Risk Management of Koi (Cyprinus carpio) Hatchery Production in Kediri Regency Using the House of Risk Approach
Downloads
Koi fish aquaculture sector is closely tied to risk. Various factors, such as delays and uncertainties in delivering feed, infections, and pests affecting the koi fish due to irregularities in pond cleaning, delays and improper feeding, and extreme weather conditions, can lead to the death of fish. It is crucial to monitor the increasing risks diligently, as inadequate risk management procedures can lead to losses and potentially disrupt the growth of the industry. The purposes of this risk management on koi fish hatchery production are: 1). Identify and define risk events and risk agents in koi fish farming production in Kediri Regency, 2). Analyze risk events and risk agents in the production of koi fish in Kediri Regency. 3). Analyzing risk management in koi fish aquaculture in Kediri Regency. The proportional sampling method was used to choose the research sample. The House of Risk (HOR) data analysis method was employed in this study to analyze data. Based on the data analysis, a total of 17 risk events were identified in the four processes of koi fish seed production, which consist of risk events in the pond preparation process, risk events in the spawning process, risk events in the maintenance process, and risk events in the harvesting process. These risk events are caused by 33 risk agents.
Aldimas, M.H., Mahbubah, N. and Dhartikasari, E., 2021. Risk Mitigation of Koi Ornamental Fish Maintenance Supply Chain Using the House of Risk Method. RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi, 9(1), pp.53–65. https://doi.org/10.37971/radial.v9i1.220
Atmodjo, P., 2021. Kediri Koi Show Regent Cup 2021 9th General Champion Won by Magetan. Indonesiasatu. https://kediri.indonesiasatu.co.id/kediri-koi-show-bupati-cup-2021-ke-9-juara-umum-diraih-magetan
Basalamah, A.B., 2022. Rainy Season, Koi Fish Eggs are Difficult to Hatch. Radar Kediri. https://radarkediri.jawapos.com/nganjuk/19/09/2022/musim-hujan-telur-ikan-koi-sulit-menetas/
BPS, 2021. Kediri in Figures 2021. https://kedirikab.bps.go.id/id/publication/2021/02/26/3686a9736e22596b1c1e68a1/kabupaten-kediri-dalam-angka-2021.html
Cahyani, Z.D., Pribadi, S.R.W. and Baihaqi, I., 2016. Implementation Study of the House of Risk (HOR) Model to Mitigate the Risk of Delay in Imported Materials and Components in New Shipbuilding. Jurnal Teknik ITS, 5(2), pp.G52-G59. https://doi.org/10.12962/j23373539.v5i2.16526
Diskominfo, 2021. Kediri District Must Become Number 1 as Koi Fish Center. Seputar Kediri. https://berita.kedirikab.go.id/baca/2021/03/kabupaten-kediri-harus-menjadi-nomor-1-sebagai-sentra-ikan-koi
Fakhriza, R., Rahmat, B. and Astuti, S., 2021. Perancangan Dan Implementasi Alat Monitoring Dan Controlling Kualitas Air Pada Kolam Ikan Koi. eProceedings of Engineering, 8(5), pp.5274–5289. https://openlibrarypublications.telkomuniversity.ac.id/index.php/engineering/article/view/15878
Fauzan, A.L., Budiardi, T., Effendi, I., Diatin, I., Hadiroseyani, Y. and Dewi, N.N., 2024. Production and Distribution Analysis of Koi Fish (Cyprinus carpio) Based on Distribution of Quality Selection at Omah Koi Farm Indonesia. Berita Biologi, 23(1), pp.103–114. https://doi.org/10.55981/beritabiologi.2024.905
Hendriana, A., Ridwansyah, F., Iskandar, A., Munawar, A.S. and Lugina, D., 2021. Methods of hatching Cyprinus carpio koi fish to produce quality seeds at Mizumi Koi Farm, Sukabumi Regency, West Java. Jurnal Perikanan Terapan, 2(1), pp.17–26. https://doi.org/10.25181/peranan.v2i1.2186
Mitra, A., Abdel-Gawad, F.K., Bassem, S., Barua, P., Assisi, L., Parisi, C., Temraz, T.A., Vangone, R., Kajbaf, K., Kumar, V. and Guerriero, G., 2023. Climate Change and Reproductive Biocomplexity in Fishes: Innovative Management Approaches towards Sustainability of Fisheries and Aquaculture. Water, 15(4), 725. https://doi.org/10.3390/w15040725
Pujawan, I.N. and Geraldin, L.H., 2009. House of risk: A model for proactive supply chain risk management. Business Process Management Journal, 15(6), pp.953–967. https://doi.org/10.1108/14637150911003801
Rajesh, M. and Rehana, S., 2022. Impact of climate change on river water temperature and dissolved oxygen: Indian riverine thermal regimes. Scientific Reports, 12, 9222. https://doi.org/10.1038/s41598-022-12996-7
Ramadhan, R. and Sari, L.A., 2019. Natural Goldfish (Cyprinus carpio) Hatchery Technique at the Technical Implementation Unit Pelaksana Teknis Pengembangan Budidaya Air Tawar (UPT PBAT) Umbulan, Pasuruan. Journal of Aquaculture and Fish Health, 7(3), pp.124–132. https://doi.org/10.20473/jafh.v7i3.11261
Sari, S.P., Amelia, J.M. and Setiabudi, G.I., 2022. Effect of Temperature Differences on Growth Rate and Survival Fry of Koi Fish (Cyprinus carpio). Jurnal Perikanan Unram, 12(3), pp.346–354. https://doi.org/10.29303/jp.v12i3.328
Sihite, E.R., Rosmaiti, Putriningtias, A. and Putra, A.A.S., 2020. Effect of High Stocking Density, Water Quality and Growth of Goldfish (Cyprinus Carpio) With the Addition Nitrobacter. Jurnal Ilmiah Samudra Akuatika, 4(1), pp.10–16. https://doi.org/10.33059/jisa.v4i1.2444
Waluyo, B.P., Rahardjo, R.S. and Nugraha, J.P., 2023. Supply Chain Risk Analysis on Koi Fish Cultivation Business in Sumberdodol Village, Panekan District, Magetan Regency. Journal of Finance and Business Digital, 2(3), pp.233–242. https://doi.org/10.55927/jfbd.v2i3.5037
Wang, C., Li, Z., Wang, T., Xu, X., Zhang, X. and Li, D., 2021. Intelligent fish farm—the future of aquaculture. Aquaculture International, 29, pp.2681-2711. https://doi.org/10.1007/s10499-021-00773-8
Wibowo, D.A. and Ahyudanari, E., 2021. Application of House of Risk (Hor) Models for Risk Mitigation of Procurement in The Balikpapan Samarinda Toll Road Project. IPTEK Journal of Proceedings Series, 1, pp.172-177. https://doi.org/10.12962/j23546026.y2020i1.8481
Yamane, T., 1973. Statistics: An Introductory Analysis (3rd Edition).
Yanuhar, U., Musa, M., Evanuarini, H., Wuragil, D.K. and Permata, F.S., 2022. Water Quality in Koi Fish (Cyprinus carpio) Concrete Ponds with Filtration in Nglegok District, Blitar Regency. Universal Journal of Agricultural Research, 10(6), pp.814–820. https://doi.org/10.13189/ujar.2022.100619
Copyright (c) 2025 Journal of Aquaculture and Fish Health
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
1. The copyright of this journal belongs to the Editorial Board, based on the author's consent, while the moral rights of the publication belong to the author(s).
2. The formal legal aspect of journal accessibility refers to the same Creative Common Attribution + Noncommercial + ShareAlike (CC BY-NC-SA), implying that publication can be used for non-commercial purposes in its original form.
3. Every publication (printed/electronic) is open access for educational, research and library purposes. In addition to the objectives stated above, the editorial board is not responsible for copyright infringement
.png)
