Add to ORKGAs a consequence of Coffea arabica domestication process, the genetic diversity of cultivated genotypes of this species is extremely restricted. According to this observation, FAO organized, in 1964-1965, surveys of spontaneous and subspontaneous genotypes in the main center of origin (Ethiopia). Various studies were performed regarding the phenotypic variability of these accessions. However a clear understanding of the structure of the phenotypic diversity in Ethiopia remains to be reached. We present here the phenotypic analysis of 130 Ethiopians accessions with 37 phenotypic traits. Two main goals were pursued: to evaluate the interest of Ethiopian accessions for Coffea arabica breeding, and to test relationships between phenotypic varia...
Genetic diversity was studied using RAPD markers among 119 coffee (Coffea arabica L.) individuals re...
Coffee provides one of the most widely drunk beverages in the world, and is a very important source ...
The use of single nucleotide polymorphism (SNP) molecular markers has provided advances in selection...
Information about population structure and genetic relationships within and among wild and brazilian...
A field experiment was conducted at Awada Agricultural Research Sub-Center, Ethiopia, to study the m...
The coffee species Coffea arabica is facing numerous challenges regarding climate change, pests and ...
Background: Information on the genetic variability of plants on the basis population is important fo...
The great demand for improvements in productivity lead to the search of new information regarding th...
As a country of origin of coffee, Ethiopia is endowed with an immense diversity of the crop in its d...
Knowledge of genetic diversity is vital for genetic improvement and germplasm conservation. The gene...
Ethiopia is the center of origin and genetic diversity of arabica coffee. Forty-two commercial arabi...
knowledge of nature and extent of genetic variation and diversity available in the germplam or breed...
The South-Western highlands of Ethiopia are considered to be the centre of origin and diversity of t...
Coffea arabica L. is a native coffee species probably originated in Abyssinia, now Ethiopia. The gen...
800x600 Coffea arabica L.,the world most important commercial coffee species, has its center of orig...
Genetic diversity was studied using RAPD markers among 119 coffee (Coffea arabica L.) individuals re...
Coffee provides one of the most widely drunk beverages in the world, and is a very important source ...
The use of single nucleotide polymorphism (SNP) molecular markers has provided advances in selection...
Information about population structure and genetic relationships within and among wild and brazilian...
A field experiment was conducted at Awada Agricultural Research Sub-Center, Ethiopia, to study the m...
The coffee species Coffea arabica is facing numerous challenges regarding climate change, pests and ...
Background: Information on the genetic variability of plants on the basis population is important fo...
The great demand for improvements in productivity lead to the search of new information regarding th...
As a country of origin of coffee, Ethiopia is endowed with an immense diversity of the crop in its d...
Knowledge of genetic diversity is vital for genetic improvement and germplasm conservation. The gene...
Ethiopia is the center of origin and genetic diversity of arabica coffee. Forty-two commercial arabi...
knowledge of nature and extent of genetic variation and diversity available in the germplam or breed...
The South-Western highlands of Ethiopia are considered to be the centre of origin and diversity of t...
Coffea arabica L. is a native coffee species probably originated in Abyssinia, now Ethiopia. The gen...
800x600 Coffea arabica L.,the world most important commercial coffee species, has its center of orig...
Genetic diversity was studied using RAPD markers among 119 coffee (Coffea arabica L.) individuals re...
Coffee provides one of the most widely drunk beverages in the world, and is a very important source ...
The use of single nucleotide polymorphism (SNP) molecular markers has provided advances in selection...