COMPARATION OF SPINY LOBSTER (Panulirus Sp.) POPULATIONS FROM BANTUL AND CILACAP, CENTRAL JAVA, INDONESIA

Authors

  • Florencius Eko Dwi Haryono Marine Science Department, Faculty of Fisheries and Marine Science, Jenderal Soedirman University, Purwokerto, Indonesia
  • Sahala Hutabarat Faculty of Fisheries and Marine Science, Diponegoro University, Semarang – 50275, Indonesia
  • Johannes Hutabarat Faculty of Fisheries and Marine Science, Diponegoro University, Semarang – 50275, Indonesia
  • Ambariyanto Ambariyanto Integrated Laboratory, Diponegoro University, Jl. Prof. Soedarto, SH Tembalang, Semarang – 50275, Indonesia

DOI:

https://doi.org/10.11113/jt.v78.8152

Keywords:

Endangered, Panulirus sp., seafood, spiny lobster

Abstract

Spiny lobster is known as a marine organism which is one of the popular seafood and has a high price. As a result, many lobsters are caught by fishermen. This study compares the spiny lobster captured from two different areas in southern coast of Central Java, namely Bantul and Cilacap. Samplings were done with nets which are usually used by fishermen. Further identification of the species was done, as well as the length and weight measurements. The results showed that the lobsters caught were dominated by Panulirus homarus. Most lobsters caught in the small size category. These results raise the concern of impending shortages of spiny lobster in nature. It also suggests that an integrated resource management is needed to sustain the natural population and to meet the high demand of spiny lobster.

References

Brooks, T. M., R. A. Mittermeier, G. A. B. da Fonseca, J. Gerlach, M. Hoffmann, J. F. Lamoreux, et al. 2006. Global Biodiversity Conservation Priorities. Science. 313(5783): 58–61.

Ambariyanto. 2010. Kebijakan Pengelolaan Organisme Laut Dilindungi: Kasus Kerang Raksasa [Protected Marine Organisms Management Policy: The Case of Giant Clams]. Semarang: Undip Press. [Bahasa Indonesia].

Hutomo, M. and M. K. Moosa. 2005. Indonesian Marine and Coastal Biodiversity: Present Status. Indian J. Mar. Sci. 34(1): 88–97.

Allen, G. R. 2008. Conservation Hotspots of Biodiversity and Endemism for Indoâ€Pacific Coral Reef Fishes. Aquat. Conserv. Mar. Freshwater Ecosyst. 189(5): 541–556.

DeBoer, T. S., M. D. Subia, A. Ambariyanto, M.V. Erdmann, K. Kovitvongsa, P. H. and Barber. 2008. Phylogeography and Limited Genetic Connectivity in the Endangered Giant Boring Clam, Tridacna crocea, Across the Coral Triangle. Conserv. Biol. 22(5): 1255–1266.

Starger, C. J., P. H.Barber, A. Ambariyanto, and A. C. Baker, 2010. The Recovery of Coral Genetic Diversity on Krakatau. Coral Reefs. 29: 547–565.

Vogler, C., J. Benzie, P. H. Barber, M. V. Erdmann, Ambariyanto, P. Sheppard, et al. 2012. Phylogeography of the Crown-of-Thorns Starfish in the Indian Ocean. PLoS ONE. 7(8): e43499.

Barber, P. H., M. C. A. Ablan-Lagman, A. Ambariyanto, R. G. S. Berlinck, D. Cahyani, E. D. Crandall, et al. 2014. Advancing Biodiversity Research in Developing Countries: The Need for Changing Paradigms. Bull. Mar. Sci. 90(1): 187–210.

Berkes, F., T. P. Hughes, R. S. Steneck, J. A. Wilson, D. R. Bellwood, B. Crona, et al. 2006. Globalization, Roving Bandits, and Marine Resources. Science. 311: 1557–15580.

Bailey, C. 1988. The Political Economy of Marine Fisheries Development in Indonesia. Indonesia. 46: 25-38.

Lambaga, A. 2009. Akselerasi Ekspor Produk Perikanan Indonesia Melalui Penerapan Standar [Acceleration Fishery Products Export Indonesia Through Standards Application]. Pros. PPIS. Makassar Edition: 12.

Shine, R., P. Harlow, A. Ambariyanto, Boeadi, Mumpuni, and J. S. Keogh, 1998. Monitoring Monitors: A Biological Perspective on the Commercial Harvesting of Indonesian Reptiles. Mertensiella. 9: 61–68.

Ambariyanto. 2007. Kebijakan Pemerintah yang Diperlukan dalam Usaha Restorasi Populasi Alam Kerang Raksasa yang Dilindungi [The Needs of Government Policy in Restoration of Protected Giant Clams Natural Populations]. In Subiyanto, S. W. Saputra, R. A. Nugroho, E. Susanto, A. S. Fahmi, (eds). Proc. on Seminar Nasional Perikanan dan Kelautan. 2007 August 28. Semarang, Indonesia. 80–83. [Bahasa Indonesia].

Pillai S. L, M. Nasser, N. K. Sanil, 2013. Histology and Ultrastructure of Male System of The Iundian Spiny Lobster Panulirus homarus (Decapoda: Palinuridae). Trop. Biol. 62(2): 533–541.

Jackson, J. B., M. X. Kirby, W. H. Berger, et al. 2001. Historical Overfishing and the Recent Collapse of Coastal Ecosystems. Science. 293(5530): 629–637.

Penn, J. W., N. Caputi, and S. de Lestang, 2015. A Review of Lobster Fishery Management: the Western Australian Fishery for Panulirus cygnus, A Case Study in the Development and Implementation of Input and Output-based Management Systems. ICES J. Mar. Sci. 72: i22–i34.

Faria, J., M. Pérez-Losada, P. Cabezas, P. Alexandrino, and E. Froufe. 2015. Multiplexing of Novel Microsatellite Loci for the Vulnerable Slipper Lobster Scyllarus arctus (Linnaeus, 1758). J. Exp. Zoology Part A: Ecological Genetics and Physiology. 321(2): 119–123.

Diniz, F. M., M. Ogawa, I. H. A. Cintra, N. Maclean, and P. Bentzen. 2010. Genetic Identification of Fishing Stocks: New Tools for Population Studies of the Spiny Lobster Panulirus argus (Latreille, 1804). Bol. Téc. Cient. Cepnor. 10(1): 95–111.

Carpenter, K. E. and V. H. Niem. 1988. The Living Marine Resources of the Western Central Pacific. Vol 2. Cephalopods, Crustaceans, Holothurians and Sharks. Rome: FAO.

Radhakrishnan, E. V., R. Thangaraja, and M. Vijayakumaran. 2015. Ontogenetic Changes in Morphometry of the Spiny Lobster, Panulirus homarus (Linnaeus, 1758) from Southern Indian Coastriginal. J. Mar. Biol. Ass. India. 57(1): 1–13.

Colt, J. 2006. Water Quality Requirements for Reuse Systems. Aquacultural Engineering. 34(3): 143–156.

Camargo, J. A. and Ã. Alonso, 2006. Ecological and Toxicological Effects of Inorganic Nitrogen Pollution in Aquatic Ecosystems: A Global Assessment. Environ. Int. 32(6): 831–849.

Ambariyanto. 2012. Pengaruh Surfaktan dan Hidrokarbon Terhadap Zooxanthellae [Effect of Surfactants and Hydrocarbon on Zooxanthellae]. Ilmu Kelautan. 16(1): 30–34. [Bahasa Indonesia].

Gray, J. S., K. R. Clarke, R. M. Warwick, and G. Hobbs, 1990. Detection of Initial Effects of Pollution on Marine Benthos: An Example from the Ekofisk and Eldfisk Oilfields, North Sea. Mar. Ecol. Prog. Ser. 66: 285–299.

Mahasin, M. Z. 2003. Kajian Stok dan Bioekonomi Lobster (Panulirus spp.) untuk Menunjang Pemanfaatan Berkelanjutan di Propinsi Daerah Istimewa Jogjakarta [Stock Assessment and Bioeconomic of Lobster (Panulirus spp.) To Support Its Sustainable Utilization at Yogyakarta Province]. [Doctoral dissertation]. Semarang: Universitas Diponegoro.

Hampton, M. P. 2003. Entry Points for Local Tourism in Developing Countries: Evidence from Yogyakarta, Indonesia. Geografiska Annaler: Series B, Human Geography. 85(2): 85–101.

Gray, J. S. 1997. Marine Biodiversity: Patterns, Threats and Conservation Needs. Biodiversity & Conserv. 6(1): 153–175.

Roberts, C. M. and J. P. Hawkins, 1999. Extinction Risk in the Sea. Trends in Ecol. Evol. 14(6): 241–246.

Bell, J. D., D. M. Bartley, K. Lorenzen, and N. R. Loneragan. 2006. Restocking and Stock Enhancement of Coastal Fisheries: Potential, Problems and Progress. Fisheries Res. 80(1): 1–8.

Bell, J. D., K. M. Leber, H. L. Blankenship, N. R. Loneragan, and R. Masuda, 2008. A New Era for Restocking, Stock Enhancement and Sea Ranching of Coastal Fisheries Resources. Rev. Fisheries Sci. 16(1-3): 1–9.

Beruat, A. S., A. N. Bambang, and A. Ambariyanto, 2014. The Condition of Coral Reef And Local Wisdom in Kei Besar North East District (Coastal Resources Management Model Based on Local Wisdom in the Kei Besar District of North East, Southeast Maluku Regency). J. Environ. Ecol. 5(1): 91–102.

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Published

2016-04-12

How to Cite

COMPARATION OF SPINY LOBSTER (Panulirus Sp.) POPULATIONS FROM BANTUL AND CILACAP, CENTRAL JAVA, INDONESIA. (2016). Jurnal Teknologi (Sciences & Engineering), 78(4-2). https://doi.org/10.11113/jt.v78.8152