources of inbred lines tolerant to drought and no-nitrogen fertilization. There was no relationship between origin and genetic group and stress tolerance per se or as parents of tolerant crosses. These populations and crosses could be used as base material among Algerian populations, for breeding programs focusing on tolerance to water or nitrogen stress.

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Identification and meta-analysis of QTLs for four leaf shape traits in two maize populations under contracting watering environments

Genetic Resources and Crop Evolution ◽

10.1007/s10722-020-01085-1 ◽

2021 ◽

Author(s):

Yuan Zhong ◽

Xiaoqiang Zhao ◽

Wenli Li ◽

Wenqi Zhou

Keyword(s):

Meta Analysis ◽

Leaf Shape ◽

Maize Populations

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