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Identification of molecular markers associated with rust resistance genes in lentil (Lens culinaris sub sp. culinaris)
Lentil rust caused by Uromyces vicia- fabae (Pers.) J. Schroet is the most widespread and economically
important disease in Ethiopia, Bangladesh, India, Nepal, and Morocco. The objective of this study was
to determine the ...
Herbicide tolerance Faba bean, chickpea and lentils
The research aimed to screen faba bean, Chickpea and lentils to diverse herbicides. 50 lentil genotypes were screened to Imizathapyr and Metribuzin; 226 Chickpea lines screened to Imizathapyr and Metribuzin, among them 100 ...
Genetic Diversity in Lens Species Revealed by EST and Genomic Simple Sequence Repeat Analysis
Low productivity of pilosae type lentils grown in South Asia is attributed to narrow genetic
base of the released cultivars which results in susceptibility to biotic and abiotic stresses.
For enhancement of productivity ...
Genetic analysis for seed size in three crosses of chickpea (Cicer arietinum L.)
Seed size (determined by 100-seed weight) is an
important component of trade and yield in chickpea (Cicer arietinum L.). The present investigation was undertaken to
study the possibility of maternal inheritance for seed ...
The Lentil Genome – from the sequencer to the field
Lentil (Lens culinaris ssp. culinaris; genome size 4.3 Gb) plays a significant role in supporting
sustainable agriculture worldwide. Its nutrition value has also been recognized as part of the solution to
combat global ...
Walking on the wild side - expanding genetic diversity for future lentil breeding
Systematic use of genetic variability through judicious use of diverse germplasm maximizes genetic gain
per generation, and therefore, maximizes economic value of the crop. Sometime, however, the required
genetic variation ...