RESEARCH PAPER
Contamination of soil with eggs of geohelminths in recreational areas in the Lublin region of Poland
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1
Independent Laboratory for Cell Metabolism, Institute of Rural Health, Jaczewskiego 2, 20-090 Lublin, Poland
 
2
Department of Water and Soil Safety, Institute of Rural Health, Lublin, Poland
 
 
Corresponding author
Hubert Bojar   

Independent Laboratory for Cell Metabolism, Institute of Rural Health, Jaczewskiego 2, 20-090 Lublin, Poland
 
 
Ann Agric Environ Med. 2012;19(2):267-270
 
KEYWORDS
ABSTRACT
Recreational areas cover parks, bicycle paths, lawns, urban squares, sports complexes, holiday camp areas, playgrounds for children, beaches, and even spontaneously used green field open spaces. While using recreational areas, people take with them accompanying animals (dogs, cats). These animals constitute the main source and reservoir of many dangerous zoonoses, including parasitoses caused by roundworms of the genus Toxocara and Trichuris. The objective of the presented study was determination of the level of contamination of soil with parasites’ developmental forms (eggs of Toxocara spp., Ascaris spp., Trichuris spp and Ancylostoma) in selected recreational areas in the Lublin Region of southeastern Poland. The material for the study was collected from beaches in recreational areas located around the Białe Lake near Włodawa, the water reservoirs in Krasnobród and Janów Lubelski. The studies were carried out from May-October 2010 durng which time a total number of 215 samples of sand were collected. Eggs of Ascaris spp. and Trichuris spp. were detected based on the Polish Standard PN-Z-19000-4/2001. Beaches on the Białe Lake were the most contaminated. The eggs of intestinal parasites were isolated from 6 per 15 samples examined, which is 40%. In one sample, the presence of the eggs of 3 types of parasites were observed, while the eggs of Ancylostoma were not found in any of the samples. Attention should also be paid to the possibility of contamination of recreational areas with the eggs of intestinal parasites by wild animals. Recently in Poland, as well as in many other European countries, the phenomenon of synantropization of wild living animals has been observed, which most frequently concerned wild boar (Sus scrofa) and red fox (Vulpes vulpes).
 
REFERENCES (25)
1.
Mizgajska-Wiktor H, Jarosz W. Potential risk of zoonotic infections in rekreational areas visited by Sus scrofa and Vulpes vulpes. Case study-Wolin Island, Poland. Wiad Parazytol. 2010; 56(3): 243-251.
 
2.
Perec-Matysiak A, Hildebrand J, Zaleśny G, Okulewicz A, Fatuła. The evaluation of soil contamination with geohelminthh eggs in the area of Wroclaw Poland. Wiad Parazytol. 2008; 54(4): 319-323.
 
3.
Nowak P, Jochmek M, Pietrzyk A. Occurrence of human intestinal parasites in selected populations of Cracow region in the years 2000 – 2006 on the basis of parasitological stool examinations performed in the Laboratory of Parasitology of the District Sanitary – Epidemiological Center. Wiad Parazytol. 2007; 53(4): 285-293. (Abstract in English).
 
4.
Mas-Coma S, Valero M A, Bargues M D. Effects of climate change on animal and zoonotic helminthiases. Rev sci tech Off int Epiz. 2008; 27(2): 443-452.
 
5.
Ronkiewicz J, Karczewska D, Rokicki J. Soil contamination with helminthh eggs in the areas of play-grounds in Lębork town. Wiad Parazytol. 2007; 57(1): 33-36. (Abstract in English).
 
6.
Grygierczyk D, Kwiatkowski S, Sadowska H. Soil contamination with Toxocara eggs in the Katowice area and its environs. Wiad Parazytol. 2003; 49(1): 57-60. (Abstract in English).
 
7.
Jarosz W. Soil contamination with Toxocara spp eggs in the Elbląg area. Wiad Parazytol. 2001; 47(2): 143-149. (Abstract in English).
 
8.
Rokicki J, Kucharska A.P, Dzido J, Karczewska D. Contamination of play-grounds in Gdańsk city with parasite eggs. Wiad Parazytol. 2007; 53(3): 227-230. (Abstract in English).
 
9.
Mizgajska H, Luty T. Toxocara spp. in the Poznan urban area. Prz Epidemiol. 1998; 52: 441-446. (Abstract in English).
 
10.
Mizgajska H. Soil contamination with Toxocara spp. eggs in the Kraków area and two nearby villages. Wiad Parazytol. 2000; 46(1): 105-110. (Abstract in English).
 
11.
Mizgajska–Wiktor H, Jarosz W. A comparison of soil contamination with Toxocara canis and Toxocara cati eggs in rural and urban areas of Wielkopolska district in 2000–2005. Wiad Parazytol. 2007; 53(3): 219-225 (Abstract in English).
 
12.
Borecka A, Gawor J. Solil from the public places in Warsaw as the potential source of toxocariasis for human and animals. Proceedings of the 16th Parasitology Conference „Bioróżnorodność pasożytów” May 09 – 11. 2005; Wrocław – Karpacz, Poland; p.9.
 
13.
Gundłach J L, Sadzikowski A B, Tomczuk K. Contamination by Toxocara spp. eggs of selected urban and rural environments. Med Wet. 1996; 52(6): 394-396 (Abstract in English).
 
14.
Rzymowska J, Bartosik M, Kolasa S. Soil contamination of Lublin city with geohelminthh eggs. Proceedings of the 22nd Conference of Polish Parasitology Society Sept 01-04 2010, Puławy, Poland; p.92.
 
15.
Polska Norma PN-Z-19000-4/2001. Jakość gleby. Ocena stanu sanitarnego gleby. Wykrywanie jaj pasożytów jelitowych: Ascaris lumbricoides i Trichuris trichiura.
 
16.
Quinn R, Smith H V, Gidwood R.W A. Studies on incidence of Toxocara and Toxocara spp. ova in the environment. I. A comparison of flotation procedures of recovering Toxocara spp. ova from soil. J Hyg Cambridge 1980; 84: 83-89.
 
17.
Blaszkowska J, Kurnatowski P, Damiecka P. Contamination of the soil by eggs of geohelminthhs in rural areas of Lodz district (Poland). Helminthhologia 2011; 48(2): 67–76.
 
18.
Kubiak K, Dziekońska–Rynko J, Góralska K, Dzika E, Dzikowiec M, Kempa A, et al. The helminthological evaluation of soil of the selected beaches of Olsztyn. Proceedings of the 22nd Conference of Polish Parasitology Society Sept 01-04 2010, Puławy, Poland; p.98.
 
19.
Kirchheimer R, Jacobs D E. Toxocara species egg contamination of soil from children’s play areas in southern England. Vet Rec. 2008; 163: 394-395.
 
20.
Dubna S, Langrova I, Jankovska I, Vadlejch J, Pekar S, Napravnik J, et al. Contamination of soil with Toxocara eggs in urban (Prague) and rural areas in the Czech Republic. Vet Parasitol. 2007; 144: 81–86.
 
21.
Motazedian H D, Mehrabani D, Tabatabaee S H R, Pakniat A, Tavalali M. Prevalence of helminth ova in soil samples from public places in Shiraz. La Revue de Santé de la Méditerranée orientale 2006; 12(5): 562-566.
 
22.
Zibaei M, Abdollahpour F, Birjandi M, Firoozeh F. Soil contamination with Toxocara spp. eggs in the public parks from three areas of Khorram Abad, Iran. Nepal Med Coll J. 2010; 12(2): 63-65.
 
23.
Gawor J, Borecka A, Malczewski A. The infection of red foxes with Echinococcus multilocularis as potential risk for humans in Poland. Życie Wet. 2008; 83(1): 24-27. (Abstract in English).
 
24.
Kłapeć T, Stroczyńska-Sikorska M. Evaluation of epidemiological situation concerning toxocariasis from the aspect of risk for human health. Med Ogólna 2009; 15(XLIV),1: 45-53 (Abstract in English).
 
25.
Avcioglu H, Balkaya I. The relationship of public park accessibility to dogs to the presence of Toxocara species ova in the soil. Vector Borne Zoonotic Dis. 2011; 11(2): 177-80.
 
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