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PENGGUNAAN CELAH PELOLOSAN PADA BUBU UNTUK MENGURANGI TERTANGKAPNYA KERAPU MUDA DI PULAU KARIMUNJAWA (The Use of Escape Gaps on the Basket Trap for Reducing Immature Grouper Catch in Karimunjawa Island)

*Irma Dwi Maulina  -  Perikanan Tangkap, Universitas Diponegoro, Indonesia
Ari Purbayanto  -  Teknologi Perikanan Laut, Institut Pertanian Bogor, Indonesia
Tri Wiji Nurani  -  Teknologi Perikanan Laut, Fakultas Perikanan dan Ilmu Kelautan Institut Pertanian Bogor, Indonesia

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Abstract

Penggunaan alat tangkap bubu telah berkontribusi dalam kegiatan pemanfaatan sumber daya perikanan karang di Pulau Karimunjawa. Salah satu target tangkapan bubu yakni ikan kerapu yang merupakan ikan konsumsi bernilai ekonomis tinggi. Permintaan ikan kerapu terus meningkat, sehingga nelayan cenderung menangkap semua ukuran, termasuk ikan kerapu muda yang belum pernah memijah (immature). Dewasa ini, kondisi perikanan kerapu terindikasi mengalami penurunan stok akibat tekanan penangkapan. Apabila hal ini diabaikan, tidak menutup kemungkinan bahwa kegiatan penangkapan berpeluang mengancam status keberlanjutan sumber daya ikan. Salah satu cara untuk mengurangi hasil tangkapan kerapu belum layak tangkap yakni dengan penggunaan celah pelolosan. Namun belum diketahui sejauh mana efektivitasnya ketika diaplikasikan pada penangkapan ikan karang dengan bubu di Karimunjawa. Oleh karenanya penelitian ini bertujuan mengkaji efektivitas penggunaan celah pelolosan pada bubu dalam mengurangi peluang tertangkapnya kerapu muda belum layak tangkap serta kelangsungan hidup kerapu pasca penangkapan. Penelitian dilakukan dengan metode experimental fishing. Pengambilan data dilakukan melalui observasi dan pengukuran langsung di lapangan. Kurva rasio kelangsungan hidup ikan dihitung dengan metode kuadrat terkecil non linier menggunakan fasilitas Solver pada MS-Excel. Hasil penelitian menunjukkan bahwa penggunaan celah pelolosan pada bubu dapat menurunkan hasil tangkapan ikan kerapu muda yang belum layak tangkap dari 66.70% menjadi 45.50%. Penggunaan celah pelolosan telah mampu menurunkan hasil tangkapan ikan kerapu belum layak tangkap dengan tingkat efektivitas 69.20%. Ikan kerapu pasca pelolosan dapat bertahan hidup dengan rasio kelangsungan hidup sebesar 77.88% dimana rasio kelangsungan hidup ikan juvenil (86.4%) lebih tinggi dibanding ikan kerapu dewasa (69.2%) pada hari ke-8 pasca penangkapan.

 

The use of basket traps has contributed to the utilization of reef fisheries resource in Karimunjawa Island. The basket trap is a fishing gear that dominant used for capturing grouper, which is a high economic valueble fish consumption. The demand for groupers continues to increase, so fishermen tend to catch all sizes of groupers, including young immature fish. Currently, there are indications that the condition of grouper fisheries has decreased in stock due to fishing pressure. If this is ignored, there may be opportunities to threaten the sustainability status of grouper fish resources. An option to reduce the catch of immature grouper is the use of escape gaps. However, it is not yet known to what extent its effectiveness for fishing activities in Karimunjawa Island. Therefore, this study aims to examine the effectiveness of using the escape gap in traps for reducing the chances of catching immature groupers. The research was conducted using an experimental fishing method. The data collection method was carried out through field observations. Fish survival ratio were calculated using non linier least square method by the solver facility. The results showed that the catch of immature groupers decreased from 66.7% to 45.5%. The use of escape gaps was able to reduce immature grouper with and effectiveness of 69.2%. Grouper can survive after passing through the escape gap with a survival ratio at the eighth day of observation was 77.8%, where the survival ratio of juvenile (86.4%) is higher than adult groupers (69.2%).

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Keywords: bubu; celah pelolosan; ikan kerapu; rasio kelangsungan hidup, Pulau Karimunjawa

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  1. Agustina, S., I.D. Hartati, A. Muttaqin, T. Kartawijaya, P. Ningtyas, Ripanto, dan Jamaludin. 2018. Laporan Teknis Monitoring Pendaratan Ikan Hasil Tangkapan Di Taman Nasional Karimunjawa (2009 - 2017). Bogor (ID): Wildlife Conservation Society
  2. Allen, G., R. Steene, P. Humann, dan N. DeLoach. 2003. Reef Fish Identification: Tropical Pacific. Florida (AS): New World Publication, Inc
  3. Almany, G.R., dan M.S. Webster. 2004. Odd Species Out as Predator Reduce Diversity of Coral Reef Fishes. Ecology. 85(11): 2872-2880. doi: https://doi.org/10.1890/03-3150
  4. Currey, L.M., C. Simpendorfer, dan A.J. Williams. 2009. Resilience of Reef Fish Species on The Great Barrier Reef and in Torres Strait. Project Milestone Report to the Marine and Tropical Sciences Research Facility. Reef and Rainforest Research Centre Limited, Cairns
  5. Effendie, M.I. 1997. Biologi Perikanan. Yogyakarta (ID): Yayasan Pustaka Nusantara
  6. Ellis, R.D. 2019. Red Grouper (Epinephelus morio) Shape Faunal Communities Via Multiple Ecological Pathways. Diversity. 11(6): 1-19. doi: https://doi.org/10.3390/d11060089
  7. Fisheries Resource Center of Indonesia. 2020. Kerapu di Indonesia. Departemen PSP IPB University dan Yayasan Rekam Nusantara. Bogor (ID): Fisheries Resource Center
  8. Fridman, A.L. 1986. Calculation for Fishing Gears Design (FAO Fishing Manuals). London (GB): Pierides Press
  9. Gomes, I., K. Erzini, dan T.R. Mcclanahan. 2014. Trap Modification Opens New Gates to Achieve Sustainable Coral Reef Fisheries. Aquatic Conservation and Marine Freshwater Ecosystem. 24(5): 680–695. doi: https://doi.org/10.1002/aqc.2389
  10. Grandcourt, E.M., T.Z. Al-abdessalaam, S.A. Hartmann, A.T. Al-Shamsi, dan F. Francis. 2011. An Evaluation of The Selectivity Characteristics of Different Juvenil Fish Escape Panel Designs for The Demersal Trap fishery of Abu Dhabi, United Arab Emirates. Open Journal of Marine Science. 1(3): 98–107. doi: https://doi.org/10.4236/ojms.2011.13010
  11. Iwama, G.K., L.O.B. Afonso, dan M.M. Vijayan. 2006. The Physiology of Fishes. Edisi ke-3. Florida (AS): CRC Press
  12. Khasanah, M., N.N. Kadir, dan J. Jompa. 2019. Reproductive Biology of Three Important Threatened/Near-Threatened Groupers (Plectropomus leopardus, Epinephelus polyphekadion and Plectropomus areolatus) in Eastern Indonesia and Implications for Management. Animals. 9(9):1-18. doi: https://doi.org/10.3390/ani9090643
  13. Kordi, G. 2001. Usaha Pembesaran Ikan Kerapu di Tambak. Yogyakarta (ID): Kanisius
  14. Muliati., F. Yasidi, dan H. Arami. 2017. Studi Kebiasaan Makanan Ikan Baronang (Siganus canaliculatus) di Perairan Tondonggeu Kecamatan Abeli Sulawesi Tenggara. Jurnal Manajemen Sumber Daya Perairan. 2(4): 287-294
  15. Oluwatoyin, A.R. 2019. Unique Improve Selective Fishing Traps With Adjustable Escape Gaps for Effective Fisheries Management. International Journal of Fisheries and Aquatic Studies. 7(6): 355-358
  16. Purbayanto, A., D.R. Monintja, A. Tsunoda, S. Akiyama, dan T. Arimoto. 2003. Selectivity, Survival and Stress of Japanese Whiting Sillago japonica After Simulated Capture by A Sweeping Trammel Net. In: proceedings the third world fiheries congress: Feeding the world with fish in the next millennium-the balance between production and environment. American Fisheries Society Symposium. 38: 561-571
  17. Purbayanto, A., dan M. Riyanto. 2006. Estimation of The Trammel Net Selectivity Curve Using Solver at Ms-Excel With Least Square and Likelihood Methods. Trammel net Fishery: Selectivity and Fish Physiological Behaviour Analysis for Its Management Purpose. Purbayanto A, editor. Bogor (ID): Department of Fisheries Resources Utilization Department, Faculty of Fisheries and Marine Science, Bogor Agricultural University
  18. Purbayanto, A., M. Riyanto, dan A.D.P. Fitri. 2010. Fisiologi dan Tingkah Laku Ikan pada Perikanan Tangkap. Bogor (ID): IPB Press
  19. Rhodes, K.L., B.M. Taylor, C.B. Wichmilmel, E. Joseph, R.J. Hamiltons, dan G.R. Almany. 2013. Reproductive Biology of Squaretail Coral Grouper Plectropomus areolatus Using Age-based Techniques. Journal of Fish Biology. 82 : 1333-1350. doi: https://doi.org/10.1111/jfb.12076
  20. Riyanto, M., A. Purbayanto, dan B. Wiryawan. 2011. Efektivitas Penangkapan Ikan Kerapu Macan (Epinephelus fuscoguttatus) dengan Bubu Menggunakan Umpan Buatan. Jurnal Harpodon Borneo. 4(1): 21-32
  21. Sadovy, Y., M.T. Craig, A.A. Bertoncini, K.E. Carpenter, W.W.L. Cheung, J.H. Choat, A.S. Cornish, dan S.T. Fennessy. 2013. Fishing Groupers Towards Extinction: A Global Assessment of Threats and Extinction Risk in A Billion Dollar Tishery. Fish and Fisheries. 14(2): 119-136. doi: https://doi.org/10.1111/j.1467-2979.2011.00455.x
  22. Sadovy, Y., dan A. To. 2018. Epinephelus quoyanus. The IUCN Red List of Threatened Species 2018: e.T132799A100556717. https://dx.doi.org/10.2305/IUCN.UK.2018-2.RLTS.T132799A100556717.en
  23. Tangke, U., F.D. Silooy, Rochmady, F.R. Malik FR, dan Susiana. 2019. Length-Weight Relationship of Brown Marbled Grouper Epinephelus fuscoguttatus Forskal, 1775 in Bobong Taliabu Waters of North Maluku, Indonesia. 5th international conference on food, agriculture and natural resources (FANRes 2019)
  24. Tsunoda, A., A. Purbayanto, S. Akiyama, dan T. Arimoto. 1999. Plasma Cortisol Level for Stress Measurement of Japanese Whiting Sillago japonica Captured by Sweeping Trammel Net. Nippon Suisan Gakkaishi. (63): 457-463
  25. Unsworth, R.K.F., A. Powell, F. Hukom, dan D.J. Smith. 2007. The Ecology of Indo-Pacific Grouper (Serranidae) Species and The Effects of a Small Scale No-Take Area on Grouper Assemblage, Aboundance and Size Frequency Distribution. Marine Biology. 152(2): 243–254
  26. Walpole, R.E. 1988. Pengantar Statistika. Sumantri B, Penerjemah; Jakarta. Terjemahan dari: Introduction to Statistics 3rd edition. Jakarta (ID): Gramedia Pustaka
  27. Wibowo, K., M. Abrar, dan R.M. Siringoringo. 2016. Status Trofik Ikan Karang dan Hubungan Ikan Herbivora dengan Rekrutmen Karang Di Perairan Pulau Pari, Teluk Jakarta. Jurnal Oseanologi dan Limnologi di Indonesia. 1(2): 73-89
  28. Wolf, M., dan J.M. McNamara. 2012. On The Evolution of Personalities Via Frequencey-Dependent Selection. Am Nat. 179(6):679-692

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