Indigenous goat populations in Ethiopia contain a number of significant genetic features, including the ability to function better under limited input and climatic stress, resistance to viral illnesses and parasites, as well as heat stress. Molecular or phenotypic characterisation is required to offer comprehensive database information of variance among goat populations for sensible utilization of this crucial trait and goat resources. Even though genetic characterization for Arsi-Bale and Woyito-Guji breeds have been done, which are distributed in southern part of Ethiopia, due to overlapping of the distribution of these two breeds in the study area the present phenotypic characterization of indigenous goat was initiated. Despite the studies done, information on phenotypic characteristics and production systems of some indigenous goat populations in study area is still scanty. Besides, there was little intervention works so far on the improvement of production and productivity of local goat breeds in the area. A study was conducted at Abaya and Yirgachafe districts to characterize indigenous goat types phenotypically. Data were collected through field measurements and visual observation of qualitative traits. Totally 540 goats were used for metric and morphometric measurement. Results of the study revealed that the goat populations found in Abaya and Yirgachafe district were different characteristics which are physically Abaya goats were closest with Arsi-Bale whereas yirgachafee with Woyto-Guji which are mostly distributed goat breeds in southern Ethiopia. The dominant coat color pattern in study area was plain, patchy, and spotted with proportions of 55.19, 37.04, and 7.78% and 46.67, 38.89, and 14.44% in Abaya and Yirgachafee district respectively. A strong and positive correlation (r = 0.83, 0.76) was observed between heart girth and body weight for male and female goat populations respectively. Generally, the indigenous goat population has its own difference in its morphological and morphometric traits. Traits have their own economic contribution. Therefore, identifying these important traits for further genetic improvements, conservation and sustainable utilization of the genetic resources of the diversified goat population is important.
Published in | American Journal of Life Sciences (Volume 10, Issue 3) |
DOI | 10.11648/j.ajls.20221003.11 |
Page(s) | 31-38 |
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), 2022. Published by Science Publishing Group |
Linear Body Measurement, Qualitative Trait, Quantitative Trait
[1] | Hassen, H. 2012. Phenotypic characterization of Ethiopian indigenous goat populations. African Journal of Biotechnology African Journal of Biotechnology Vol. 11 (73), pp. 13838-13846. |
[2] | Hirpa, A. & Abebe, G. 2008. Economic Significance of Sheep and Goats Addis Ababa, Ethiopia. |
[3] | Hussein Hassen. 2015. Phenotypic characterization and breeding practices of Arsi-Bale goat population in selected districts of Arsi and Bale zones, Oromiya regional state, Ethiopia. MSc thesis. Bahir Dar University, Bahir Dar, Ethiopia. |
[4] | ABERA, B., KEBEDE, K., GIZAW, S. & FEYERA, T. 2014. On-farm phenotypic characterization of indigenous sheep types in Selale Area, Central Ethiopia. Veterinary Science & Technology, 5, 1. |
[5] | ASEFA, B., KEBEDE, K. & EFFA, K. 2015. Assessment of production and reproduction system of indigenous goat types in Bale Zone, Oromia, Ethiopia. Academia Journal of Agricultural Research, 3, 348-360. |
[6] | CANKAYA, S. 2009. A comparative study of some estimation methods for parameters and effects of outliers in simple regression model for research on small ruminants. Tropical animal health and production, 41, 35-41. |
[7] | COULTER, G., ROUNSAVILLE, T. & FOOTE, R. 1976. Heritability of testicular size and consistency in Holstein bulls. Journal of animal science, 43, 9-12. |
[8] | CSA 2018. Federal Democratic Republic Of Ethiopia Central Statistical Agency report on Livestock and Livestock Characteristics Volume II, Statistical Bulletin 587, Addis Ababa. |
[9] | DAUDU, C. S. 1984. Spermatozoa output, testicular sperm reserve and epididymal storage capacity of the Red Sokoto goats indigenous to northern Nigeria. Theriogenology, 21, 317-324. |
[10] | FAO 2012. Phenotypic characterization of animal genetic resources. FAO Animal Production and Health Guidelines No. 11. Rome. |
[11] | FAO 2015 The Second Report on the State of the World’s Animal Genetic Resources for Food and Agriculture, edited by B. D. Scherf & D. Pilling. FAO Commission on Genetic Resources for Food and Agriculture Assessments. Rome (available at http://www.fao.org/3/a-i4787e/index.html). |
[12] | GATEW, H. 2015. Characterization of indigenous goat populations in selected areas of Ethiopia. American-Eurasian Journal of Scientific Research, 10, 287-298. |
[13] | ISAAC, J. L. 2005. Potential causes and life-history consequences of sexual size dimorphism in mammals. Mammal Review, 35, 101-115. |
[14] | MAGNABOSCO, C., OJALA, M., DE LOS REYES, A., SAINZ, R., FERNANDES, A. & FAMULA, T. 2002. Estimates of environmental effects and genetic parameters for body measurements and weight in Brahman cattle raised in Mexico. Journal of Animal Breeding and genetics, 119, 221-228. |
[15] | MEKASHA GEBRE, Y. 2007. Reproductive traits in Ethiopian male goats. |
[16] | SEMAKULA, J., MUTETIKKA, D., KUGONZA, R. & MPAIRWE, D. 2010. Variability in body morphometric measurements and their application in predicting live body weight of Mubende and Small East African goat breeds in Uganda. Middle East Journal of Scientific Research, 5, 98-105. |
[17] | TAKELE, A. 2016. Phenotypic characterization of indigenous goat types and their production system in shabelle zone, south eastern Ethiopia. International Journal of Innovative Research and Development, 5, 234-252. |
[18] | TESFAHUN, B., KEBEDE, K. & EFFA, K. 2017. Traditional goat husbandry practice under pastoral systems in South Omo zone, southern Ethiopia. Tropical animal health and production, 49, 625-632. |
[19] | THIRUVENKADAN, A. 2005. Determination of best-fitted regression model for estimation of body weight in Kanni Adu kids under farmer’s management system. Livestock research for Rural development, 17, 1-11. |
[20] | TUCHO, T. A. & TESFAYE, A. 2004. Genetic characterization of indigenous goat populations of Ethiopia using microsatellite DNA markers. NDRI. |
[21] | ZERGAW, N. & DESSIE, T. 2014. On Farm Phenotypic Characterization and Performance Evaluation of Central Highland and Woyto Guji Goat Types for Designing Community Based Breeding Strategies in Ethiopia. Haramaya University. |
APA Style
Teshager Muluneh, Wondimagegn Tadesse. (2022). Phenotypic Characterization of Indigenous Goat Population in Southern, Ethiopia. American Journal of Life Sciences, 10(3), 31-38. https://doi.org/10.11648/j.ajls.20221003.11
ACS Style
Teshager Muluneh; Wondimagegn Tadesse. Phenotypic Characterization of Indigenous Goat Population in Southern, Ethiopia. Am. J. Life Sci. 2022, 10(3), 31-38. doi: 10.11648/j.ajls.20221003.11
AMA Style
Teshager Muluneh, Wondimagegn Tadesse. Phenotypic Characterization of Indigenous Goat Population in Southern, Ethiopia. Am J Life Sci. 2022;10(3):31-38. doi: 10.11648/j.ajls.20221003.11
@article{10.11648/j.ajls.20221003.11, author = {Teshager Muluneh and Wondimagegn Tadesse}, title = {Phenotypic Characterization of Indigenous Goat Population in Southern, Ethiopia}, journal = {American Journal of Life Sciences}, volume = {10}, number = {3}, pages = {31-38}, doi = {10.11648/j.ajls.20221003.11}, url = {https://doi.org/10.11648/j.ajls.20221003.11}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajls.20221003.11}, abstract = {Indigenous goat populations in Ethiopia contain a number of significant genetic features, including the ability to function better under limited input and climatic stress, resistance to viral illnesses and parasites, as well as heat stress. Molecular or phenotypic characterisation is required to offer comprehensive database information of variance among goat populations for sensible utilization of this crucial trait and goat resources. Even though genetic characterization for Arsi-Bale and Woyito-Guji breeds have been done, which are distributed in southern part of Ethiopia, due to overlapping of the distribution of these two breeds in the study area the present phenotypic characterization of indigenous goat was initiated. Despite the studies done, information on phenotypic characteristics and production systems of some indigenous goat populations in study area is still scanty. Besides, there was little intervention works so far on the improvement of production and productivity of local goat breeds in the area. A study was conducted at Abaya and Yirgachafe districts to characterize indigenous goat types phenotypically. Data were collected through field measurements and visual observation of qualitative traits. Totally 540 goats were used for metric and morphometric measurement. Results of the study revealed that the goat populations found in Abaya and Yirgachafe district were different characteristics which are physically Abaya goats were closest with Arsi-Bale whereas yirgachafee with Woyto-Guji which are mostly distributed goat breeds in southern Ethiopia. The dominant coat color pattern in study area was plain, patchy, and spotted with proportions of 55.19, 37.04, and 7.78% and 46.67, 38.89, and 14.44% in Abaya and Yirgachafee district respectively. A strong and positive correlation (r = 0.83, 0.76) was observed between heart girth and body weight for male and female goat populations respectively. Generally, the indigenous goat population has its own difference in its morphological and morphometric traits. Traits have their own economic contribution. Therefore, identifying these important traits for further genetic improvements, conservation and sustainable utilization of the genetic resources of the diversified goat population is important.}, year = {2022} }
TY - JOUR T1 - Phenotypic Characterization of Indigenous Goat Population in Southern, Ethiopia AU - Teshager Muluneh AU - Wondimagegn Tadesse Y1 - 2022/06/08 PY - 2022 N1 - https://doi.org/10.11648/j.ajls.20221003.11 DO - 10.11648/j.ajls.20221003.11 T2 - American Journal of Life Sciences JF - American Journal of Life Sciences JO - American Journal of Life Sciences SP - 31 EP - 38 PB - Science Publishing Group SN - 2328-5737 UR - https://doi.org/10.11648/j.ajls.20221003.11 AB - Indigenous goat populations in Ethiopia contain a number of significant genetic features, including the ability to function better under limited input and climatic stress, resistance to viral illnesses and parasites, as well as heat stress. Molecular or phenotypic characterisation is required to offer comprehensive database information of variance among goat populations for sensible utilization of this crucial trait and goat resources. Even though genetic characterization for Arsi-Bale and Woyito-Guji breeds have been done, which are distributed in southern part of Ethiopia, due to overlapping of the distribution of these two breeds in the study area the present phenotypic characterization of indigenous goat was initiated. Despite the studies done, information on phenotypic characteristics and production systems of some indigenous goat populations in study area is still scanty. Besides, there was little intervention works so far on the improvement of production and productivity of local goat breeds in the area. A study was conducted at Abaya and Yirgachafe districts to characterize indigenous goat types phenotypically. Data were collected through field measurements and visual observation of qualitative traits. Totally 540 goats were used for metric and morphometric measurement. Results of the study revealed that the goat populations found in Abaya and Yirgachafe district were different characteristics which are physically Abaya goats were closest with Arsi-Bale whereas yirgachafee with Woyto-Guji which are mostly distributed goat breeds in southern Ethiopia. The dominant coat color pattern in study area was plain, patchy, and spotted with proportions of 55.19, 37.04, and 7.78% and 46.67, 38.89, and 14.44% in Abaya and Yirgachafee district respectively. A strong and positive correlation (r = 0.83, 0.76) was observed between heart girth and body weight for male and female goat populations respectively. Generally, the indigenous goat population has its own difference in its morphological and morphometric traits. Traits have their own economic contribution. Therefore, identifying these important traits for further genetic improvements, conservation and sustainable utilization of the genetic resources of the diversified goat population is important. VL - 10 IS - 3 ER -