Received 11 Feb 2013
Accepted 19 May 2013
Keywords
Cercariae,
Tymnaea gedrosiana,
Iran
Abstract
Background: Trematodes are a diverse group of endoparasites which require molluscan and vertebrate animals as intermediate and definitive hosts in their life cycle. The present study was carried out to determine the diversity and geographic distribution of infection with trematodes'cercariae in the snail Lymnaea gedrosiana from north-west Iran.
Methods: A total number of 6759 Lymnaeidae snails were collected from 28 snail habitats; of these L. gedrosiana was the prevalent snail (74.37%) which examined for cercarial infection by shedding method.
Results: The overall infection rate was 8.03%. The most frequent trematodes cercariae in the snail were xiphidiocercariae (81.98%), furcocercariae (32.26%), echinostome cercariae (5.19%), and monostome cercariae (1.24%). The highest infection rate in L. gedrosiana (100%) was with echinostome cercariae from Golestaneh in autumn.
Conclusion: Due to the important role of pond snails in transmission of cercariae to fish as a source of zoonotic diseases, it is essential to estimate the distribution and abundance of the snails and the rate of their infection with different trematodes' cercariae, and establish control programs in each region.
Introduction
Digenian trematodes have compli- cated life cycles in which molluscs play the key role as intermediate hosts for part of their developmental stages. In this regard, freshwater snails, in particular those from the order Basomamtophora, have substantial contribution to development and transmission of parasitic flukes. For instance, some 20 species of cercariae have been iso- lated from the lymnaeid snails of Fymnaeapere- gra (Muller, 1774) (1). Snail-mediated diseases are among the major groups of helminthic dis- eases caused by trematode parasites. However, the main snail species involving in the trans- mission of flukes vary in different geo- graphical regions.
Freshwater snails have been studied in dif- ferent Iranian provinces including Fars, Khoozestan and Mazandaran (2-5). F. gedrosiana (Annandale and Prashad, 1919) has been reported to be a prefered intermediate host for a number of parasitic helminths such as Fasciola gigantica (Cobbold, 1855) (6), Ornitobilhaigia tnrkestanicnm (Skrjabin, 1913) (2, 7), and Trichobilhatgia spp. (3). It was also found that F. gedrosiana had a considerable role in the transmission of zoonotic diseases such as cercarial dermatitis (1.1% in South-West and 0.05% in North of Iran), fasciolosis (0.35%), Plagiorchids infections (0.1%), and Clinostomnm infections (0.2%) in Iran (3, 6, 8- 10). Therefore, examination of the snails makes it possible to gain information about the degree to which they are responsible for infection distribution. This is also the keystone for identifying the trematode fauna in the are- as of interest.
To date, no large-scale study has been car- ried out on the distribution and abundance of F. gedrosiana and its contribution to the transmition of cercarial infection in north- western Iran. Thus, the aim of this study was to elucidate the seasonal and regional inci- dence of F. gedrosiana and its rate of cercarial infections in the region.
Material and Methods
Study area
West Azerbaijan Province is located in north-west of Iran (35°46' to 39°58' in lati- tude and 44 3 ' to 47°23' in longitude) (Fig. 1). Excluding the Lake Urmia, this semi-humid and temperate province has an area of 37,608 km2 elevating 1,332m above sea level. The climate of the province is largely influ- enced by the rainy winds of the Atlantic Ocean and Mediterranean Sea; the maximum temperature reaches 34°C in July, while mini- mum temperature may be -16°C in January. Annual precipitation varies between 300 and 800 mm with large yearly and monthly fluctua- tions. Generally, the province witnesses two rainy seasons, the first from March to May and the second in October-November (5). Three are numerous water bodies and reser- voirs with relatively appropriate environmen- tal conditions in West Azarbaijan province where suitable habitats are provided for pond snails (5).
Snail collection
A total of 28 perennial and seasonal fresh- water snails habitats were monitored from May to December 2010 (Fig.l). The habitats included various water-body types, i.e. wet- lands, ponds, rivers, canals, springs, swamps, pools, streams and ditches, located in both mountainous and low-land areas of north, central and south parts of the province. Snail sampling was undertaken by searching each site for 15 minutes using a standard flat wire mesh scoop with a mesh size of 2mm (11, 12). The collected snails were placed in plastic screw cap containers containing the water of snail habitat and transferred alive to the labo- ratory for species identification using the morphological keys provided by Mansoorian (13) and Pfleger (1). The identified snails were kept alive in an aquarium at optimal condi- tions to be investigated for their cercarial in- fection.
Collection of cercariae from the infected snails
The identified snails as L. gedrosiana were transferred to the Parasitology Museum of the Tehran Faculty of Veterinary Medicine for detailed characterization and verification. The snails were then placed individually in flat-bot- tomed glass vials (height 7.5 cm, diameter 2.5 cm) containing filtered pond water and ex- posed to a 100-W light bulb at a distance of 15cm for 4-6 hours for cercarial shedding (14). The snails which did not shed cercariae on the first exposure were re-exposed on the second day. Cercariae were characterized by morpho- logical and biometrical examinations as de- scribed by Frandsen and Christensen (15).
Statistical evaluation
Data were analyzed by SPSS statistical pro- gram (version 14, SPSS Inc., Chicago, IL, USA) using the non-parametric Chi-square test with confidence interval of 95%. Proba- bility of < 0.05 was regarded as significant.
Results
Snails
Of the total of 6759 collected Lymnaeidae snails, L. gedrosiana was the predominant spe- cie (74.37%) observed in 18 out of the 28 in- vestigated water bodies (Fig. 1). The snail was found mainly in the stagnant or slow-moving, clear to slightly turbid waters with aquatic plants cover. During the course of this study, the seasonal and geographical distributions of L. gedrosiana were significantly different (P = 0.0001). However, there was no significant differences in the distributions for the snail in Ziveh (P = 0.816) and Gogarchinghaleh (P = 0.677). The snails counts were significantly higher in summer than in autumn (P = 0.0001) (Table 1).
Diversity and abundance of cercariae
From the 3673 identified L. gedrosiana snails, 8.03% were infected with cercariae of differ- ent trematodes (Table 2). The infections were observed throughout the study period, but the largest number of the infected snails was ob- served between June and August (Table 3). Identified cercariae and their respective contri- bution to the total snail infection rate were as follows: xiphidiocercariae 81.98%, furcocerca- riae 32.26%, echinostome cercariae 5.19%, and monostome cercariae 1.24% (Table 2). Xiphidiocercariae and monostome cercariae were found only in the snails sampled from north part of West Azarbaijan province, while echinostome cercariae and furcocercariae were absent from the snails sampled in the central part of the province. All examined snails (100%) from Golestaneh in autumn were in- fected with echinostome cercariae, and the snails sampled from Gharahaghaj in summer had the highest infection rate with xiphidiocercariae (76.81%) (Table 3).
Discussion
Lymnaeidae snails are of medical and veteri- nary importance since they are required, as intermediate hosts, to complete the life cycle of trematode species. They are distributed throughout the world and are known as the vectors of more than 71 species belonging to 13 trematode families (16). A considerable body of research has explored the potential role of lymnaeid snails in transmitting the in- fectious parasitic trematodes worldwide (17- 19). However, intra-molluscan trematode par- asitism is frequently associated with the altera- tion of a host's growth, fecundity or survival (20), and its susceptibility to trematodes (21). In the present study, IL. gedrosiana was found to be a predominant pond snail in the region. This finding was in accordance with previous reports from Iran (4,5,13,22,23). Furthermore, in consitence with several earlier studies (2, 4, 13, 24), in this study the highest population density of L. gedrosiana was recorded in sum- mer.
Until present, only a few studies have been carried out on the diversity and abundance of cercarial infection in the pond snails of Iran. For instance, cercarial infection in L. gedrosiana was reported from Khoozestan province (3, 25), in Galba tmncatula (Müller, 1774) from Khoozestan and Kurdestan provinces (26), and in L. gedrosiana and L. palustris (Müller, 1774) from northern Iran (6, 9, 10). The snail U. gedrosiana is found to be a general intermediate host for four groups of cercariae in the studied region. Several studies have confirmed the simultaneous infec- tion of L. gedrosiana with echinostome cercariae (Echinostomatidae), furcocercariae (O. tur- kestanikum and Trichobilhatgia spp.), mon-ostome cercariae (Notocotylidae), and xip-hidocercariae (Plagiorchiidae) (2, 3, 24) in Iran. Sharif et al. (10) found that L. gedrosiana in northern Iran were also infected with the same cercariae types. Ix>y and Haas (27) isolated the larvae of 18 trematode species from L. stagnalis in Germany. Faltynkova et al. (18) identified 24 trematode species comprising 19 cercariae in L. stagnalis, of which the dominant cercariae were those be- longing to three species of Echincparyphium aconiatum, Opisthiogpphe ranae, and Plagiorchis elegans. Immani-Baran et al. (28) found the infection of L. auricularia snails in North West Iran with two groups of fluke's cercariae, i.e. furcocercariae and echinostomcercariae.
Seasonality that is mirrored by changes in environmental variables can intervene in snail's ecology and influence the larval devel- opment of a trematode inside its host snail. It may also affect cercarial shedding (the release of cercariae from the host snail in nature). However, the influence of environmental ele- ments on cercarial shedding is trematode- specific (29). The optimal reproduction of L. gedrosiana in northwestern Iran occurs in early summer (June-July) (2, 4). Similarly, the high- est cercariael infection rates in lymnaeid snails of the region were observed between June and September, while Sharif et al. (10) recorded the maximum infection rates in late summer (August-September). Thus, it can be anticipat- ed that both snail's propagation and their in- fection with trematodes are correlated with seasonal variations. Farahnak et al. (30) noted that various ecological factors such as season and water temperature, pH and dissolved oxy- gen influence the emergence of cercariae from the snails and their release inside the water resources.
Conclusion
With regard to the importance of farm ani- mal health in national economy, it is essential to study the diversity, distribution and abun- dance of the intermediate hosts of infectious trematodes, mainly freshwater snails. L. gedro- siana is a common pond snail in West Azarbai- jan province which has shown the capacity for vectoring diverse cercarial species. Results of this study and those of the related investiga- tions can assist in collecting data on the eco- logical relevance of the snails distribution and the pattern of transmission of digenian trematodes by the snails and finally, in preven- tion and control of the following disease out- breaks.
Awknowlegments
This study was supported financially by the Urmia University, Iran. The authors acknowl- edge the support and interest of the technical members of the Artemia and Aquatic Animals Research Institute, Central Lab of Faculty of Urmia Veterinary Medicine and Malacology Laboratory at Urmia University, Iran. The au- thors declare that there is no conflict of inter- est.
References
1. Pfleger V. A field guide in colour to mollusks. Aventinum Nakladatelstyi, S.T.O., Polygrafia, Czech Republic, Prague; 1999. pp. 28-9.
2. Massoud J. Observation on Fymnaea gedrosiana, die intermediate host of OmithobiDcargia turhestanicum in Kliuzestan, Iran. J Helmindiol. 1974;48:133-8.
3. Farahnak A Essalat MA. A study on cercarial dermatitis in Khoozestan Province, Sou- diwestem Iran. BMC Public Healdi. 2003; 3: 35-8.
4. Karimi GR, Derakhshanfar M, Paykari H. Population density, trematode infection and ecology of Fymnaea snails in Shadegan, Iran. Arch Razi Ins. 2004; 58:125-9.
5. Imani-Baran A Yakhchali M, Malekzadeh- Viayeh R. A study on geographical distribution and diversity of Lymnaeidae snails in West Azerbaijan Province, Iran. Vet J (Pajouhesh and Sazandegi). 2011; 82(4):53-63. (In Persian)
6. Ashrafi A Massoud J, Holakuei K, et al. Evi- dence suggesting diat Fasciola gigantica may be die most prevalent causal agent of fasciolosis in northern Iran. Iranian j Publ Healdi. 2004; 33: 31-7.
7. Motamedi GhR, Ghorashi SA, Paykari H, Da- limi AH, Salehi Tabar R, Motamedi N, Karimi GhR. Detection of Omithobilljargia turkestanikum cercaria (trematoda) by nested-PCR in interme- diate host snail, Fymnaea gedrosiana. Arch Razi Ins. 2008; 63(2): 35-40.
8. Ghobadi H, Farahnak A. A fanuistic survey on die cercariae of Bellamya bengaknsis snail and dieir zoonotic importance. Iranian J Publ Healdi. 2004; 33:38-42.
9. Adiari A, Gohar-Dehi SH, Rostami-Jalilian M. Determination of definitive and intermediate hosts of cercarial dermatitis-producing agents in Northern Iran. Archives of Iranian Medicine. 2006; 9(1) :11-5.
10. Sharif M, Daryani A, Karimi SA. A faunistic survey of cercariae isolated from lymnaeid snails in central areas Mazandaran, Iran. PakJ Bio Sei. 2010; 13(4): 158-63.
11. Cañete R, Yong M, Sanchez J, Wong L, Gutierrez A. Population dynamics of interme- diate snail hosts of Fasciola hepática and some environmental factors in San Juany Martinez Municipality, Cuba. Mem Inst Oswaldo Cruz, Ro de Janeiro. 2004; 99(3): 257-62.
12. Gutierrez A Hernandez DF, Sanchez J. Varia- tion of snail's abundance in two water bodies harboring strains of Fseudosuccinea columella resis- tant and susceptible to Fasciola hepática mira- cidial infection, in Pinar del Ro Province, Cuba Mem Inst Oswaldo Cruz, Ro de Janeiro. 2005; 100(7): 725-7.
13. Mansoorian AB. A practical guidline for identification of Iranian freshwater snails. Ira- nian J Publ Healdi. 1986; 15(1-2) :41-53.
14. Faltynkova A Nasincová V, Kablásková L. Larval trematodes (Digsnea) of planorbid snails (Gastropoda: Pulmonata) in Central Europe: a survey of species and key to dieir identifica- tion. Syst Parasitol. 2008; 69:155-78.
15. Frandsen F, Christensen NO. An introductory guide to die identification of cercariae from African fresh water snails widi special reference to cercariae of trematode species of medical and veterinary importance. Acte Trop. 1984; 41:181-202.
16. Bargues MD, Vigo M, Horak P, Dvorak J, Patzner RA, Pointier JP, Jackiewicz M, Meier- Brook C, Mas-Coma S. European Lymnaeidae (Mollusca: Gastropoda), intermediate hosts of trematodiases, based on nuclear ribosomal DNA ITS-2 sequences. Infect Genet Evol. 2001; 1:85-107.
17. Zbikowska E. Infection of snails widi birds shistosomes and die direat of swimmers itch in selected Polish lakes. Parasitol Res. 2004; 92: 30-5.
18. Faltynkova A, Haas W. Larval trematodes in freshwater molluscs from die Elbe to Danube rivers (Southeast Germany): Before and today. Parasitol Res. 2006; 99(5):572-82.
19. Faltynkova A, Nasincová V, Kablásková L. Larval trematodes (Digsnea) of die great pond snail, Fymnaea stagnalis (L), (Gastropoda, Pulmunata) in central Europe: A survey of spe- cies and key to dieir identification. Parasite. 2007; 14,39-51.
20. Sorensen, RE, Minchella DJ. Parasite influ- ences on host life history: Echinostoma revobitum parasitism of Fymnaea elodes snails. Oecologia. 1998; 115:188-95.
21. Kalbe, M., Habed, B., Hass, W., 1997. Miracidal host-finding in Fasciola hepática and Trichobilhargia ocellata is stimulated by species- specific glycoconjugates released from die host snails. Parasitol Res. 83: 806-12.
22. Mansoorian AB. Some freshwater Gastropods from Kermanshali province, western Iran. J Fac Vet Med, Uni Tehran. 2000a; 55(2):85-7. (In Persian)
23. Mansoorian AB. Some freshwater Gastropods from Baluchestan and Sistan province, soudieast Iran. J Fac Vet Med, Uni Tehran. 2000b; 55(3): 49-51. (In Persian)
24. Salahi-Moghaddam A, Malivi AH, Molavi GH, Hosseini-Qiegini A, Masoud J. Survey on Fym- naea palustris snail Parasitology and its ecological identification in Mazandaran Province using of Geographical Information System (GIS). J Modarres Medicine Science. 2009; 11(3-4): 65- 71. (In Persian)
25. Nourpisheh SH. The biology of Fymnea snail and its role in transmiting of infection to human and animal in Khoozestan province. MS diesis in Medical Parasitology, Healdi Faculty of Tehran Medical Sciences University, Iran; 1998. (In Persian)
26. Zamini GH. Survey of freshwater snails and identification of intermediate hosts of human and animal trematodes in Khoozestan and Kordestan Provinces, Iran. PhD desertation in medical parasitology, Healdi Faculty of Tehran Medical Sciences University, Iran; 1999. (in Persian)
27. Loy C, Haas W. Prevalence of cercariae from Fymnaea stagnalis snails in a pond system in Soudi Germany. Parasitol Res. 2001; 87: 878- 82.
28. Imani-Baran A, Yakhchali M, Malekzadeh- Viayeh R, Farhangpajuh F. Prevalence of cercariae infection in Fymnaea amiatlaria (Lin- naeus, 1758) in Nortii West of Iran. Vet Res Forum. 2011b; 2(2): 121-7.
29. Abrous M, Rondelaud D, Dreyfuss G. Faramphistomwn danbneyi and Fasciola hepática, in- fluence of temperature changes on die shed- ding of cercariae from dually infected Fymnaea tmncatula. Parasitol Res. 1999; 85:765-9.
30. Farahnak A, Vafaie-Darian R, Mobedi I. A Faunistic Survey of Cercariae from Fresh Water Snails: Melanopsis spp. and dieir Role in Disease Transmission. Iranian J Publ Healdi. 2006; 35(4): 70-4.
Abbas IMANI-BARAN \ *Mohammad YAKHCHALI 2, Reza MALEKZADEH-VIAYEH 3, Ali FARAHNAK 4
1. Dept. ofPathobiology, Parasitology Division, Faculty of I dterinary Medicine, Tabriy University, Tabriy, Iran
2. Dept, of Pathobiology, Parasitology Division, Faculty of F'eterinary Medicine, Naylu cangas, Urmia University, Urmia, Iran
3. Artemia and Aquatic Animals Research Institute, Urmia University, Urmia, Iran
4. Dept, of Parasitology and Mycology, School of Public Health, Medical Sciences of Tehran University, Tehran, Iran
*Correspondence
Email:
You have requested "on-the-fly" machine translation of selected content from our databases. This functionality is provided solely for your convenience and is in no way intended to replace human translation. Show full disclaimer
Neither ProQuest nor its licensors make any representations or warranties with respect to the translations. The translations are automatically generated "AS IS" and "AS AVAILABLE" and are not retained in our systems. PROQUEST AND ITS LICENSORS SPECIFICALLY DISCLAIM ANY AND ALL EXPRESS OR IMPLIED WARRANTIES, INCLUDING WITHOUT LIMITATION, ANY WARRANTIES FOR AVAILABILITY, ACCURACY, TIMELINESS, COMPLETENESS, NON-INFRINGMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Your use of the translations is subject to all use restrictions contained in your Electronic Products License Agreement and by using the translation functionality you agree to forgo any and all claims against ProQuest or its licensors for your use of the translation functionality and any output derived there from. Hide full disclaimer
Copyright Dr Ali Akbari Sari, Director of The Commission for Accreditation & Improvement of Iranian Medical Journals Jul-Sep 2013
Abstract
Trematodes are a diverse group of endoparasites which require molluscan and vertebrate animals as intermediate and definitive hosts in their life cycle. The present study was carried out to determine the diversity and geographic distribution of infection with trematodes'cercariae in the snail Lymnaea gedrosiana from north-west Iran. A total number of 6759 Lymnaeidae snails were collected from 28 snail habitats; of these L. gedrosiana was the prevalent snail (74.37%) which examined for cercarial infection by shedding method. The overall infection rate was 8.03%. The most frequent trematodes cercariae in the snail were xiphidiocercariae (81.98%), furcocercariae (32.26%), echinostome cercariae (5.19%), and monostome cercariae (1.24%). The highest infection rate in L. gedrosiana (100%) was with echinostome cercariae from Golestaneh in autumn. Due to the important role of pond snails in transmission of cercariae to fish as a source of zoonotic diseases, it is essential to estimate the distribution and abundance of the snails and the rate of their infection with different trematodes' cercariae, and establish control programs in each region. [PUBLICATION ABSTRACT]
You have requested "on-the-fly" machine translation of selected content from our databases. This functionality is provided solely for your convenience and is in no way intended to replace human translation. Show full disclaimer
Neither ProQuest nor its licensors make any representations or warranties with respect to the translations. The translations are automatically generated "AS IS" and "AS AVAILABLE" and are not retained in our systems. PROQUEST AND ITS LICENSORS SPECIFICALLY DISCLAIM ANY AND ALL EXPRESS OR IMPLIED WARRANTIES, INCLUDING WITHOUT LIMITATION, ANY WARRANTIES FOR AVAILABILITY, ACCURACY, TIMELINESS, COMPLETENESS, NON-INFRINGMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Your use of the translations is subject to all use restrictions contained in your Electronic Products License Agreement and by using the translation functionality you agree to forgo any and all claims against ProQuest or its licensors for your use of the translation functionality and any output derived there from. Hide full disclaimer