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Harvest Control Rules of Multispecies Scads (Decapterus spp.) Fishery in Blitar Waters, East Java
Corresponding Author(s) : Ledhyane Ika Harlyan
Jurnal Ilmiah Perikanan dan Kelautan, Vol. 14 No. 1 (2022): JURNAL ILMIAH PERIKANAN DAN KELAUTAN
Abstract
Highlight Research
- The feedback harvest control rule resulted in the lowest allowable biological catch estimation than the surplus production models.
- The feedback harvest control rule adapted the recent years of historical catch data.
- The surplus production models might result in over or under catch estimation, notconsidering the recent data.
- This multispecies fishery could not provide species specific data as surplus production models required; therefore, it might be better to use the feedback harvest control rule that has been validated for multispecies fisheries.
Abstract
Scads fishery in Blitar waters is a multispecies fishery applying harvest control rules (HCRs) from conventional single-species approaches which technically, may not be applicable to employ in such mixed-species data composed from the multispecies fishery. The feedback HCR is an alternative validated harvest control rule that can be applied for a multispecies fishery. The aim of this study was to technically compare the application of the feedback HCR and conventional single species approaches in terms of estimating the future allowable biological catch (ABC). Therefore, in this study, ABC was estimated by applying three HCRs, the feedback HCR, and two conventional HCRs which was based on single-species approaches applying surplus production models, Schaefer Model and Fox model into catch and effort of scads fisheries data series of 2011 – 2020. The results showed that the ABC estimation of the feedback HCR was a half lower than that of both conventional models. It was biologically safer to apply the feedback HCR to set the annual total allowable catch (TAC) than the other two HCRs. The feedback HCR presented an initial step toward sustainably managing multispecies fisheries while dealing with data-limited conditions.
Keywords
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- Cadrin, S. X., & Dickey-Collas, M. (2015). Stock assessment methods for sustainable fisheries. ICES Journal of Marine Science, 72(1):1-6.
- Carruthers, T. R., Punt, A. E., Walters, C. J., MacCall, A., McAllister, M. K., Dick, E. J., & Cope, J. (2014). Evaluating methods for setting catch limits in data-limited fisheries. Fisheries Research, 153:48-68.
- Chumchuen, W., & Chumchuen, S. V. (2019). Development of albacore tuna fishery and estimation of allowable biological catch for resource management in the Indian Ocean. Fish for the People, 17(3):34-40.
- Chumchuen, W., Matsuoka, T., Anraku, K., & Arnupapboon, S. (2016). Size-selective catch in tropical tuna purse seine fishery in the Eastern Indian Ocean: Assessment on new selectivity model for purse seine net. Fisheries Science, 82(3):391-404.
- Department of Fisheries and Marine Affairs East Java Province. (2020). Annual catch statistics report year 2020 of East Java Province. Surabaya: Department of Fisheries and Marine Affairs East Java Province.
- Dowling, N. A., Dichmont, C. M., Haddon, M., Smith, D. C., Smith, A. D. M., & Sainsbury, K. (2015). Guidelines for developing formal harvest strategies for data-poor species and fisheries. Fisheries Research, 171:130-140.
- Goethel, D. R., Lucey, S. M., Berger, A. M., Gaichas, S. K., Karp, M. A., Lynch, P. D., & Walter, J. F. (2019). Recent advances in management strategy evaluation: Introduction to the special issue "Under pressure: addressing fisheries challenges with management strategy evaluation.” Canadian Journal of Fisheries and Aquatic Sciences, 76(10):1-8.
- Harlyan, L. I., Matsuishi, T. F., & Md Saleh, M. F. (2021). Feasibility of a single-species quota system for management of the Malaysian multispecies purse-seine fishery. Fisheries Management and Ecology, 28(2):126-137.
- Harlyan, L. I., Sari, W. K., Rahma, F. M., Fuad, F., & Rahman, M. A. (2020). Pengelolaan sumber daya ikan cakalang didaratkan di Pelabuhan Perikanan Nusantara (PPN) Prigi, Trenggalek: Aplikasi feedback harvest control rule. Marine Fisheries: Journal of Marine Fisheries Technology and Management, 11(1):111-120.
- Harlyan, L. I., Wu, D., Kinashi, R., Kaewnern, M., & Matsuishi, T. (2019). Validation of a feedback harvest control rule in data-limited conditions for managing multispecies fisheries. Canadian Journal of Fisheries and Aquatic Sciences, 76(10):1885-1893.
- Hilborn, Ray, & Ovando, D. (2014). Reflections on the success of traditional fisheries management. ICES Journal of Marine Science, 71(5):1040-1046.
- Hilborn, Ray, & Walters, C. J. (Eds). (1992). Quantitative fisheries stock assessment: Choice, dynamics and uncertainty. US: Springer.
- Hoshino, E., Milner-Gulland, E. J., & Hillary, R. M. (2012). Bioeconomic adaptive management procedures for short-lived species: A case study of Pacific saury (Cololabis saira) and Japanese common squid (Todarodes pacificus). Fisheries Research, 121-122:17-30.
- Ichinokawa, M., Okamura, H., & Kurota, H. (2017). The status of Japanese fisheries relative to fisheries around the world. ICES Journal of Marine Science, 74(5):1277-1287.
- Ichinokawa, M., Okamura, H., Kurota, H., Yukami, R., Tanaka, H., Shibata, Y., & Ohshimo, S. (2015). Searching for optimum management procedures by quantifying management objectives for Japanese domestic fishery stocks without stock biomass estimation. Nippon Suisan Gakkaishi, 81(2):206-218.
- Kleisner, K., Zeller, D., Froese, R., & Pauly, D. (2013). Using global catch data for inferences on the world's marine fisheries. Fish and Fisheries, 14(3):293-311.
- Kvamsdal, S. F., Eide, A., Ekerhovd, N.-A., Enberg, K., Gudmundsdottir, A., Hoel, A. H., Mills, K. E., Mueter, F. J., Ravn-Jonsen, L., Sandal, L. K., Stiansen, J. E., & Vestergaard, N. (2016). Harvest control rules in modern fisheries management. Elementa: Science of the Anthropocene, 4(000114):1-22.
- Magnusson, K. G. (1992). A feedback and probing strategy to regulate harvesting from a renewable resource. Mathematical Medicine and Biology, 9:43-65.
- Makino, M. (2011a). Fisheries Management in Japan. In M. Makino (Ed), A brief institutional history of Japanese fisheries management. Its institutional features and case studies. (pp. 21-39). (1st ed., Vol. 34). Netherlands: Springer.
- Makino, M. (2011b). Fisheries management in Japan. Its institutional features and case studies. (1st ed., Vol. 34). Netherlands: Springer.
- Munehara, M., Kaewnern, M., Noranarttragoon, P., & Matsuishi, T. F. (2021). Simulations of fixed closure and real-time closure to manage migratory fish species for data-limited fisheries. Ocean & Coastal Management, 211:105736.
- Newman, S. J., Brown, J. I., Fairclough, D. V., Wise, B. S., Bellchambers, L. M., Molony, B. W., Lenanton, R. C. J., Jackson, G., Smith, K. A., Gaughan, D. J., Fletcher, W. (Rick) J., McAuley, R. B., & Wakefield, C. B. (2018). A risk assessment and prioritisation approach to the selection of indicator species for the assessment of multi-species, multi-gear, multi-sector fishery resources. Marine Policy, 88:11-22.
- Ohshimo, S., & Naya, M. (2014). Management strategy evaluation of fisheries resources in data-poor situations using an operating model based on a production model. Japan Agricultural Research Quarterly, 48(2):237-244.
- Punt, A. E., Butterworth, D. S., Moor, C. L., Oliveira, D., A, J. A., & Haddon, M. (2016). Management strategy evaluation: best practices. Fish and Fisheries, 17(2):303-334.
- Sartimbul, A., Iranawati, F., Sambah, A. B., Yona, D., Hidayati, N., Harlyan, L. I., Fuad, M., & Sari, S. (2016). Pengelolaan sumberdaya perikanan pelagis di Indonesia. In D. A. Batamia (Ed.). Malang: UB Press.
- Shertzer, K. W., & Williams, E. W. (2008). Fish assemblages and indicator species: reef fishes off the southeastern United States. Fishery Bulletin, 106(3):257-269.
- Sparre, P., & Venema, S. C. (1992). Introduction to tropical fish stock assessment. Part 1: manual. In FAO Fisheries Technical Paper. No. 306/1. Rev. 1 (Vol. 306, Issue 1). Rome: FAO.
- Susanti, A., Fahrudin, A., & Kusumastanto, T. (2020). The economic impact of IUU fishing for large pelagic capture fisheries in WPPNRI 715. Journal of Socio Economic of Fisheries, 15(2):135-144.
- Suwarso, S., & Zamroni, A. (2014). Population structure of three scads species (Decapterus spp.) in Java Sea and around Sulawesi: Recommendation of sustainable fisheries of small pelagic fisheries and evaluation of fisheries management area. Indonesian Fisheries Policy Journal, 6(2):75-86.
- Suwarso, Wujdi, A., & Fauzi, M. (2014). Exploitation and catch fluctuation of small pelagic fishes in Prigi waters, south coast of Java. Indonesian Fisheries Research Journal, 20(2):69-76.
- Tanaka, S. (1980). A theoretical consideration on the management of a stock-fishery system by catch quota and on its dynamical properties. Nippon Suisan Gakkaishi, 46(12):1477-1482.
- Yanto, F., Susiana, S., & Muzammil, W. (2020). Utilization rate of brown strip red snapper (Lutjanus vitta) on Mapur waters that landing in Kelong Village, Bintan Pesisir Sub District, Bintan Regency. Journal of Tropical Fisheries Management, 4(2):1-9.
- Yuniarta, S., van Zwieten, P. A. M., Groeneveld, R. A., Wisudo, S. H., & van Ierland, E. C. (2017). Uncertainty in catch and effort data of small- and medium-scale tuna fisheries in Indonesia: Sources, operational causes and magnitude. Fisheries Research, 193:173-183.
References
Cadrin, S. X., & Dickey-Collas, M. (2015). Stock assessment methods for sustainable fisheries. ICES Journal of Marine Science, 72(1):1-6.
Carruthers, T. R., Punt, A. E., Walters, C. J., MacCall, A., McAllister, M. K., Dick, E. J., & Cope, J. (2014). Evaluating methods for setting catch limits in data-limited fisheries. Fisheries Research, 153:48-68.
Chumchuen, W., & Chumchuen, S. V. (2019). Development of albacore tuna fishery and estimation of allowable biological catch for resource management in the Indian Ocean. Fish for the People, 17(3):34-40.
Chumchuen, W., Matsuoka, T., Anraku, K., & Arnupapboon, S. (2016). Size-selective catch in tropical tuna purse seine fishery in the Eastern Indian Ocean: Assessment on new selectivity model for purse seine net. Fisheries Science, 82(3):391-404.
Department of Fisheries and Marine Affairs East Java Province. (2020). Annual catch statistics report year 2020 of East Java Province. Surabaya: Department of Fisheries and Marine Affairs East Java Province.
Dowling, N. A., Dichmont, C. M., Haddon, M., Smith, D. C., Smith, A. D. M., & Sainsbury, K. (2015). Guidelines for developing formal harvest strategies for data-poor species and fisheries. Fisheries Research, 171:130-140.
Goethel, D. R., Lucey, S. M., Berger, A. M., Gaichas, S. K., Karp, M. A., Lynch, P. D., & Walter, J. F. (2019). Recent advances in management strategy evaluation: Introduction to the special issue "Under pressure: addressing fisheries challenges with management strategy evaluation.” Canadian Journal of Fisheries and Aquatic Sciences, 76(10):1-8.
Harlyan, L. I., Matsuishi, T. F., & Md Saleh, M. F. (2021). Feasibility of a single-species quota system for management of the Malaysian multispecies purse-seine fishery. Fisheries Management and Ecology, 28(2):126-137.
Harlyan, L. I., Sari, W. K., Rahma, F. M., Fuad, F., & Rahman, M. A. (2020). Pengelolaan sumber daya ikan cakalang didaratkan di Pelabuhan Perikanan Nusantara (PPN) Prigi, Trenggalek: Aplikasi feedback harvest control rule. Marine Fisheries: Journal of Marine Fisheries Technology and Management, 11(1):111-120.
Harlyan, L. I., Wu, D., Kinashi, R., Kaewnern, M., & Matsuishi, T. (2019). Validation of a feedback harvest control rule in data-limited conditions for managing multispecies fisheries. Canadian Journal of Fisheries and Aquatic Sciences, 76(10):1885-1893.
Hilborn, Ray, & Ovando, D. (2014). Reflections on the success of traditional fisheries management. ICES Journal of Marine Science, 71(5):1040-1046.
Hilborn, Ray, & Walters, C. J. (Eds). (1992). Quantitative fisheries stock assessment: Choice, dynamics and uncertainty. US: Springer.
Hoshino, E., Milner-Gulland, E. J., & Hillary, R. M. (2012). Bioeconomic adaptive management procedures for short-lived species: A case study of Pacific saury (Cololabis saira) and Japanese common squid (Todarodes pacificus). Fisheries Research, 121-122:17-30.
Ichinokawa, M., Okamura, H., & Kurota, H. (2017). The status of Japanese fisheries relative to fisheries around the world. ICES Journal of Marine Science, 74(5):1277-1287.
Ichinokawa, M., Okamura, H., Kurota, H., Yukami, R., Tanaka, H., Shibata, Y., & Ohshimo, S. (2015). Searching for optimum management procedures by quantifying management objectives for Japanese domestic fishery stocks without stock biomass estimation. Nippon Suisan Gakkaishi, 81(2):206-218.
Kleisner, K., Zeller, D., Froese, R., & Pauly, D. (2013). Using global catch data for inferences on the world's marine fisheries. Fish and Fisheries, 14(3):293-311.
Kvamsdal, S. F., Eide, A., Ekerhovd, N.-A., Enberg, K., Gudmundsdottir, A., Hoel, A. H., Mills, K. E., Mueter, F. J., Ravn-Jonsen, L., Sandal, L. K., Stiansen, J. E., & Vestergaard, N. (2016). Harvest control rules in modern fisheries management. Elementa: Science of the Anthropocene, 4(000114):1-22.
Magnusson, K. G. (1992). A feedback and probing strategy to regulate harvesting from a renewable resource. Mathematical Medicine and Biology, 9:43-65.
Makino, M. (2011a). Fisheries Management in Japan. In M. Makino (Ed), A brief institutional history of Japanese fisheries management. Its institutional features and case studies. (pp. 21-39). (1st ed., Vol. 34). Netherlands: Springer.
Makino, M. (2011b). Fisheries management in Japan. Its institutional features and case studies. (1st ed., Vol. 34). Netherlands: Springer.
Munehara, M., Kaewnern, M., Noranarttragoon, P., & Matsuishi, T. F. (2021). Simulations of fixed closure and real-time closure to manage migratory fish species for data-limited fisheries. Ocean & Coastal Management, 211:105736.
Newman, S. J., Brown, J. I., Fairclough, D. V., Wise, B. S., Bellchambers, L. M., Molony, B. W., Lenanton, R. C. J., Jackson, G., Smith, K. A., Gaughan, D. J., Fletcher, W. (Rick) J., McAuley, R. B., & Wakefield, C. B. (2018). A risk assessment and prioritisation approach to the selection of indicator species for the assessment of multi-species, multi-gear, multi-sector fishery resources. Marine Policy, 88:11-22.
Ohshimo, S., & Naya, M. (2014). Management strategy evaluation of fisheries resources in data-poor situations using an operating model based on a production model. Japan Agricultural Research Quarterly, 48(2):237-244.
Punt, A. E., Butterworth, D. S., Moor, C. L., Oliveira, D., A, J. A., & Haddon, M. (2016). Management strategy evaluation: best practices. Fish and Fisheries, 17(2):303-334.
Sartimbul, A., Iranawati, F., Sambah, A. B., Yona, D., Hidayati, N., Harlyan, L. I., Fuad, M., & Sari, S. (2016). Pengelolaan sumberdaya perikanan pelagis di Indonesia. In D. A. Batamia (Ed.). Malang: UB Press.
Shertzer, K. W., & Williams, E. W. (2008). Fish assemblages and indicator species: reef fishes off the southeastern United States. Fishery Bulletin, 106(3):257-269.
Sparre, P., & Venema, S. C. (1992). Introduction to tropical fish stock assessment. Part 1: manual. In FAO Fisheries Technical Paper. No. 306/1. Rev. 1 (Vol. 306, Issue 1). Rome: FAO.
Susanti, A., Fahrudin, A., & Kusumastanto, T. (2020). The economic impact of IUU fishing for large pelagic capture fisheries in WPPNRI 715. Journal of Socio Economic of Fisheries, 15(2):135-144.
Suwarso, S., & Zamroni, A. (2014). Population structure of three scads species (Decapterus spp.) in Java Sea and around Sulawesi: Recommendation of sustainable fisheries of small pelagic fisheries and evaluation of fisheries management area. Indonesian Fisheries Policy Journal, 6(2):75-86.
Suwarso, Wujdi, A., & Fauzi, M. (2014). Exploitation and catch fluctuation of small pelagic fishes in Prigi waters, south coast of Java. Indonesian Fisheries Research Journal, 20(2):69-76.
Tanaka, S. (1980). A theoretical consideration on the management of a stock-fishery system by catch quota and on its dynamical properties. Nippon Suisan Gakkaishi, 46(12):1477-1482.
Yanto, F., Susiana, S., & Muzammil, W. (2020). Utilization rate of brown strip red snapper (Lutjanus vitta) on Mapur waters that landing in Kelong Village, Bintan Pesisir Sub District, Bintan Regency. Journal of Tropical Fisheries Management, 4(2):1-9.
Yuniarta, S., van Zwieten, P. A. M., Groeneveld, R. A., Wisudo, S. H., & van Ierland, E. C. (2017). Uncertainty in catch and effort data of small- and medium-scale tuna fisheries in Indonesia: Sources, operational causes and magnitude. Fisheries Research, 193:173-183.