 |
 |
 |
 |
 |
 |
Sains Malaysiana 52(4)(2023):
http://doi.org/10.17576/jsm-2023-5204-03
Erythrocytic Nuclear Abnormalities and Leucocyte Profiles of Asian
Seabass (Lates calcarifer) Exposed to Polluted Seawater
(Keabnormalan Nukleus Eritrosit dan Profil Leukosit Siakap Asia (Lates calcarifer) Terdedah
kepada Air Laut Tercemar)
SINLAPACHAI
SENARAT1,*, ANEK SOPON2, JES KETTRATAD3, KITIPONG
ANGSUJINDA2, NATTHAWUT CHAROENPHON4, PAHOL KOSIYACHINDA5,
KITIYA KONGTHONG6, PISIT POOLPRASERT7, PIYAKORN BOONYOUNG8 & PIYAMAT
KONGTUENG9
1Department of Marine Science and Environment,
Faculty of Science and Fisheries Technology,
Rajamangala University of Technology Srivijaya, Trang, 92150 Thailand
2Aquatic Resources Research
Institute, Chulalongkorn University, Bangkok, 10330 Thailand
3Department of Marine Sciences, Faculty of Science,
Chulalongkorn University,
Bangkok,
10330 Thailand
4Department of Anatomy, Faculty of Medical
Science, Naresuan University, Phitsanulok, 65000 Thailand
5Department of Biology, Faculty of Science,
Mahidol University, Bangkok 10400 Thailand
6Faculty of Medical Science, Naresuan
University, Phitsanulok, 65000 Thailand
7Program of Biology, Faculty of Science and
Technology, Pibulsongkram Rajabhat University, 65000 Thailand
8Division of Health and Applied Sciences,
Faculty of Science, Prince of Songkla University, Songkhla, 90110 Thailand
9Central Laboratory, Faculty of Veterinary
Medicine, Chiang Mai University, Chiang Mai, 50100 Thailand
Received:
16 July 2022/Accepted: 21 March 2023
Abstract
Close to industrial activity and a major seaport in
the Gulf of Thailand, Sichang Island has
frequently suffered from pollution and oil spills. However,
the environmental health status of the surrounding waters is relatively unknown. Between December 2017 and January 2018, we reared ninety Asian
seabass (Lates calcarifer) in cage nets off the island and sampled blood to
investigate nuclear abnormalities in erythrocytes and
build leucocyte profiles. The fish were purchased locally and reared in locations where oil spills have been recorded. Environmental parameters were within the
range of standard values. Erythrocyte nuclei had
segmented, reniform and notched abnormalities; however, they dramatically varied after exposure. At
the end of the three-month field experiment, very few
micronuclei had been observed. Observed
leucocytes were neutrophils, lymphocytes, and monocytes. The
percentage of lymphocytes increased considerably, reaching a post-exposure
peak at three months. Our data suggest
that erythrocytic nuclear abnormalities of Asian seabass could be used as an
early warning of toxic pollutants in the marine environment, and as a baseline
environmental health indicator for Sichang Island and the
surrounding area.
Keywords: Erythrocytes; fish health status;
hematology; leucocyte profiling; Sichang Island
Abstrak
Terletak berhampiran dengan aktiviti perindustrian dan
pelabuhan utama di Teluk Thailand, Pulau Sichang sering mengalami pencemaran
dan tumpahan minyak. Walau bagaimanapun, status kesihatan persekitaran perairan
sekitar tidak diketahui. Antara Disember 2017 dan Januari 2018, kami menternak
sembilan puluh ikan siakap Asia (Lates calcarifer) dalam jaring sangkar
di luar pulau dan sampel darah diambil untuk mengkaji keabnormalan nukleus
dalam eritrosit dan membina profil leukosit. Ikan dibeli secara tempatan dan
diternak di lokasi tumpahan minyak direkodkan. Parameter persekitaran berada
dalam julat nilai piawai. Nukleus eritrosit mempunyai keabnormalan bersegmen,
reniform dan berlekuk; walau bagaimanapun, mereka berubah secara mendadak
selepas pendedahan. Pada akhir tempoh percubaan lapangan selama tiga bulan,
sangat sedikit mikronukleus telah diperhatikan. Leukosit yang diperhatikan
ialah neutrofil, limfosit dan monosit. Peratusan limfosit meningkat dengan
ketara, mencapai kemuncak selepas pendedahan selama tiga bulan. Data kami
mencadangkan bahawa keabnormalan nukleus eritrosit bagi ikan siakap Asia boleh
digunakan sebagai amaran awal bahan pencemar toksik dalam persekitaran marin
dan sebagai penunjuk kesihatan alam sekitar asas untuk Pulau Sichang dan
kawasan sekitarnya.
Kata kunci: Eritrosit; hematologi; pemprofilan leukosit; Pulau Sichang; status kesihatan ikan
REFERENCES
Alleman,
A.R., Jacobson, E.R. & Raskin, R.E. 1999. Morphologic, cytochemical staining, and ultrastructural
characteristics of blood cells from eastern diamondback rattlesnakes (Crotalus adamanteus). American
Journal of Veterinary Research 60(4): 507-514.
Anbumani,
S. & Mohankumar, M.N. 2011. Nuclear and cytoplasmic abnormalities in the fish Catla
catla (Hamilton) exposed to
chemicals and ionizing radiation. Research Journal of
Environmental Sciences 5: 867-877.
Azevedo,
J.S., Serafim, A.,
Company, R., Braga, E.S.,
Fávaro, D.I. & Bebianno, M.J. 2009. Biomarkers
of exposure to metal contamination and lipid peroxidation in the benthic fish Cathorops
spixii from two estuaries in South America, Brazil. Ecotoxicology 18(8): 1001-1010.
Barsiene,
J., Dedonyte, V., Rybakovas, A., Andreikenaite, L. & Andersen, O.K. 2006. Investigation of micronuclei and other nuclear abnormalities
in peripheral blood and kidney of marine fish treated with crude oil. Aquatic Toxicology 78: S99-S104.
Bícego,
M.C., Taniguchi, S.,
Yogui, G.T., Montone, R.C., Silva, D.A.M., Lourenço, R.A., Martins, C.C., Sasaki, S.T.,
Pellizari, V.H. & Weber, R.R. 2006. Assessment
of contamination by polychlorinated biphenyls and aliphatic and aromatic
hydrocarbons in sediments of the Santos and São Vicente Estuary System, São
Paulo, Brazil. Marine Pollution Bulletin 52(12): m1804-1816.
Braham,
R.P., Blazer, V.S., Shaw, C.H. &
Mazik, P.M. 2017. Micronuclei
and other erythrocyte nuclear abnormalities in fishes from the Great Lakes
Basin, USA. Environmental
and Molecular Mutagenesis 58(8): 570-581.
Brinkmann,
M., Blenkle, H., Salowsky, H., Bluhm, K., Schiwy, S.,
Tiehm, A. & Hollert, H. 2014. Genotoxicity of heterocyclic PAHs in the micronucleus assay
with the fish liver cell line RTL-W1. PLoS
ONE 9(1): e85692.
Campbell,
T.W. 1986. Clinical
pathology. In Reptile
Medicine and Surgery, edited by Mader, D.R. Philadelphia: WB Saunders. pp. 248-257.
Carins,
J., Dickson, K.L. & Westlake, G.F. 1975. Biological Monitoring of Water and Effluent Quality. Philadelphia: ASTM Publications.
Carrasco,
K.R., Tilbury, K.L. & Myers, M.S. 1990. Assessment of the piscine
micronucleus test as an in situ biological
indicator of chemical contaminant effects. Canadian
Journal of Fisheries and Aquatic Sciences 47(11): 2123-2136.
Cavaş,
T. & Könen, S. 2008. In vivo genotoxicity testing of the amnesic shellfish
poison (domoic acid) in piscine
erythrocytes using the micronucleus test and the comet assay. Aquatic
Toxicology 90(2): 154-159.
Cheikyula,
J.O., Koyama, J. &
Uno, S. 2009. Micronuclei and other
nuclear abnormalities formation in the red sea bream, Pagrus major,
exposed to polycyclic aromatic hydrocarbons. Japanese
Journal of Environmental Toxicology 12(1): 33-39.
Clauss,
T.M., Dove, A.D.M. & Arnold, J.E. 2008. Hematologic
disorder of fish. Veterinary Clinics of North America: Exotic Animal Practice 11(3): 445-462.
Cooper-Bailey, K., Stephen, S.A., Zimmerman, K., Lane, R., Raskin, R.E. & DeNardo, D. 2011. Hematology,
leukocyte cytochemical analysis, plasma biochemistry, and plasma
electrophoresis of wild-caught and captive-bred
Gila monsters (Heloderma suspectum). Veterinary
Clinical Pathology 40(3): 316-323.
da
Silva Corrêa, S.A., de Souza Abessa,
D.M., dos Santos, L.G., da Silva, E.B. &
Seriani, R. 2017. Differential blood
counting in fish as a non-destructive biomarker of water
contamination exposure. Toxicological &
Environmental Chemistry 99(3): 482-491.
Dieterlen-Lievre, F. 1988. Birds. In Vertebrate Blood Cells, edited by Rowley, A.F. & Ratcliffe, M.A. Cambridge: Cambridge University Press. p. 257-336.
Dotson,
T.K., Ramsay, E.C. & Bounous, D.I. 1995. A
color atlas of the blood cells of the yellow rat snake. Compendium: Continuing Education for Veterinarians 17: 1013-1016.
Ergene,
S., Cavaş, T., Celik, A., Köleli, N., Kaya, F. & Karahan, A. 2007. Monitoring of nuclear abnormalities in peripheral erythrocytes
of three fish species from the Goksu Delta (Turkey): Genotoxic damage in relation to water pollution. Ecotoxicology 16(4): 385-391.
Fazio,
F. 2019. Fish hematology analysis as
an important tool of aquaculture: A review. Aquaculture 500: 237-242.
Fazio,
F., Marafioti, S., Torre, A., Sanfilippo, M.,
Panzera, M. & Faggio, C. 2012. Haematological and serum protein profiles of Mugil cephalus: Effect of two different habitats. Ichthyological
Research 60(1): 36-42.
Gabriel,
U.U., Ezeri, G.N.O. & Opabunmi, O.O. 2004. Influence of sex, source, health
status and acclimation on the haematology of Clarias gariepinus (Burch,1822). African Journal of Biotechnology 3(9): 463-467.
Giannetto,
A., Fernandes, J.M.O., Nagasawa, K., Mauceri, A.,
Maisano, M., De Domenico, E.,
Cappello, T., Oliva, S. & Fasulo,
S. 2014. Influence of continuous
light treatment on expression of stress biomarkers in Atlantic cod. Developmental & Comparative Immunology 44(1): 30-34.
Güner, U. & Muranli, F.D.G. 2011. Micronucleus test, nuclear abnormalities and accumulation of
Cu and Cd on Gambusia affinis (Baird & Girard,
1853). Turkish Journal of Fisheries and Aquatic
Sciences 11: 615-622.
Gutiérrez-Cervantes, A., Ahuja-Aguirre,
C., López-deBuen, L. & Viveros-Peredo, S. 2022. Blood cell morphology and leukocyte differential of Morelet’s crocodile (Crocodylus moreletii) (Crocodylidae). Acta Biológica
Colombiana 27(1): 17-27.
Halek, G.& Kavous, N.A. 2008. Polycyclic aromatic hydrocarbons study and toxic equivalency
factor (TEFs) in Tehran, Iran. Environmental Monitoring and Assessment 143(1-3): 303-311.
Heddle,
J.A., Cimino, M.C., Hayashi, M., Romagna, F.,
Shelby, M.D.,
Tucker, J.D., Vanparys, P. & MacGregoret, J.T. 1991. Micronuclei as an index of
cytogenetic damage: Past, present, and future. Environmental and Molecular Mutagenesis 18(4): 277-291.
Hortellani,
M.A., Sarkis, J.E.S., Bonetti, J. &
Bonetti, C. 2005. Evaluation of
mercury contamination in sediments from Santos - São
Vicente Estuarine System, São Paulo State. Journal of
the Brazilian Chemical Society 16(6a): 1140-1149.
Islam,
M.S., Khan, M.M., Moniruzzaman, M., Mostakim, G.M. & Rahman, M.K. 2019. Recuperation patterns in fish with
reference to recovery of erythrocytes in Barbonymus gonionotus disordered
by an organophosphate. International Journal of
Environmental Science and Technology 16(11): 7535-7544.
Jacobson,
E.R., Adams, H.P., Geisbert, T.W.,
Tucker, S.J., Hall, B.J. & Homer, B.L. 1997. Pulmonary lesions in experimental ophidian paramyxovirus
pneumonia of Aruba island rattlesnakes, Crotalus unicolor. Veterinary Pathology 34(5): 450-459.
Khan,
M.M., Moniruzzaman, M.,
Mostakim, G.M., Khan, M.S.R., Rahman, M.K. & Islam, M.S. 2018. Aberrations of the peripheral
erythrocytes and its recovery patterns in a freshwater teleost, silver barb
exposed to profenofos. Environmental Pollution 234: 830-837.
Kousar,
S. & Javed, M. 2015. Studies on induction of nuclear abnormalities in peripheral blood
erythrocytes of fish exposed to copper. Turkish Journal
of Fisheries and Aquatic Sciences 15: 879-886.
Kursa,
M. & Bezrukov, V. 2008. Health status in an Antarctic top predator: Micronuclei
frequency and white blood cell differentials in the south polar skua (Catharacta maccormicki). Polarforschung 77: 1-5.
Magnadottir,
B., Lange, S., Gudmundsdottir, S., Bøgwald, J. & Dalmo, R.A. 2005. Ontogeny of humoral immune parameters
in fish. Fish & Shellfish Immunology 19(5): 429-439.
Martínez-Silvestre, A., Lavín, S. &
Cuenca, R. 2011. Hematology and blood
cytology in reptiles. Clin. Vet. Peq. Anim. 31(3): 131-141.
Megarani,
D.V., Hardian, A.B.,
Arifianto, D., Santosa, C.M. & Salasia, S.I.O. 2020. Comparative morphology and
morphometry of blood cells in zebrafish (Danio rerio), common carp (Cyprinus carpio carpio), and tilapia (Oreochromis niloticus). Journal of the American Association for Laboratory Animal
Science 59(6): 673-680.
Montali,
R.J. 1988. Comparative
pathology of inflammation on the higher vertebrates (reptiles,
birds and mammals). Journal of Comparative Pathology 99(1): 1-26.
Murtha,
J.M., Qi, W. &
Keller, E.T. 2003. Hematologic
and serum biochemical values for zebrafish (Danio rerio). Comparative Medicine 53(1): 37-41.
Nakanishi,
T., Toda, H., Shibasaki, Y. & Somamoto, T. 2011. Cytotoxic
T cells in teleost fish. Developmental &
Comparative Immunology 35(12): 1317-1323.
Nuaklong, A. 2018. Contamination
assessment and source apportionment of polycyclic aromatic hydrocarbon in
Eastern inner golf of Thailand. M.Sc
Thesis, Prince of Songkla University, Thailand (Unpublished).
Nussey,
G., Van Vuren, J.H.J. & Du-Preez, H.H. 1995. Effect of copper on the haematology
and osmoregulation of the Mozambique tilapia, Oreochromis mossambicus (Cichlidae). Comparative Biochemistry
and Physiology Part C: Pharmacology, Toxicology and
Endocrinology 111(3): 369-380.
Okabe,
Y. & Medzhitov, R. 2016. Tissue biology perspective on macrophages. Nature
Immunology 17: 9-17.
Okomoda,
V.T., Koh, I.C.C., Hassan, A.,
Amornsakun, T., Khairul, A.B.K., Rajamad, R.Y., Shuhaimi, A.D.,
Shafiq, M.R. & Shahreza, M.S. 2018. Erythrocyte
characteristics of the progenies of pure and reciprocal crosses of Pangasianodon
hypophthalmus (Sauvage, 1878) and Clarias gariepinus (Burchell, 1822). Comparative
Clinical Pathology 27: 301-312.
Oliveira-Júniora, A.A.,
Tavares-Dias, M. & Marcon, J.L. 2009. Biochemical and hematological reference ranges for Amazon
freshwater turtle, Podocnemis expansa (Reptilia: Pelomedusidae), with morphologic
assessment of blood cells. Research in Veterinary Science 86(1): 146-151.
Pacheco,
M. & Santos, M.A. 2002. Naphthalene and beta-naphthoflavone
effects on Anguilla anguilla L. hepatic metabolism
and erythrocytic nuclear abnormalities. Environment
International 28(4): 285-293.
Parrino,
V., Cappello, T., Costa, G., Cannavà, C., Sanfilippo, M.,
Fazio, F. & Fasulo, S. 2018. Comparative study of haematology of
two teleost fish (Mugil cephalus and Carassius
auratus) from different environments and feeding
habits. The European Zoological Journal 85(1): 193-199.
Pollution
Control Department. 2017. Quality
of Marine Environment. http://www.pcd.go.th/info_serv/reg_std_water02.html
Porto,
J.I.R., Araujo,
C.S.O. &
Feldberg, E. 2005. Mutagenic effects
of mercury pollution as revealed by micronucleus test on three Amazonian fish
species. Environmental Research 97(3): 287-292.
Rodriguez-Cea, A., Ayllon, F. &
Garcia-Vazquez, E. 2003. Micronucleus test in freshwater fish species: An
evaluation of its sensitivity for application in field surveys. Ecotoxicology
and Environmental Safety 56(3): 442-448.
Sadiqul,
I.M., Ferdous, Z.,
Nannu, M.T.A.,
Mostakim, G.M. & Rahman, M.K. 2016. Acute
exposure to a quinalphos containing insecticide (convoy) causes genetic damage and nuclear changes in peripheral
erythrocytes of silver barb, Barbonymus gonionotus. Environmental
Pollution 219: 949-956.
Salakij,
C., Salakij, J. & Chanhome, L. 2002. Comparative hematology, morphology
and ultrastructure of blood cells in monocellate cobra (Naja
kaouthia), Siamese spitting cobra (Naja
siamensis) and golden spitting cobra (Naja
sumatrana). Kasetsart Journal: Natural
Science 36(3): 291-300.
Seker, S. 2012. EROD and PAH
detection as biomonitoring tool in Golden Horn-Istanbul,
Turkey. International Journal of Water Resources and
Environmental Engineering 4: 139-143.
Senarat, S., Sujittosakul, R., Kettratad, J., Pairohakul, S., Kaneko, G. & Jiraungkoorskul,
W. 2021. Ultrastructure of
hepatocyte and liver ontogeny of the Indo-Pacific seahorse Hippocampus
barbouri Jordan & Richardson 1908. Journal of Advanced Veterinary Research 11(3): 136-140.
Senarat,
S., Suksai, S., Kamnurdnin, T., Kettratad, J., Thongboon, L., Jiraungkoorskul, W., Para, C., Poolprasert, P. & Pengsakul,
T. 2018. Gamete alteration of the
long-spined sea urchin Diadema setosum (Leske, 1778) from Sichang Island, Chonburi
Province, Thailand: A preliminary study. YRU
Journal of Science and Teachnology 3(2): 109-114.
Shahjahan,
M., Rahman, M.S.,
Islam, S.M.M., Uddin, M.H. & Al-Emran, M. 2019. Increase
in water temperature increases acute toxicity of sumithion causing nuclear and
cellular abnormalities in peripheral erythrocytes of zebrafish Danio rerio. Environmental Science and Pollution Research 26: 36903-36912.
Singkhanan,
N., Kettratad, J., Senarat, S., Theerakamol, P., Para, C. &
Kaneko, G. 2019. Morphological
characterization of blood cells in five important estuarine fish species in
Thailand during juvenile stages. EnvironmentAsia 12(2): 79-86.
Sopon,
A., Kettratad, J., Piumsomboon, A., Kaneko, G. & Senarat, S. 2021. The use of hematological and
histopathological biomarkers to assess the health of aquatic ecosystems in Koh
Sichang, Thailand. Chiang Mai University Journal of
Natural Sciences 20(4): 1-19.
Stacy,
N.I., Alleman, A.R. & Sayler, K.A. 2011. Diagnostic hematology of reptiles. Clinics
in Laboratory Medicine 31(1): 87-108.
Summak,
S., Aydemir, N.C.,
Vatan, O., Yilmaz, D., Zorlu, T. & Bilaloğlu, R. 2010. Evaluation of genotoxicity from Nilufer Stream (Bursa/Turkey) water using piscine micronucleus
test. Food and Chemical Toxicology 48(8-9): 2443-2447.
Sypek,
J. & Borysenko, M. 1988. Reptiles. In Vertebrate
Blood Cells, edited by Rowley, A.F. & Ratcliffe,
N.A. Cambridge: Cambridge University
Press. p. 211-256.
Torres
de Lemos, C., Milan Rödel, P., Regina
Terra, N., D’Avila de Oliveira, N.C. & Erdtmann, B. 2007. River water genotoxicity evaluation
using micronucleus assay in fish erythrocytes. Ecotoxicology
and Environmental Safety 66: 391-401.
Tully,
T.N. & Mitchell, M.A. 2012. A Veterinary Technician’s Guide to Exotic Animal Care. 2nd ed. X: AAHA Press.
Wang,
T. & Secombes, C.J. 2013. The cytokine networks of adaptive immunity in
fish. Fish & Shellfish Immunology 35(6): 1703-1718.
Watson,
C.F., Baer, K.N. & Benson, W.H. 1989. Dorsal gill incision: A simple method for
obtaining blood samples in small fish. Environmental
Toxicology and Chemistry 8(5): 457-461.
Wattanayakorn,
G. & Rungsupa, S. 2012. Petroleum hydrocarbon residues in the marine environment of
Koh Sichang-Sriracha, Thailand. Coastal
Marine Science 35: 122-128.
Wattanayakorn,
G. & Boonperm, C. 2004. Distribution of polycyclic aromatic hydrocarbons in surface
sediments of Koh Sichang anchorage area, Thailand. European
Chemical Bulletin 3(1): 70-75.
Wilson,
J.M., Bunte, R.M. & Carty, A.J. 2009. Evaluation of rapid cooling and tricaine methanesulfonate (MS 222) as methods of euthanasia in zebra
fish (Danio rerio). Journal
of the American Association for Laboratory Animal Science 48(6): 785-789.
*Corresponding author; email: sinlapachai.s@rmutsv.ac.th
|
|||
|
