Habte NIDA, Post doctoral research associate | Cited by 308 | of Purdue University, IN (Purdue) | Read 27 publications | Contact Habte NIDA

A comprehensive phenotypic and genomic characterization of Ethiopian sorghum germplasm defines core collection and reveals rich genetic potential in adaptive traits. Plant … G Girma, H Nida, A...

Highly experienced plant breeder with nearly 20 years of experience conducting research to develop improved varieties of field crops. Successfully released numerous high-yielding and climate-resilient crop varieties. Supported the commercialization of improved crop varieties.

Jul 19, 2023 · His work is mainly focus on plant immune mechanism against fungal pathogens in Arabidopsis, tomato, and Sorghum. He used molecular, genetic, biochemistry, and …

In this project, we implemented genetic, genomic and molecular approaches to identify loci and/or genes underlying resistance to the two diseases. The results presented in Chapters 2 to 5 provide new insights to the genetic and genomic architecture of resistance to grain mold and anthracnose.

View Habte Nida’s profile on LinkedIn, a professional community of 1 billion members. Plant Breeding, Genetics, Genomics · I am a highly experienced plant breeder and geneticist with 20 years...

Here we present a large-scale experimental demonstration of our computational approach, in which we targeted a TILLING population of 1024 Sorghum bicolor lines to detect carriers of de novo SNPs whose frequency was less than 0.1%, using only 48 pools.

Phenotypic data revealed association of important traits with different sorghum growing agro-climatic regions, high genetic diversity and the presence of rare natural variation in the Ethiopian sorghum germplasm.

Phenotyping for grain mold resistance using the landrace collection identified a large number of resistant accessions and the sorghum MYB locus containing Y1 and Y3 was strongly associated with resistance (Nida et al. 2019).