<> "The repository administrator has not yet configured an RDF license."^^ . <> . . . "Genetic and genomic resources, and breeding for accelerating improvement of small millets: current status and future interventions"^^ . "Current agricultural and food systems encourage research and development on major crops, neglecting regionally important\r\nminor crops. Small millets include a group of small- seeded cereal crops of the grass family Poaceae. This includes\r\nfinger millet, foxtail millet, proso millet, barnyard millet, kodo millet, little millet, teff, fonio, job’s tears, guinea millet,\r\nand browntop millet. Small millets are an excellent choice to supplement major staple foods for crop and dietary diversity\r\nbecause of their diverse adaptation on marginal lands, less water requirement, lesser susceptibility to stresses, and nutritional\r\nsuperiority compared to major cereal staples. Growing interest among consumers about healthy diets together with\r\nclimate-resilient features of small millets underline the necessity of directing more research and development towards these\r\ncrops. Except for finger millet and foxtail millet, and to some extent proso millet and teff, other small millets have received\r\nminimal research attention in terms of development of genetic and genomic resources and breeding for yield enhancement.\r\nConsiderable breeding efforts were made in finger millet and foxtail millet in India and China, respectively, proso millet in\r\nthe United States of America, and teff in Ethiopia. So far, five genomes, namely foxtail millet, finger millet, proso millet,\r\nteff, and Japanese barnyard millet, have been sequenced, and genome of foxtail millet is the smallest (423-510 Mb) while\r\nthe largest one is finger millet (1.5 Gb). Recent advances in phenotyping and genomics technologies, together with available\r\ngermplasm diversity, could be utilized in small millets improvement. This review provides a comprehensive insight into\r\nthe importance of small millets, the global status of their germplasm, diversity, promising germplasm resources, and breeding\r\napproaches (conventional and genomic approaches) to accelerate climate-resilient and nutrient-dense small millets for\r\nsustainable agriculture, environment, and healthy food systems."^^ . "2020-07" . . . . "Springer"^^ . . . "The Nucleus (TSI)"^^ . . . "0029568X" . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "J"^^ . "Kane-Potaka"^^ . "J Kane-Potaka"^^ . . "H D"^^ . "Upadhyaya"^^ . "H D Upadhyaya"^^ . . "C"^^ . "Vanniarajan"^^ . "C Vanniarajan"^^ . . "V C R"^^ . "Azevedo"^^ . "V C R Azevedo"^^ . . "S A"^^ . "Ceasar"^^ . "S A Ceasar"^^ . . "V A"^^ . "Tonapi"^^ . "V A Tonapi"^^ . . "A"^^ . "Nirmalakumari"^^ . "A Nirmalakumari"^^ . . "S"^^ . "Anitha"^^ . "S Anitha"^^ . . "D"^^ . "Santra"^^ . "D Santra"^^ . . "B V"^^ . "Bhat"^^ . "B V Bhat"^^ . . "C"^^ . "Backiyalakshmi"^^ . "C Backiyalakshmi"^^ . . "M"^^ . "Muthamilarasan"^^ . "M Muthamilarasan"^^ . . "A"^^ . "Bellundagi"^^ . "A Bellundagi"^^ . . "D"^^ . "Cheruku"^^ . "D Cheruku"^^ . . "K"^^ . "Hariprasanna"^^ . "K Hariprasanna"^^ . . "M"^^ . "Vetriventhan"^^ . "M Vetriventhan"^^ . . . . . . "Genetic and genomic resources, and breeding for accelerating improvement of small millets: current status and future interventions (PDF)"^^ . . . . . "Vetriventhan2020_Article_GeneticAndGenomicResourcesAndB.pdf"^^ . . . "Genetic and genomic resources, and breeding for accelerating improvement of small millets: current status and future interventions (Other)"^^ . . . . . . "indexcodes.txt"^^ . . "HTML Summary of #11546 \n\nGenetic and genomic resources, and breeding for accelerating improvement of small millets: current status and future interventions\n\n" . "text/html" . . . "Plant Breeding"@en . . . "Finger Millet"@en . . . "Foxtail Millet"@en . . . "Climate Resilient Technologies"@en . . . "Genetics and Genomics"@en . . . "Food and Nutrition"@en . . . "Germplasm"@en . .