Konsentrasi kandungan timbal (Pb) dalam tubuh bulu babi di Pantai Serangan, Bali

  • Gede Panji Agung Institut Pertanian Bogor
  • Gatot Yulianto Gatot Yulianto
  • Ario Damar Ario Damar
Keywords: Sea urchin, Heavy Metal (Pb), Serangan Beach

Abstract

Serangan Beach is located on Serangan Island, Denpasar, Bali. Recorded as having very abundant sea urchin potential to be developed, Lead (Pb) is a metal that is widely utilized by humans so that this metal also causes contamination impacts on the environment. Most of the heavy metal (Pb) pollution into the waters comes from the use of oil-fueled emissions on ships. Therefore, it is necessary to determine the concentration of heavy metal (Pb) in the body of sea urchins in Serangan Beach, Bali. This study used quantitative methods and (AAS). In the data collection process using purposive sampling method, namely selecting four locations known to be sea urchin habitat. The results obtained show that the concentration of heavy metal Pb in the body of sea urchins at the four stations is the average value of each station concentration of 0.013, 0.009, 0.008 and 0.007. The value of Pb heavy metal concentration in the body of sea urchins is lower when compared to the standard value of heavy metals in aquatic biota.

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References

Abdul HA. 2013. Keanekargaman dan Konservasi Bulu Babi Cet.1 - Juli. Galaxy Science Jumlah halaman xix + 231 hal, Indeks 9 hal. ISBN 978-602-7611-08-5.

Alfian. 2009. Penentuan Kandungan Logam (Hg, Pb dan Cd) dengan Penambahan Bahan Pengawet Dan Waktu Perendaman Yang Berbeda Pada Kerang Hijau (Pernaviridis L.) Di Perairan Muara Kamal, Teluk Jakarta. [Skripsi] Fakultas Sains Dan Teknologi Universitas Islam Negeri Syarif Hidayatullah. Jakarta: 104 hlm.

Aswandy I, Azkab, HM. 2000. Hubungan Fauna dengan Padang Lamun. Oseana. 25(3):19–24.

Aziz A. 1993. Oseana Pusat Pengembangan Oseanologi; Indonesia Lembaga Ilmu Pengetahuan Indonesia. Jakarta Hlm : 65-75. 18 No. 2.

Bertocci I, Blanco A, Franco JN, Fernández-Boo S, Arenas F. 2018. Short-term variation of abundance of the purple sea urchin, Paracentrotus lividus Lamarck, 1816, subject to harvesting in northern Portugal. Marine Environmental Research, 141. 247–254. https://doi.org/10.1016/j.marenvres. 2018.09.017

Budiarta IK, Elok F, I Gusti, NPD. 2019. Akumulasi Logam Berat Timbal (Pb) Dan Kadmium (Cd) Pada Halophila ovalis Dan Thalassia hemprichii Sebagai Agen Fitoremediasi Di Selatan Serangan. Jurnal Marine Research and Technology

Dinas Kelurahan Serangan 2012. Monografi Desa Serangan, Denpasar selatan, Kota Denpasar, Provinsi Bali.

Duysak Ö, Ersoy B, Dural M. 2013. Metal Concentrations in different tissues of cuttlefish (Sepia officinalis) in İskenderun Bay, Northeastern Mediterranean. Turkish J. Fish. aquat. Sci., 13: 205- 210.

Joseph J, Ali SN, Hing LS. 2014. Heavy metal composition in Green Turtle (Chelonia mydas) eggs from nesting beaches in Peninsular Malaysia. Asian Journal of Conservation Biology, 3(July), 83–87.

Khan S, Farooq R, Shahbaz S, Khan MA, Sadique M. 2009. Health risk assessment of heavy metals for population via consumption of vegetables. World Appl. Sci. J. 6(12):1602–1606.

Nane L, Baruadi ASR, Mardin H. 2020. Density of the blue black urchin Echinotrix diadema Linnaeus, 1758 in Tomini Bay, Indonesia. Tomini Journal of Aquatic Science, 1(1), 16–21. https://doi.org/10.37905/tjas.v1i1.5 939.

OSPAR. 1993. Ospar Commission For The Protection Of The Marine Enviroment Of The North-East Atlantic. London: Ospar Commission. 155p.

Pratiwi A, Pratomo A, Willian N. 2011. Analisis Kandungan Logam Berat Pb dan Cd Terhadap Lamun (Enhalus acoroides) Sebagai Bioindikator Di Perairan Tanjung Lanjut Kota Tanjung Pinang. Universitas Maritim Raja Ali Haji. Hlm. 1-8

Rumahlatu D. 2011. Konsentrasi logam berat kadmium pada air, sedimen dan Deadema setosum (Echinodermata, Echinoidea) di Perairan Pulau Ambon. ILMU KELAUTAN: Indonesian Journal of Marine Sciences. 16(2)78–85.

Supono, Arbi UY. 2010. Struktur Komunitas Ekinodermata di Padang Lamun Perairan Kema, Sulawesi Utara. Oseanologi dan Limnologi di Indonesia. 36(3):329–341

Suskiewicz, TS. Johnson LE. 2017. Consumption rates of a key marine herbivore: A review of the extrinsic and intrinsic control of feeding in the green sea urchin. Marine Biology, 164(6), 131. https://doi.org/10.1007/s00227- 017-3159-0.

Al Tanto, Try, et al. "Karakteristik arus laut perairan Teluk Benoa–Bali." J. Ilm. Geomatika 23.1 (2017):37.

Walker, CW. Unuma T, Lesser MP. 2007 Gametogenesis and reproduction of sea urchins. (J. M. Lawrence, Penyunt.) Edible Sea Urchin: Biology and Ecology. 11–33.

Yusthinus T, Sunarti N. 2014. Analisis Kandungan Timbal (Pb) Dan Kromium (Cr) Pada Akar Lamun (Enhalus Acoroides) Di Perairan Desa Waai Dan Tulehu Kabupaten Maluku Tengah. Ind. J. Chem. Res, 2014, (1) 6–71.

Published
2023-08-27
How to Cite
AgungG. P., YuliantoG., & DamarA. (2023). Konsentrasi kandungan timbal (Pb) dalam tubuh bulu babi di Pantai Serangan, Bali. Habitus Aquatica, 4(2), 44–51. https://doi.org/10.29244/HAJ.4.2.44