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IJSTR >> Volume 10 - Issue 6, June 2021 Edition



International Journal of Scientific & Technology Research  
International Journal of Scientific & Technology Research

Website: http://www.ijstr.org

ISSN 2277-8616



The Fish Quality Of Coastal Waters Likely Exposed To Oil Spill

[Full Text]

 

AUTHOR(S)

Irza Arnita Nur, Hadi Supardi, Audra Ligafinza, Luisa Febrina Amalo, Vidya Nur Trissanti, Agus Alim Hakim, Hefni Effendi, Yusli Wardiatno

 

KEYWORDS

Coastal pollution, consumption safety, edible fish, human health.

 

ABSTRACT

The recent oil spill incident in coastal area of Karawang Regency in West Java, Indonesia spread to the surroundings coastal waters of Bekasi and Seribu Islands. These coastal waters are connected and are fishing ground of most artisanal fishermen in these coastal area. It is, therefore worthwhile to examine the fish quality collected from the exposed area after the incident. This study was carried out to provide information on heavy metal concentrations in the muscles of several fish species, including crabs and shellfish. The fish, crabs and shellfish samples were collected with the help of local fishermen. The concentrations of Arsenic (As), Cadmium (Cd), Mercury (Hg), and Lead (Pb) were determined in the muscles of collected fish, crabs and shellfish. The concentration of heavy metals were measured in the laboratory by atomic absorption spectrophotometry after digestion of the samples using kjeldahl heating digester. The results showed the concentration of all metals in the present study were lower than the limits permitted by Indonesian national standard. Therefore, it seems that no problems on human health would be raised from the consumption of the collected fish from the Karawang, Bekasi and Seribu Island coastal waters, from the heavy metal content point of view.

 

REFERENCES

[1] Michel J, Fingas M. 2016. Oil Spills: Causes, consequences, prevention, and countermeasures. In Fossil Fuels: Current Status and Future Directions. World Scientific Series in Current Energy Issues. 159-201.
[2] Charles TA. 2001. Sustainable Fishery System. Blackwell Science. London.
[3] Berkes F, Mahon R, McConney P, Pollnac R, and Pomeroy R. 2001. Managing Small-scale Fisheries Alternative Directions and Methods. Canada (US): The International Development Research Centre.
[4] Satria A. 2002. Pengantar Sosiologi Masyarakat Pesisir. Jakarta (ID): Cidesindo.
[5] Luky A. 2007. A Snapshot on Small Scale Fisheries. Sebuah Pengantaar Focus Group Discussion. PKSPL IPB. Bogor.
[6] Garcia SM, Allison EH, Andrew NJ, Bene C, Bianchi G, de-Graaf GJ, Kalikoski D, Mahon R, and Orensanz JM. 2008. Towards integrated assessment and advice in small scale físheríes: principles and processes. FAO Físherίes and Aquaculture Technical Paper. FAO. Rome.
[7] Batista VS, Fabre NN, Malhado ACM, and Ladle RJ. 2013. Tropical artisanal coastal fisherίes: Challenges and future directions. Fish Science & Aquaculture 22(1):1-15.
[8] Prihamdoko, Jahi A, Gani DS, Purnaba IGP, Adrianto L, dan Tjitradjaja I. 2011. Faktor-faktor yang mempengaruhi perilaku nelayan artisanal dalam pemanfaatan sumberdaya perikanan di pantai utara Provinsi Jawa Barat. Makara, Sosial Humaniora. 15(2): 117-126.
[9] Rumahlatu D. 2011. Kandungan logam berat kadmium pada air, sedimen dan Eadema setosum (Echinodermata, Echinoidea) di Perairan Pulau Ambon. Ilmu Kelautan. 16 (2): 78-85.
[10] Kumar B, Sajwan KS, and Mukherjee DP. 2012. Distribution of heavy metals in valuable coastal fishes from North East Coast of India. Turkish Journal of Fisheries and Aquatic Sciences 12:81-88.
[11] Wallen J, Wightmans AS, and Penning W. 1984. Environmental Effects of Cadmium in Freshwater. Freshwater Biological Association No. 23.
[12] Darmono. 1995. Logam dalam Sistem Biologi Makhluk Hidup. UI Press. Jakarta
[13] Hutagalung HP.1984. Logam berat dalam lingkungan laut. Oseana. 9(1):11-20.
[14] Janga YC, Somannaa Y, and Kimb H. 2016. Source, distribution, toxicity and remediation of arsenic in the environment – a review. International Journal of Applied Environmental Sciences 11(2):559-581.
[15] Syakti AD, Nuning VH, and Asrul SS. 2012. Agen Pencemaran Laut. Bogor (ID): IPB Pr..
[16] Squadrone S, Prearo M, Brizio P, Gavielli S, Pellegrino M, Scanzio T, Guarise S, Benedetto, and Abete MC. 2013. Heavy metals distribution in muscle, liver, kidney and gill of European catfish (Silurus glanis) from Italian Rivers. Chemosphere. 90: 358-365.
[17] Gheorghe S, Stoica C, Vasile GG, Nita-Lazar M, Stanescu E, and Lucaciu IE. 2017. Metals Toxic Effects in Aquatic Ecosystems: Modulators of Water Quality. https://www.intechopen.com/ books/water-quality/metals-toxic-effects-in-aquatic-ecosystems-modulators-of-water-quality.
[18] Ribeiro CAL, Vollaire Y, and Chardi AS. 2005. Bioaccumulation and the effects of organochlorine pesticides PAH and heavy metals in the eel (Anguilla Anguilla) at the Camargue Nature Reserve, France. Aquatic Toxicology. 74: 53-69.
[19] Priatna DE, Purnomo T, Kuswanti N. 2016. Kadar logam berat timbal (Pb) pada air dan ikan bader (Barbonymus gonionotus) di sungai Brantas wilayah Mojokerto. Lentera Bio. 5(1): 48-53.
[20] Vijayakumar P, Lavanya R, Veerappan N, and Balasubramanian T. 2011. Heavy metal concentrations in three commercial fish species in Cuddalore Coast, Tamil Nadu, India. The Journal of Experimental Life Science. 2(8): 20-23.
[21] Fathi HB, Othman MS, Mazlan G, Arshad A, Amin SMN, and Simon KD. 2013. Trace metals in muscle, liver and gill tissues of marine fishes from mersing, eastern coast of Peninsular Malaysia: concentration and assessment of human health risk. AJAVA 8(2):227-236.
[22] ] Law AT, and Singh A. 1991. Relationships between heavy metal content and body weight of fish from the Kelang estuary, Malaysia. Mar Pol Bull. 22:86-89.
[23] Prabowo R. 2005. Akumulasi kadmium pada daging ikan bandeng. Jurnal Ilmu-Ilmu Pertanian 1(2):58-74.
[24] Sankar TV, Zynudheen AA, Anandan R, and Nair PGC. 2006. Distribution of organochlorine pesticides and heavy metal residues in fish and shellfish from Calicut region, Kerala, India. Chemosphere. 65(4): 583-590.
[25] ] Fauziah AR, Rahardja BS, and Cahyoko Y. 2012. Korelasi ukuran kerang darah (Anadara ganosa) dengan kandungan logam berat merkuri (Hg) di Muara Sungai Ketingan, Sidoarjo, Jawa Timur. Jurnal of Marine and Coastal Science 1(1):34-44.
[26] Annabi A, Said K, and Messaoudi I. 2013. Cadmium bioaccumulation, histopathology and detoxifying mechanisms in fish. American Journal of Research Communication. 1(4):60-79.
[27] Ahmed Q, Khan D, and Naeema E. 2014. Concentration of heavy metals (Fe, Mn, Zn, Cd, Pb, and Cu) in muscle, liver dan gills of adult Sardinella albelia (Valenciennes 1847) from gwadar water of Balochistan, Pakistan. Federal Urdu University Art Science and Technology. Journal of Biology 4(2):95-204.
[28] Bawuro AA, Voegborlo RB, and Adimado AA. 2018. Bioaccumulation of heavy metals in some tissues of fish in Lake Geriyo, Adamawa State, Nigeria. Journal of Environmental and Public Health.
[29] Cahyani N, Lumban Batu DTF, and Sulistiono. 2016. Kandungan logam berat Pb, Hg, Cd, dan Cu pada daging ikan Rejung (Sillago sihama) di estuari Sungai Donan, Cilacap, Jawa Tengah. Jurnal Pengolahan Hasil Perikanan Indonesia 19(3):267–276.
[30] Jeyaraj N, Suhaila A, Divya A, Kumar SP, Kumar L, and Ravikumar S. 2015. Heavy metal concentration in fishes from the Coastal Waters of Kasaragod, Northwest Part of Kerala, India. Int J Curr Res Biosci Plant Biol. 2(6):14-20.
[31] Prastyo Y, Lumban Batu DTF, dan Sulistiono. 2017. Kandungan logam berat Cu dan Cd pada ikan belanak di estuari Sungai Donan, Cilacap, Jawa Tengah. Jurnal Pengolahan Hasil Perairan Indonesia. 20(1): 18-27.
[32] Barak NAE, and Mason CF. 1990. Mercury, cadmium and lead concentrations in five species of freshwater fish from Eastern England. Sci. Total Environ. 92:257–263.