Integrated fish farming is a successful and ideal approach for increased farm production and productivity of small scale farmers’ in developing countries. However, insufficient information is available in this area. More importantly, information on farmers’ feedback on these farming systems is scanty. Therefore, it is important to work on this issue so as to inform research target on local challenges and realize demonstrated farming systems to farmers’ context. This paper is aimed at assessing farmers’ feedback and perception of integrated fish farming taking insights from a model fish-vegetable-herb production system demonstrated at the National Fisheries and Aquatic Life Research Center. For this purpose, a sample of twelve farmers, who already started fish farming in South west Shewa zone of Oromia region were invited. The demonstration was researcher managed showing its operation on the ground. The demonstration includes non-integrated replica of vegetables grown to help participants observe the yield difference between vegetables grown using fish pond water and tap water. Mixed methods research was applied to study the demonstration results. Data collection tools used were mini structured questionnaire followed by a focus group discussion with farmers. Data Analysis was done using MS-Excel and NVivo Version-11. Kirkpatrick’s procedure of training evaluation was adapted for this purpose. In addition, thematic analysis was also applied. Simple descriptive statistics was also used. Result of the analysis on farmers’ feedback showed that they found the demonstration, effective, motivational and up to their expectations. They also perceived the benefits, challenges and solutions for successful implementation of integrated fish farm site. Finally, diversifying production of horticultural crops in integrated fish farming, sustainable input supply, appropriate design of integrated fish farming site with efficient water resource use were considered by farmers as important ingredients for establishing an integrated model fish farm site.
Published in | Research & Development (Volume 3, Issue 1) |
DOI | 10.11648/j.rd.20220301.19 |
Page(s) | 52-58 |
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. |
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Copyright © The Author(s), 2022. Published by Science Publishing Group |
Demonstration, Integrated Fish Farming, Feedback, Perception
[1] | Belay, A. W., Prabha, D. L., Sreenivasa, V., and Aschalew, L. 2016. A study on the profitability of fish and horticrop integrated farming at Nono district, west Shewa Zone, Ethiopia. Greener Journal of Agricultural Sciences, 6 (2), 41-48. |
[2] | Boland, M. J., Rae, A. N., Vereijken, J. M., Meuwissen, M. P. M., Fisher, A. R. H., and Van, M. A. J. S. 2013. The future supply of animal derived protein for human consumption. Journal of Trends in Food Science and Technology, 29 (1), 62-73. |
[3] | Daba, T., and Tokuma, N. 2011. Integrated fish horticulture farm at Taltale in Debrelibanos, North Shewa Zone, Oromia, Ethiopia. In: Biruk, L., and Abebe, G (eds.). Proceedings of the third annual conference on: Impacts of Climate Change and Population on Tropical Aquatic Resources. 3-6 February, Haramaya University, Haramaya. pp. 126-135. |
[4] | Daba, T., Alemayehu, A., and Megersa, E. 2017. Potential of integrated fish poultry fish vegetable farming system in mitigating nutritional insecurity at small scale farmers’ level in East Wollega, Oromia, Ethiopia. International Journal of Fisheries and Aquatic Studies, 5 (4), 377-382. |
[5] | Dinku, G., Fekadu, A., Tekleyohannes, B., Hizkiel, K., and Tsegaye, T. 2017. Evaluation of integrated fish farming with chicken and vegetables in Silte district of Southern Ethiopia. Advance Research Journal of Multi-Disciplinary Discoveries, 17 (1): 20-27. |
[6] | Esayas, A., Alemayehu, W., Abelneh, Y., and Yared, T. 2020. On-station evaluation of integrated agriculture aquaculture (IAA) on yield of potato (Solanum tuberosum) and tomato (Lycopersiconesculentum). International Research Journal of Science and Technology, 1 (2), 139-142. |
[7] | Fabiosa, J. F., 2005. Growing demand for animal protein source products in Indonesia: trade implications, Working Paper 05 WP 400. Center for Agricultural and Rural Development Iowa State University Ames, IOWA. |
[8] | Frei, M., and Becker, K. 2005. A greenhouse experiment on growth and yield effects in integrated rice and fish culture. Aquaculture, 244 (2005), 119-128. |
[9] | Hiwot, T., Kibru, T., and Adamneh, D. 2016. Potentials and challenges of smallholder fish farming in Ethiopia: the case of south-west and west Shewa zones, Oromiya, Ethiopia. Journal of Science and Sustainable Development, 4 (1), 53-60. |
[10] | Holliman, R., 2005. Reception analysis of science news: evaluating focus groups as a method. Sociologia e Ricerca Sociale, 26 (76), 254-264. |
[11] | Huisman, E. A., Born, A. F. and Verdegem, M. C. J. 1993. Tropical Aquaculture: Its constraints, opportunities and development, production, environment and quality. Bordeaux aquaculture’92. G. Bernabe and P. Kestemont (eds.). European Aquaculture Society Special Publication. 18: 385-406. |
[12] | Kang, O., Jeremiah, J. A., Brown, Laura, C., and Halfayrd, A. 2006. Effect of Using Different Types of Organic Animal Manure on Plankton Abundance, On Growth and survival of Tilapia redalli (Boulenger) in Ponds. Aquaculture Research, 37, 1360-1371. |
[13] | Kassahun, M. and Bangu, B. 2019. Integrated Fish-Poultry- Vegetable Farming in Aleta Wondo and Dara Woreda of the Sidama Zone. In: Fekede, F., Getu, K., Firew, K. and Getahun, K. (eds.). Proceedings of Livestock Research Results 2019. November, 2020. Ethiopian Institute of Agricultural research, Addis Ababa, Ethiopia. |
[14] | Kirkpatrick, D. L., and Kirkpatrick J. D. 2006. Evaluating Training Programs: The Four Levels. 3rd Ed. Berrett Koehler Publishers Inc, Sanfrancisco, California. 399p. |
[15] | Krueger, R. A., and Casey, M. A. 2000. Focus Groups: A practical guide for applied research. 5th ed. Sage Publishers inc, Thousand Oaks, California. 560p. |
[16] | Lemma, A. 2021. Integrated fish-poultry-horticulture- forage and fattening production system at Godino, Ada’a’s District, East Shewa zone. International Journal of Advanced Research in Biological Sciences, 8 (2), 15-25. |
[17] | Lemma, D., Devi, L. P., Sreenivasa, V. and Getahun, A. 2015. Performance evaluation of paddy and fish integrated farming at Dambi-Gobu micro watershed at Bako, West Shewa, Ethiopia. Advanced Journal of Agricultural Research, 3 (2), 13-21. |
[18] | Limbu, S. M., Shoko, A. P., Lamtane, H. A., Kishe-Machumu, M. A., Joram, M. C., Mbonde, A. S., Mgana, H. F., and Mgaya, Y. D. 2016. Fish polyculture system integrated with vegetable farming improves yield and economic benefits of small scale farmers. Aquaculture Research, 1, 1-14. |
[19] | Megerssa, E., Daba, T., and Tokuma, N. 2016. Fish growth performance in ponds integrated with poultry farm and fertilized with goat manure: a case in Ethiopian rift valley. International Journal of Fishery Science and Aquaculture, 3 (2), 40-45. |
[20] | Mekonen, D., Merkine, B., and Bereket, H. 2021. Pre-extension demonstration of integrated aquaculture (fish- chicken-vegetable) at Arbegona and Gedeb Woredas, Southern, Ethiopia. Research and Development, 2 (4), 97-102. |
[21] | MOA, Vegetables, fruits and root crops production technology package manual for extension professionals. |
[22] | Mohammed, I. G., Tadesse, M., and Haile, K. 2016. Poverty alleviation through integrated pond fish farming with poultry and vegetables production at small-scale farmers in Dilla zuria woreda, Southern Ethiopia. Journal of Poverty, Investment and Development, 24, 52-58. |
[23] | Mulokozi, D. 2021. Integrated agriculture and aquaculture systems for enhanced food production and income diversification in Tanzania. (PhD thesis). Stockholm University, Sweden. |
[24] | Olabode, D., Omotesho, K., Olabanji, O., Ogunlade, I. and Adebesi, O. 2021. Rice farmers’ perception and knowledge of integrated rice and fish farming in selected local government areas of Kwara State. Cercetari Agronomice in Moldova, 4 (184), 368-383. |
[25] | Omogho, G., and Eweto, I. 2020. Determinants of rice and fish farmers’ perception of integrated rice-cum fish farming in coastal wetlands of Ondo State, Nigeria. International Journal of Research in Agriculture and Forestry, 7 (4), 2-10. |
[26] | Prein, M., 2002. Integration of aquaculture into crop-animal systems in Asia. Agricultural Systems, 2002 (71), 127-146. |
[27] | Rothius, A., Duijn, A. P. V., Dejen, E., Kamstra, A. Pijl, W. V. D., Rurangwa, E. and Stokkers, R. 2012. Business opportunities for aquaculture in Ethiopia. LEI Report, Wageningen UR: The Hague. |
[28] | Sivakumar, P. S., 2017. Using Thematic Analysis for Construct Conceptualization. Sivakumar, P. S., Sontakii, B. S., Sulaiman, R. V., Saravanan, R., and Nimisha, M (Eds). In: Manual on Good Practices in Extension Research and Evaluation. CRISP, Hydrabad, India. |
[29] | Solomon, M., and Natarajan, P. 2019. Status of integrated aquaculture-agriculture systems in Africa. International Journal of Fisheries and Aquatic Studies, 7 (4), 263-269. |
[30] | Suvedi, M., and Kaplowitz, M. 2016. What Every Extension Worker Should Know: Core Competency Handbook. Michigan: Michigan State University. |
[31] | Taiganides, E. P. 1978. Wastes are Resources out of Place. Agricultural Wastes, 1, 1-9. |
[32] | Yared, M., Mesay, Y., and Abebe, C. (2018). Challenges for small-scale fish farming in South West and West Shewa Zones of Oromia. In: Fekede B., Firew, K., Gashaw, T., and Mesfin, D. (eds.). Proceedings of the 7th Annual National Review Workshop on Results of Livestock Research, Holeta Agricultural Research Center, Holetta, Ethiopia. pp. 319-331. |
APA Style
Yared Mesfin. (2022). Demonstration of Integrated Fish Farming with Vegetables and Herb Production. Research & Development, 3(1), 52-58. https://doi.org/10.11648/j.rd.20220301.19
ACS Style
Yared Mesfin. Demonstration of Integrated Fish Farming with Vegetables and Herb Production. Res. Dev. 2022, 3(1), 52-58. doi: 10.11648/j.rd.20220301.19
@article{10.11648/j.rd.20220301.19, author = {Yared Mesfin}, title = {Demonstration of Integrated Fish Farming with Vegetables and Herb Production}, journal = {Research & Development}, volume = {3}, number = {1}, pages = {52-58}, doi = {10.11648/j.rd.20220301.19}, url = {https://doi.org/10.11648/j.rd.20220301.19}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.rd.20220301.19}, abstract = {Integrated fish farming is a successful and ideal approach for increased farm production and productivity of small scale farmers’ in developing countries. However, insufficient information is available in this area. More importantly, information on farmers’ feedback on these farming systems is scanty. Therefore, it is important to work on this issue so as to inform research target on local challenges and realize demonstrated farming systems to farmers’ context. This paper is aimed at assessing farmers’ feedback and perception of integrated fish farming taking insights from a model fish-vegetable-herb production system demonstrated at the National Fisheries and Aquatic Life Research Center. For this purpose, a sample of twelve farmers, who already started fish farming in South west Shewa zone of Oromia region were invited. The demonstration was researcher managed showing its operation on the ground. The demonstration includes non-integrated replica of vegetables grown to help participants observe the yield difference between vegetables grown using fish pond water and tap water. Mixed methods research was applied to study the demonstration results. Data collection tools used were mini structured questionnaire followed by a focus group discussion with farmers. Data Analysis was done using MS-Excel and NVivo Version-11. Kirkpatrick’s procedure of training evaluation was adapted for this purpose. In addition, thematic analysis was also applied. Simple descriptive statistics was also used. Result of the analysis on farmers’ feedback showed that they found the demonstration, effective, motivational and up to their expectations. They also perceived the benefits, challenges and solutions for successful implementation of integrated fish farm site. Finally, diversifying production of horticultural crops in integrated fish farming, sustainable input supply, appropriate design of integrated fish farming site with efficient water resource use were considered by farmers as important ingredients for establishing an integrated model fish farm site.}, year = {2022} }
TY - JOUR T1 - Demonstration of Integrated Fish Farming with Vegetables and Herb Production AU - Yared Mesfin Y1 - 2022/02/25 PY - 2022 N1 - https://doi.org/10.11648/j.rd.20220301.19 DO - 10.11648/j.rd.20220301.19 T2 - Research & Development JF - Research & Development JO - Research & Development SP - 52 EP - 58 PB - Science Publishing Group SN - 2994-7057 UR - https://doi.org/10.11648/j.rd.20220301.19 AB - Integrated fish farming is a successful and ideal approach for increased farm production and productivity of small scale farmers’ in developing countries. However, insufficient information is available in this area. More importantly, information on farmers’ feedback on these farming systems is scanty. Therefore, it is important to work on this issue so as to inform research target on local challenges and realize demonstrated farming systems to farmers’ context. This paper is aimed at assessing farmers’ feedback and perception of integrated fish farming taking insights from a model fish-vegetable-herb production system demonstrated at the National Fisheries and Aquatic Life Research Center. For this purpose, a sample of twelve farmers, who already started fish farming in South west Shewa zone of Oromia region were invited. The demonstration was researcher managed showing its operation on the ground. The demonstration includes non-integrated replica of vegetables grown to help participants observe the yield difference between vegetables grown using fish pond water and tap water. Mixed methods research was applied to study the demonstration results. Data collection tools used were mini structured questionnaire followed by a focus group discussion with farmers. Data Analysis was done using MS-Excel and NVivo Version-11. Kirkpatrick’s procedure of training evaluation was adapted for this purpose. In addition, thematic analysis was also applied. Simple descriptive statistics was also used. Result of the analysis on farmers’ feedback showed that they found the demonstration, effective, motivational and up to their expectations. They also perceived the benefits, challenges and solutions for successful implementation of integrated fish farm site. Finally, diversifying production of horticultural crops in integrated fish farming, sustainable input supply, appropriate design of integrated fish farming site with efficient water resource use were considered by farmers as important ingredients for establishing an integrated model fish farm site. VL - 3 IS - 1 ER -