PERUBAHAN STRUKTUR HISTOLOGIS INSANG DAN HATI IKAN NILA (Oreochromis niloticus Linnaeus 1758) YANG TERPAPAR MERKURI

Penulis

  • Ilham Zulfahmi
  • Ridwan Affandi
  • Djamar T.F. Lumban Batu

Abstrak

Penelitian ini bertujuan untuk mengkaji perubahan struktur histologis organ insang, hati dan ginjal ikan nila akibat dari paparan merkuri. Penelitian dilakukan dari bulan Februari hingga Juni 2013. Ikan nila berukuran panjang 11-13 cm dengan bobot rata-rata 20 gram dipaparkan pada konsentrasi sub kronik merkuri klorida (0,164 mgL-1) selama 56 hari. Pembuatan preparat histologis hati dan dilakukan dengan metode histoteknik menggunakan pewarnaan Haemotoxylin dan Eosin. Hasil penelitian menunjukkan adanya pengaruh negatif pada hati dan ginjal ikan nila akibat dari paparan merkuri. Paparan merkuri pada organ insang menyebabkan terjadinya perubahan struktur histologis berupa perbesaran sel organ (hypertrophy), penambahan jumlah sel (hyperplasia) pembengkokan lamela sekunder (curling of secondary lamella), penghimpitan lamella sekunder (fusion in secondary lamella)  dan kematian sel  (neukrosis). Perubahan histologis pada organ hati berupa perbesaran sel organ (hypertrophy), penambahan jumlah sel (hyperplasia), penciutan inti  sel (shrinkage of hepatocytes), pendarahan (hemorage), dan kematian sel (neukrosis).

Kata kunci: merkuri klorida, histologis, hypertrophy, hyperplasia, neukrosis.

Referensi

Ahmed MK, Mamun HA, Parvin E, Akter MS, Khan MS. 2013. Arsenic induced toxicity and histopathological changes in gill and liver tissue of freshwater fish, tilapia (Oreochromis mossambicus). Experimental and Toxicologic Pathology, 65 (6): 903-909.

Bleau H, Daniel C, Chevalier G, Van Tra H, Hontela A. 1996. Effects of acute exposure to mercury chloride and methyl mercury on plasma cortisol, T3, T4, glucose and liver glycogen in rainbow trout, Oncorhynchus mykiss. Aquatic Toxicology, (34): 221–235.

Clark R. 2001. Marine pollution. Oxford University Press. New York. 231 p.

Clarkson TW. 2002. The three modern faces of mercury. Environmental Health Perspectives, 110(1): 11-23.

Clarkson TW, Magos L. 2006. The toxicology of mercury and its chemical compounds. Critical Reviews in Toxicology, 36(8): 609–662.

Connell DW. 1995. Bioakumulasi Senyawaan Xenobiotik. Jakarta: UI Press

Dolenec M, Kuzir S. 2009. Anatomy and histology of bony fish gills as a basis of their multiple roles. Veterinarska Stanica, 40 (4): 209–217.

Fernandez MN, Mazon AF. 2003. Environmental Pollution and Fish Gill Morphology Science Publishers. 203-231.

Hontela A.1998. Interrenal disfunction in fish from contaminated sites: in vivo and in vitro assessment. Annual review. Environment. Toxicol. Chemical, 17 (1) 44–48.

Kendall MW. 1975. Acute effect of methyl mercury toxicity in channel catfish kidney. Bull. Environ. Contam. Toxicol. 13 (5), 570–575.

Kirubagaran R, Joy KP. 1988. Toxic effects of three mercurial compounds on survival, and histology of the kidney of the catfish Clarias batrachus. Ecotoxicology and Environmental Safety, 15 (2): 172–279.

Lakra WS, Nagpure NS. 2009. Genotoxicological studies in fishes: a review. The Indian Journal of Animal Sciences, 79(1): 93 – 98.

Levesque H, Dorval J, Van Der Kraak G, Campbell PGC, Hontela A. 2003. Hormonal, morphological and physiological responses of yellow perch (Perca flavescens) to chronic environmental metal exposure. Journal of Toxicology and Environmental Health, 66 (7), 657–676.

Lu CF. 1995. Toksikologi dasar. Universitas Indonesia Press, Jakarta. 290 hlm.

Mishra AK, Mohanty B. 2008. Acute toxicity impacts of hexavalent chromium on behavior and histopathology of gill, kidney and liver of the freshwater fish, Channa punctatus (Bloch). Environmental Toxicology and Pharmacology, 26 (2): 136–141.

Morozov DN, Vysotskaya RU. 2007. Comparative study of bile acid composition of bile of the European vendace Coregonus albula L. and the European whitefish Coregonus lavaretus L. under conditions of technogenic water reservoir pollution. Journal of Evolutionary Biochemistry and Physiology 43(5): 490–494.

Norris DO, Felt SB, Woodling JD, Dores RM. 1997. Immunocytochemical and histological differences in the interrenal axis of feral brown trout, Salmo trutta, in metal-contaminated water. General and Comparative Endocrinology, 108 (3): 343–351.

Ortiz JB, De Canales MLG., Sarasquete C. 2003. Histopathological changes induced by lindane (γ-HCH) in various organs of fishes. Science Marine. 67 (1), 53–61.

Palar H. 2004. Pencemaran dan toksikologi logam berat. Penerbit Rineka Cipta. Jakarta. 152 hlm.

Pandey S, Kumar R, Sharma S, Nagpure NS, Srivastava SK, Verma MS. 2005. Acute toxicity bioassays of mercuric chloride and malathion on air-breathing fish Channa punctatus (Bloch). Ecotoxicology and Environmental Safety, 61(1): 114-120.

Poopal RK, Mathan R, Bheeman D. 2013. Short-term mercury exposure on Na+/K+-ATPase activity and ionoregulation in gill and brain of an Indian major carp, Cirrhinus mrigala. Journal of Trace Elements in Medicine and Biology, 27(1): 70 – 75.

Ullrich SM, Tanton TW, Abdrashitova SA. 2001. Mercury in the aquatic environment: a review of factors affecting methylation. Critical Reviews in Environment Science and Technology 31(3): 241-93.

Velmurugan B, Selvanayagam M, Cengiz EI, Unlu E. 2007. The effects of fenvalerate on different tissues of freshwater fish Cirrhinus mrigala. Journal Environmental Science Health 42 (2), 157–163

##submission.downloads##

Diterbitkan

2016-01-14