Ecology and Evolutionary Biology

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Adaptability and Performance Evaluation of Coffee (coffea arabica l.) Varieties on Growth, Yield and Assosiation of Traits at Mid Highland Area of Western Ethiopia

Received: 29 October 2020    Accepted: 10 November 2020    Published: 19 November 2020
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Abstract

The bases of the idea to conduct this field experiment was the uses of the coffee and the suitable agro-ecology of mao-komo special distinct area, which have relatively the same ecology with potential coffee producing area of western wellega. To identifying adaptable coffee varieties that could exhibit higher yield to maximize coffee production and productivity to the environments of mao-komo special distinct, western Ethiopia, in order to diversify their production and to maximize the income of the farmers in the area. Based on this fact, a field experiment was conducted using six released coffee varieties, arranged with a randomized complete block design with three replicates to select varieties which could exhibit relatively better performance at the area. Those varieties were planted at a spacing of 2 m by 2 m between plants and rows, respectively and were evaluated for yield and yield components. They were grown with shade of Susbaniasusben. From the evaluated varieties it was noted that parameters as plant height, height up to primary branch, internodes length on main stem, canopy diameter, clean coffee yield had significant difference (p<0.05) among the varieties and the highest clean Coffee yield (1392.9, 1338.5 and 1100 Kg ha-1) was scored by the 75227, 7440 and F59 varieties respectively. On the contrary 74110 exhibited least mean yields of 860.1 Kg of clean coffee per hectare. Based on the yield performance 75227 and 7440 varieties were recommended to producers of coffee at Mao-komo area and demonstration needs to be investigated.

DOI 10.11648/j.eeb.20200504.16
Published in Ecology and Evolutionary Biology (Volume 5, Issue 4, December 2020)
Page(s) 159-163
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Arabica Coffee, Clean Coffee, Environments, Released Coffee Varieties, Yields

References
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[2] Phiri N., Baker p., Ruther ford M., Flood J., Musoli P., Mmugi K., Kiambo D., Aduna G., Hakiza G., Pinard F., Odour G. (2010). The regional coffee wilt program, pp. 537-548 In: Proceedings of 23rd International Scientific Colloquium on Coffee (ASIC) 3rd - 8th Bali, Indonesia.
[3] Bahilu W. Abrar S, Nigussie M, Solomon E (2008). Coffee processing and quality research in Ethiopia. In the processing of Coffee diversity and knowledge workshop. EIAR, Addis Ababa, pp. 345-356.
[4] Nigussie E, Deressa T, Berhanu M, Getachew W (2008). Research center based extension Intervention on improved Coffee Technologies. In the proceeding of coffee diversity and knowledge workshop EIAR, Addis Ababa, pp. 345-356.
[5] Melaku Jirata and Samuel Assefa. (2000). The status of coffee berry disease in Oromia. In: Proceedings of the Workshop on Control of Coffee Berry Disease in Ethiopia. 13-15th, Addis Ababa, Ethiopia.
[6] Yigzaw D (2005) Assessment of genetic diversity of Ethiopian Arabica coوٴee genotypes using morphological, biochemical and molecular markers. PhD Dissertation, University of the free state, Bloemfontein, South Africa.
[7] Kebede M, Bellachew B (2008) Phenotypic diversity in the Hararge co’ee (Co’eD arabica L.) germplasm for quantitative traits. East African Journal of Sciences 2: 13-18.
[8] Ethiopian Institute of Agricultural research (2017) iіeen years (2016-2030) National coffee strategy document.
[9] Mawardi S, Hulupi R (1995) Genotype by environment interaction of bean characteristics in Arabica coffee Proceedings of ASIC, 16e Colloque, Kyoto, pp: 637-644
[10] Eshetu D, Teame G, Girma A (1999). Significance of minor disease of coffee Arabica Ethiopia. A review In the Proceeding of the Workshop on the control of Coffee Berry Disease (CBD) in Ethiopia, Pp. 58-65.
[11] Yonas B, Beyatta B. (2008). Cultivar by environment interaction and stability analysis of Arabica genotypes, In the proceeding of coffee diversity and knowledge workshop EIAR, Addis Ababa. Pp. 56-63.
[12] Yonas B (2005) Genotype by environment interaction and stability analysis of co’ee bean yield and yield related traits. MSc Нesis, Haramaya University, Ethiopia.
[13] Haarer, A. E. 1962. Modern Coffee Production. Leonard Hill (Books) Limited, London.
[14] EARO (Ethiopian Agricultural research Organization) 2004. Released crop varieties and their recommended cultural practices. Progress report. Addis Ababa, Ethiopia.
[15] NMA, 2010. (National Meteorological Service Agency).
[16] SAS Institute Inc. Cray. 2002. Users Guide. Version 9.2. NC. USA.
[17] Cooper M and Hammer GL (1996). Synthesis of strategies for crop improvement. (Eds M. Cooper GL Hammer.) pp. 591-623 (CAB. International; Wallingford, UK.) PMid: 9239671.
Author Information
  • Ethiopian Institute of Agricultural Research, Kulumsa Agricultural Research Center, Asella, Ethiopia

  • Ethiopian Institute of Agricultural Research, Assosa Agricultural Research Center, Assosa, Ethiopia

  • Ethiopian Institute of Agricultural Research, Assosa Agricultural Research Center, Assosa, Ethiopia

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    Nimona Fufa, Desta Bekele, Jemal Ibirahim. (2020). Adaptability and Performance Evaluation of Coffee (coffea arabica l.) Varieties on Growth, Yield and Assosiation of Traits at Mid Highland Area of Western Ethiopia. Ecology and Evolutionary Biology, 5(4), 159-163. https://doi.org/10.11648/j.eeb.20200504.16

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    Nimona Fufa; Desta Bekele; Jemal Ibirahim. Adaptability and Performance Evaluation of Coffee (coffea arabica l.) Varieties on Growth, Yield and Assosiation of Traits at Mid Highland Area of Western Ethiopia. Ecol. Evol. Biol. 2020, 5(4), 159-163. doi: 10.11648/j.eeb.20200504.16

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    AMA Style

    Nimona Fufa, Desta Bekele, Jemal Ibirahim. Adaptability and Performance Evaluation of Coffee (coffea arabica l.) Varieties on Growth, Yield and Assosiation of Traits at Mid Highland Area of Western Ethiopia. Ecol Evol Biol. 2020;5(4):159-163. doi: 10.11648/j.eeb.20200504.16

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  • @article{10.11648/j.eeb.20200504.16,
      author = {Nimona Fufa and Desta Bekele and Jemal Ibirahim},
      title = {Adaptability and Performance Evaluation of Coffee (coffea arabica l.) Varieties on Growth, Yield and Assosiation of Traits at Mid Highland Area of Western Ethiopia},
      journal = {Ecology and Evolutionary Biology},
      volume = {5},
      number = {4},
      pages = {159-163},
      doi = {10.11648/j.eeb.20200504.16},
      url = {https://doi.org/10.11648/j.eeb.20200504.16},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.eeb.20200504.16},
      abstract = {The bases of the idea to conduct this field experiment was the uses of the coffee and the suitable agro-ecology of mao-komo special distinct area, which have relatively the same ecology with potential coffee producing area of western wellega. To identifying adaptable coffee varieties that could exhibit higher yield to maximize coffee production and productivity to the environments of mao-komo special distinct, western Ethiopia, in order to diversify their production and to maximize the income of the farmers in the area. Based on this fact, a field experiment was conducted using six released coffee varieties, arranged with a randomized complete block design with three replicates to select varieties which could exhibit relatively better performance at the area. Those varieties were planted at a spacing of 2 m by 2 m between plants and rows, respectively and were evaluated for yield and yield components. They were grown with shade of Susbaniasusben. From the evaluated varieties it was noted that parameters as plant height, height up to primary branch, internodes length on main stem, canopy diameter, clean coffee yield had significant difference (p-1) was scored by the 75227, 7440 and F59 varieties respectively. On the contrary 74110 exhibited least mean yields of 860.1 Kg of clean coffee per hectare. Based on the yield performance 75227 and 7440 varieties were recommended to producers of coffee at Mao-komo area and demonstration needs to be investigated.},
     year = {2020}
    }
    

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    T1  - Adaptability and Performance Evaluation of Coffee (coffea arabica l.) Varieties on Growth, Yield and Assosiation of Traits at Mid Highland Area of Western Ethiopia
    AU  - Nimona Fufa
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    JO  - Ecology and Evolutionary Biology
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    PB  - Science Publishing Group
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    AB  - The bases of the idea to conduct this field experiment was the uses of the coffee and the suitable agro-ecology of mao-komo special distinct area, which have relatively the same ecology with potential coffee producing area of western wellega. To identifying adaptable coffee varieties that could exhibit higher yield to maximize coffee production and productivity to the environments of mao-komo special distinct, western Ethiopia, in order to diversify their production and to maximize the income of the farmers in the area. Based on this fact, a field experiment was conducted using six released coffee varieties, arranged with a randomized complete block design with three replicates to select varieties which could exhibit relatively better performance at the area. Those varieties were planted at a spacing of 2 m by 2 m between plants and rows, respectively and were evaluated for yield and yield components. They were grown with shade of Susbaniasusben. From the evaluated varieties it was noted that parameters as plant height, height up to primary branch, internodes length on main stem, canopy diameter, clean coffee yield had significant difference (p-1) was scored by the 75227, 7440 and F59 varieties respectively. On the contrary 74110 exhibited least mean yields of 860.1 Kg of clean coffee per hectare. Based on the yield performance 75227 and 7440 varieties were recommended to producers of coffee at Mao-komo area and demonstration needs to be investigated.
    VL  - 5
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