Banggai Cardinalfish (Pterapogon kauderni) Potential As Bioaccumulator Of Tributyltin Contamination In The Waters Of Bitung

Authors

DOI:

https://doi.org/10.35800/jip.8.2.2020.29713

Keywords:

Pterapogon kauderni, Tributyltin

Abstract

At this time there have been no nekton organisms used as a bioaccumulator of the Tributyltin (TBT) pollution and mercury in tropical waters. This research aims to assess the concentration of TBT and mercury in the Pterapogon kauderni, sediment, and water in the waters of Bitung also suspect the factors that are the cause of pollution of TBT and mercury against P. Kauderni, sediment, and water in the waters of Bitung.  The concentration of TBT compounds on all samples analyzed using the Gas Chromatography-Mass Spectrometer (GC-MS) tool. The results of the analysis showed that the high concentration of TBT was found in sediment (0.22 – 6.98 μg/g w.w) compared with fish ranging from 0,003-0,066 μg/g and seawater < 0.0005 μg/g (below detection of TBT limit analysis). TBT interceptions in the waters of Bitung come from a port activity and sea transportation.

Keywords: Pterapogon kauderni, Tributyltin

Abstrak

Pada saat ini belum ada organisme nekton yang digunakan sebagai bioakumulator pencemaran Tributyltin (TBT) di perairan tropis. Penelitian ini bertujuan untuk menilai konsentrasi TBT pada Pterapogon kauderni, sedimen, dan air di perairan Bitung juga menduga faktor-faktor yang menjadi penyebab pencemaran TBT terhadap P. kauderni, sedimen, dan air di perairan Bitung. Konsentrasi senyawa TBT pada semua sampel dianalisis mengunakan alat Gas Chromatografy-Mass Spectrometer (GC-MS). Hasil analisis menunjukan bahwa konsentrasi TBT paling tinggi terdapat pada sedimen (0,22 – 6,98 µg/g w.w) dibandingkan dengan ikan yang berkisar 0,003-0,066 µg/g dan air laut <0,0005 µg/g (dibawah deteksi limit analisis TBT). Pencemaran TBT yang terdapat di perairan Bitung berasal dari aktivitas pelabuhan dan transportasi laut.

Kata kunci: Pterapogon kauderni, Tributyltin.

References

Cammack R. 2006. Biochemistry and Molecular Biology. Oxford University Press. Inc. New York. 722 p

Carlos NST., Rondonuwu AB., dan Watung VNR. 2014. Distribusi dan Kelimpahan Pterapogon kauderni Koumans, 1933 (Apogonidae) di Selat Lembeh Bagian Timur, Kota Bitung. Jurnal Ilmiah Platax. Vol 2: 3.

Crookes M, Brooke D. 2011. Estimation of Fish Bioconcentration Factor (BCF) From Depuration Data. Enviroment Agency.

Filipkowska A, Kowalewska G. 2019. Butyltins In Sediments From The Southern Baltic Coastal Zone: Is It Still A Matter Of Concern, 10 Years After Implementation Of The Total Ban?. Marine Pollution Bulletin. Vol: 146. Page: 343-348.

Hager JA, Depledge MH, Galloway TS. 2005. Toxicity of tributyltin in the marine mollusc Mytilus edulis. Marine Pollution Bulletin. Vol: 51. Page: 811-816

Horie Y, Yamagishi T, Shintaku Y, Iguchi T, Tatarazako N. 2018. Effects of tributyltin on early life-stage, reproduction, and gonadal sex differentiation in Japanese medaka (Oryzias latipes). Chemosphere. Vol: 203. Page: 418-425.

Islami MM, Sari AP, Tala DJ, Baszary CDU. 2019. Imposex study on Thais aculeata (Gastropoda: Muricidae) in Ambon Bay, Eastern Indonesia. Earth and Environmental Science. Vol: 339.

Joksas K, Stakeniene R, Svirbutaviciene ER. 2019. On the effectiveness of tributyltin ban: Distribution and changes in butyltin concentrations over a 9-year period in KlaipÄ—da Port, Lithuania. Ecotoxicology and Environmental Safety. Vol: 183

Karayucel I, Kirikoglu O, Dernekbasi. 2019. Effect of Tributyltin on the Sex Ratio in Guppy (Poecilia reticulata). Aquatic Sciences and Engineering. Vol: 34 (1). Page: 1-6.

Kono K, Minami T, Yamada H, Tanaka H, Koyama J. 2008. Bioaccumulation Of Tributyltin And Triphenyltin Compounds Through The Food Web In Deep Offshore Water. Coastal Marine Science. Vol: 32(1). Page: 102–107

Koyama J, Nigaya S, Takenouuchi A, Kokushi E, Uno S. 2016. Bioaccumulation Of Environmental Organotin Compounds In Translocated Rock Shell Thais clavigera In Kagoshima Bay. Fisheries Science. Vol: 82. Page: 975-982

Laranjeiro F, Marin PS, Oliveira IB, Oliveira SG, Barroso C. 2017. Fifteen Years Of Imposex and Tributyltin Pollution Monitoring Along The Portuguese Coast. Environmental Pollution. Page: 1-11

Lee MC, Fonseca E, Park JC, Yoon DS, Choi H, Kim M, Han J,Cho H, Shin KH, Santos ML, Jung JH, Castro LFC, Lee JS. 2019. Tributyltin Affects Retinoid X Receptor-Mediated Lipid Metabolism in the Marine Rotifer Brachionus koreanus. Environmental Science & Technology. Vol: 53. Page: 7830-7839.

Lofrano G, Libralato G, Alfieri A, Carotenuto M. 2016. Metals and tributyltin sediment contamination along the Southeastern Tyrrhenian Sea coast. Chemosphere. Vol: 144. Page: 399-407

Lofrano G, Nikolaou A, Libralato G, Carotenuto M, 2018. Organotin Compounds In Marine Sediment: Detection and Concerns. Global NEST. Vol: 20 (1). Page: 128-135

Maguire RJ. 2000. Review of the Persistance, Bioacamulation and Toxicity of Tributyltin in Aquatic Enviroments in Relation Canada's Toxic Substances Management Policy. Water Quality. Vol: 35(4). Page: 633-679

Mamonto R, Rumampuk ND, dan Lasut MT. 2017. Pendugaan Dampak Pencemaran Tributyltin Menggunakan Gejala Imposeks Pada Gastropoda di Perairan Bitung, Sulawesi Utara. Jurnal Pesisir dan Laut Tropis. Vol 1 (2).

Ndobe S., Moore A., dan Supu A. 2005. The Indonesian Ornamental Fish Trade: Case Studies And Options For Improving Livelihoods While Promoting Sustainability In Banggai And Banyuwangi. 247 Hal

Noor SY, Rumengan IFM, Lasut MT. 2013. Pendugaan pengaruh bioakumulasi tributyltin (TBT) dengan menggunakan karakter imposeks pada gastropoda laut (Thais tuberosa dan Monodonta labio). Aquatic Science & Management. Vol: 1(1), Hal: 57-62.

Ogbomida ET, Ezemoye LI. 2016. Tributyltin and its Derivative in Water Samples of National Inland Water Way Authority Harbour of Warri, Delta State, Nigeria. Organic Chemistry. Vol 5 (1). Page : 1-4

Parmentier KFV, Verhaegen Y, Witte WPD, Hoffman S, Delbare DHR, Roose PM, Hylland KDE, Burgeot T, Smagghe GJ, Cooreman K. 2019. Tributyltin: A Bottom–Up Regulator of the Crangon crangon Population?. Frontiers in Marine Science. Vol: 6.

Razak H. 2004. Kandungan Senyawa Butiltin (Bt) dalam Air Laut dan Sedimen di Perairan Teluk Banten. Jurnal Makara Sains. Vol.8 (2). Hal : 65-69

Rumampuk ND, Rumengan IFM, Rompas RM, Undap SL, Boneka FB, Jensen KR, Lasut MT. 2018. Tributyltin (TBT) contamination and impacts on imposex in Thalessa aculeate (Mollusca: Neogastropoda: Muricidae) in Minahasa Peninsula coastal waters, North Sulwesi, Indonesia. AACL Bioflux, Vol. 11 (1): 184-193/2018

Rumengan IFM, Ohji M, Arai T, Harino H, Arifin Z, Miyazaki N. 2008 Contamination Status Of Butyltin Compounds In Indonesian Coastal Waters. Coastal Marine Science. Vol 32 (1). Page: 116-126.

Schoyen M, Green NW, Hjermann DO, Tveiten L, Beylich B, Oxnevad S, Beyer J. 2018. Levels and trends of tributyltin (TBT) and imposex in dogwhelk (Nucella lapillus) along the Norwegian coastline from 1991 to 2017. Marine Environmental Research.

Shimasaki Y, Kitano T, Oshima Y, Inoue S, Imada N, Honjo T. 2003. Tributyltin Causes Masculinization In Fish. Environmental Toxicology and Chemistry. Vol: 22 (1). Page: 141-144

Sudaryanto, A. 2002. Level Kontaminasi Senyawa Organotin di Produk Seafood dari Indonesia. Jurnal Teknologi Lingkungan, Vol.3 (1), Hal: 24-29

Takao Y. 2017. Continuing Issues of Contamination by Organotins in the Marine Environment After Domestic and International Legislation. Faculty of Environmental Science, Nagasaki University.

Undap SL, Nirmala K, Miki S, Inoue S, Qiu X, Honda M, Shimasaki Y, Oshima Y, 2013a. High Tributyltin Contamination in Sediments from Ports in Indonesia and Northern Kyushu, Japan. Journal of the Faculty of Agriculture, Kyushu University. Vol 56 (1). Hal: 131-135

Undap SL, Matsunaga S, Honda M, Sekiguchi N, Khalil F, Qiu X, Shimasaki Y, Ando H, Okoshi WS, Sunobe T, Takeda S, Munehara H, Oshima Y. 2013b. Accumulation of organotins in wharf roach (Ligia exotica Roux) and its ability to serve as a biomonitoring species for coastal pollution. Ecotoxicology and Environmental Safety. Vol: 96. Page: 75-79.

Undap, SL. 2016. Evaluasi Kontaminasi Tributyltin Pada Sedimen Di Perairan Bitung Sulawesi Utara. Jurnal Pesisir dan Laut Tropis, Vol:2, No.1.

Verhaegen Y, Monteyne E, Neudecker T, Tulp I, Smagghe G, Cooreman K, Roose P, Parmentier K. 2012. Organotins In North Sea Brown Shrimp (Crangon crangon L.) After Implementation Of The TBT Ban. Chemosphere. Vol: 86. Page: 979-984.

Vracko M. 2015. Mathematical (Structural) Descriptors in QSAR: Applications in Drug Design and Environmental Toxicology. Advances in Mathematical Chemistry and Applications. Vol: 1. Page: 220-225.

Xiao X, Zhu S, Zou X, He G, Jiang J, Sheng GD. 2020. Relation Of Tributyltin and Triphenyltin Equilibrium Sorption and Kinetic Accumulation In Carp and Ceratophyllum demersum. Ecotoxicology and Environmental Safety. Vol: 192.

Zhang J, Sun P, Yang F, Kong T, Zhang R. 2016. Tributyltin Disrupts Feeding And Energy Metabolism In The Goldfish (Carassius auratus). Chemosphere. Vol: 152. Page: 221-228

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Published

2020-08-14

How to Cite

Rajagukguk, B. B., Bataragoa, N. E., Rumengan, I. F. M., Pelle, W. E., Darwisito, S., & Sumilat, D. A. (2020). Banggai Cardinalfish (Pterapogon kauderni) Potential As Bioaccumulator Of Tributyltin Contamination In The Waters Of Bitung. Jurnal Ilmiah PLATAX, 8(2), 178–187. https://doi.org/10.35800/jip.8.2.2020.29713

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