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Sains Malaysiana 48(9)(2019): 1799–1810
http://dx.doi.org/10.17576/jsm-2019-4809-01
Haematological and
Biochemical Responses of Juvenile Malabar Blood Snapper (Lutjanus
malabaricus Bloch & Schneider, 1801) Exposed to Different Rearing
Temperatures and Diets
(Tindak Balas Hematologi
dan Biokimia Ikan Merah Juvenil Tanda Hitam (Lutjanus malabaricus
Bloch & Schneider, 1801) Terdedah kepada Suhu dan Diet
Penternakan Berbeza)
SABUJ KANTI MAZUMDER1,5, SVEINUNG FIVELSTAD2, MAZLAN ABD. GHAFFAR3 & SIMON KUMAR DAS1,4*
1Centre for Ecosystem
Management and Natural Resources, Faculty of Science and Technology, Universiti
Kebangsaan Malaysia, 43600 UKM Bangi Selangor, Darul Ehsan, Malaysia
2Department of
Biochemical Laboratory Sciences and Chemical Engineering, Western Norway
University of Applied Sciences, Bergen, Norway
3Institute of
Oceanography and Environment, University Malaysia Terengganu, 21030 Kuala
Nerus, Terengganu Darul Iman, Malaysia
4Marine Ecosystem
Research Center, Faculty of Science and Technology, Universiti Kebangsaan
Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
5Department of Genetics
and Fish Breeding, Faculty of Fisheries, Bangabandhu Sheikh Mujibur Rahman
Agricultural University, Gazipur-1706, Bangladesh
Received:
29 October 2018/Accepted: 14 June 2019
ABSTRACT
This study is conducted
to examine the impacts of different rearing temperature and diet variation on
haematological and serum biochemical parameters on the juvenile Lutjanus malabaricus, a commercially important fish species in
Malaysia. Fish (16-18 cm) were divided into eight treatments (4 temperatures ×
2 diets) each with three replicates of five juveniles each. Fish were subjected
to four different rearing temperatures (22, 26, 30 and 34°C) and fed with a
commercial pellet and a natural shrimp diet. After 30 days of experimental
period, blood samples were collected and transferred into two different tubes
from each sample: One containing EDTA as an anticoagulant agent
and the other without EDTA for serum collection. All the
haematological and biochemical parameters in all the treatments were within the
normal range. Changing temperature and diet led to a significant change (p<0.05)
in the total length (TL), body weight (BW),
red blood cell (RBC), haemoglobin (HB),
haematocrit (HC), thrombocyte (TC) and white blood cell (WBC)
but the change in mean corpuscular volume (MCV),
mean cell haemoglobin (MCH) while mean cell haemoglobin
concentration (MCHC) were not significant (p>0.05).
The fish reared at 26°C and 30°C had significantly higher values than those
reared at 22°C and 34°C (p<0.05). Total protein (TP),
albumin (ALB), albumin/globin ration (A/G ratio), alkaline
phosphatase (AP), aspartate aminotransferase (AST)
and alanine transaminase (ALT) level were also significantly
increased at 30°C and 26°C compared to that of 34°C and 22°C. Globulin (GLB)
level showed the opposite trend. In all the cases the performances were higher
in shrimp diet than pellet diet. It is suggested that these physiological
parameters can be conveniently employed as health monitoring tools in fish
culture practices.
Keywords: Diet; fish;
haematology; serum biochemistry; temperature
ABSTRAK
Kajian ini dijalankan
bagi meneliti impak perbezaan suhu dan variasi diet pada parameter
hematologi dan serum biokimia pada juvenil Lutjanus malabaricus,
satu spesies ikan komersial penting di Malaysia. Ikan (16-18
cm) dibahagikan kepada lapan rawatan (4 suhu × 2 diet) dan
terdapat tiga replikat (5 ikan setiap replikat) bagi setiap rawatan.
Ikan terdedah kepada empat suhu yang berbeza (22, 26, 30 dan 34°C)
dan diberi makan pelet komersial dan diet udang semula jadi. Selepas
30 hari tempoh uji kaji, sampel darah diambil dan dipindahkan
ke dalam dua tiub yang berbeza daripada setiap sampel: satu yang
mengandungi EDTA
sebagai agen antikoagulan dan yang lain tanpa EDTA untuk
pengumpulan serum. Semua parameter hematologi dan biokimia dalam
semua rawatan berada dalam julat normal. Perubahan suhu dan diet
menyebabkan perubahan ketara (p <0.05) dalam jumlah
panjang (TL),
berat badan (BW), sel darah merah (RBC),
hemoglobin (HB), hematokrit (HC), trombosit (TC)
dan sel darah putih (WBC) tetapi perubahan jumlah min korpuskul
(MCV), min sel hemoglobin (MCH),
manakala nilai min kepekatan sel hemoglobin (MCHC)
tidak signifikan (p > 0.05). Nilai yang lebih tinggi
dilihat pada ikan yang diternak pada 26 dan 30°C daripada
yang diternak pada 22 dan 34°C (p <0.05). Jumlah
protein (TP), albumin (ALB),
nisbah albumin/globin (nisbah A/G), alkali fosfatase (AP),
tahap aspartat aminotransferase (AST) dan alanine transaminase
(ALT)
juga meningkat dengan ketara pada 30°C dan 26°C berbanding
dengan 34°C dan 22°C. Tahap Globulin (GLB) menunjukkan keputusan yang bertentangan.
Dalam semua kes, prestasi juvenil lebih tinggi apabila diternak
menggunakan diet udang berbanding diet pelet. Parameter fisiologi
yang digunakan dalam kajian ini telah dicadangkan sebagai pemantau
kesihatan yang mudah dalam penternakan ikan.
Kata kunci: Diet; hematologi; ikan; serum biokimia; suhu
REFERENCES
Abdelghany, A.E. 2002. Studies on partial and complete
replacements of fish meal with Gambusia meal in diets for the common carp, Cyprinus
carpio. Egyptian Journal of Aquatic Biology and Fisheries 6:
141-765.
Adam, H. 2004. Comparative studies on the effect of water quality
on haematological of Orechromis niloticus under culture condition. Ph.D.
Thesis of Sudan University of Science and Technology (Unpublished).
Adeyemo, O., Agbede, S., Olaniyan, A. & Shoaga, O. 2003. The
haematological response of Clarias gariepinus to changes in acclimation
temperature. African Journal of Biotechnology 6: 105-108.
Akinrotimi, A., Gabriel, U., Anyanwu, P. & Anyanwu, A. 2007.
Influence of sex, acclimation methods and period on haematology of Sarotherodon
melanotheron (Cichilidae). Research Journal of Biological Sciences 2(3):
348-352.
Atamanalp, M., Yanik, T., Haliloglu, H.Ï. & Aras, M.S. 2002.
Alterations in the hematological parameters of rainbow trout, Oncorhynchus
mykiss, exposed to cypermethrin. Israeli Journal of Aquaculture-Bamidgeh 54(3): 99-103.
Barros, M.M., Pezzato, L.E., Kleemann, G.K., Hisano, H. &
Rosa, G.D.M. 2002. Níveis de vitamina C e ferro para tilápia do Nilo (Oreochromis
niloticus). Revista Brasileira de Zootecnia 31: 2149-2156.
Barton, B.A. 2002. Stress in fishes: A diversity of responses with
particular reference to changes in circulating corticosteroids. Integrative
and Comparative Biology 42: 517-525.
Bhatt, S. & Singh, H. 1985. Effect of thermal variation on
some haematological values of Schizothorax plagiostomus (Heckel). Uttar
Pradesh Journal of Zoology 5: 204-209.
Bolarinwa, A., Oyebola, D. & Akindeinde, G. 1991. Effect of
malnutrition on basal and induced gastric acid secretion. Nigerian Journal
of Physiological Sciences 5: 144-148.
Chavin, W. & Young, J.E. 1970. Factors in the determination of
normal serum glucose levels of goldfish, Carassius auratus L. Comparative
Biochemistry and Physiology 33: 629-653.
Chen, Y., Jin, S. & Wang, G. 2005. Study on blood
physiological and biochemical indices of Vibrio alginilyticus disease of Lateolabrax japonicas. Journal of Oceanography in Taiwan Strait 24:
104-108.
Das, S.K., Ghaffar, M.A., Bakar, Y., Brito, M.F.G., Sharifah,
M.S.A. & Temple, S.E. 2014. X-radiographic observations of food passage and
nutrient absorption along the alimentary tract of archerfish, Toxotes
jaculatrix. Bulletin of Marine Science 90(4): 903-919.
Das, S.K., Noor, N.M., Kai, K.S., Juan, Q.Z., Iskandar, N.S.M.
& De, M. 2018. Effects of temperature on the growth, gastric emptying time,
and oxygen consumption rate of masheer (Tor tambroides) under laboratory
conditions. Aquaculture Reports 12: 20-24.
De, M., Ghaffar, M.A., Bakar, Y. & Das, S.K. 2016. Effect of
temperature and diet on growth and gastric emptying time of the hybrid, Epinephelus
fuscoguttatus♀× E. lanceolatus♂. Aquaculture Reports 4:
118-124.
Dean, A.
& Voss, D. 1999. Response surface methodology. Design and Analysis of
Experiments 1: 483-529.
Dekić, R., Ivanc, A., Erić, Ž., Gnjato, R.,
Trbić, G., Lolić, S., Manojlović, M. & Janjić, N. 2014.
Hematological characteristics of Delminichthys ghetaldii (Steindachner
1882) inhabiting the karst region of eastern Herzegovina. Archives of
Biological Sciences 66: 1423-1430.
Duncan,
P.L., Lovell, R.T., Butterworth Jr., C., Freeberg, L.E. & Tamura, T. 1993.
Dietary folate requirement determined for channel catfish, Ictalurus
punctatus. The Journal of Nutrition 123(11): 1888-1897.
Elahee,
K. & Bhagwant, S. 2007. Hematological and gill histopathological parameters
of three tropical fish species from a polluted lagoon on the West Coast of
Mauritius. Ecotoxicology and Environmental Safety 68: 361-371.
Enes,
P., Panserat, S., Kaushik, S. & Oliva-Teles, A. 2006. Rapid metabolic
adaptation in European sea bass (Dicentrarchus labrax) juveniles fed
different carbohydrate sources after heat shock stress. Comparative
Biochemistry and Physiology - Part A: Molecular & Integrative Physiology 145:
73-81.
Fazio,
F., Marafioti, S., Arfuso, F., Piccione, G. & Faggio, C. 2013. Influence of
different salinity on haematological and biochemical parameters of the widely
cultured mullet, Mugil cephalus. Marine and Freshwater Behaviour and
Physiology 46: 211-218.
Fazio,
F., Faggio, C., Marafioti, S., Torre, A., Sanfilippo, M. & Piccione, G.
2012. Comparative study of haematological profile on Gobius niger in two
different habitat sites: Faro Lake and Tyrrhenian Sea. Cahiers de Biologie
Marine 53: 213-219.
Ferguson,
R., Merrifield, D.L., Harper, G.M., Rawling, M.D., Mustafa, S., Picchietti, S.,
Balcàzar, J.L. & Davies, S.J. 2010. The effect of Pediococcus
acidilactici on the gut microbiota and immune status of on-growing red
tilapia (Oreochromis niloticus). Journal of Applied Microbiology 109:
851-862.
Fernandes,
M.N. & Mazon, A.D.F. 2003. Environmental pollution and fish gill
morphology. In Fish Adaptation, edited by Val, A.L. & Kapoor, B.G.
Enfield: Science Publishers. pp. 203-231.
Ferreira,
F., Santos, M.M., Reis-Henriques, M.A., Vieira, M.N. & Monteiro, N.M. 2011.
The annual cycle of spermatogenesis in Lipophrys pholis (Blenniidae), a
recently proposed sentinel species for pollution monitoring. Ichthyological
Research 58: 360-365.
Forghally,
A., Ezzat, A. & Shabana, M. 1973. Effect of temperature and salinity
changes on the blood characteristics of Tilapia zilli in Egyptian
littoral lakes. Comparative Biochemistry and Physiology Part A: Physiology 46:
183-193.
Gabriel,
U., Ezeri, G. & Opabunmi, O. 2005. Influence of sex, source, health status
and acclimation on the haematology of Clarias gariepinus (Burch, 1822). African
Journal of Biotechnology 3(9): 463-467.
Gollock,
M., Currie, S., Petersen, L. & Gamperl, A. 2006. Cardiovascular and
haematological responses of Atlantic cod (Gadus morhua) to acute
temperature increase. Journal of Experimental Biology 209: 2961-2970.
Gubbins,
M., Eddy, F., Gallacher, S. & Stagg, R. 2000. Paralytic shellfish poisoning
toxins induce xenobiotic metabolising enzymes in Atlantic salmon (Salmo
salar). Marine Environmental Research 50: 479-483.
Gunben,
E.M., Senoo, S., Yong, A. & Shapawi, R. 2014. High potential of poultry
by-product meal as a main protein source in the formulated feeds for a commonly
cultured grouper in Malaysia (Epinephelus fuscoguttatus). Sains
Malaysiana 43(3): 399-405.
Hofer,
R., Stoll, M., Romani, N., Koch, F. & Sordyl, H. 2000. Seasonal changes in
blood cells of Arctic char (Salvelinus alpinus L.) from a high mountain lake. Aquatic Sciences 62: 308-319.
Jawad,
L., Al-Mukhtar, M. & Ahmed, H. 2004. The relationship between haematocrit
and some biological parameters of the Indian shad, Tenualosa ilisha (Family
Clupeidae). Animal Biodiversity and Conservation 27: 47-52.
Joshi,
B., Chaturvedi, L. & Dabral, R. 1980. Some haematologic values of Clarias
batrachus L. following its sudden transfer to varying temperature. Indian
Journal of Experimental Biology 18: 76-77.
Lermen,
C.L., Lappe, R., Crestani, M., Vieira, V.P., Gioda, C.R., Schetinger, M.R.C.,
Baldisserotto, B., Moraes, G. & Morsch, V.M. 2004. Effect of different
temperature regimes on metabolic and blood parameters of silver catfish Rhamdia
quelen. Aquaculture 239(1-4): 497-507.
Maceda-Veiga,
A., Monroy, M., Viscor, G. & De Sostoa, A. 2010. Changes in non-specific
biomarkers in the Mediterranean barbel (Barbus meridionalis) exposed to
sewage effluents in a Mediterranean stream (Catalonia, NE Spain). Aquatic
Toxicology 100: 229-237.
Maricondi-Massari,
M., Kalinin, A., Glass, M. & Rantin, F. 1998. The effects of temperature on
oxygen uptake, gill ventilation and ECG waveforms in the Nile tilapia, Oreochromis
niloticus. Journal of Thermal Biology 23: 283-290.
Marković,
Z., Dulić, Z., Živić, I. & Mitrović-Tutundžić, V. 2009.
Influence of abiotic and biotic environmental factors on weight gain of
cultured carp on a carp farm. Archives of Biological Sciences 61:
113-121.
Mazumder,
S.K., Das, S.K., Rahim, S.M. & Ghaffar, M.A. 2018a. Temperature and diet
effect on the pepsin enzyme activities, digestive somatic index and relative
gut length of Malabar blood snapper (Lutjanus malabaricus Bloch &
Schneider, 1801). Aquaculture Reports 9: 1-9.
Mazumder,
S.K., Ghaffar, M.A. & Das, S.K. 2018b. Exploring the suitable temperature
and diet for growth and gastric emptying time of juvenile malabar blood snapper
(Lutjanus malabaricus Bloch & Schneider, 1801). Thalassas: An
International Journal of Marine Sciences 35(1): 29-41.
Mazumder,
S.K., Das, S.K., Bakar, Y. & Ghaffar, M.A. 2016. Effects of temperature and
diet on length-weight relationship and condition factor of the juvenile Malabar
blood snapper (Lutjanus malabaricus Bloch & Schneider, 1801). Journal
of Zhejiang University SCIENCE B 17(8): 580-590.
Mazumder,
S.K., Mazlan, A., De, M., Zaidi, C., Rahim, S. & Simon, K.D.
2014. Impact of global climate change on fish growth, digestion
and physiological status: Developing a hypothesis for cause and
effect relationships. Water and Environment Journal 6(2):
200-226. Moradi,
N., Imanpoor, M. & Taghizadeh, V. 2013. Hematological and biochemical
changes induced by replacing fish meal with plant protein in the Cyprinus
carpio Linnaeus (1785). Global Veterinaria 11: 233-237.
Munkittrick,
K. & Leatherland, J. 1983. Haematocrit values in feral goldfish, Camssius
auratus L., as indicators of the health of the population. Journal of
Fish Biology 23: 153-161.
Noor,
N.M., Das, S.K. & Ghaffar, Z. 2018. Effect of salinities on gastric
emptying and nutrient absorption of tiger grouper × giant grouper (Epinephelus
fuscoguttatus × E. lanceolatus) hybrid. Sains Malaysiana 47(6):
1077-1084.
Pauly, D. 1995.
Simulation of the effects of oxygen on food consumption and growth of Nile
tilapia, Oreochromis niloticus (L.). Aquaculture Research 26:
427-440.
Rahman, M.L., Salam,
M.A. & Ahsan, M.E. 2017. Protein-sparing ability of carbohydrates from
different sources in diets for fry of stinging catfish Heteropneustes
fossilis. Sains Malaysiana 46(2): 239-244.
Rhamdia, P.O.J. & de
Moraes, G.M.F.R. 2002. Características hematológicas de teleósteos brasileiros.
IV. Variáveis do jundiá Rhamdia quelen (Pimelodidae). Ciência Rural 1:
693-698.
Rosenlund, G. &
Skretting, M. 2006. Worldwide status and perspective on gadoid culture. ICES
Journal of Marine Science 63: 194-197.
Sharaf-El-Deen, K. &
Abdel-Hamid, N.A. 2002. Sublethal effects of copper sulfate malathion and
paraquat on protein pattern of Oreochromis niloticus. Egyptian
Journal of Aquatic Biology and Fisheries 6: 167-182.
Sokal, R.R. & Rohlf,
F.J. 1995. Biometry: The Principles and Practice of Statistics in Biological
Research. San Francisco: WH. Freeman & Co.
Staurnes, M., Rainuzzo,
J.R., Sigholt, T. & Jøgensen, L. 1994. Acclimation of Atlantic cod (Gadus
morhua) to cold water: Sxtress response, osmoregulation, gill lipid
composition and gill Na-K-ATPase activity. Comparative Biochemistry and
Physiology - Part A: Molecular & Integrative Physiology 109: 413-421.
Stosik, M., Deptula, W.
& Travnicek, M. 2001. Studies on the number and ingesting ability of
thrombocytes in sick carps (Cyprinus carpio L.). Veterinární Medicína 46: 12-16.
Tavares-Dias, M.,
Frascá-Scorvo, C., Novato, P. & Moraes, F. 2000. Hematological
characteristics of hybrid Florida red tilapia, Oreochromis urolepis hornorun
× O. mossambicus under intensive rearing. Proceedings International
Simposium on Tilapia Aquaculture. pp. 533-541.
Terry, C., Hrubee, T.
& Stephen, A. 2000. Haematology of fish. Eterinary Clinical Pathology 174:
1120-1125.
Treasurer, J.W., Hastie,
L.C., Hunter, D., Duncan, F. & Treasurer, C.M. 2006. Effects of (Margaritifera
margaritifera) glochidial infection on performance of tank-reared Atlantic
salmon (Salmo salar). Aquaculture 256: 74-79.
Vázquez, G.R. &
Guerrero, G. 2007. Characterization of blood cells and hematological parameters
in Cichlasoma dimerus (Teleostei, Perciformes). Tissue and Cell 39:
151-160.
Vielma, J., Koskela, J.,
Ruohonen, K., Jokinen, I. & Kettunen, J. 2003. Optimal diet composition for
European whitefish (Coregonus lavaretus): Carbohydrate stress and immune
parameter responses. Aquaculture 225(4): 3-16.
Wassef, E. & Eisawy,
A. 1985. Food and feeding habit, of wild and reared gilthead bream Sparus
aurita (L.). Cybium 9: 233-242.
Weiss, D.J. &
Wardrop, K.J. 2011. Schalm’s Veterinary Hematology. New York: John Wiley
& Sons.
Wilson, R. & Taylor,
E. 1993. The physiological responses of freshwater rainbow trout, Oncorhynchus
mykiss, during acutely lethal copper exposure. Journal of Comparative
Physiology B 163: 38-47.
Wise, D., Tomasso, J.,
Gatlin, D., Bai, S. & Blazer, V. 1993. Effects of dietary selenium and
vitamin E on red blood cell peroxidation, glutathione peroxidase activity, and
macrophage superoxide anion production in channel catfish. Journal of
Aquatic Animal Health 5: 177-182.
Wright, P., Leathwood,
P. & Plummer, D. 1972. Enzymes in rat urine: Alkaline phosphatase. Enzymologia 42(4): 317-327.
Ye, Y., Wang, Y. &
Shen, Z. 2006. National guide to clinical laboratory procedures. Nanjing:
Southeast University Press. pp. 246-249.
Yuan, W., Li, X.,
Kangjian, Y., Zhong, W., Xiumei, S., Hongfeng, T. & Xiping, L. 2005. Effect
of beta-cypermethrin on GPT and GOT activities of crucian serum. Agricultural
Science & Technology 6(1): 20-23.
Yue, Y.R. & Zhou,
Q.C. 2008. Effect of replacing soybean meal with cottonseed meal on growth,
feed utilization, and hematological indexes for juvenile hybrid tilapia, Oreochromis
niloticus × O. aureus. Aquaculture 284: 185- 189.
Zar, J.H.
1984. Biostatistical Analysis. 2nd edition. USA: Prentice Hall.
*Corresponding
author; email: skdas_maa@yahoo.com
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