The Prevalence and Pathogenicity of the Anchor Worm (Lernea spp, Phylum Arthropoda) within the Finfish Inhabiting the Danube Delta Area Marius Hangan, Laura Urdeş*, Daniela Ianiţchi University of Agricultural Sciences and Veterinary Medicine Bucharet, 011494-Bucharest, Marasti Bvd, 59, Romania Abstract This research was conducted as a series of cross-sectional epidemiological studies. It started in the 2003 and ended in 2008, having as sample sites the Sontea-Fortuna, Gorgova-Uzlina, Dunavat-Dranov and Razim-Sinoie lakes. The aim of the research was to assess the distribution and the pathogenicity of the Lernaea copepod among the inhabiting finfish populations, in various seasons of the time period. Lernaea spp was found in ctenopharyngodon idella, cyprinus carpio, liza aurata and liza haematocheila, only in two out of the four sampled complex of lakes, Razim-Sinoie and Dunavat-Dranov. The highest prevalence of the parasite was recorded in the autumns and at the beginning of the springs. The frequency of the parasitism was highest in the C. idella captured in the Dunavat-Dranov complex lakes (86.29%). The lesions caused by the copepod were mainly localized on the eye balls, the tegmentum and on the fins, where hemorrhagic and proliferative processes, as well as an overall increase in tegmentum mucus secretion, were noticed. Keywords: freshwater finfish, Lernea spp, pathogenicity, prevalence 1. Introduction Lernaeidae family comprises fourteen genuses, of which species are widespread all over the world. Lernea genus includes 70 species of temporary parasites for many aquatic animal species [1]. It is assumed that only the female needs a temporary host [2]. Usually, the parasite is found on the tegmentum (i.e. at the base of scales), fins, gills and around the eyes and the buccal cavity of the fish host. The parasite has a worm-like body, with chitin growths at the anterior part of the body, through which it attaches to the host body [3]. Although lerneosis is not a zoonosis, the epidemiologic significance of the disease resides in its seasonal (i.e. endemic) occurence, as well as in the lesions that it causes to its host when * Corresponding author: Laura Urdeş, PhD DVM laurau_2005@yahoo.com attaching to the body, and which are responsible for making the hosts further susceptible to other opportunistic pathogens [4]. Moreover, the finfish infested with Lernaea spp are withdrawn from human consumption. This study focused on assessing the current exposure status of the studied fish populations within the region. The results of the study were expressed in terms of disease prevalence [2]. 2. Materials and methods The study was conducted between 2003 and 2008 within the Dunavat-Dranov and Razim-Sinoie natural complexes, on two fish species: ctenopharyngodon idella and cyprinus carpio. The catchments were performed mainly during the springs, summers and falls. The clinical observation [5] included the integrity of the tegmentum, the scales and apparent mucosae, the 258
body condition status, as well as the fish general behavior into the water. There were sampled a total of 2694 C. idella individuals and 985 C. carpio individuals, with an average per studied year of 449 C. idella individuals, and 164 C. carpio individuals (based on the data extracted from Table 1). All the captured fish were clinically examined, only the fish fitting into the above mentioned case definition being retained for further (parasitological) examination. 3. Results and discussion On the occasion of the clinical examination, Lernaea spp were found on the tegmentum and fins in both studied species. The series of cases were recorded more than once within a year, in different seasons (Table 1). Table 1. The prevalence of lerneosis in ctenopharyngodon idella and cyprinus carpio captured between 2003 and 2008 from Dunavat Dranov (DD) and Razim Sinoie (RS) Total samples Lerneosis occurence Study No of cases in No of cases in Cases in (%) Cases in (%) C. idella C. carpio Year C. idella C. carpio C. idella C. carpio DD RS DD RS DD RS DD RS DD RS DD RS 2003 255 167 95 82 219 110 49 35 85.88 65.87 51.58 42.68 2004 268 152 88 79 243 96 43 31 90.67 63.16 48.86 39.24 2005 241 148 106 73 196 102 62 33 81.33 68.92 58.49 45.21 2006 273 134 97 85 254 94 50 40 93.04 70.15 51.55 47.06 2007 294 145 82 67 268 89 39 29 91.16 61.38 47.56 43.28 2008 197 98 76 55 149 57 35 22 75.63 58.16 46.05 40 Total per Study Period 1528 844 544 441 1329 548 278 190 86.29 64.61 50.68 42.91 TOTAL 2694 985 1877 468 75.45 46.80 The degree of the lesions caused by the arthropods were from discrete to highly visible, under the form of hemorrhages, scale depreciation and mucus excess on the body surface (Figures 1-5). Apart from the studied species, there were recorded similar cases (but to a much lesser extent) in liza aurata and liza haematocheila. Figure 2. Missing scales, erosions and ulcers of the scales and tegmentum in ctenopharyngodon idella Figure 1. Lernaea spp and scale erosions in ctenopharyngodon idella At the end of the prevalence study years and following the examination of ctenopharyngodon idella, we recorded a maximum of the disease frequency in 2006, in Dunavat-Dranov, with 254 diagnosed cases out of 273 studied fish (93.04%), (Table 1). 259
Figure 3. Skin haemorrhages caused by Lernaea spp in cyprinus carpio Figure 4. Skin haemorrhages and scale ulcers in cyprinus carpio caused by Lernaea spp Figure 5. Lernaea spp, scale and skin erosions in cyprinus carpio As for the cyprinus carpio, the highest disease frequency was found in the samples gathered from Dunavat-Dranov in 2005, with 62 cases out of 106 studied fish (58.49%), (Table 1). As it can be seen in the Figure 6 below, among the studied species, the highest average frequency of the disease was found in C. idella, with 86.29%. Irrespective of the species though, the Dunavat- Dranov sample site apparently provided many more infestation cases than the Razim-Sinoie site: 86.29% versus 64.61% in C. idella and 50.68% versus 42.91 % in C. carpio (Figure 6, Table 1). Higher frequencies of the lerneosis cases were recorded during the autumns and at the beginning of the springs. 260
90 86.29 80 70 64.61 60 50 (%) 40 30 20 10 50.68 42.91 0 Mean values DD Mean values RS Mean values DD Mean values RS Mean frequency in C. idella, Dunavat Dranov (DD) Mean frequency in C. idella, Razim Sinoie (RS) Mean frequency in C. carpio, Dunavat - Dranov Mean frequency in C. carpio, Razim - Sinoie Figure 6. A comparative analysis of the infestation level with Lernaea spp in Ctenopharyngodon idella and Cyprinus carpio captured between 2003 and 2008 from Dunavat Dranov and Razim Sinoie 4. Conclusions - Following the study period and according to the obtained results, it ensures that: - Four fish species in total were found infested with Lernea spp: C. idella, C. carpio, L. aurata and L. haematocheila; the frequency of lerneosis cases was only assessed in the C. idella and C. carpio. - The highest prevalence of the disease was recorded during the autumns and at the beginning of the springs. - The pathogenicity of Lernaea spp was found in both studied fish species, consisting of lesions of scales, skin and fins under the form of erosions, ulcers and punctiform tegmental hemorrhages. Anchorworms from Two Larval Aquatic Insects (Ephemeroptera: Baetidae, Trichoptera: - The mean prevalences among the two sample sites and studied fish species varied greatly, with maximum mean values for C. idella (i.e. 86.29% in Dunavat-Dranov, and 64.61% in Razim Sinoie), by comparison to C. carpio (i.e. 50.68% in Dunavat-Dranov and 42.91% in Razim-Sinoie), - Overall, we rate the recorded prevalences for the study period as high to very high, with the highest rate among the fish samples in C. idella, and among the studied sample sites, within the Dunavat-Dranov aquatic complex. References 1. McAllister, C. T., Bursey, C. R. and Martin, S. D., Lernaea cyprinacea (Crustacea: Copepoda: Lernaeidae) Hydropsychidae) in Northeastern Oklahoma, Proc. Okla. Acad. Sci., 2011, 91, pp. 37-40 261
2. Hangan, M., Studiul paraziţilor întâlniţi în cercetările din rezervaţia biosferei Delta Dunării, In: Contribuţii la studiul etiologic şi epizootologic al parazitozelor la unele specii de peşti din Delta Dunării (Teză de Doctorat) 2008, pp. 294-303, 304-311 3. Yashouv A. On the biology of Lernaea in fish ponds. Bamidgeh 1959, 11, 80 89 4. Lester, R. G., Hayward, C. J. Phylum Arthropoda, In: Wood PTK, editor. Fish Diseases and Disorders Volume. 1. Protozoan and metazoan infections, Wallingford, Oxon (UK): CAB International, 2006 pp. 466 565 5. Morris, R. S., The epidemiological approach to animal health building on strong foundations, Preventive Veterinary Medicine, Elsevier Science B.V. 1995, 25, 77-92 262