Soil-Landscape Characterization and Mapping to Advance the State of Spatial Soil Information on Ethiopian Highlands: Implications for Site-Specific Soil Management

Seifu, W.; Elias, E.; Gebresamuel, G.; Legesse, G.; Tefera, Wasu Manawko

doi:10.47114/j.agroped.2022.jun4

agroped

2019

DOI: 10.47114/j.agroped.2022.jun4

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Soil-Landscape Characterization and Mapping to Advance the State of Spatial Soil Information on Ethiopian Highlands: Implications for Site-Specific Soil Management

W. Seifu¹,

E. Elias²,

G. Gebresamuel³

et al.

Abstract: Currently, soil characterization and classification are becoming the primary source of information for precision agriculture, land use planning, and management. Thus, this study was focused on perusing the landscape-scale spatial variation of soils in data-scarce areas using toposequence-based ground sampling to characterize and classify the soils. Six typical profiles representing major landforms were opened and studied for their morphological characteristics and physical and chemical properties. Results indi… Show more

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2024

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Genome-wide association analysis revealed genetic markers linked to grain yield and yield related traits in finger millet grown in acidic soils

Brhane,

Haileselassie,

Tesfaye

et al. 2024

Plant Soil

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Aim Soil acidity has a major impact on the finger millet yield and productivity as tolerant cultivars that perform well in acidic soils are limited. This study aimed at evaluating major finger millet phenotypic traits under acidic soils followed by identifying associated markers. Method A total of 288 finger millet genotypes were field evaluated for 8 major phenotypic traits including grain yield under acid soil conditions at two independent locations (Bako and Gute) in Ethiopia. In parallel, the same genotypes were subjected to genotyping-by-sequencing to generate single nucleotide polymorphism markers to be used in the association panel. Results Phenotypic data analysis revealed significant phenotypic variation in all the targeted traits among the studied genotypes. Genotypes Ec-100093, Ec-215803, and Ec-203322 were relatively high-yielding, whereas genotypes Ec-229721 and Ec-242110 had the lowest grain yield across the two locations. The broad-sense heritability of the traits ranged from 0.04 for the number of effective tillers (NET) to 0.78 for days to emergence (DE). The marker-trait association analysis revealed 23 SNP markers significantly associated with one or more traits. Among the 23 significant markers, one marker associated with DE, seven with days to heading (DH), four with days to maturity (DM), one with plant height (PH), two with number of fingers, two with ear length (EL), three with the number of effective tillers (NET) and three with grain yield (GY). Conclusions The identified novel markers associated with the targeted traits will potentially be useful for genomics-driven finger millet improvement in acidic soils.

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Genome-wide association analysis revealed genetic markers linked to grain yield and yield related traits in finger millet grown in acidic soils

Brhane,

Haileselassie,

Tesfaye

et al. 2024

Plant Soil

View full text Add to dashboard Cite

show abstract

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Soil-Landscape Characterization and Mapping to Advance the State of Spatial Soil Information on Ethiopian Highlands: Implications for Site-Specific Soil Management

Cited by 1 publication

References 71 publications

Genome-wide association analysis revealed genetic markers linked to grain yield and yield related traits in finger millet grown in acidic soils

Genome-wide association analysis revealed genetic markers linked to grain yield and yield related traits in finger millet grown in acidic soils

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