hacker tools
şehirler arası nakliyat istanbul şehirler arası nakliyat şehirler arası nakliyat fiyatları

hack forum hack forum alfa shell recovery shell shell recovery shell Mirror Zone smm bayi smm ana bayi wso shell hacklink hacklink paketleri hacklink nedir hacklink panel

cami halısı cami halıları cami halısı cami halıları cami halısı cami halıları Cami Halısı Cami Halıları Cami Halısı Turkuaz Cami Halısı Cami Süpürgesi

Evden Eve Nakliyat istanbul Evden Eve Nakliyat istanbul Evden Eve Nakliyat Evden Eve Nakliyat mng Evden Eve Nakliyat Evden Eve Nakliyat Evden Eve Nakliyat istanbul Evden Eve Nakliyat Evden Eve Nakliyat istanbul Nakliyat evden eve nakliyat istanbul evden eve nakliyat istanbul ofis taşıma ofis taşımacılık ofis taşımacılığı istanbul ofis taşımacılığı taşıma yurtiçi evden eve nakliyat evden eve nakliyat yurtiçi evden eve nakliyat yurtiçi nakliyat içel Evden Eve Nakliyat Mersin Evden Eve Nakliyat

çiğköfte çiğköfte bayiliği çiğköfte bayilik promosyon promosyon ürünleri promosyon şapka prefabrik prefabrik evler
Disease Occurrence in Litopenaeus vannamei Shrimp Culture Systems in Different Geographical Regions of India | Gunalan 1 | International Journal of Aquaculture

Disease Occurrence in Litopenaeus vannamei Shrimp Culture Systems in Different Geographical Regions of India  

B. Gunalan1 , P. Soundarapandian1 , T. Anand2 , Anil S. Kotiya3 , Nina Tabitha Simon1
1. Center of Advanced Study in Marine Biology, Faculty of Marine Sciences, Annamalai University, Parangipettai, Tamilnadu, India
2. Institute of Fisheries Technology,Taminlnadu Fisheries University, Nagapattinam, Tamilnadu, India
3. Fisheries Research Station, J.A.U. Okha, Gujarat, India
Author    Correspondence author
International Journal of Aquaculture, 2014, Vol. 4, No. 4   doi: 10.5376/ija.2014.04.0004
Received: 04 Dec., 2013    Accepted: 05 Jan., 2014    Published: 10 Feb., 2014
© 2014 BioPublisher Publishing Platform
This is an open access article published under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Preferred citation for this article:

Gunalan et al., 2014, Disease Occurrence in Litopenaeus vannamei Shrimp Culture Systems in Different Geographical Regions of India, International Journal of Aquaculture, Vol.4, No.04: 24-28 (doi: 10.5376/ija.2014.04.0004)

The knowledge about disease is very much essential to keep the animal in disease free environment. In the present study six diseases were reported in the culture ponds of L. vannamei including Black gill disease - Andrapradesh, IHHNV - Andrapradesh and Orissa, WMD -Tamilnadu and Andrapradesh, White gut disease - Tamilnadu and Andrapradesh, Muscle cramp disease - Tamilnadu and Andrapradesh. The symptoms of each disease and their possible cure were also described in details.The outbreak of disease in shrimp culture definitely affects the profit in farmer’s point of view and deteriorating the flesh quality in consumer’s point of view. Many diseases are already reported in P. monodon in India. However no such diseases are reported in L. vannamei in India. So study on diseases is very important to create awareness among farmers to prevent the diseases. Prevention is better than cure. It’s very important, the farmers should stock healthy disease free seeds, optimum stocking density and maintain good water quality and provide nutritious feed to get higher survival and growth.
Litopenaeus vannamei; Black gill disease; White gut disease; IHHNV; Muscle cramp syndrome; White muscle disease; White leg shrimp disease; Shrimp culture

Shrimp farming is a multi-billion dollar industry contributing a major income to several countries in Asia and South America. The rapid growth of shrimp farming led to an economic boom but, unfortunately, the outbreak of viral diseases has increased the economic risks and slowed the industry development (Flegel, 2006). The most important diseases of cultured penaeid shrimp, in terms of economic impact, in Asia, the Indo-Pacific, and the Americas have infectious etiologies. Among the infectious diseases of cultured shrimp, certain virus-caused diseases stand out as the most significant. The pandemics due to the penaeid viruses WSSV (White spot) and TSV (Taura Syndrome), and to a lesser extent to IHHNV (Infectious Hypodermal and Hematopoietic Necrosis virus) and YHV (Yellow Head), have cost the penaeid shrimp industry billions of dollars in lost crops, jobs and export revenue. The social and economic impacts of the pandemics caused by these pathogens have been profound in countries in which shrimp farming constitutes a significant industry. In the present study some of the common disease in L. vannamei was recorded all along the state of Andrapradesh, Orissa and Tamilnadu and described in detail.
1 Material and Methods
During the study period (Jan 2011 to July 2012) diseased L. vannamei were collected from different shrimp farms located in the state of Andrapradesh, Orissa and Tamilnadu. Whole shrimps were immediately immersed in 95% ethanol in plastic containers. Samples were maintained at 4℃ until processing.
2 Results and Discussion
2.1 Black gill disease
In the present study black gill disease observed at shrimp farms in Andrapradesh. The black gills disease is very common in penaeid shrimps. It often occurs when there is too much plankton in the water or too much mud on the pond bottom. It is especially a problem in ponds with high population density (over 60 shrimp/m2), not enough aeration or when the water is not changed frequently enough or irregular probiotic application. Before the shrimp appear diseased or start to die its gills turn black.
Black gill disease is reasonably easy to cure. If farmer noticed dark-colored gills in some shrimp it is suggested to change the water more often and also provide more aerators. This will usually solve the problem quickly. Addition of lime according to the pH concentration is also recommended. Similar disease was already reported by Lightner and Redman (1998), MPEDA/NACA (2003), Doughtie and Rao (1983) and Johnson (1995) (Figure 1, 2).



 Figure 1 Black gill disease



 Figure 2 Black gill disease observed during sampling


2.2 IHHNV (Infectious Hypodermal and Hematopoietic Necrosis Virus)

In the present study IHHNV (Infectious Hypodermal and Hematopoietic Necrosis Virus) disease observed at shrimp farms in Andrapradesh and Orissa. IHHNV is very common in grow out ponds, especially when the postlarvae brought from broodstock that were raised in earthen ponds in Thailand. The white leg shrimps with IHHNV are easy to observe because they display a typical clinical signs of a deformed or stunted rostrum (Figure 3). It might be bent to one side and the body of the shrimp might be crooked. These clinical signs will be apparent after the shrimp have been in growing out pond for 30 days.



 Figure 3 IHHNV (Infectious Hypodermal and Hematopoietic Necrosis Virus) affected shrimps


In general the deformed shrimp will be seen in only 10-20% of the shrimp population, but if it is very severe, 70-80% will be affected. The diseased shrimp will grow slowly and will have a low survival rate, so the overall yield will be lower. However, the diseased shrimp will not usually die, they will just be weakened. The occurrence of IHHNV is likely to rise in the future as more farmers use post larvae produced from brood stock from local shrimp farms than imported ones. Outbreaks of IHHNV can occur at any time of the year. The main risk factor is the source of the shrimp larvae. It is very unlikely that larvae produced from specific pathogen-free parents will get IHHNV.
The virus which causes infectious hypodermal and haematopoietic necrosis infects many species of shrimps including P. monodon, P. japonicus, P. stylirostris, P. vannamei, P. semisulcatus, P. occidentalis and P. californiensis. IHHN has reported in central and South America, India, Indonesia, China, Taiwan, Thailand, Malaysia, Philippines, Hawaii, Guam, French Polynesia, New Caledonia and Israel (Bondad-Reantaso et al., 2001). The disease IHHN, and later its causative agent, IHHNV, was first described as the cause of acute epizootics and mass mortalities (> 90%) in juvenile and subadult of L. stylirostris farmed in super-intensive raceway systems in Hawaii (Brock et al., 1983; Lightner et al., 1983, 1983a; Brock and Lightner, 1990). Shortly after its discovery in L. stylirostris, the virus was found in L. vannamei being cultured at the same facility in Hawaii and these L. vannamei were shown to be asymptomatic carriers of the virus (Lightner et al., 1983a; Bell and Lightner, 1984). Hence, the economic and production impacts of IHHNV infection in L. vannamei are due to reduced and irregular growth and small sized shrimp at harvest and not to elevated mortality. To mitigate this effect, several strategies have been used. With one strategy, selected lines of L. stylirostris, which were not only resistant to IHHN disease, but are also refractory to infection, were developed (Dhar et al., 2001). IHHNV-free lines of L. vannamei were also developed as SPF (specific pathogen-free) lines and these stocks were the first developed in the SPF stock development program (Pruder et al., 1995).
2.3 White muscle disease
In the present study WMD (White muscle disease) was observed at shrimp farms in Tamilnadu and Andrapradesh. The epizootic of WMD was first recorded in November 2001 in few hatchery reared PL of M. rosenbergii in Andrapradesh and Tamilnadu states. More than 18 cases of WMD in freshwater prawn hatcheries with PL mortalities ranging from 30% to 100% were recorded from November 2001 to December 2002. The first sign related to this disease was the poor feeding (mineral deficiency in water, poor quality feed) and lethargy of the prawns especially during the first 5 days of PL settlement resulting in slow mortality (Figure 4 & 5).


 Figure 4 White muscle disease in bigger size L. vannamei



 Figure 5 White muscle disease in small size of L. vannamei


As the morphological and clinical signs of the disease reported by Chen et al. (2001) were similar to the WMD recorded in this study. It is likely that the involvement of the Gram-positive cocci, Lactococcus garvieae in WMDfound by those workers could possibly have been a secondary infection. The disease progressively destroyed the abdominal muscular organization of the prawns especially the striated muscles finally leading to mortality. Several authors reported white muscle disease in shrimps and prawns (Chen et al., 1992; Sudhakaran et al, 2006; Ravi et al., 2009). Besides the above, this white muscle disease also recorded in L. vannamei in the present study.
2.4 White gut disease (WGD)

In the present study white gut disease observed in L. vannamei shrimp farms from Tamilnadu and Andrapradesh. Vibriosis is one of the major disease problems in shellfish and finfish aquaculture. Vibriosis is a bacterial disease responsible for mortality of cultured shrimp worldwide (Lightner and Lewis, 1975; Adams, 1991; Lightner et al., 1992; Lavilla-Pitogo et al., 1996; Lavilla-Pitogo et al., 1998; Chen et al., 2000). Vibrio species are widely distributed in culture facilities throughout the world. Vibrio-related infections frequently occur in hatcheries, but epizootics also commonly occur in pond reared shrimp species. Vibriosis is caused by gram-negative bacteria in the family Vibrionaceae. Outbreaks may occur when environmental factors trigger the rapid multiplication of bacteria already tolerated at low levels within shrimp blood (Sizemore and Davis, 1985), or by bacterial penetration of host barriers. The exoskeleton provides an effective physical barrier to pathogens trying to penetrate the external surface of crustaceans, as well as the foregut and hindgut (Figure6A & B).



 Figure 6 A & B White gut disease in L. vannamei


The occurrence of five types of diseases: tail necrosis, shell disease, red disease, loose shell syndrome (LSS) and white gut disease (WGD) is by Vibrio spp. in P. monodon from culture ponds of coastal Andhra Pradesh (Jayasree et al., 2006). Among these, LSS, WGD, and red disease caused mass mortalities in shrimp culture ponds. Six species of Vibrio—V. harveyi, V. parahaemolyticus, V. alginolyticus, V. anguillarum, V. vulnificus and V. splendidus—are associated with the diseased shrimp. The distribution and species composition of luminous bacteria in commercial penaeid shrimp hatcheries were studied by Jawahar Abraham and Palaniappan (2004). Theobservation on the presence of V. harveyi (97.30%) and V. orientalis (2.70%) in shrimp gut contents evinced that the primary source of these bacteria in a shrimp hatchery was the faecal matter from brood stock, possibly at the time of spawning. Mortalities due to vibriosis occur when shrimps are stressed by factors such as: poor water quality, crowding, high water temperature, low DO and low water exchange (Lewis, 1973; Lightner and Lewis, 1975; Brock and Lightner, 1990).
2.5 Muscle cramp syndrome (MCS)
In the present study muscle cramp disease observed in L. vannamei shrimp farms of Tamilnadu and Andrapradesh. The temperature fluctuations affect the muscle of the shrimps. Muscle cramp disease is very common in grow out ponds (Figure 7).



 Figure Muscle cramp syndrome


It is attributed that less amount of dissolved oxygen leads to mass mortality in ponds (Figure 8).This is very common in high stocking ponds. Once dissolved O2 level was reduced leading to create stress among the shrimps, finally they will die especially inside and sides of the culture ponds.



 Figure 8 Mass mortality in the check tray due to dissolved oxygen depletion 


The six diseases mentioned above are serious problems for raising white leg shrimp in intensive culture systems. The farmers should have basic knowledge about these diseases and their prevention. If the farmers stock health disease free seed and maintain good water quality and provide nutritious feed to get higher survival.
Adams A., 1991, Response of penaeid shrimp to exposure to Vibrio species. Fish Shellfish Immunol., 1:59–70.
Bell T.A., and Lightner D.V., 1984, IHHN virus: Infectivity and pathogenicity studies in Penaeus stylirostris and Penaeus vannamei. Aquacult., 38: 185-194.
Bondad-Reantaso M.G., McGladdery S.E., East I., and subasinghe R.P., 2001, Asia diagnostic guide to aquatic animal diseases, FAO fisheries Technical paper No. 402, Supplement2, food and agriculture Organization, Rome.
Brock J.A., Lightner D.V., and Bell T.A., 1983, A review of four virus (BP, MBV, BMN, and IHHNV) diseases of penaeid shrimp with particular reference to clinical significance, diagnosis and control in shrimp aquaculture. Proceedings of the 71st International. Council for the Exploration of the Sea, C.M. 1983/Gen: 10/1-18.Litopenaeus vannamei culture system. Aquacult., 195: 81–94.
Brock J.A., and Lightner D.V., 1990, Diseases of Crustacea. Diseases caused by microorganisms. pp. 245-349 in: Diseases of Marine Animals, Vol. III, Kinne O., ed.Biologische Anstalt Helgoland, Hamburg, Germany.
Chen F.R., Liu P.C., and Lee K.K., 2000, Lethal attribute of serine protease secreted by Vibrio alginolyticus strains in Kurama Prawn Penaeus japonicus. Zool Naturforsch., 55:94–99.
Chen S.H., Lin Y.D., Liaw L.T., and Vang P.C., 2001, Laclococclis gorvieaf infection in the giant freshwater prawn Macrobrachium rosenbergii confirmed by polymerase chain reaction and 16S rONA sequencing. Dis.Aqrw., Orgnilisllls, 4- 5, 45-52.
Chen S.N., Chang P.S., and Kou G.H., 1992, Infection route and eradication of monodon baculovirus (MBV) in larval giant tiger prawn, Penaeus monodon. In: Diseases of cultured penaeid shrimp in Asia and the United States, Fulks W. & Main K.L., eds. The Oceanic Institute, Honolulu, HI, USA, pp. 177–184.
Doughtie D.G., and Rao K.R., 1983, Ultra structural and histological study of degenerative changes leading to black gills in grass shrimp exposed to a dithiocarbamate biocide J. Inver. Patho, 41 (1); pp. 33-50.
Dhar A.K., Roux M.M., and Klimpel K.R., 2001, Detection and quantification of infectious Hypodermal and Hematopoeitic Necrosis virus and White Spot virus in shrimp using real-time quantitative PCR and SYBR green chemistry. J. Clin. Microbiol, 39: 2835­ -2845.
Johnson S.K., 1995, Hand book of shrimp disease. Aquaculture, Department of Wildlife and fisheries service, Texas A and M University.
Jawahar Abraham T., and Palaniappan R., 2004, Distribution of luminous bacteria in semi-intensive penaeid shrimp hatcheries of Tamil Nadu, India. Aquacult., 232 (1-4);81-90.
Lavilla-Pitogo C.R., Leano E.M., and Paner M.G., 1996, Mortalities of pond-cultured juvenile shrimp, Penaeus monodon, associated with dominance of luminescent bacteria, Vibrio harveyi in the rearing environment. SICCPPS book of abstracts, SEAFDEC, Iloilo City, Philippines. p. 40.
Lavilla-Pitogo C.R., Leano E.M., and Paner M.G., 1998, Mortalities of pond-cultured juvenile shrimp Penaeus monodon associated with dominance of luminescent vibrios in the rearing environment. Aquacult., 164:337–349.
Lewis D.H., 1973, Response of brown shrimp to infection with Vibrio sp. Proc. World. Maricult. Soc., 4: 333-338.
Lightner D.V., 1983, Diseases of Cultured Penaeid Shrimp. pp. 289-320, in: CRC Handbook of Mariculture. Vol. 1. Crustacean Aquacult., J.P. McVey (ed.) CRC Press, Boca aton, FL, SA.
Lightner D.V., 1988, Diseases of cultured penaeid shrimp and prawns. pp. 8-127, In: Disease Diagnosis and Control in North American Marine Aquaculture, C.J. Sindermann & D.V.Lightner (eds.) Elsevier, Amsterdam, The Netherlands.
Lightner D.V., and Lewis D.H., 1975, A septicemic bacterial disease syndrome of penaeid shrimp. Mar. Fish. Rev., 37(5-6): 25-28.
Lightner D.V., Redman R.M., and Bell T.A., 1983, Infectious Hypodermal and Hematopoietic Necrosis a newly recognized virus disease of penaeid shrimp. J. Invert. Pathol. 42: 62 -70.
Lightner D.V., Redman, R.M., Bell T.A., and Brock J.A., 1983a, Detection of IHHN virus in Penaeus stylirostris and P. vannamei imported into Hawaii. J. World Mariculture Soc., 14: 212-225.
Lightner D.V., Bell T.A., Redman R.M., Mohney L.L., Natividad J.M., Rukyani A., and Poernomo A., 1992, A review of some major diseases of economic significance in penaeid shrimps/shrimps of the Americas and Indo-Pacific. In: M. Shariff, R. Subasinghe and J.R. Arthur (eds.) Proceedings 1st Symposium on Diseases in Asian Aquaculture. Fish Health Section, Asian Fisheries Society, Manila, Philippines. pp. 57-80.
Lightner D.V., and Redman, R.M., 1998, Shrimp diseases and current diagnostic methods Aquacult., 164 (1-4); 201-220.
MPEDA/NACA 2003, Shrimp Health Management Extension Manual. Prepared by the Network of Aquaculture Centres in Asia-Pacific (NACA) and Marine Products Export Development Authority (MPEDA), India, in cooperation with the Aquatic Animal Health Research Institute, Bangkok, Thailand; Siam Natural Resources Ltd., Bangkok, Thailand; and AusVet Animal Health Services, Australia. Published by the MPEDA, Cochin, India
Prude G.D., Brown C.L., Sweeney J.N., and Carr W.H., 1995, High health shrimp systems: seed supply - theory and practice. In: Browdy, C.L., Hopkins, J.S. (Eds.), Swimming through troubled water, Proceedings of the special session on shrimp farming, Aquaculture '95. 1-4 February 1995, San Diego. World Aquacult., Society, Baton Rouge, LA, USA, pp. 40-52
Ravi M., Nazeer basha A., Sarathi M., Rosaidalia H.H., Sri widada J., Bonami J.R., and Sahul hameed A.S., 2009, Studies on the occurrence of white tail disease (WTD) caused by MrNV and XSV in hatchery-reared post-larvae of Penaeus indicus and P. monodon. Aquacult.
Sizemore R.K., and Davis J.W., 1985, Source of Vibrio spp. found in the hemolymph of the blue crab Callinectes sapidus. J. Invertebr. Pathol., 46:109–110.
Sudhakaran R., Syed musthaq S., Haribabu P., Mukherjee S.C., Gopal C., and Sahul hameed A.S., 2006, Experimental transmission of Macrobrachium rosenbergii noda virus (MrNV) and extra small virus (XSV) in three species of marine shrimp (Penaeus indicus, Penaeus japonicus and Penaeus monodon). Aquacult., 257, 136–141.
Vidal O. M., Granja C. B., Aranguren F., Brock J. A., and Salazar M., 2001, A profound effect of hyperthermia on survival of Litopenaeus vannamei juveniles infected with white spot syndrome virus. J .World. Aquacult., Soc., 32:364-372.
International Journal of Aquaculture
• Volume 4
View Options
. PDF(252KB)
. Online fPDF
Associated material
. Readers' comments
Other articles by authors
pornliz suckporn porndick pornstereo . B. Gunalan
. P. Soundarapandian
. T. Anand
. Anil S. Kotiya
. Nina Tabitha Simon
Related articles
. Litopenaeus vannamei
. Black gill disease
. White gut disease
. Muscle cramp syndrome
. White muscle disease
. White leg shrimp disease
. Shrimp culture
. Email to a friend
. Post a comment