In Ethiopia,there are 32.85 millions of sheep,more than 99 % of which are indigenous.However,the productivity of local sheep under traditional production system is low with high mortality of sheep.There are two ways of improving performance of sheep and goats,namely improving the enviroment of animals and/or improving there genetic potential.The aim of this study was to predict genetic gains of breedingobjective traits and select the best sheep selection scheme for Gumuz andWashera sheep. Body size(six month weight and yearling weight) and litter size were breeding objective traits identified by own flock animal ranking experiment and personal interview. Deterministic approach of ZPLAN computor program is used for modeling input parametres of Gumuz and Washera sheep and simulating breeding plans using gene flow method and selection index procedures. One-tier cooperative sheep breeding scheme were proposed whereby ram exchange between and within villages is the main means of genetic dissimination. Genetic gains predicted for six month weight of Gumuz and Washera sheep were 0.43 and 0.55 kg,respectively. Genetic gains predicted for yearling weight of Gumuz and Washera sheep were 0.55 and 0.60 kg,respectively. Genetic gains predicted for litter  size of Gumuz and Washera sheep were 0.08 and 0.09 lambs,respectively. The lower rate of inbreeding, the higher monetary genetic gain for aggregate genotype,higher return to investmnet and higher profit/ewe/year were quality measures of breeding program considered to prefer scheme 4 for both Gumuz and Washera sheep.Hence,for both Gumuz and Washera sheep populations a sheep selection scheme designed with 15 % selection proportion and one year ram use for breeding was recommended. Special emphasis need to be given to yearling weight with higher predicted genetic response and higher percentage return to investment.

breeding program ;six month weight; selection; yearling weight

Abegaz, S., & Awgichew, K. (2008). Genetic improvement of sheep and goats. In A. Yami & R.C. Merkel (Eds.), Sheep and Goat Production Handbook for Ethiopia (pp. 81-102). Ethiopia Sheep and Goat Productivity Improvement Program.

Central Statistical Agency.(2020). Agricultural sample survey report on livestock and livestock characteristics. Addis Ababa, Ethiopia: Federal democratic republic of Ethiopia Central Statistical Agency.

Edea, Z., Haile, A., Tibbo, M., Sharma, A.K., Sölkner, J., & Wurzinger, M. (2012). Sheep production systems and breeding practices of smallholders in western and south-western Ethiopia: Implications for designing community-based breeding strategies. Livestock Research for Rural Development, 24, 7.

Food and Agricultural organization.(2010). Breeding strategies for sustainable management of animal genetic resources. FAO Animal Production and Health Guidelines. No. 3.

Food and Agricultural organization.(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. (available at http://www.fao.org/3/a-i4787e/index.html)

Getachew, T., Haile, A., Tibbo, M., Sharma, A.K., Sölkner, J., & Wurzinger, M. (2010). Herd management and breeding practices of sheep owners in a mixed crop-livestock and a pastoral system of Ethiopia. African Journal of Agricultural Research, 5, 685-691.

Gizaw, S., Van Arendonk, J.A.M., Komen, H., Windig, J.J., & Hanotte, O. (2007). Population structure, genetic variation and morphological diversity in indigenous sheep of Ethiopia. Animal Genetics, 38, 621–628.

Gizaw, S., Komen, H., Hanotte, O., & Van Arendonk, J.A.M.(2008). Indigenous sheep resources of Ethiopia: types, production systems and farmers preferences. Animal Genetic Resources Information No. 43.

Gizaw, S.(2009). Sheep breeds of Ethiopia: A guide for identification and utilization. In Alemu Yami, Kassahun Awgichew, T.A. Gipson & R.C. Merkel (Eds.), Sheep and Goat Production Handbook for Ethiopia: Technical bulletin no.28. Addis Ababa, Ethiopian Sheep and Goat Productivity Improvement Program

Gizaw, S., Haile, A., & Dessie, T. (2010). Breeding objectives and breeding plans for Washera sheep under subsistence and market-oriented production systems. Ethiopian Journal of Animal Production, 10, 1–18.

Gizaw, S., Getachew, T., Edea, Z., Mirkena, T., Duguma, G., Tibbo, M., Rischkowsky, B., Mwai, A.O., Dessie, T., Wurzinger, M., Solkner, J., & Haile, A.(2013). Characterization of indigenous breeding strategies of the sheep farming communities of Ethiopia: A basis for designing community-based breeding programs. ICARDA working paper, Aleppo, Syria, ICARDA.

Gizaw, S., van Arendonk, J.A.M., Valle-Zárate, A., Haile, A., Rischkowsky, B., Dessie, T., & Mwai, A.O. (2014). Breeding programs for smallholder farming systems: 1. Evaluation of alternative designs of breeding schemes for Menz sheep. Journal of Animal Breeding and Genetics, 131(5), 350-357. https:// doi: 10.1111/jbg.12101

Gizaw, S, 2021, personnel communication. A tool for estimating economic values of traits for designing small ruminant breeding programs under smallholder systems

Haile, A., Wurzinger, M., Mueller, J., Mirkena, T., Duguma, G., Mwai, A.O., Sölkner, J., & Rischkowsky, B.(2011). Guidelines for Setting up Community-based Sheep Breeding Programs in Ethiopia. ICARDA - tools and guidelines No.1. Aleppo, Syria, ICARDA.

Haile, A., Mirkena, T., Duguma, G., Wurzinger, M., Rischkowsky, B., Tibbo, M., Mwai, A.O., & Sölkner, J. (2013). Community based sheep breeding programs: Tapping into indigenous knowledge. Livestock Research for Rural Development, 25, 12.

Institute of Biodiversity Conservation.(2004). The State of Ethiopia's Farm Animal Genetic Resources: Country Report. A Contribution to the First Report on the State of the World's Animal Genetic Resources, Addis Ababa, Ethiopia: Ethiopian Institute of Biodiversity Conservation.

Karnuah, A.B., Dunga, G., & Rewe, T. (2018). Community based breeding program for improve goat production in Liberia. MOJ Current Research and Review, 1, 216‒221.

Kosgey, I.S., & Okeyo, A.M.(2007).Genetic improvement of small ruminants in low-input, smallholder production systems: Technical and infrastructural issues. Small Ruminant Research, 70, 76-88.

Krupová, Z., Oravcová, M., Krupa, E., & Peškovičová, D. (2008). Methods for calculating economic weights of important traits in sheep. Slovak Journal of Animal Science, 41 (1), 24-29.

Mekuriaw, S., Taye, M., Mekuriaw, Z., Mekuriaw, G., Mazengia, H., & Haile, A. (2013). Evaluation of reproductive performances and survival rate of Washera sheep under farm and station management systems in Amhara region, Ethiopia. Agricultural Advances, 2(7), 206-215.

Mirkena, T., Duguma, D., Willam, A., Wurzinger, M., Haile, A., & Rischkowsky, B. (2012). Community-based alternative breeding plans for indigenous sheep breeds in four agro-ecological zones of Ethiopia. Journal of Animal Breeding and Genetics, 129, 244-253.

Nitter, G., Graser, H.U., & Barwick, S.A. (1994). Evaluation of advanced industry breeding schemes for Australian beef cattle. I. Method of evaluation and analysis for an example population structure. Australian Journal of Agricultural Research, 45, 1641-1646.

Oldenbroek, K., & van der Waaij, L. (2014). Animal breeding and genetics. (pp.141-144). Aline van Genderen, Hans van Tartwijk, Jan van Diepen and Linda Krijgsman (Eds.). Wageningen University and research centre, the Netherlands: Centre for genetic resources and animal breeding and genomics group.

Rai, U.K. (2003). Minimum Sizes for Viable Population and Conservation. Our Nature, 1, 3-9.

Safari, E., Fogarty, N.M., & Gilmour, A.R. (2005). A review of genetic parameter estimates for wool, growth, meat and reproduction traits in sheep. Livestock Production Science, 92, 271-289. https://doi:10.1016/j.livprodsci.2004.09.003

Taye, M., Abebe, G., Gizaw, S., Lemma, S., Mekoya, A., & Tibbo, M. (2011). Reproductive performance and survival of Washera sheep under traditional management system in Yilmanadensa and Quarit districts of Amhara National Regional State, Ethiopia. Journal of Animal and Veterinary Advances, 10(9), 1158-1165.

Tibbo, M. (2006). Productivity and health of indigenous sheep breeds and crossbreds in the central Ethiopian highlands. PhD thesis. Swedish University of Agricultural Sciences, Faculty of Medicine and Animal Science Department of Animal Breeding and Genetics.

Willam, A., Nitter, G., Bartenchlager, H., Karras, K., Niebel, E., & Graser, H.U. (2008). ZPLAN-mannual for a PC-program to optimize livestock selection schemes. Manual Version 2008 for Source Code “z10.for”. Institute of Animal Production in the Tropics and Subtropics. Universität Hohenheim, Stuttgart, Germany.