The maize genebank (GBmaize) preserves nearly 4,000 accessions for conservation and use. The use is however restricted because the accessions do not performs as well as the elite genotypes. This problem can be reduced by pre-breeding, i. e., by extending the information on germplasm and introgressing useful alleles. Since irregular rainfall distribution and drought induce maize yield losses, drought tolerance is a man breeding target. In this study, the GBmaize accessions were evaluated for drought tolerance. Environmental factors, genotypes and the respective interactions influence the phenotypic expression. There was however no interaction genotype-irrigation level, so no accessions with different performance under the two water regimes c...
Significant yield losses in maize (Zea mays L.) from drought are expected to increase with global cl...
Africa supports a population of over 1 billion people with over half of them depending on maize for ...
Drought stress is paramount in limiting worldwide maize (Zea mays L.) production and productivity. I...
The maize genebank (GBmaize) preserves nearly 4,000 accessions for conservation and use. The use is ...
Water deficit is one of the main limiting factors leading to maize yield reduction in the temperate ...
Most maize production across the globe is rain-fed, and production is set to be negatively impacted ...
Vancetovic J., S. Mladenovic Drinic, M.Babic, D. Ignjatovic Micic and V.Andelkovic (2010): Maize gen...
Shortage of irrigation water at critical growth stages of maize is limiting its production worldwide...
Drought stress is a major constraint especially to tropical maize production and accurate classifica...
Published online: 01 Aug 2018Maize hybrids that are tolerant to drought at the seedling stage are ne...
Current climate change models predict an increased frequency and intensity of drought for much of th...
Drought severely constrains maize (Zea mays L) production in the savannas of West and Central Afr...
Drought is one of the most prevailing abiotic stresses affecting the growth, development, and produc...
Abstract Introduced maize (Zea mays L.) germplasmcan serve as sources of favorable alleles toenhance...
Global climate change, its impact on stable food production in the future and possibilities to overc...
Significant yield losses in maize (Zea mays L.) from drought are expected to increase with global cl...
Africa supports a population of over 1 billion people with over half of them depending on maize for ...
Drought stress is paramount in limiting worldwide maize (Zea mays L.) production and productivity. I...
The maize genebank (GBmaize) preserves nearly 4,000 accessions for conservation and use. The use is ...
Water deficit is one of the main limiting factors leading to maize yield reduction in the temperate ...
Most maize production across the globe is rain-fed, and production is set to be negatively impacted ...
Vancetovic J., S. Mladenovic Drinic, M.Babic, D. Ignjatovic Micic and V.Andelkovic (2010): Maize gen...
Shortage of irrigation water at critical growth stages of maize is limiting its production worldwide...
Drought stress is a major constraint especially to tropical maize production and accurate classifica...
Published online: 01 Aug 2018Maize hybrids that are tolerant to drought at the seedling stage are ne...
Current climate change models predict an increased frequency and intensity of drought for much of th...
Drought severely constrains maize (Zea mays L) production in the savannas of West and Central Afr...
Drought is one of the most prevailing abiotic stresses affecting the growth, development, and produc...
Abstract Introduced maize (Zea mays L.) germplasmcan serve as sources of favorable alleles toenhance...
Global climate change, its impact on stable food production in the future and possibilities to overc...
Significant yield losses in maize (Zea mays L.) from drought are expected to increase with global cl...
Africa supports a population of over 1 billion people with over half of them depending on maize for ...
Drought stress is paramount in limiting worldwide maize (Zea mays L.) production and productivity. I...