International Journal of Advanced Research and Publications (2456-9992)

Analysis Of Lead (PB) And Mercury (HG) Heavy Metal Content In Octopus (Octopus Spp.) At Some Traditional Markets In Medan City, North Sumatra

Volume 3 - Issue 4, April 2019 Edition
[Download Full Paper]

Author(s)
Eri Yusni, Eddie Satria Hartono
Keywords
Octopus, Lead, Mercury, Furnace Graph Method, Hydrid Method.
Abstract
Octopus is an economically important fishery commodity. All types of octopus including octopus become fishery products that can be consumed. The export value of world octopus in 2014 can reach 350,710 tons with a value of $ 133 trillion. The objective of the present study was to examine the heavy metal content of Lead and Mercury In Octopus obtained from several traditional markets in the City of Medan. The sampling time is carried out three times, namely in June, July, and August 2018. The results showed octopus in the results of laboratory tests of Lead (Pb) heavy metals with the AAS tool furnace graph method on Lead (Pb) and the Hydrid method on Mercury (Hg). It is known that the highest Pb content is in the sample of 6 which is 0.017 mg / kg and the lowest is in the sample 2 which is 0.007 mg/kg. Pb and Hg in each sample of octopus is low according to the World Health Organization (WHO), EU and BPOM.
References
[1] T.T.J.P. Agustina. “Kontaminasi Logam Berat Pada Makanan Dan Dampaknya Pada Kesehatan”. Teknobuga. 1 (1), 2014.

[2] S. Karim, A. Aouniti , C. Belbachir, I. Rahhou, S. Elabed and B. Hammouti.” Metallic contamination (Cd, Pb, Cu, Zn, Fe, Co) of the Octopus (Octopus vulgaris Cuvier, on 1797) Fished in the Mediterranean Coast from the North East of Morocco”. Journal of Chemical and Pharmaceutical Research. 2016.

[3] Karneli. “Kandungan Logam Berat Timbal (Pb) Pada Kerang Kima Sisik (Tridacna squamosa) Di Perairan Pelabuhan Feri Bira Kabupaten Bulukumba”. Universitas Islam Negeri Alauddin Makassar, Makassar. 2010. (Skripsi).

[4] J. W. N. Nichols, And M .N. Duluth. “An Ecological Assessment for Anthropogenic Mercury Emissions in the United States Office of Air Quality Planning & Standards and Office of Research and Development. Environmental Protection Agency, United States”. 1997. (Study Report to Congress Volume VI).

[5] F. Nur And, Karneli. “Kandungan Logam Berat Timbal (Pb) Pada Kerang Kima Sisik (Tridacna squmosa) di Sekitar Pelabuhan Feri Bira”. UIN Alauddin, Makassar, 29 Januari 2015, [Indonesian] (Seminar Nasional Mikrobiologi Kesehatan dan Lingkungan Makassar).

[6] C. P. Paruntu, B.B. Farnis, L.T. Sujito. “Gurita (Cephalopoda) Dari Perairan Sangihe, Sulawesi Utara”. EKOTON 9(2):13-27. 2009

[7] L.T.I. Siagian. “Pengaruh Pencemaran Logam Berat Pb Terhadap Biota Laut dan Konsumennya Di Kelurahan Bagan Deli Belawan”. Universitas HKBP Nommensen. Medan, [Indonesian]. 2014. (Laporan Akhir Penelitian).

[8] D. Sundari, H. Miko, Suharjo. “Kandungan Logam Berat Dalam Bahan Pangan Di Kawasan Industri Kilang Minyak, Dumai (Heavy Metal In Food Ingredients In Oil Refi Nery Industrial Area, Dumai”. Buletin Penelitian Sistem Kesehatan. 19(1): 55–61. 2016 .

[9] A. Suyanto, K. Sri, C.H. Retnaningsih. “Residu Logam Berat Ikan Dari Perairan Tercemar Di Pantai Utara Jawa Tengah (Residual Heavy Metals in Fish from Contaminated Water in North Coast of Central Java)”. Jurnal Pangan dan Gizi 1(2). 2010.

[10] S. Yulaipi, and Aunurohim. “Bioakumulasi Logam Berat Timbal (Pb) dan Hubungannya dengan Laju Pertumbuhan Ikan Mujair (Oreochromis mossambicus)”. Jurnal Sains Dan Seni Pomits 2(2): 2337-3520. 2013.