Freshwater Snail Melanoides Tuberculata Research Articles

Prediction of the potential Brazilian distribution for invasive mollusc Melanoides tuberculata (Müller, 1774), including a new record from Northern Coastal Region

The freshwater snail Melanoides tuberculata (Müller, 1774) native from Africa and Asia, recently spreads out over the world. Records of invasive species are extremely important, because it helps in future invasions mitigation. Here, we report for the first time the occurrence of M. tuberculata in a protected area of Northern Brazilian Coast and use predictive distribution modeling to know the potential Brazilian distribution for this species. The gastropod M. tuberculata were collected in the municipalities of Tutóia and Santo Amaro - Maranhão State. According to the results of the predictive map distribution for Brazil, the regions with the highest susceptibility are the northeast, southeast and midwest. Preciptation of month and Isothermalithy were de variables that most contribute to the species’ potential distribution. This species presented high to medium suitability of occurrence in 32 national protected areas. Futher studies are recommended to monitor the growth and dispersion, in order to determine its real impact.

The physical soldier caste of an invasive, human-infecting flatworm is morphologically extreme and obligately sterile

We show that the globally invasive, human-infectious flatworm, Haplorchis pumilio, possesses the most physically specialized soldier caste yet documented in trematodes. Soldiers occur in colonies infecting the first intermediate host, the freshwater snail Melanoides tuberculata, and are readily distinguishable from immature and mature reproductive worms. Soldiers possess a pharynx five times absolutely larger than those of immature and mature reproductives, lack a germinal mass, and have a different developmental trajectory than reproductives, indicating that H. pumilio soldiers constitute a reproductively sterile physical caste. Neither immature nor mature reproductives showed aggression in in vitro trials, but soldiers readily attacked heterospecific trematodes that coinfect their host. Ecologically, we calculate that H. pumilio caused ~94% of the competitive deaths in the guild of trematodes infecting its host snail in its invasive range in southern California. Despite being a dominant competitor, H. pumilio soldiers did not attack conspecifics from other colonies. All prior reports documenting division of labor and a trematode soldier caste have involved soldiers that may be able to metamorphose to the reproductive stage and have been from nonhuman-infectious marine species; this study provides clear evidence for an obligately sterile trematode soldier, while extending the phenomenon of a trematode soldier caste to freshwater and to an invasive species of global public health concern.

Autochthonous transmission of the Indomalayan parasite, Transversotrema patialense, in the Caribbean: Molecular, morphological, and experimental evidence

The Asian freshwater snail Melanoides tuberculata has been established since the 1960s in the Americas, where it transmits cercariae of a small number of digenetic trematode species from its native range. In 2021–2022, 24 M. tuberculata were discovered shedding transversotrematid cercariae in Puerto Rico, where parasites of this snail have not been previously studied. Adult transversotrematids (in some cases, gravid) were found on field-caught fish and on fish exposed to shedding snails, including on fish species native to Puerto Rico. Adults and cercariae were identified as Transversotrema patialense (Soparkar, 1924), a species native to the Indomalayan region. Morphological identification was supported with 28S rDNA sequences closely matching that from unidentified transversotrematid cercariae in Thailand. The absence of T. patialense in snails collected prior to 2021, increasing prevalence of infection in snails collected thereafter, and lack of variation in parasite DNA sequences (28S, internal transcribed spacer 2, cytochrome c oxidase I) from three isolates are consistent with a recently introduced and possibly expanding parasite population. Transversotrema patialense has been recorded outside its native range before, but most studies (including a prior record in the Americas) reported the parasite from captive hosts from commercial sources such as pet shops. The present results thus provide the first demonstration of natural transmission of T. patialense in the Americas. Phylogenetic analysis of 28S but not of ITS2 show the transversotrematid genus Transversotrema Witenberg, 1944 is paraphyletic, with Crusziella Cribb, Bray and Barker 1992 nested within it.

Review of the freshwater snail Melanoides tuberculata (O. F. Müller, 1774) (Gastropoda, Thiaridae)

Review of the freshwater snail Melanoides tuberculata (O. F. Müller, 1774) (Gastropoda, Thiaridae)

Review of the freshwater snail Melanoides tuberculata (O. F. Müller, 1774) (Gastropoda, Thiaridae)

Melanoides tuberculata (O. F. Müller, 1774), a freshwater snail native to eastern Mediterranean, eastern Africa, southeast Asia, southern Asia, India, and Malaysia, it is an effective invader and is now nearly globally distributed. This snail has been studied with interest because of its rapidly distributed, and because of being can serve as compatible intermediate host for many of trematodes in the world. We have summarized information from many articles in order to highlight the most important aspects of this invader snail life.

Review of the freshwater snail Melanoides tuberculata (O. F. Müller, 1774) (Gastropoda, Thiaridae)

Review of the freshwater snail Melanoides tuberculata (O. F. Müller, 1774) (Gastropoda, Thiaridae)

In vitro evaluation of the antihelminthic activity of Praziquantel, Flubendazole and some plant extracts against the adult eye fluke (Philophthalamus palpebrarum) transmitted by the freshwater snail Melanoides tuberculata.

In vitro evaluation of the antihelminthic activity of Praziquantel, Flubendazole and some plant extracts against the adult eye fluke (Philophthalamus palpebrarum) transmitted by the freshwater snail Melanoides tuberculata.

Pola Distribusi Keong Air Tawar Melanoides Tuberculata (Muller, 1774) Di Danau Lindu, Sigi, Sulawesi Tengah

This research was carried out in the littoral zone of Lake Lindu, Sigi Regency, Central Sulawesi with the aim to determine the distribution pattern of freshwater snail Melanoides tuberculata (Muller, 1774) whose area was divided into 5 sample sampling stations. Collecting samples using the transect line method drawn from the edge of the lake to the middle part of the 17 m long lake. Lines at each station are placed with a 19x15 cm reducing plot whose size is in accordance with the collection tool. The equipment for which the plot is placed is spaced 1.5 m, with the transect line collected three and having a distance of 2 m. Melanoides tuberculata (Muller, 1774) which is located in Lake Lindu, Sigi, Central Sulawesi, is distributed randomly and in groups.

Biosorption of Cadmium from Aqueous Solution by Shell Dust of the Fresh Water Snail Melanoides tuberculata

ABSTRACT The metal bioadsorption potential of shell dust of the freshwater snail Melanoides tuberculata (MTSD) was evaluated under laboratory conditions using cadmium as a model metal. As bioadsorbent, MTSD exhibited a biosorption capacity of 27.03 mg g−1 at pH 6, indicating potential to remove cadmium from aqueous solution. The adsorption data fit more to the Langmuir (R2 = 0.998) equation than the Freundlich (R2 = 0.761) equation at equilibrium condition. The kinetics of biosorption followed the pseudo-second-order model (R2 = 0.999) better than the Lagergren model (R2 = 0.676), as was evident from the regression analysis. The presence of calcium ions appears to have facilitated ion exchange with cadmium along with the binding of different functional groups, as revealed through Fourier transform infrared (FT-IR) analysis. It is apparent from these observations that MTSD can act as low-cost and efficient bioadsorbent for cadmium bioremediation from aquatic habitats. Use of the shells of M. tuberculata for metal biosorption will promote the utility of a waste material of biological origin for bioremediation of heavy metals such as cadmium.

Focal Philophthalmus gralli infection possibly persists in Melanoides tuberculata over two years following the definitive hosts' removal

Philophthalmosis is a zoonotic disease associated largely with the spread of the invasive freshwater snail Melanoides tuberculata, serving as an intermediate host. Here we examined Philophthalmus gralli focal fenced infection site reported recently as being associated with Tinamus major and M. tuberculata in Alajuela, Costa Rica. Removal of the definitive hosts allowed us to address also the long-term survival strategy of the parasite. Initially, the snail intermediate hosts displayed high prevalence of P. gralli infection across all its age cohorts. Two years following the removal of definitive hosts, the infection rate decreased by one order of magnitude, while the snails aging less than one year displayed zero infection prevalence. Additionally, phylogenetic analysis of mitochondrial (ND1) and nuclear (ITS1, ITS2) DNA loci revealed negligible intrasite DNA variability of the specimens obtained at the study site in Costa Rica (but not of those obtained earlier in Peru or New Zealand), supporting strongly the hypothesis on focal origin of the infection. The observed dynamics of infection suggests the explanation for the high variability in P. gralli prevalence in intermediate hosts experienced worldwide. We noticed that the reports claiming >20% prevalence of M. tuberculata infection by P. gralli originated exclusively from foci with known eye infection of the definitive hosts, while the P. gralli infection penetrance <2% is typically associated with sites, where the infection of definitive hosts was not observed, suggesting that the infected definitive hosts were present onsite only in the past, or were present only at a site upstream or downstream of the respective sampling site. Thus, this is the first evidence on the possible persistence of eye-trematode infection site for over two years following the last confirmed outbreak in its adult hosts.

Trematodes obtained from the thiarid freshwater snail Melanoides tuberculata (Müller, 1774) as vector of human infections in Thailand

Larval stages of trematodes obtained from the freshwater snail Melanoides tuberculata (Cerithioidea, Thiaridae) as intermediate host were studied by using cercarial emergence and crushing snails. Between December 2004 and September 2009 snails from one hundred twenty locations in Thailand were collected every two months for one year at each sampling site. Counts per unit of time method was used in this study, and the samples of snails were collected every 10 minutes per sampling by five collectors. The cercarial stages were examined using shedding and crushing methods. The infection rate was found to be 18.79%, i.e. 6,019 animals infected in a total of 32,026. Nine different types in eighteen species of cercariae were categorized, viz. are (1) Parapleurophocercous cercariae: Haplorchis pumilio, Haplorchis taichui, and Stictodora tridactyla; (2) Pleurophocercous cercariae: Centrocestus formosanus; (3) Xiphidiocercariae: Acanthatrium hitaense, Loxogenoides bicolor, and Haematoloechus similis; (4) Megalurous cercariae: Cloacitrema philippinum and Philophthalmus sp.; (5) Furcocercous cercariae: Cardicola alseae, Alaria mustelae, Transversotrema laruei, Apatemon gracilis, and Mesostephanus appendiculatus; (6) Echinostome cercariae: Echinochasmus pelecani; (7) Amphistome cercariae: Gastrothylax crumenifer; (8) Renicolid cercariae: Cercaria caribbea LXVIII; and, (9) Cotylomicrocercous cercariae: Podocotyle (Podocotyle) lepomis.

Clonal diversity driven by parasitism in a freshwater snail

One explanation for the widespread abundance of sexual reproduction is the advantage that genetically diverse sexual lineages have under strong pressure from virulent coevolving parasites. Such parasites are believed to track common asexual host genotypes, resulting in negative frequency-dependent selection that counterbalances the population growth-rate advantage of asexuals in comparison with sexuals. In the face of genetically diverse asexual lineages, this advantage of sexual reproduction might be eroded, and instead sexual populations would be replaced by diverse assemblages of clonal lineages. We investigated whether parasite-mediated selection promotes clonal diversity in 22 natural populations of the freshwater snail Melanoides tuberculata. We found that infection prevalence explains the observed variation in the clonal diversity of M.tuberculata populations, whereas no such relationship was found between infection prevalence and male frequency. Clonal diversity and male frequency were independent of snail population density. Incorporating ecological factors such as presence/absence of fish, habitat geography and habitat type did not improve the predictive power of regression models. Approximately 11% of the clonal snail genotypes were shared among 2-4 populations, creating a web of 17 interconnected populations. Taken together, our study suggests that parasite-mediated selection coupled with host dispersal ecology promotes clonal diversity. This, in return, may erode the advantage of sexual reproduction in M.tuberculata populations.

SPERMATOGENESIS AND SPERM STRUCTURE OF THE NORMALLY PARTHENOGENETIC FRESHWATER SNAIL MELANOIDES TUBERCOLATA

ABSTRACT The freshwater snail Melanoides tuberculata ranges throughout Asia and Africa, and throughout much of its range it reproduces parthenogenetically. In Israel, however, males have been found. These males produce two types of spermatozoa, euspermatozoa and paraspermatozoa. The euspermatozoa are filiform (about 230 μ m in length) with a head comprising a nucleus and conical acrosome, a mid-piece (98 μ m long) of four equal-sized mitochondria, and a tail. Unlike in other cerithiaceans, the nucleus is unusually elongate (31 μ m long × 1 μ m diameter) and the axoneme is housed within an intranuclear canal. The paraspermatozoa consists of a head of electron-dense blocks (up to 25 μ m long) which surround up to 15 axonemes, a mid-piece of elongate mitochondria and a tail tuft, as in other cerithiaceans. Structural changes during spermatogenesis resemble those described for other gastropods with dimorphic spermatozoa.

Temporal patterns of geographic parthenogenesis in a freshwater snail

Geographic parthenogenesis describes the observation that parthenogenetic organisms tend to occupy environments different from those of their close, sexually reproducing relatives. These environments are often described as extreme or disturbed habitats. We examined whether patterns of geographical parthenogenesis persist over time, by conducting a 3-year life-history survey and comparing two very proximate habitats of the freshwater snail Melanoides tuberculata: Nahal Arugot, a desert stream naturally disturbed by flash floods, and Or Ilan, a stable freshwater pond. Both sites occur in a xeric environment and are subject to otherwise similar biotic (e.g. parasites, predators) and climatic conditions. In the stable habitat, male frequencies and snail densities were significantly higher than in the disturbed one, whereas infection levels, mean embryo counts, and water temperatures were similar at both sites. Additionally, male frequencies declined after density decreased, thereby providing evidence for geographical parthenogenesis via reproductive assurance. Infection prevalence was very low regardless of reproduction mode. Although further genetic work is required, the apparent metapopulation structure of M. tuberculata in the Judean desert may be suitable for evaluating other possible explanations of geographical parthenogenesis. © 2007 The Linnean Society of London, Biological Journal of the Linnean Society, 2007, 91, 711–718.

Erratum

Journal of Evolutionary BiologyVolume 18, Issue 3 p. 742-742 Free Access Erratum First published: 22 February 2005 https://doi.org/10.1111/j.1420-9101.2004.00863.xAboutSectionsPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onFacebookTwitterLinked InRedditWechat An error was published in Fig. 5 in Ben-Ami and Heller (2004); the graphs for 5b and 5d were transposed. Their axes and data tables remain correct. Please find below the corrected figure. Figure 5Open in figure viewerPowerPoint Male frequency and infection level within habitat type and geography in the first (1999) and second (2001) surveys. Habitat type: (a) 1999; (b) 2001, habitat geography; (c) 1999; (d) 2001. We apologize for this error. Reference Ben-Ami, F., Heller, J. 2004. Spatial and temporal patterns of pathenogenesis and parasitism in the freshwater snail Melanoides tuberculata. J. Evol. Biol. doi: 10.1111/j.1420-9101.2004.00791.x. Web of Science®Google Scholar Volume18, Issue3May 2005Pages 742-742 FiguresReferencesRelatedInformation

Variation of shell shape in the clonal snail Melanoides tuberculata and its consequences for the interpretation of fossil series.

Interpreting paleontological data is difficult because the genetic nature of observed morphological variation is generally unknown. Indeed, it is hardly possible to distinguish among several sources of morphological variation including phenotypic plasticity, sexual dimorphism, within-species genetic variation or differences among species. This can be addressed using fossil organisms with recent representatives. The freshwater snail Melanoides tuberculata ranks in this category. A fossil series of this and other species have been studied in the Turkana Basin (Kenya) and is presented as one of the best examples illustrating the punctuated pattern of evolution by the tenants of this theory. Melanoides tuberculata today occupies most of the tropics. We studied variation of shell shape in natural populations of this parthenogenetic snail using Raup's model of shell coiling. We considered different sources of variation on estimates of three relevant parameters of Raup's model: (1) variation in shell shape was detected among clones, and had both genetic and environmental bases; (2) sexual dimorphism, in those clones in which males occur, appeared as an additional source of shell variation; and (3) ecophenotypic variation was detected by comparing samples from different sites and years within two clones. We then tested the performance of discriminant function analyses, a classical tool in paleontological studies, using several datasets. Although the three sources of variation cited above contributed significantly to the observed morphological variance, they could not be detected without a priori knowledge of the biological entities studied. However, it was possible to distinguish between M. tuberculata and a related thiarid species using these analyses. Overall, this suggests that the tools classically used in paleontological studies are poorly efficient when distinguishing between important sources of within-species variation. Our study also gives some empirical bases to the doubts cast on the interpretation of the molluscan series of the Turkana Basin.

Microsatellite and morphological analysis of population structure in the parthenogenetic freshwater snail Melanoides tuberculata: insights into the creation of clonal variability.

The distribution of variability was studied at various geographical scales in the tropical freshwater snail Melanoides tuberculata, in order to analyse the role of factors shaping this distribution, including the mating system and population dynamics. This parthenogenetic polyploid species reproduces mainly asexually, with males occurring at low frequency. About 800 individuals (38 sites) were sampled from Africa and the Middle East, where the species originated, and from recently colonized habitats in South and Central America, and especially the island of Martinique. We first described variation of general aspects and ornamentation of the shells. This analysis confirms the existence of discrete morphs. Second, individuals were studied at three microsatellite loci, showing that each morph is a genetic clone with some minor variation compatible with models of microsatellite evolution. The genetic analysis also showed much more variation within than between clones. However, two populations from Africa exhibited a large amount of variability, and a mixture of sexual and asexual reproduction might explain these genetic patterns. The worldwide distribution of variability is, therefore, compatible with the African origin of the species, and the introduction of a few clones in other parts of the world. These results also suggest that the distribution of variability in Martinique is influenced by flooding events, and that two morphs from Martinique can be interpreted as hybrids between two pre-existing morphs, based on morphological, genetic and geographical arguments.

Palaeoclimatic implications of isotopic data from modern and early Holocene shells of the freshwater snail Melanoides tuberculata, from lakes in the Ethiopian Rift Valley

Carbon and oxygen isotope ratios in the shells of the freshwater snail Melanoides tuberculata yield information on the isotopic composition of the water in which the shell was formed, which in turn relates to climatic conditions prevailing during the snails' life span. Melanoides is particularly important because it is widespread in Quaternary deposits throughout Africa and Asia and is ubiquitous in both fresh and highly evaporated lakes. Whole-shell and incremental growth data were collected from modern and fossil shells from two lakes in the Ethiopian Rift Valley. δ18O values in the modern shells from Lake Awassa are in equilibrium with modern waters, while δ18O values in subfossil shells from the margins of Lake Tilo indicate high rainfall during the early Holocene. Sequential analysis along the growth spiral of the shell provides information on seasonal or shorter-term variability of lake water during the lifetime of the organism.

Statistical discrimination of sex inMelanoides tuberculata(Gastropoda: Thiaridae)

Systematists may rely on morphometric differences among samples of specimens for the recognition of living and fossil species, even though morphometric differentiation may be caused by non-genetic factors, such as ecophenotypy, differential growth rates and taphonomic mixing. When genetic differences between sexes or among closely related species are expressed as differences in the morphology of the individual or population, potentially valuable information becomes available to the systematist for a variety of genetic and ecological investigations. We have studied the morphology of the freshwater snail Melanoides tuberculata (Muller, 1774) in Israel, where males occur in what would otherwise be normally parthenogenetic (all female) populations. In modern M. tuberculata , sex may be determined by observation of gonadal tissue; in fossil specimens, any classification according to sex must be accomplished using only preservable features of the mineralized shell. Previous research confirmed that in large samples, mean shell shape of male and female snails differed significantly, but the degree of difference was too small to identify the sex of any individual specimen. We apply a three stage process that results with a high degree of accuracy in the discrimination of individual M. tuberculata specimens by sex on the basis of continuous morphological characters: (1) measurement of many aspects of shell morphology of individuals of known sex, and stepwise discrimination to discover which of the variables, if any, contribute to the morphometric differentiation of males from females (one time only, for the species); (2) use of these selected variables in a clustering procedure to make a preliminary assignment of each specimen to sex; (3) use of cluster assignments in a discrimination procedure to optimally predict sex. For species that exhibit morphometric differences between two groups, and for which continuous morphometric variation precludes the a priori recognition of discrete clusters, this sequential procedure may be of broad applicability. These objective methods may be applied to the discrimination within any set of specimens for which the hypothesis of two, and only two, constituent groups may be entertained.

Statistical discrimination of sex in Melanoides tuberculata (Gastropoda: Thiaridae)

Abstract Systematists may rely on morphometric differences among samples of specimens for the recognition of living and fossil species, even though morphometric differentiation may be caused by non-genetic factors, such as ecophenotypy, differential growth rates and taphonomic mixing. When genetic differences between sexes or among closely related species are expressed as differences in the morphology of the individual or population, potentially valuable information becomes available to the systematist for a variety of genetic and ecological investigations. We have studied the morphology of the freshwater snailMelanoides tuberculata(Muller, 1774) in Israel, where males occur in what would otherwise be normally parthenogenetic (all female) populations. In modernM. tuberculata, sex may be determined by observation of gonadal tissue; in fossil specimens, any classification according to sex must be accomplished using only preservable features of the mineralized shell. Previous research confirmed that in large samples, mean shell shape of male and female snails differed significantly, but the degree of difference was too small to identify the sex of any individual specimen. We apply a three stage process that results with a high degree of accuracy in the discrimination of individualM. tuberculataspecimens by sex on the basis of continuous morphological characters: (1) measurement of many aspects of shell morphology of individuals of known sex, and stepwise discrimination to discover which of the variables, if any, contribute to the morphometric differentiation of males from females (one time only, for the species); (2) use of these selected variables in a clustering procedure to make a preliminary assignment of each specimen to sex; (3) use of cluster assignments in a discrimination procedure to optimally predict sex. For species that exhibit morphometric differences between two groups, and for which continuous morphometric variation precludes thea priorirecognition of discrete clusters, this sequential procedure may be of broad applicability. These objective methods may be applied to the discrimination within any set of specimens for which the hypothesis of two, and only two, constituent groups may be entertained.