Breeding crops for high yield and superior adaptability to new and variable climates is
imperative to ensure continued food security, biomass production, and ecosystem services …

Sequencing technologies are evolving at a rapid pace, enabling the generation of massive
amounts of data in multiple dimensions (eg, genomics, epigenomics, transcriptomic …

Varieties of various crops with high resilience are urgently needed to feed the increased
population in climate change conditions. Human activities and climate change have led to …

The advent of high-throughput sequencing technologies has led to the production of a
significant amount of omics data in plants, which serves as valuable assets for conducting …

The exploitation of the genetic diversity of crops is essential for breeding purposes, as the
identification of useful/beneficial alleles for target traits within plant genetic resources allows …

Our agricultural systems are now in urgent need to secure food for a growing world
population. To meet this challenge, we need a better characterization of plant genetic and …

Across all facets of biology, the rapid progress in high-throughput data generation has
enabled us to perform multi-omics systems biology research. Transcriptomics, proteomics …

In the current era, one of biggest challenges is to shorten the breeding cycle for rapid
generation of a new crop variety having high yield capacity, disease resistance, high nutrient …

Climate change, associated with global warming, extreme weather events, and increasing
incidence of weeds, pests and pathogens, is strongly influencing major cropping systems. In …

In the upcoming years, global changes in agricultural and environmental systems will
require innovative approaches in crop research to ensure more efficient use of natural …