Abstract

Urban parks are not only important for the wellbeing of the human population, but are also widely considered to be potentially important sites for the conservation of biodiversity. However, they may offer risk parasitic infections, such as schistosomiasis and fascioliasis, which are both transmitted by freshwater snails. The present study investigated the occurrence of freshwater gastropods in urban parks of the Brazilian city of Rio de Janeiro, and their possible infection by helminths of medical-veterinary importance. Gastropods were collected from six parks (2021 - 2022) and examined for the presence of larval helminths. In all, 12 gastropod species from different families were collected: Ampullariidae, Assimineidae, Burnupidae, Lymnaeidae, Physidae, Planorbidae, Succineidae, and Thiaridae. The parasitological examination revealed cercaria of three types in five snail species, with the Pleurolophocerca cercariae type in Melanoides tuberculata (the most abundant species), Echinostoma cercariae in Physella acuta and Pomacea maculata, and Virgulate cercariae, in Pomacea sp. and Pomacea maculata. None of the Biomphalaria tenagophila and Pseudosuccinea columella (the most frequent species) specimens were parasitized by Schistosoma mansoni or Fasciola hepatica, respectively. Even so, some parks may represent a considerable potential risk for transmission of both Schistosoma mansoni and Fasciola hepatica, given the presence of these gastropod vectors and the frequent contact of visitors with the waterbodies.

Key words
Biodiversity; freshwater snails; helminths; one health; parasitosis

INTRODUCTION

Neotropical freshwater snails are still poorly studied in general, and there is a major knowledge gap for this group, with the exception of some families of medical-veterinary relevance, such as the Planorbidae and Lymnaeidae (Paraense 1975PARAENSE WL. 1975. Estado atual da sistemática dos planorbídeos brasileiros. Arq Mus Nac Rio J 55: 105-128., Fernandez et al. 2020FERNANDEZ MA, FEITOSA ES & THIENGO SC. 2020. Planorboidea, Planorbidae, Planorbinae. In: Keys to Neotropical and Antarctic Fauna. (DAMBORENEA C, ROGERS DC & THORP HJ Eds), p. 313-327., Pointier & Vázquez 2020POINTIER JP & VÁZQUEZ AA. 2020. Lymnaeoidea, Lymnaeidae. In: Keys to Neotropical and Antarctic Fauna. (DAMBORENEA C, ROGERS DC & THORP HJ Eds), p. 281-290.). Despite this, these snails are of considerable importance, not only in terms of their biodiversity, but also from a public health perspective, as the vectors of parasitic helminths. In particular, the planorbids Biomphalaria glabrata (Say, 1818), Biomphalaria tenagophila (d’Orbigny, 1835), and Biomphalaria straminea (Dunker, 1848) are intermediate hosts of the trematode Schistosoma mansoni Sambon, 1907, the etiological agent of Schistosomiasis mansoni (Paraense 1975PARAENSE WL. 1975. Estado atual da sistemática dos planorbídeos brasileiros. Arq Mus Nac Rio J 55: 105-128., Fernandez et al. 2020FERNANDEZ MA, FEITOSA ES & THIENGO SC. 2020. Planorboidea, Planorbidae, Planorbinae. In: Keys to Neotropical and Antarctic Fauna. (DAMBORENEA C, ROGERS DC & THORP HJ Eds), p. 313-327.). Other important parasitosis are human echinostomiasis and fasciolosis. Human echinostomiasis is a zoonosis transmitted by freshwater snails, such as Pomacea maculata Perry, 1810, and Pomacea canaliculata (Lamarck, 1822) (Saijuntha et al. 2011SAIJUNTHA W, SITHITHAWORM P, DUENNGAI K, KIATSOPIT N, ANDREWS RH & PETNEY TN. 2011. Genetic variation and relationships of four species of medically important echinostomes (Trematoda: Echinostoma cercariaetidae) in South-East Asia. Infect Genet Evol 11: 375-381.), and is caused by a number of different digenetic trematodes, mostly species of Echinostoma cercariae (Graczyk & Fried 1998GRACZYK TK & FRIED B. 1998. Echinostomiasis: a common but forgotten food-borne disease. Am J Trop Med Hyg Medicine and Hygiene 58: 501-504.). Fasciolosis, in turn, is caused by the trematode Fasciola hepatica Linnaeus, 1758, whose intermediate hosts include the lymnaeids of the genera Lymnaea, Pseudosuccinea, and Galba (Thiengo & Fernandez 2013THIENGO SC & FERNANDEZ MA. 2013. Gastrópodes neotropicais continentais de importância médica. In.: Dinâmica das Doenças Infecciosas e Parasitárias (Coura JR Ed), p. 131-140.). This parasitosis is particularly relevant because, in addition to humans, it can also affect cattle, sheep, and goats, and has caused serious economic impacts on the production of livestock in Brazil and a number of other countries (Guimarães 2016GUIMARÃES MP. 2016. Fasciola hepatica. In: Parasitologia Humana (NEVES DP Ed) 13: 588.). Some freshwater gastropods are agricultural pests, such as certain Pomacea species, which were introduced as a potential source of food in a number of Southeast Asian countries, but subsequently became pests, in particular in rice paddies, where they have caused serious economic damage (Hayes et al. 2008HAYES KA, JOSHI RC, THIENGO SC & COWIE RH. 2008. Out of South America: Multiple origins of non-native apple snails in Asia. Divers Distrib 14: 701-712., Ohlweiler et al. 2013OHLWEILER FP, EDUARDO JM, TAKAHASHI FY, CREIN GA, LUCA LR & OLIVEIRA RC. 2013. Larvas de trematódeos associadas a moluscos de água doce em municípios da Região Metropolitana de São Paulo, Estado de São Paulo, Brasil. Rev Panamazonica Saude 4: 37-48., Cowie et al. 2017COWIE, RH, HAYES KA, STRONG EE & THIENGO SC. 2017. Non-native apple snails: systematics, distribution, invasion, history and reasons for introduction. Biology and management of invasive apple snails. Philippine Rice Research Institute (PhilRice), Maligaya, Science City of Muñoz, Nueva Ecija 3119: 3-32.).

With the growing urbanization of towns and cities, urban parks have increasingly become a refuge for residents in search of open spaces in which to relax or exercise (Dagnino et al. 2020DAGNINO P, ANGUITA V, ESCOBAR K & CIFUENTES S. 2020. Psychological effects of social isolation due to quarantine in Chile: An exploratory study. Front Psychiatry 11: 1-13.). The reduction of stress is one of the principal human health benefits resulting from visits to urban parks (Soga et al. 2017SOGA M, GASTON KJ & YAMAURA Y. 2017. Gardening is beneficial for health: A meta-analysis. Prev Med Rep 5: 92-99.). The inhabitants of large cities are typically exposed to high levels of stress, and green areas within the urban zone can have a positive impact on human health and wellbeing (Collet et al. 2008COLLET C, CHIARADI BM, REIS RS & NASCIMENTO JV. 2008. Fatores determinantes para a realização de atividades físicas em parque urbano de Florianópolis. Rev Bras Ativ Fis Saúde 13: 15-23., Maller et al. 2009MALLER C, TOWNSEND M, ST-LEGER L, HENDERSON-WILSON C, PRYOR A, PROSSER L & MOORE M. 2009. Healthy parks, healthy people: The health benefits of contact with nature in a park context. In: The George Wright Forum. George Wright Society 26: 51-83., Kardan et al. 2015KARDAN O, GOZDYRA P, MISIC B, MOOLA F, PALMER LJ, PAUS T & BERMAN MG. 2015. Neighborhood greenspace and health in a large urban center. In: Urban Forests. Florida: Apple Academic Press, p. 1-14.).

In addition to promoting human health, urban parks may also have benefits for the health of animals and the environments, given that they provide open spaces for people and their pets to exercise and interact with nature, as well as contributing to the preservation of biodiversity and the reduction of pollution, of both the air and water (Kabashima et al. 2011KABASHIMA Y ET AL. 2011. Histórico da composição da vegetação arbórea do Parque do Ibirapuera e sua contribuição para a conservação da biodiversidade. Revista da Sociedade Brasileira de Arborização Urbana 6: 125-144., Su et al. 2022SU TH, LIN CS, LU SY, LIN JC, WANG HH & LIU CP. 2022. Effect of air quality improvement by urban parks on mitigating PM2. 5 and its associated heavy metals: A mobile-monitoring field study. J Environ Manag 323: 1-13.).

Tzoulas et al. (2007)TZOULAS K, KORPELA K, VENN S, YLI-PELKONEN V, KAŹMIERCZAK A, NIEMELA J & JAMES P. 2007. Promoting ecosystem and human health in urban areas using Green Infrastructure: A literature review. Landsc Urban Plann 81: 167-178. and Kuo (2015)KUO M. 2015. How might contact with nature promote human health? Promising mechanisms and a possible central pathway. Front Psychol 6: 1-8. highlighted the importance of urban parks based on the One Health concept, in which human health is intimately linked to the health of the environment and its animals. Urban parks are thus a good example of integration of the care of this triad, from the perspective of the creation of a healthy and sustainable community.

Six public parks were the focus of the present study in the city of Rio de Janeiro, Brazil: Bosque da Barra Municipal Natural Park, and Prainha Municipal Natural Park (Parque Natural Municipal Bosque da Barra, Parque Natural Municipal da Prainha), Rio de Janeiro Botanical Garden (Jardim Botânico do Rio de Janeiro), Henrique Lage Park (Parque Henrique Lage), Quinta da Boa Vista and Recanto do Trovador Park (Parque Recanto do Trovador). These parks contribute to the formation of green space within the Rio de Janeiro metropolitan region (Lima et al. 2023LIMA L, FEITOSA ES, MATTOS AC, SILVA AB, GOMES RS, PINTO MC, SOUSA AP & THIENGO SC. 2023. Freshwater Snails in Public Parks of Rio de Janeiro City, Brasil. Tentacle 31: 11-13.).

Given that the vectors of both S. mansoni and F. hepatica are found in the municipality of Rio de Janeiro (Thiengo et al. 2001THIENGO SC, FERNANDEZ MA, BOAVENTURA MF, GRAULT CE, SILVA HF, MATTOS AC & SANTOS SB. 2001. Freshwater snails and schistosomiasis mansoni in the state of Rio de Janeiro, Brazil: I-Metropolitan Mesoregion. Mem Inst Oswaldo Cruz 96: 177-184., Mazzoni et al. 2009MAZZONI R, GIGUEIREDO CA, ENRICI MC, BAPTISTA DF, CARAMASCHI EP, NESSIMIAN JL, PAZ RC, THIENGO SC, GUEDES DM & MOULTON TP. 2009. Organismos aquáticos nos sistemas fluviais do estado do Rio de Janeiro. In: Estratégias e ações para a conservação da biodiversidade no estado do Rio de Janeiro (BERGALLO HG et al. Eds). Instituto Biomas, 153 p., Oliveira et al. 2020OLIVEIRA MB, OLIVEIRA ASS, AZEVEDO APP, SILVA JR, MEDEIROS TRN, SILVA GVSF, CRUZ MS & BOGÉA T. 2020. Occurrence of Biomphalaria glabrata and Physa acuta (Gastropoda: Mollusca) snails in Quinta da Boa Vista Municipal Park, Rio de Janeiro, RJ, Brazil. J Trop Pathol 49: 274-282., Ximenes et al. 2022XIMENES MER, GONÇALVES ICB, MIYAHIRA IC, LACERDA LEM & SANTOS SB. 2022. Para além das plantas: diversidade de moluscos límnicos no Instituto de Pesquisas Jardim Botânico do Rio de Janeiro. Pesqui Ensino Ciênc Exatas Nat 6: 1-13.), the mapping of the occurrence of these mollusks and the detection of potential infections by helminths of parasitological concern in areas visited by the human population, such as natural parks is an important public health initiative, which is also consistent with the One Health concept

The present study reports on the findings of the freshwater gastropods survey of the six public parks, listed above, in the Brazilian city of Rio de Janeiro. These findings include a description of the helminths associated with these gastropods, which contributed not only to the further understanding of the biodiversity of the study areas, as well as the detection of areas prone to the epidemiological transmission of parasitosis.

MATERIALS AND METHODS

The gastropod specimens were collected in June, September, November, and December 2021 and in March 2022, according to the seasons of the year in Brazil, at two federal localities, the Rio de Janeiro Botanical Garden and Henrique Lage Park, two municipal Bosque da Barra and Prainha natural parks, the Recanto do Trovador Park, and Quinta da Boa Vista, all located in the city of Rio de Janeiro, in southeastern Brazil (Figure 1; Table I). Collections were carried out four times in each park, with the exception of Prainha Natural Park (three visits). The surveys were qualitative and were conducted invariably at the same points within each locality, by three collectors, during 10 minutes each one (Thiengo et al. 2012THIENGO SC, FERNANDEZ MA & MATTOS AC. 2012. Malacologia. In: Conceitos e métodos para a formação de profissionais em laboratórios de saúde (MOLINARO EM, CAPUTO LFG & AMENDOEIRA MRR Eds). EPSJV-IOC 5: 413-475. adapted from Olivier & Schneiderman 1956OLIVIER L & SCHNEIDERMAN MA. 1956. Method for estimating the density of aquatic snail populations. Exp Parasitol 5: 109-117.). The parks were chosen because they have waterbodies and are easier to access. The survey points were georeferenced using a Garmin® Etrex 10 GPS, with the Lat-Long geodesic coordinates system, configured to the WGS84 geodesic reference.

Figure 1
Natural parks surveyed in the city of Rio de Janeiro, Brazil (gray area in Rio de Janeiro state) between June 2021 and March 2022 (adapted from Lima et al. 2023LIMA L, FEITOSA ES, MATTOS AC, SILVA AB, GOMES RS, PINTO MC, SOUSA AP & THIENGO SC. 2023. Freshwater Snails in Public Parks of Rio de Janeiro City, Brasil. Tentacle 31: 11-13.).

For the parasitological examination, the specimens were exposed to the light of 60W incandescent lamps for 4 hours at a distance of 30 cm, and then analyzed under a Stereoscopic Microscope Tecnival with a magnification of 8x for the identification of the cercariae. Following this examination, the animals were kept in the dark until the following morning, when they were analyzed once again, to detect parasites that have nocturnal definitive hosts (Thiengo et al. 2012THIENGO SC, FERNANDEZ MA & MATTOS AC. 2012. Malacologia. In: Conceitos e métodos para a formação de profissionais em laboratórios de saúde (MOLINARO EM, CAPUTO LFG & AMENDOEIRA MRR Eds). EPSJV-IOC 5: 413-475.). The types of cercariae were identified based on the dichotomous key of Pinto & Melo (2013)PINTO HA & MELO AL. 2013. Larvas de trematódeos em moluscos do Brasil: panorama e perspectivas após um século de estudos. J Trop Pathol 42: 369-386..

The ampullariid and tiarid specimens were fixed according to Fukuda et al. (2008)FUKUDA H, HAGA T & TATARA Y. 2008. Niku-nuki: a useful method for anatomical and DNA studies on shell-bearing. Zoosymposia 1: 15-38.. All other gastropods were first relaxed in sodium pentobarbital before being fixed using the protocol of Thiengo et al. (2012)THIENGO SC, FERNANDEZ MA & MATTOS AC. 2012. Malacologia. In: Conceitos e métodos para a formação de profissionais em laboratórios de saúde (MOLINARO EM, CAPUTO LFG & AMENDOEIRA MRR Eds). EPSJV-IOC 5: 413-475. for morphological study.

The mollusks were identified based on the detailed examination of their shells and the dissection of the specimens for the observation of diagnostic features, as well as comparison with the literature (Paraense 1975PARAENSE WL. 1975. Estado atual da sistemática dos planorbídeos brasileiros. Arq Mus Nac Rio J 55: 105-128., Simone 2006SIMONE LR. 2006. Land and freshwater molluscs of Brazil. Editora EGB, Fapesp. São Paulo, 390 p., Fernandez et al. 2008FERNANDEZ MA, THIENGO SC, AMARAL R & BRASIL, MINISTÉRIO DA SAÚDE. 2008. Técnicas Malacológicas. Vigilância e Controle de Moluscos de moluscos de Importância Médica: Diretrizes Técnicas. Editora do Ministério da Saúde 43-70., 2020, Thiengo et al. 2017THIENGO SC, FERNANDEZ MA & PIMPÃO DM. 2017. Diversity of Amazon Ampullariidae (Mollusca; Caenogastropoda). In: Amazonian Apple Snails (SANT’ANNA BS & HATTORI GY Eds), p. 1-20., 2020, Berning 2020BERNING MI. 2020. Cerithioidea. In: Keys to Neotropical and Antarctic Fauna. (DAMBORENEA C, ROGERS DC & THORP HJ Eds), p. 354-377., Collado 2020COLLADO GA. 2020. Truncatelloidea. In: Keys to Neotropical and Antarctic Fauna. (DAMBORENEA C, ROGERS DC & THORP HJ Eds), p. 347-353., Cuezzo 2020CUEZZO M. 2020. Lymneoidea, Physidae. In: Keys to Neotropical and Antarctic Fauna. (DAMBORENEA C, ROGERS DC & THORP HJ Eds), p. 291-294., Gregoric 2020GREGORIC DEG. 2020. Chilinoidea, Chilinidae. In: Keys to Neotropical and Antarctic Fauna. (DAMBORENEA C, ROGERS DC & THORP HJ Eds), p. 295-302., Pointier & Vázquez 2020POINTIER JP & VÁZQUEZ AA. 2020. Lymnaeoidea, Lymnaeidae. In: Keys to Neotropical and Antarctic Fauna. (DAMBORENEA C, ROGERS DC & THORP HJ Eds), p. 281-290., Santos et al. 2020SANTOS SB, OVANDO XMC & LACERDA EM. 2020. Planorbioidea, Planorbidae, Ancylinae. In: Keys to Neotropical and Antarctic Fauna. (DAMBORENEA C, ROGERS DC & THORP HJ Eds), p. 302-307.). The shells of the snails of the Burnupidae and Ancylinae were mounted on stubs, metalized with gold and viewed with a Jeol-JSM-6390-LV scanning electron microscope at the Fiocruz Electronic Microscopy Platform (Silveira 2007SILVEIRA M. 2007. Preparo de amostras biológicas para Microscopia Eletrônica de Varredura. In: Técnicas de Microscopia Eletrônica aplicadas às Ciências Biológicas. (SOUZA W Ed), p. 53-59.).

RESULTS

A total of 2203 gastropod specimens were collected and deposited at the Mollusk Collection of the Oswaldo Cruz Institute (CMIOC 14593 – CMIOC 14715), which represented the families Thiaridae (831 specimens / 37.72% of the specimens), Ampullariidae (470 / 21.33%), Planorbidae (419 / 19.02%), Physidae (336 / 15.25%), Lymnaeidae (134 / 6.08%), Burnupidae (8 / 0.36%), Succineidae (3 / 0.14%) and Assimineidae (2 / 0.09%), The most common the most abundant species was Melanoides tuberculata (Müller, 1774), with 831 specimens collected, followed by P. maculata (n = 420), B. tenagophila (n = 368), Physella acuta (Draparnaud, 1805) (n =237), Pseudosuccinea columella (Say, 1817) that was the most frequent species (n = 134), Stenophysa marmorata (Guilding, 1828) (n = 99), Pomacea sp. (n = 50), Drepanotrema anatinum (d’Orbigny, 1835) (n = 40), Omalonyx matheroni (Pointiez & Michaud, 1835) (n = 3) and Assiminea sp., represented by only two specimens (Figure 2). Two other species were also collected, Gundlachia ticaga (Marcus & Marcus, 1962) (n = 11) and Burnupia ingae Lanzer, 1991 (n = 8) (Table II; Figure 3).

Figure 2
Shells of gastropod specimens collected during the present study: a: Biomphalaria tenagophila, b: Drepanotrema anatinum, c: Assiminea sp. d: Physella acuta, e: Stenophysa marmorata, f: Omalonyx matheroni, g: Pseudosuccinea columella, h: Melanoides tuberculata, i: Pomacea maculata, j: Pomacea sp.

Figure 3
Outer surface of the shells of Burnupidae and Ancylinae in Scanning Electron Microscopy. a: Burnupia ingae Lanzer, 1991 (CMIOC 14670), b: Gundlachia ticaga (Marcus & Marcus, 1962) (CMIOC 14638). Scale bar: 500 μm.

The parasitological examination of the specimens revealed the presence of cercariae of the Pleurolophocerca cercariae, Virgulate cercariae, and Echinostoma cercariae types (see Figure 4) in M. tuberculata, P. maculata, Pomacea sp., and P. acuta specimens respectively collected from three parks – Recanto do Trovador, Quinta da Boa Vista, and the Rio de Janeiro Botanical Garden (Table III).

Figure 4
Cercariae found in the snail specimens collected from the parks in the city of Rio de Janeiro, showing a: Echinostoma cercariae, b: Pleurolophocerca cercariae, and c: Virgulate cercariae types. Scale bar: 50 µm.

DISCUSSION

In an inventory of the gastropod fauna of the Metropolitan mesoregion of the Brazilian state of Rio de Janeiro, Thiengo et al. (2001)THIENGO SC, FERNANDEZ MA, BOAVENTURA MF, GRAULT CE, SILVA HF, MATTOS AC & SANTOS SB. 2001. Freshwater snails and schistosomiasis mansoni in the state of Rio de Janeiro, Brazil: I-Metropolitan Mesoregion. Mem Inst Oswaldo Cruz 96: 177-184. recorded for the city of Rio de Janeiro 15 species: P. canaliculata, Pomacea lineata (Spix in Wagner, 1827), Pomacea sordida (Swainson, 1823), Heleobia davisi Silva & Thomé, 1985, M. tuberculata, Antillorbis nordestensis (Lucena, 1954), B. glabrata, B. straminea, B. tenagophila, D. anatinum, Drepanotrema cimex (Moricand, 1838), Drepanotrema lucidum (Pfeiffer, 1839), P. acuta, S. marmorata, and P. columella. The collections carried out by these authors took place in the Barra da Tijuca neighborhood, where the Bosque da Barra Municipal Natural Park is located (the study area of the present work) and in 2 adjacent neighborhoods (Jacarepaguá and Recreio dos Bandeirantes). In this previous study, specimens of B. tenagophila from the city of Rio de Janeiro were found to be infected with trematodes: Xiphidiocercariae and Echinostoma cercariae. The present study confirmed the occurrence of M. tuberculata, B. tenagophila, D. anatinum, S. marmorata, and P. columella, as well as infections by Xiphidiocercariae and Echinostoma cercariae. However, the Virgulate cercariae, a type that belongs to the Xiphidiocercaria group, was found in P. maculata and Pomacea sp., whereas Echinostoma cercariae was observed in Physella acuta and P. maculata. Thiengo et al. (2001)THIENGO SC, FERNANDEZ MA, BOAVENTURA MF, GRAULT CE, SILVA HF, MATTOS AC & SANTOS SB. 2001. Freshwater snails and schistosomiasis mansoni in the state of Rio de Janeiro, Brazil: I-Metropolitan Mesoregion. Mem Inst Oswaldo Cruz 96: 177-184. reported the occurrence of 359 cases of schistosomiasis in the city of Rio de Janeiro over a period of five years (1996–2000), although they did not record any Biomphalaria specimens infected with S. mansoni, which is consistent with the findings of the present study.

Gonçalves et al. (2021)GONÇALVES ICB, MIYAHIRA IC, LACERDA LEM, XIMENES MER & SANTOS SB. 2021. Moluscos de água doce da Floresta Nacional Mário Xavier, Seropédica, Rio de Janeiro. Pesqui Ensino Ciênc Exatas Nat 5: 1-10. recorded six gastropod species in the Mario Xavier National Forest in the municipality of Seropédica, Rio de Janeiro state – S. marmorata, G. ticaga, Drepanotrema lucidum, B. straminea, Pomacea sp., and O. matheroni. The mollusk collection of the Oswaldo Cruz Institute in Rio de Janeiro holds specimens of B. straminea from Quinta da Boa Vista (CMIOC 14716), although this species was not recorded in this park in the present study. Similarly, Oliveira et al. (2020)OLIVEIRA MB, OLIVEIRA ASS, AZEVEDO APP, SILVA JR, MEDEIROS TRN, SILVA GVSF, CRUZ MS & BOGÉA T. 2020. Occurrence of Biomphalaria glabrata and Physa acuta (Gastropoda: Mollusca) snails in Quinta da Boa Vista Municipal Park, Rio de Janeiro, RJ, Brazil. J Trop Pathol 49: 274-282. found B. glabrata and Physa acuta (synonym of Physella acuta) in this park’s principal pond, although in the present study specimens of P. acuta were collected from the areas surveyed but B. glabrata was not found. The previous study also recorded rediae and cercariae similar to those of Typhlocoelum cucumerinum (Rudolphi, 1809) (Typhlocoelidae, Digenea), which parasitizes the waterfowl of the order Anseriformes, and reinforced the importance of monitoring the waterbodies located within public parks to better evaluate the risk of transmission of helminths by mollusk vectors.

In a survey of the freshwater gastropods of five municipal parks in the western extreme of the municipality of Rio de Janeiro Chico Mendes Municipal Natural Park, Marapendi Municipal Natural Park, Prainha Municipal Natural Park, Grumari Municipal Natural Park and Bosque da Barra Municipal Natural Park, Paes & Fernandez (2006)PAES FCBF & FERNANDEZ MA. 2006. Moluscos límnicos encontrados em cinco parques ecológicos da região oeste do município do Rio de Janeiro. Infor SBMA 37: 2-5. recorded 10 different species, including B. tenagophila, which was found in all the parks, except Prainha, where only M. tuberculata was recorded, as in the present study.

Santos et al. (2003)SANTOS SB, MAGALHÃES-FRAGA SAP & MOULTON TP. 2003. The first of freshwater molluscs in the “Pedra Branca State Park”, Rio de Janeiro, Brazil. BioCiencias 11: 185-186. conducted the first survey of the freshwater mollusks of Pedra Branca State Park (Parque Estadual da Pedra Branca), in western Rio de Janeiro. The authors recorded eight gastropods in the Engenho Novo, Rio Grande, and Rio Pequeno streams – Heleobia sp. (Hydrobiidae), M. tuberculata (Thiaridae); P. sordida (Ampullariidae), Physa cubensis (synonym of Physa acuta) (Physidae); A. nordestensis (Planorbidae), B. tenagophila (Planorbidae), G. ticaga (Ancylinae), Ferrissia sp. (Ancylinae), and Pisidium sp. (Sphaeriidae).

More recently, Rangel et al. (2021)RANGEL F, GOMES SR, CANUTO T, RODRIGUES PS & THIENGO SC. 2021. Diversity of non-marine gastropods of the Fiocruz Atlantic Forest Biological Station and adjacents urban areas, Rio de Janeiro, RJ, Brasil. An Acad Bras Cienc 93: 1-15. surveyed the freshwater gastropods from Fiocruz Atlantic Forest Biological Station, which is part of the PEPB, where they reported the occurrence of B. tenagophila, M. tuberculata, P. acuta, S. marmorata, and P. sordida. This latter species is known to occur in the western extreme of Rio de Janeiro (Lopes 1955LOPES HS. 1955. Sobre duas espécies do gênero “Pomacea” Perry, com um estudo da genitália em ambos os sexos (Mesogastropoda, Architaeniglossa, Mollusca). Rev Bras Biol 15: 203-210., Thiengo 1989THIENGO SC. 1989. On Pomacea sordida (Swainson, 1823) (Prosobranchia, Ampullariidae). Mem Inst Oswaldo Cruz 84: 351-355., Simone 2006SIMONE LR. 2006. Land and freshwater molluscs of Brazil. Editora EGB, Fapesp. São Paulo, 390 p., Barbosa et al. 2022BARBOSA, KP, HAYES, KA, VILELA, RDV, BARBOSA, HS, MARCHI CR & THIENGO SC. 2022. Phylogenetic Systematics and Distribution of Pomacea sordida (Swainson, 1823) and Pomacea intermedia (Férussac in Quoy & Gaimard, 1825) (Caenogastropoda: Ampullariidae). Malacologia 65: 1-23.), and it has not been found in either the Prainha or the Bosque da Barra Municipal Natural parks, in western Rio de Janeiro, nor in the other localities investigated in the present study. This supports the threatened status of P. sordida, which is listed in the Brazilian Red List of Endangered Fauna (ICMBio 2018ICMBIO. 2018. Livro Vermelho da Fauna Brasileira Ameaçada de Extinção. Volume VII - Invertebrados. Brasília, DF: Instituto Chico Mendes de Conservação da Biodiversidade / Ministério do Meio Ambiente, 730 p.).

In the specific case of the ampulariids, Simone (2006)SIMONE LR. 2006. Land and freshwater molluscs of Brazil. Editora EGB, Fapesp. São Paulo, 390 p. referred to the occurrence of P. canaliculata in the state of Rio de Janeiro, while Mesquita et al. (1990a, b, c) published data on the micro-anatomy of the male and female reproductive systems of specimens obtained from the Botanical Garden of Rio de Janeiro. The diagnostic characteristics of the male reproductive system of the P. maculata specimens collected in the present study are similar to those of the specimens analyzed by these authors. In a detailed study of the taxonomy of the canaliculata group, Hayes et al. (2012)HAYES KA, COWIE RH, THIENGO SC & STRONG EE. 2012. Comparing apples with apples: clarifying the identities of two highly invasive Neotropical Ampullariidae (Caenogastropoda). Zool J Linn Soc 166: 723-753. concluded that P. canaliculata occurs only in southern most Brazil, and in neighboring countries such as Argentina and Uruguay. The sum of this evidence indicates that the specimens described by Mesquita et al. (1990a, b,c) were, in fact, P. maculata.

In a recent survey performed at the Botanical Garden of Rio de Janeiro, Ximenes et al. (2022)XIMENES MER, GONÇALVES ICB, MIYAHIRA IC, LACERDA LEM & SANTOS SB. 2022. Para além das plantas: diversidade de moluscos límnicos no Instituto de Pesquisas Jardim Botânico do Rio de Janeiro. Pesqui Ensino Ciênc Exatas Nat 6: 1-13. found six native gastropod species – G. ticaga, P. columella, B. tenagophila, S. marmorata, Pisidum punctiferum (Guppy, 1867), and Pomacea insularum (synonym of P. maculata) – as well as four non-native species – Assiminea sp., M. tuberculata, P. acuta, and Ferrisia californica (Rowell, 1863). The authors also highlighted the diversity of species found at this site and reinforced the importance of research on the diversity of mollusks and the value of public parks and other green urban areas for future research on both the conservation of native species, and the control of exotic ones. In particular, they cited the example of S. marmorata, which had recently been included in the Brazilian Red List (ICMBio 2018ICMBIO. 2018. Livro Vermelho da Fauna Brasileira Ameaçada de Extinção. Volume VII - Invertebrados. Brasília, DF: Instituto Chico Mendes de Conservação da Biodiversidade / Ministério do Meio Ambiente, 730 p.), due to population decline, which is likely the result of competition from invasive species, such as P. acuta. Cuezzo (2020)CUEZZO M. 2020. Lymneoidea, Physidae. In: Keys to Neotropical and Antarctic Fauna. (DAMBORENEA C, ROGERS DC & THORP HJ Eds), p. 291-294. reported that the ecological characteristics of this species, such as its high reproductive rates, passive dispersal capacity, and tolerance of polluted water, all favor the capacity of P. acuta to invade new environments.

Simberloff et al. (2013)SIMBERLOFF D, MARTIN JL, GENOVESI P, MARIS V, WARDLE DA, ARONSON J & VILÀ M. 2013. Impacts of biological invasions: what’s what and the way forward. Trends Ecol Evol 28: 58-66. and Dalapicolla et al. (2021)DALAPICOLLA J, ABREU EF, PRADO JR, ALMEIDA CE, OLIVEIRA RPR, GÓES BPG & BOVENDORP RS. 2021. Areas of endemism of small mammals are underprotected in the Atlantic Forest. J Mammal 102: 1390-1404. emphasize the importance of parks and conservation units for the preservation of biodiversity, as well as the need to catalog the species that occur in these areas, not only to better understand their local ecological standing, but too understand how exotic species may be impacting the native taxa.

Regarding the trematodes, Pinto et al. (2015)PINTO HA, CANTANHEDE SPD, THIENGO SC, MELO AL & FERNANDEZ MA. 2015. The apple snail Pomacea maculata (Caenogastropoda: Ampullariidae) as the intermediate host of Stomylotrema gratiosus (Trematoda: Stomylotrematidae) in Brazil: the first report of a mollusc host of a stomylotrematid trematode. J Parasitol . 101: 134-139. reported Xiphidiocercariae in specimens of P. maculata from the lowlands of the Brazilian state of Maranhão, and the first record of Stomylotrema gratiosus Travassos, 1922, an intestinal parasite of birds, in this snail species. Boaventura et al. (2007)BOAVENTURA MF, THIENGO SC & FERNANDEZ MA. 2007. Gastrópodes límnicos hospedeiros intermediários de trematódeos digenéticos no Brasil. In: Tópicos em Malacologia: Ecos do XVIII Encontro Brasileiro de Malacologia (SANTOS SB, PIMENTA AD, THIENGO SC, FERNANDEZ MA & ABSALÃO RS Eds). Sociedade Brasileira de Malacologia, Rio de Janeiro, p. 327-337. also reported the occurrence of Xiphidiocercariae in ampulariids and planorbids, as well as Echinostoma cercariae in ampulariids, hidrobiids, planorbids, and physids, and Pleurolophocerca cercariae in tiariids and hydrobiids.

Echinostoma cercariae, Pleurolophocerca cercariae, and Virgulate cercariae types are related to different types of parasitosis. Pleurolophocerca cercariae, for example, are associated with Clonorchis sinensis (Looss, 1907), Opisthorchis spp., and Centrocestus formosanus (Nishigori, 1924). These cercariae parasitize freshwater gastropods and their metacercariae are formed in fish. They are parasites of the biliary system of humans in Asia, with cases imported into Brazil. Echinostoma cercariae are related to Echinostomiasis. They are small cercariae with a ventral sucker and collar spines surrounding an oral sucker found in freshwater mollusks, fish or amphibians and can infect humans, mainly in Southeast Asia. Xiphidiocercariae evolve into metacercariae, which typically form in the larvae of aquatic insect or amphibians. Virgulate cercariae are known to occur in a number of different species of bat, although infections in humans have not yet been reported (Scholz & Salgado-Maldonado 2000SCHOLZ T & SALGADO-MALDONADO G. 2000. The introduction and dispersal of Centrocestus formosanus (Nishigori, 1924) (Digenea: Heterophyidae) in Mexico: a review. Am Midl Nat 143: 185-200., Pinto & Melo 2013PINTO HA & MELO AL. 2013. Larvas de trematódeos em moluscos do Brasil: panorama e perspectivas após um século de estudos. J Trop Pathol 42: 369-386.).

The risk of transmission of water-borne parasites in these public spaces must be considered, therefore, it is important that the parks studied here signal their visitors to avoid contact with the water collections present in the parks. While none of the snail specimens examined in the present study were parasitized by either S. mansoni or F. hepatica cercariae, four snails (Pomacea sp., P. maculata, P. acuta and M. tuberculata) were infected by trematodes that affect the health of humans and animals (cercariae of the Virgulate cercariae, Echinostoma cercariae, and Pleurolophocerca cercariae types) in three parks that are frequented by large numbers of visitors – Quinta da Boa Vista, Recanto do Trovador, and the Botanical Garden of Rio de Janeiro.

CONCLUSIONS

A diverse freshwater gastropod fauna, with a total of 12 species, was observed in the parks surveyed in the present study, including nine native species and three non-native ones. We highlight that populations of B. tenagophila and P. columella were recorded in the Rio de Janeiro Botanical Garden, Recanto do Trovador, Quinta da Boa Vista, Henrique Lage, and Bosque da Barra. These parks are visited by large numbers of people and animals, which facilitates their contact with the infected gastropods of the local waterbodies, greatly increasing the overall risk of human and animal infection.

Overall, the study reinforces the importance of public parks and green urban spaces for the maintenance of populations of freshwater mollusks. The presence of non-native species is also important, given that they may compete with the native species and represent a potential threat in parks adjacent to conservation units, which play an important role in the preservation of the local biodiversity.

ACKNOWLEDGMENTS

We are grateful to the graphic designer Eduardo Cinilha for the photographs and the edition of the figures. We would also like to thank Nilson Azevedo Pires of the Rio de Janeiro municipal Public Health secretariat for his valuable collaboration during fieldwork. We are also grateful to the Rudolf Barth Electron Microscopy Platform for processing the specimens and obtaining the scanning electron microscope images. We thank the Laboratory for the Biology and Parasitology of Wild Mammal Reservoirs (LABPMR) for the use of a Zeiss Observer Zl optical microscope attached to a Zeiss Axio HRC digital camera, which we used to photograph the cercariae. We are especially grateful to the Fundação Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) - for financial support.

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