Biometric analysis of arabica coffee grown in low potassium nutrient solution under greenhouse conditions

Biometric analysis of arabica coffee grown in low potassium nutrient solution under greenhouse conditions

Genetic parameters and associations between morpho-agronomic traits and nutritional efficiencies of arabica coffee cultivars were estimated to identify promising traits to assist in the selection of coffee genotypes efficient in potassium use, under limiting conditions of this nutrient. The experime...

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Bibliographic Details
Published in:Genetics and molecular research Vol. 15; no. 3
Main Authors: Moura, W M, Soares, Y J B, Amaral Júnior, A T, Gravina, G A, Barili, L D, Vieira, H D
Format: Journal Article
Language:English
Published: Brazil 19-09-2016
Subjects:
Biomass
Biometry
Coffea - genetics
Coffea - growth & development
Coffea - metabolism
Environment
Food
Genetic Variation
Genotype
Plant Breeding - methods
Plant Leaves - genetics
Potassium - administration & dosage
Potassium Deficiency
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Summary:Genetic parameters and associations between morpho-agronomic traits and nutritional efficiencies of arabica coffee cultivars were estimated to identify promising traits to assist in the selection of coffee genotypes efficient in potassium use, under limiting conditions of this nutrient. The experiment was conducted in a greenhouse with 20 arabica coffee cultivars grown in nutrient solution with a low potassium level (1.5 mM), using a randomized block design with three replicates. The traits evaluated were plant height, number of leaves, number of nodes, internode length, stem diameter, leaf area, rooting efficiency, potassium absorption efficiency, potassium translocation efficiency, biomass production efficiency, and potassium use efficiency. Genetic variability among coffee cultivars for all the evaluated traits was found. The phenotypic variance for all traits showed a higher contribution of genetic variance compared to environmental variance. Plant height, internode length, stem diameter, leaf area, biomass production efficiency, and potassium use efficiency had a genotypic determination coefficient (H2) above 80% and variation index greater than one. Leaf area and stem diameter had significant and positive genetic correlations with rooting, biomass production, and potassium use efficiencies. Stem diameter has great potential for use in breeding programs with a goal of indirect selection of cultivars that have greater potassium use efficiency in environments with restrictions of this nutrient.
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ISSN:1676-5680
1676-5680
DOI:10.4238/gmr.15038753