Publications by authors named "Carlos Munoz-Zavala"
A stable genomic region conferring FSR resistance at ~250 Mb on chromosome 1 was identified by GWAS. Genomic prediction has the potential to improve FSR resistance. Fusarium stalk rot (FSR) is a global destructive disease in maize; the efficiency of phenotypic selection for improving FSR resistance was low.
View Article and Find Full Text PDFThree F2-derived biparental doubled haploid (DH) maize populations were generated for genetic mapping of resistance to common rust. Each of the three populations has the same susceptible parent, but a different resistance donor parent. Population 1 and 3 consist of 320 lines each, population 2 consists of 260 lines.
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- - Breeding crops for disease resistance aims to improve yields under biotic stress, but traditional evaluation methods are labor-intensive and limit the scale of trials.
- - This study compares visual scoring (VS) of maize resistance to common rust with remote sensing (RS) techniques over two years, finding that VS provided higher quality data for genomic analysis.
- - Both methods identified the same genetic region associated with disease resistance, suggesting RS technology could enhance genetic evaluations while lowering costs and expanding trial capacities.
Turcicum leaf blight (TLB) is a common foliar disease of maize in Mexico that is caused by the fungal pathogen . The most effective management strategy against TLB is monogenic race-specific resistance. Among the 140 isolates from symptomatic leaves collected from maize fields in Mexico, 100 were obtained from tropical (Veracruz) and temperate areas (Estado de México) between 2010 and 2019, and 40 isolates were obtained from tropical (Sinaloa, Tamaulipas, Veracruz, and Chiapas), subtropical (Nayarit, Jalisco, and Guanajuato), and temperate areas (Estado de Mexico, Hidalgo, and Puebla) collected in 2019.
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