Alteration of Gills and Liver Histological Structure of Cyprinus carpio Exposed to Leachate
(1) Department of Biology, Faculty of Mathematics and Natural Science, Padjadjaran University
(2) Department of Biology, Faculty of Mathematics and Natural Science, Padjadjaran University
(3) Department of Biology, Faculty of Mathematics and Natural Science, Padjadjaran University
(4) Department of Biology, Faculty of Mathematics and Natural Science, Padjadjaran University
Abstract
One of the main problems in the waste management in Indonesia is the treatment of leachate, which mostly dumped to the river This research is aimed to obtain information of histological alteration in gills and liver of C. carpio L. exposed to leachate. Measurements on the water quality parameters comprised water temperature, pH, and dissolved oxygen (DO). This research was conducted by exposing leachate to C. carpio for 96 hours. The concentration of leachate were 0 ppm, 80 ppm, and 100 ppm. Histological preparation were made on the gills and liver using 10% fixative Neutral Buffered Formalin and Ehrlich Hematoxylin-Eosin staining with qualitative observation descriptive analyses for discussion. The result showed that increasing water temperature is directly proportional to the leachate concentration in the aquaria, while the value of pH and DO inversely proportional to the leachate concentration. Damages on the gills with 80 ppm leachate concentrasion were identified as follows: fusion of secondary gill filaments and hyperplasia of epithelial cell, along with karyorrhexis and hydropic degeneration on the liver. Damages on the gills of fishes exposed to leachate with 100 ppm concentrasion were identified as follows: fusion of secondary gill filaments, hyperplasia of epithelial cell, congestion, and edema along with karyorrhexis, hydropic degeneration and melanomacrophage centre (MMC) found on the liver. The results of this study can be used as an overview of the impact of an environmental pollution by leachate as indicated from histological damage to the gills and liver of C. carpio, thus contribute significan information to aquaculture sector and endorse better waste management
Keywords
Full Text:
PDFReferences
Authman, M. M. N., Ibrahim, S. A., El-Kasheif, M. A. & Gaber, H. S. (2013). Heavy Metals Pollution and Their Effects on Gills and Liver of the Nile Catfish Clarias gariepinus Inhabiting El-Rahawy Drain, Egypt. Global Veterinaria, 10(2), 103-115.
Badan Pusat Statistik. (2015). Penduduk Indonesia menurut Provinsi 2000, 2001, 2002, 2003, 2004, dan 2015. [Online]. Available at: http://www.bps.go.id/linkTabelStatis/view/id/1267, (Diakses Maret 2016).
Benli, A. C. K., Koksal, G. & Ozkul, A. (2008). Sublethal Ammonia Exposure of Nile Tilapia (Oreochromis niloticus L.): Effects on Gill, Liver and Kidney Histology. Chemosphere, 72(9), 1355-1358.
Bhatnagar, A. & Devi, P. (2013). Water Quality Guidelines for the Management of Pond Fish Culture. International Journal of Environmental Sciences, 3(6), 1980-2009.
Boran, H., Capkin, E., Altinok, I. & Terzi, E. (2012). Assessment of acute toxicity and histopathology of the fungicide captan in rainbow trout. Experimental and Toxicologic Pathology, 64(3), 175-179.
Camargo, M. M. P. & Martinez, C. B. R. (2007). Histopathology of gills, kidney and liver of a Neotropical fish caged in an urban stream. Neotropical Ichthyology, 5(3), 327-336.
Campbell. (2004). Biologi, Edisi Kelima-Jilid 3. Jakarta: Erlangga.
Chezhian, A., Senthamilselvan, D. & Kabilan, N. (2012). Histological Changes Induced by Ammonia and pH on The Gills of Fresh Water Fish Cyprinus carpio var. communis (Linnaeus). Asian Journal of Animal and Veterinary Advances, 7(7), 588-596.
Costa-Pierce, B. A., Soemarwoto, O., Roem, C. M. & Herawati, T. (1990). Water Quality Suitability of Saguling and Cirata Reservoirs for Development of Floating Net Cage Aquaculture. Reservoir Fisheries and Aquaculture Development for Resettlement in Indonesia. ICLARM Tech. Rep. 23
Devaraj, S., Arulprakasam, C., Kandhan, A. P., Neelamegam, K. & Kalaiselvan, R. (2014). Toxicological effects of ammonia on gills of Cyprinus carpio var. communis (Linn.). Journal of Coastal Life Medicine, 2(2), 92-98.
Emenike, C. U., Fauziah, S. H. & Agamuthu, P. (2012). Characterization and Toxicological Evaluation of Leachate from Closed Sanitary Landfill. Waste Management & Research, 30(9), 88-897.
Evans, D. H., Piermarini, P. M. & Choe K. P. (2005). The Multifunctional Fish Gill: Dominant Site of Gas Exchange, Osmoregulation, Acid-Base Regulation and Excretion of Nitrogenous Waste. Physiological Review, 85(1), 97-177.
Fardiaz, S. (1992). Polusi Air dan Udara. Yogyakarta: Kanisius.
Ferguson, H. W. (1989). Gills and pseudobranchs. In: Ferguson, H.W., (ed.), Text book of systemic pathology of fish, 1st ed. Canada: Lowa state University Press.
Fitriawan, F. (2010). Analisis Perubahan Mikroanatomi dan Variasi Pola Pita Isozim Pada Insang dan Ginjal Kerang Air Tawar Anodonta woodiana Terhadap Paparan Logam Berat Kadmium. Tesis. Surakarta: Program Studi Biosain. Universitas Sebelas Maret.
Genten, F., Terwinghe, E. & Danguy, A. (2009). Atlas of Fish Histology. United States of America: Science Publishers.
Golstein, P. & Kroemer, G. (2006). Cell Death by Necrosis: Towards a Molecular Definition. TRENDS in Biochemical Sciences, 32(1), 38-43.
Hadi, A. A. & Alwan, S. F. (2012). Histopathological Changes in Gills, Liver and Kidney of Fresh Water Fish, Tilapia zillii, Exposed to Aluminum. International Journal of Pharmacy & Life Sciences, 3(11), 2071-2081.
Hartati, E. (2007). Studi pengolahan kandungan ion logam (Fe, Mn, Cu, Zn) lindi sampah oleh zeolit. Jurnal Sains MIPA edisi khusus, 13(1), 29-34.
Humason, G. L. (1967). Animal Tissue Techniques. United States of America: W. H. Freeman and Company.
Karthigayani, T., Denis, M., Remy, A. R. A. & Shettu, N. (2014). Histological Study of the Intestine and Liver Tissues in the Fish Oreochromis mossambicus Exposed to Cypermethrin. Journal of Modern Biotechnology, 3(4), 48-54.
Kavidha, K. & Muthulingam, M. (2014). Lead Acetate Induced Glycogen Level Alterations in Gill and Kidney Tissues of Freshwater Fish Cyprinus Carpio (Linn.). International Journal of Modern Research and Reviews, 2(11), 517-521.
Lescher, P. J. (2011). Pathology for the Physical Terapist Assistant. Philadelphia: F.A. Davis Company.
Mallya, Y. J. (2007). The Effects of Dissolved Oxygen on Fish Growth in Aquaculture. Tanzania: Kingolwira National Fish Farming Centre.
Mamangkey, J. J. (2011). Konservasi Spesies Ikan Endemik Butini (Glossogobius matanensis) di Danau Towuti, Sulawesi Selatan. Prosiding Forum Nasional Pemacuan Sumber Daya Ikan III, 18 Oktober 2011.
Natalia, M. (2007). Pengaruh Plumbum (Pb) Terhadap Struktur Insang Ikan Mas (Cyprinus carpio L.). Jurnal Perikanan dan Kelautan, 12(1), 42-47.
Neelima, P., Kumar, C. L. A., Rao, J. C. S. & Rao, N. G. (2015). Histopathological Alterations in Gill, Liver and Kidney of Cyprinus carpio (Linn.) Exposed to Cypermethrin (25%EC). International Journal of Advanced Research in Biological Sciences, 2(2), 34-40.
Obe, G. (1994). Advances in Mutagenesis Research 5. Berlin: Springer.
Palar, H. (2004). Pencemaran dan Toksikologi Logam Berat. Jakarta: Rineka Cipta.
Poleksic, V., Lenhardt, M., Jaric, I., Djordjevic, D., Gacic, Z., Cvijanovic, G., & Raskovic, B. (2010). Liver, Gill, and Skin Histopathology and Heavy Metal Content of the Danube Sterlet (Acipenser ruthenus L. 1758). Enviromental Toxicology and Chemistry, 29(3), 515-521.
Price, D. R. H. (1979). Fish as Indicators of Water Quality. Toronto: John Wiley and Sons. Chicester.
Renou, S., Givaudan, J. G., Poulain, S., Dirassouyan, F. & Moulin, P. (2008). Landfill Leachate Treatment: Review and Opportunity. Journal of Hazardous Materials, 150(3), 468-493.
Riani, E. (2012). Perubahan Iklim dan Kehidupan Biota Akuatik (Dampak Pada Bioakumulasi Bahan Berbahaya dan Beracun & Reproduksi). Bogor: IPB Press.
Robert, R. J. (2001). Fish Pathology 3rd Edition. London: W.B. Saunders.
Salim, F. (2014). Survey on Histopathological Changes in Different Organs of Local Freshwater Fishes in Basra Province. International Journal Academic Research Multidisciplinary, 2(10), 236-256.
Saputra, H. M., Marusin, N. & Santoso, P. (2013). Struktur Histologis Insang dan Kadar Hemoglobin Ikan Asang (Osteochilus hasseltii C.V) di Danau Singkarak dan Maninjau Sumatera Barat. Jurnal Biologi Universitas Andalas, 2(2), 138-144.
Setyowati, A., Hidayati, D., Awik, P. D. N & Abdulgani, N. (2010). Studi Histopatologi Hati Ikan Belanak (Mugil cephalus) di Muara Sungai Aloo Sidoarjo. Surabaya: Program Studi Biologi Fakultas Matematika Ilmu Pengetahuan Alam. ITS.
Siregar, Y. I., Zamri, A. & Putra, H. (2012). Penyerapan Timbal (Pb) Pada Sistim Organ Ikan Mas (Cyprinus carpio L). Jurnal Ilmu Lingkungan, 6(1), 43-51.
Stentiford, G. D., Longshaw, M., Lyons, B. P., Jones, G., Green, M. & Feist, S. W. (2002). Histopathological biomarkers in estuarine fish species for the assessment of biological effects of contaminant. Marine Environmental Research, 55(2003), 137-159.
Suganda, B., Iskandarsyah, M., & Sapari, M. (2012). Prediksi Arah Pencemaran Air tanah Akibat Tempat Pembungan Sampah Akhir di Daerah Sarimukti dan Sekitarnya. Sumedang: Fakultas Teknik Geologi. Univeritas Padjadjaran.
Susanah, U., Santosa, K., & Utami, N. (2013). Struktur Mikroanatomi Insang Ikan Bandeng di Tambak Wilayah Tapak Kelurahan Tugurejo Kecamatan Tugu Semarang. Biosaintifika: Journal of Biology & Biology Education, 5(1). 65-73.
Susanto, J. P., Ganefati, S. P., Muryani, S., & Istiqomah, S. H. (2004). Pengolahan lindi (leachate) dari TPA dengan sistem koagulasi-biofilter anaerobik. Jurnal Teknik. Lingkungan P3TL-BPPT, 5(3), 167-173.
Swingle, H. S. (1969). Methods of Analysis for waters, organic matter and Pond Bottom Soils Used in Fisheries Research. Auburn: University Auburn.
Wood, C. M. (2001). Toxic Responses of the Gill. In: Target Organ Toxicity in Marine and Fresh Water Teleosts, Sclenk, D. and W.H. Benson (Eds.). New York: Taylor and Francis.
Refbacks
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution 4.0 International License.