Multi-omics pipeline and omics-integration approach to decipher plant's abiotic stress tolerance responses
The present day's ongoing global warming and climate change adversely affect plants
through imposing environmental (abiotic) stresses and disease pressure. The major abiotic …
through imposing environmental (abiotic) stresses and disease pressure. The major abiotic …
Advances in integrated genomic selection for rapid genetic gain in crop improvement: a review
C Anilkumar, NC Sunitha, Harikrishna, NB Devate… - Planta, 2022 - Springer
Main conclusion Genomic selection and its importance in crop breeding. Integration of GS
with new breeding tools and developing SOP for GS to achieve maximum genetic gain with …
with new breeding tools and developing SOP for GS to achieve maximum genetic gain with …
Genome-wide association studies of grain yield and quality traits under optimum and low-nitrogen stress in tropical maize (Zea mays L.)
Key message Genome-wide association study (GWAS) demonstrated that multiple genomic
regions influence grain quality traits under nitrogen-starved soils. Using genomic prediction …
regions influence grain quality traits under nitrogen-starved soils. Using genomic prediction …
Genetic trends in CIMMYT's tropical maize breeding pipelines
Fostering a culture of continuous improvement through regular monitoring of genetic trends
in breeding pipelines is essential to improve efficiency and increase accountability. This is …
in breeding pipelines is essential to improve efficiency and increase accountability. This is …
Robotized indoor phenotyping allows genomic prediction of adaptive traits in the field
J Bouidghaghen, L Moreau, K Beauchêne… - Nature …, 2023 - nature.com
Breeding for resilience to climate change requires considering adaptive traits such as plant
architecture, stomatal conductance and growth, beyond the current selection for yield …
architecture, stomatal conductance and growth, beyond the current selection for yield …
Discovery of genomic regions associated with grain yield and agronomic traits in Bi-parental populations of maize (Zea mays. L) Under optimum and low nitrogen …
Low soil nitrogen levels, compounded by the high costs associated with nitrogen
supplementation through fertilizers, significantly contribute to food insecurity, malnutrition …
supplementation through fertilizers, significantly contribute to food insecurity, malnutrition …
Linkage mapping and genomic prediction of grain quality traits in tropical maize (Zea mays L.)
The suboptimal productivity of maize systems in sub-Saharan Africa (SSA) is a pressing
issue, with far-reaching implications for food security, nutrition, and livelihood sustainability …
issue, with far-reaching implications for food security, nutrition, and livelihood sustainability …
Maize breeding: From domestication to genomic tools
Maize will continue to expand and diversify as an industrial resource and a feed and fuel
crop in the near future. The United Nations estimate that in 2050 the global population will …
crop in the near future. The United Nations estimate that in 2050 the global population will …
Genomic prediction of morphometric and colorimetric traits in Solanaceous fruits
Selection of high-performance lines with respect to traits of interest is a key step in plant
breeding. Genomic prediction allows to determine the genomic estimated breeding values of …
breeding. Genomic prediction allows to determine the genomic estimated breeding values of …
Enhancing genetic gain through the application of genomic selection in developing irrigated rice for the favorable ecosystem in Bangladesh
Increasing selection differential and decreasing cycle time, the rate of genetic improvement
can be accelerated. Creating and capturing higher genetic with higher accuracy within the …
can be accelerated. Creating and capturing higher genetic with higher accuracy within the …