Leech presence on Iberian Brown Frog, Rana iberica, (Amphibia: Anura: Ranidae) from north-western Spain César Ayres1, Julian Comesaña Iglesias2 1 Rede de Observación Ambiental de Galicia (ROAGA)-CINAM, Apdo. de Correos 127- C.P. 36080, Lourizán - Pontevedra-Spain. E-mail: cesar@herpetologica.org 2 Valladares-Pomba, 33, 36315 Vigo (Pontevedra). Spain Submitted on 2007, 15th December; revised on 2008, 27th March; accepted on 2008, 28th March. Abstract. The authors describe a case of parasitism on Rana iberica by two species of leeches, Batracobdella sp. and Hirudo medicinalis, in a mountainous area of north- western Spain. Conservation implications of high parasite load on small and isolated populations are discussed. Keywords. Amphibia, Rana iberica, leech parasitism, Spain. Leeches are known to parasite many freshwater species including invertebrates (Kut- schera, 2003), fishes (Pearse, 1924), amphibians (Fontaneto et al., 1999, Romano and Di Cer- bo, 2007), turtles (MacCoy et al., 2007; Ayres and Alvarez, in press), and mammals (Davies and MacLoughlin, 1996). Trophic relationships with amphibians are very complex, leeches predate or parasite over all life stages of amphibians, including eggs (Romano and Di Cerbo, 2007), larvae (Gunzburger and Travis, 2005) and also adults (Merilä and Sterner, 2002). Rana iberica inhabits cold streams, ponds and mountain lakes in the North and West of the Iberian Peninsula, with some isolated spots in the Sistema Central mountains (Sal- vador and García-París, 2001). Our work reports an episode of parasitism by two species of leeches on R. iberica found in Serra do Suido Mountains, Galicia region, north-western Spain. The site of collection is located near the top of the mountain at an altitude of 851 m a.s.l. The commonest vegetation is shrubs with dense cover of Erica sp. and Ulex sp.; arbo- real species are restricted to stream and river beds, with Betula sp. and Salix sp. On 6th November 2007 one male of R. iberica was captured in a small stream in Bar- ranqueira de Casariños. This stream is used as a water reservoir for free-ranging cattle and horses. Due to the severe draught that Galicia suffered during 2007 the stream was almost dry, with the exception of some ponds. The individual of R. iberica was captured resting in one shallow pond of the stream, in seemingly poor condition as indicated by the apathetic behaviour. When we examined the frog we found ten leeches attached to its body. Most Acta Herpetologica 3(2): 155-159, 2008 ISSN 1827-9643 (online) © 2008 Firenze University Press 156 C. Ayres and J. Comesaña Iglesias of them were attached in the inguinal and axilar area (see Fig. 1), but one big leech was attached in the middle of the body. The smallest ones belong to Batracobdella sp., which is known to parasite on Iberian brown frogs (Almaça, 1964; García-París, 1985; Galán and Fernandez Arias, 1993), but the biggest one belongs to Hirudo medicinalis, the medicinal leech, a typical parasite of mammals (Keim, 1993; Davies and MacLoughlin, 1996). In the Iberian Peninsula Batracobdella sp. is a common ectoparasite of some amphibian species, including Discoglossus galganoi and Rana iberica (García-París, 1985; Galán and Fernan- dez Arias, 1993, Galán pers. comm.). But to our knowledge there are few reports about amphibian predation by medicinal leeches in the Iberian Peninsula. As Merilä and Sterner (2002) stated, medicinal leeches could act as important source of mortality for adult amphibians. In our case, it seems that warm temperatures, 25 ºC max. on 6th November, and low water level, it was the driest autumn in the last fifty years, rise the possibility of dangerous interactions between leeches and amphib- ians. Also recent changes in cattle management, using troughs or watering places during drought, could lead to an increase of leech parasitism on amphibians, due to scarcely presence of mammals. In our study area it seems that some factors are influencing negatively on R. iberica and other amphibians. Habitat modification and fragmentation, due to human activity (i.e., road construction, windmills), intentional fires, and cattle pressure (i.e., eutrophica- tion); seem to have a negative effect on amphibian populations (Vos and Chardon, 1998; Ayllon-Lopez and Dominguez-Gonzalo, 2001; Hels and Buchwald, 2001; Jansen and Hea- ley, 2003; Knutsom et al., 2004; Cushman, 2006; Nyström et al., 2007). Serra do Suido mountains suffer intentional fires each year in order to create new pastures for cattle, this problem causes habitat loss and changes in vegetation cover. Additionally, construc- tion of windmill parks caused habitat fragmentation, changing natural drainages due to creation of tracks; this problem is more problematic in the last years due to the severe Fig. 1. Leeches attached to R. iberica. 157Leech parasitism in Rana iberica draught that Galicia region is suffering. All this human pressure limits available habitat for R. iberica, restricting the species to small drainages, with less possibilities for disper- sal and colonization of new areas or gene flow between populations. Martinez-Solano et al. (2005) stated that the combination of both reduced genetic variability and increasing isolation of populations is likely to result in local and regional extinction of populations in Sistema Central mountains. But maybe leech infestation could also have a negative effect on small isolated populations. Fontaneto et al. (1999), Merilä and Sterner (2002) reported attacks from H. medicinalis, and indirect predation by Haemopis sanguisuga, which caused high mortality. Also it’s possible to affect indirectly by transmission of blood parasites by non lethal parasitism. Another effect that it’s not been evaluated is the possible impact on eggs and larvae by leeches, as is reported by Gunzburger and Travis (2005) and Romano and Di Cerbo (2007). At a conservational point of view both species, R. iberica and H. medicinalis, are pro- tected under different laws. R. iberica is protected by regional and national laws, catalogued as VU in both Red Books. Medicinal leeches are protected under european laws, including Annex V of Bern Convention, IUCN, and also CITES. In Spain the current situation of the species is unknown, but García Más and Muñoz Araujo (2001) stated that this species could potentially occur in almost all Iberian Peninsula inland waters, but its populations face such threats that its range is drastically decreasing, due to habitat loss and overexploitation. Also in R. iberica it’s been reported negative influence from human disturbance (Rod- riguez-Prieto and Fernandez-Juricic, 2005), as this species show high fidelity to stream beds and low dispersal, effects on the habitat quality could have a higher effect on survival rates. Martinez-Solano et al. (2003) stated that R. iberica is restricted in its possible expansion to suitable breeding habitat because it breeds almost exclusively in permanent streams. This species also avoid the use of deep ponds or streams inhabited by predatory fishes, which not only reduce amphibian population size but also increase fragmentation and isolation, which could reduce genetic flow or local extinction of small populations. Salmonid pres- ence has a strong negative effect on tadpole presence, not only by direct predation but also by altering behaviour due to chemical cues (Bosch et al., 2006). In Barranqueira de Casar- iños stream some deep ponds are occupied by salmonids, so tadpoles and adults seem to be restricted to shallower marginal areas avoiding central deeper zones with faster current. Maybe this behaviour could increase the risk of being parasitized by leeches, as we found most individuals of Batracobdella sp. attached under stones in shallow water. It seems that both species, Iberian Brown Frog and medicinal leeches, are suffering dramatic changes in an area that remained quite undisturbed until recent years. 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