RT info:eu-repo/semantics/bookPart
T1 Common Bean Genetics, Breeding, and Genomics for Adaptation to Changing to New Agri-environmental Conditions
A1 Álvarez García, Samuel
A1 Kalavacharla, V.
A1 Casquero Luelmo, Pedro Antonio
A1 Porch, T.
A1 Rodiño, A. P.
A1 Beaver, J. S.
A1 Gonçalves Vidigal, M. C.
A1 Lorenzana de la Varga, Alicia
A1 De la Rosa, L.
A1 De Ron, A. M.
A1 Bedmar Villanueva, A.
A1 Gutiérrez Martín, Santiago
A1 Galván, M. Z.
A1 Dworkin, M.
A1 Mayo Prieto, Sara
A1 Suárez Villanueva, Victor
A1 Carro-Huerga, Guzmán
A1 Rodríguez González, Álvarez
A2 Produccion Vegetal
K1 Hortofruticultura
K1 Ingeniería agrícola
K1 Abiotic stress tolerance
K1 Agronomy
K1 Diseases and pest resistance
K1 Food legumes
K1 Genetic resources
K1 Genetic mapping
K1 Molecular breeding
K1 Phaseolus vulgaris L.
AB [EN] Common bean (Phaseolus vulgaris L.) has become, over the last 20 years, a competitive crop in national, regional, and international markets. This situation presents a dynamic environment for producers and researchers of this crop and requires a rethinking of current strategies against research and production needs, the opportunities and challenges of the future, and adaptation to changing agri-environmental conditions. Improvement of the common bean means possessing indepth knowledge of its genetic diversity, the genome and gene functions, to enable the analysis of pathways and networks in response to fluctuating environmental conditions. An important long-term challenge is the discovery of the gene(s) that control important production traits such as pest and disease resistance, abiotic stress tolerance,andbiologicalfixationofnitrogen.Thiswillneedtobeacooperativeworldwide effort that involves breeders, geneticists, and genomic and bioinformatics experts. Currently, newtechnologiesbuiltaroundtherecentlyreleasedcommonbeangenome sequence arenowbeingdeveloped,andvariousgenomicresourcesforcommonbean are available and include physical maps, bacterial artificial chromosome libraries, anchored physical and genetic maps, and expressed sequence tags. However, these approaches require precise phenotypic data. Complex interactions between the commonbeancropgenotype,environmentalfactorsincombinationwithplantpopulation dynamics and crop management greatly affect plant phenotypes in field experiments and are the key for the expansion of the productivity of this crop in traditional and nontraditional growing areas
PB Springer
SN 9783319969312
LK https://hdl.handle.net/10612/21316
UL https://hdl.handle.net/10612/21316
NO Suárez-Villanueva, V., Álvarez-García, S., Kalavacharla, V., Casquero, P. A., Porch, T., Rodiño, A. P., Beaver, J. S., Carro-Huelga, G., Gonçalves Vidigal, M. C., Lorenzana, A., De la Rosa, L., De Ron, A. M., Bedmar Villanueva, A., Gutiérrez, S., Galván, M. Z., Rodríguez-González, A., Dworkin, M., & Mayo-Prieto, S. (2019). Common Bean Genetics, Breeding, and Genomics for Adaptation to Changing to New Agri-environmental Conditions. En Genomic Designing of Climate-Smart Pulse Crops (pp. 1-106). https://doi.org/10.1007/978-3-319-96932-9_1
DS BULERIA. Repositorio Institucional de la Universidad de León
RD 30-jun-2024