61 results on '"Kmentová, Nikol"'
Search Results
52. Monogenean parasites of sardines in Lake Tanganyika: diversity, origin and intraspecific variability
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Kmentová, Nikol, primary, Van Steenberge, Maarten, additional, Raeymaekers, Joost A.M., additional, Koblmüller, Stephan, additional, Hablützel, Pascal I., additional, Bukinga, Fidel Muterezi, additional, N’sibula, Théophile Mulimbwa, additional, Mulungula, Pascal Masilya, additional, Nzigidahera, Benoît, additional, Ntakimazi, Gaspard, additional, Gelnar, Milan, additional, and Vanhove, Maarten P.M., additional
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- 2018
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53. Reduced host-specificity in a parasite infecting non-littoral Lake Tanganyika cichlids evidenced by intraspecific morphological and genetic diversity
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Kmentová, Nikol, primary, Gelnar, Milan, additional, Mendlová, Monika, additional, Van Steenberge, Maarten, additional, Koblmüller, Stephan, additional, and Vanhove, Maarten P. M., additional
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- 2016
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54. Deep-water parasite diversity in Lake Tanganyika: description of two new monogenean species from benthopelagic cichlid fishes
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Kmentová, Nikol, primary, Gelnar, Milan, additional, Koblmüller, Stephan, additional, and Vanhove, Maarten P. M., additional
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- 2016
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55. First insights into the diversity of gill monogeneans of‘Gnathochromis’andLimnochromis(Teleostei, Cichlidae) in Burundi: do the parasites mirror host ecology and phylogenetic history?
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Kmentová, Nikol, primary, Gelnar, Milan, additional, Koblmüller, Stephan, additional, and Vanhove, Maarten P.M., additional
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- 2016
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56. Occurrence and effect of trematode metacercariae in two endangered killifishes from Greece.
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Vanhove, Maarten, Kalogianni, Eleni, Giakoumi, Sofia, Chatzinikolaou, Yorgos, Kmentová, Nikol, Harris, Eileen, and Zimmerman, Brian
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TREMATODA ,KILLIFISHES ,PLATYHELMINTHES ,PLANORBIDAE - Abstract
We report digeneans (Diplostomidae, Crassiphialinae) in the endangered freshwater fishes Valencia letourneuxi and Valencia robertae, endemics of Western Greece. Digenean metacercariae occurred in two forms in the abdominal cavity, excysted and encysted, the latter attached to the gonads, liver and alimentary tract. Parasites were, using morphological and molecular techniques, identified as two representatives of Crassiphialinae, specifically part of the Posthodiplostomum- Ornithodiplostomum clade. The spatial, seasonal, and age class variation in parasite prevalence was examined. Autumn parasite prevalence varied between the six populations sampled (18.2 to 100%). Seasonal prevalence at the two sites sampled quadannually peaked in autumn and reached its lowest value in spring; prevalence increased with size to 100% in young adult fish. We did not find a correlation between prevalence and host sex. Overall parasites' weight averaged 0.64% of the host's, while parasite weight increased with host weight. A comparison of relative condition and hepatosomatic and gonadosomatic indices of infected and metacercariae-free specimens showed that infection did not have a significant effect on host body condition and reproduction. Regarding the parasite's life cycle, planorbid gastropods are proposed as potential first intermediate hosts in view of the host's diet and occurrence data of molluscs in the ecosystem. This is the first record of a diplostomid digenean in valenciid fishes and of representatives of the Posthodiplostomum- Ornithodiplostomum clade in a native Greek freshwater fish. Our findings are discussed in conjunction to fish conservation interventions, since parasites may contribute to the decline of endangered species. [ABSTRACT FROM AUTHOR]
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- 2017
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57. Amended diagnosis, mitochondrial genome, and phylogenetic position of Sphyranura euryceae(Neodermata, Monogenea, Polystomatidae), a parasite of the Oklahoma salamander
- Author
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Leeming, Samuel J., Hahn, Christoph, Koblmüller, Stephan, McAllister, Chris T., Vanhove, Maarten P. M., Kmentová, Nikol, Leeming, Samuel J., Hahn, Christoph, Koblmüller, Stephan, McAllister, Chris T., Vanhove, Maarten P. M., and Kmentová, Nikol
- Abstract
Polystomatidae is a monogenean family whose representatives infect mainly (semi)-aquatic tetrapods. Species of SphyranuraWright, 1879 exhibit ectoparasitism on salamander hosts, with molecular work supporting their inclusion within Polystomatidae, at an early diverging, yet unresolved, position in the clade of otherwise endoparasitic polystomatid parasites of batrachian hosts. Records of representatives of Sphyranuraare scarce with genetic data only available for S. oligorchisAlvey, 1933. Based on detailed morphological examination and comparison with type material, we identified worms belonging to Sphyranurainfecting Oklahoma salamander (Eurycea tynerensis) as S. euryceaeHughes & Moore, 1943. Along with an amended diagnosis of Sphyranura, we provide the first molecular data for S. euryceaein the form of a mitochondrial genome and nuclear (18S, 28SrRNA) markers. Close morphological similarity between the two species of Sphyranurais reflected in low genetic divergence. Mitochondrial level comparison reveals instances of tRNA gene rearrangements in polystomatids. Although the phylogenetic reconstruction supports Sphyranuraas early branching in the lineage of polystomatid monogeneans infecting batrachians, certain nodes remain unresolved.
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- 2023
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58. Co-introduction success of monogeneans infecting the fisheries target Limnothrissa miodon differs between two non-native areas: the potential of parasites as a tag for introduction pathway
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Maarten P.M. Vanhove, Tamuka Nhiwatiwa, Maarten Van Steenberge, Milan Gelnar, Pascal Masilya Mulungula, Nikol Kmentová, Théophile Mulimbwa N’sibula, Fidel Muterezi Bukinga, Dirk F. E. Thys van den Audenaerde, Kmentová, Nikol, VAN STEENBERGE, Maarten, van den Audenaerde, Dirk F. E. Thys, Nhiwatiwa, Tamuka, Bukinga, Fidel Muterezi, N’sibula, Théophile Mulimbwa, Mulungula, Pascal Masilya, Gelnar, Milan, and VANHOVE, Maarten
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0106 biological sciences ,Morphometrics ,Ecology ,biology ,Host (biology) ,010604 marine biology & hydrobiology ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Dactylogyridae ,Intraspecific competition ,Fishery ,Taxon ,Gyrodactylus salaris ,Parasite hosting ,Ecosystem ,Ecology, Evolution, Behavior and Systematics ,Lake Kivu ,Lake Kariba ,Comparative morphometrics ,Intraspecific variability ,Genetic characterisation - Abstract
Fish have been widely translocated into non-native areas, commonly as fishery targets. Since fish figure as hosts of various parasite taxa, their introduction may pose often-underestimated threats to ecosystems. However, parasites can also serve to track host species’ introduction routes when these would otherwise be unknown. To verify the potential of parasites in reconstructing invasion routes, we investigated two of the best-documented introductions: those of Limnothrissa miodon into lakes Kivu and Kariba. As a proof of concept, we investigate the possibility of using parasites to evaluate the effect of host size in the introduction pathway and to track the host origins of L. miodon. Combining historical collections and recent field samples, specimens of L. miodon from Lake Kivu and Lake Kariba were examined for monogenean flatworms. Intraspecific variation was investigated using morphometrics of the parasite’s sclerotised structures. Three markers from the ribosomal DNA region were used for genetic parasite identification. In Lake Tanganyika, L. miodon is infected by two species of monogeneans, Kapentagyrus limnotrissae and K. tanganicanus. One of these species, K. limnotrissae, was found on L. miodon from Lake Kariba. In contrast, not a single monogenean individual was found in specimens from Lake Kivu. Morphometric results suggested that the origin of K. limnotrissae introduced into Lake Kariba may be the southern part of Lake Tanganyika, which corresponds to historical reports. Moreover, differences in the size of introduced fish, fry versus juveniles, were proposed as one of the factors influencing parasite occurrence in non-native areas. This supports the potential use of monogeneans as markers for host origin. This study was supported by ECIP (European Centre of Ichthyoparasitology); project No. P505/12/G112. Work in the collections of RMCA (Royal Museum for Central Africa) was financed by the SYNTHESYS Project (http://www.synthesys.info/) (BE-TAF-5731) which is financed by European Community Research Infrastructure Action under the FP7 Integrating Activities Programme.
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- 2018
59. First genomic study on Lake Tanganyika sprat Stolothrissa tanganicae: a lack of population structure calls for integrated management of this important fisheries target species
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Carl Vangestel, Els Lea R. De Keyzer, Federico C. F. Calboli, Maarten P.M. Vanhove, Théophile N’Sibula Mulimbwa, Pascal Masilya Mulungula, Joost A. M. Raeymaekers, Zoë De Corte, Massimiliano Virgilio, Filip Volckaert, Maarten Van Steenberge, Nikol Kmentová, De Keyzer, Els L. R., De Corte, Zoë, VAN STEENBERGE, Maarten, Raeymaekers, Joost A. M., Calboli, Federico C. F., Kmentová, Nikol, N’Sibula Mulimbwa, Théophile, Virgilio, Massimiliano, Vangestel, Carl, Mulungula, Pascal Masilya, Volckaert, Filip A. M., VANHOVE, Maarten, and Finnish Museum of Natural History
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0106 biological sciences ,0301 basic medicine ,LOCI ,LEVEL FLUCTUATIONS ,Tanzania ,01 natural sciences ,Gene flow ,Population genomics ,PELAGIC FISH ,SARDINE ,Fish ,Freshwater ,High-throughput sequencing ,RAD sequencing ,SNP ,Panmixis ,East Africa ,Great Lakes ,Stock management ,Lake Tanganyika sprat ,Genetics & Heredity ,CICHLID FISHES ,Principal Component Analysis ,education.field_of_study ,Genome ,biology ,1184 Genetics, developmental biology, physiology ,Fishes ,Discriminant Analysis ,INSIGHTS ,Phylogeography ,1181 Ecology, evolutionary biology ,Fisheries management ,Life Sciences & Biomedicine ,Research Article ,Conservation of Natural Resources ,MARINE FISH ,Evolution ,Population ,Fisheries ,DNA, Mitochondrial ,Polymorphism, Single Nucleotide ,010603 evolutionary biology ,03 medical and health sciences ,GENE FLOW ,QH359-425 ,Animals ,14. Life underwater ,education ,Ecology, Evolution, Behavior and Systematics ,Isolation by distance ,Evolutionary Biology ,Science & Technology ,Base Sequence ,Overfishing ,R-PACKAGE ,biology.organism_classification ,EVOLUTION ,Fishery ,Lakes ,Genetics, Population ,030104 developmental biology ,Haplotypes ,Genetic Loci - Abstract
Background: Clupeid fisheries in Lake Tanganyika (East Africa) provide food for millions of people in one of the world’s poorest regions. Due to climate change and overfishing, the clupeid stocks of Lake Tanganyika are declining. We investigate the population structure of the Lake Tanganyika sprat Stolothrissa tanganicae, using for the first time a genomic approach on this species. This is an important step towards knowing if the species should be managed separately or as a single stock. Population structure is important for fisheries management, yet understudied for many African freshwater species. We hypothesize that distinct stocks of S. tanganicae could be present due to the large size of the lake (isolation by distance), limnological variation (adaptive evolution), or past separation of the lake (historical subdivision). On the other hand, high mobility of the species and lack of obvious migration barriers might have resulted in a homogenous population. Results: We performed a population genetic study on wild-caught S. tanganicae through a combination of mitochondrial genotyping (96 individuals) and RAD sequencing (83 individuals). Samples were collected at five locations along a northsouth axis of Lake Tanganyika. The mtDNA data had low global FST and, visualised in a haplotype network, did not show phylogeographic structure. RAD sequencing yielded a panel of 3504 SNPs, with low genetic differentiation (FST = 0.0054; 95% CI: 0.0046–0.0066). PCoA, fineRADstructure and global FST suggest a near-panmictic population. Two distinct groups are apparent in these analyses (FST = 0.1338 95% CI: 0.1239,0.1445), which do not correspond to sampling locations. Autocorrelation analysis showed a slight increase in genetic difference with increasing distance. No outlier loci were detected in the RADseq data. Conclusion: Our results show at most very weak geographical structuring of the stock and do not provide evidence for genetic adaptation to historical or environmental differences over a north-south axis. Based on these results, we advise to manage the stock as one population, integrating one management strategy over the four riparian countries. These results are a first comprehensive study on the population structure of these important fisheries target species, and can guide fisheries management. Research has been supported by the JEMU pilot project PopGenSprat (BELSPO funding) and the Belgian Development Cooperation through VLIR-UOS (VLADOC scholarship NDOC2016PR006 to ELRDK). MPMV was supported by the Belgian Directorate-General for Development Cooperation and Humanitarian Aid (CEBioS program). MPMV and NK are supported by the Czech Science Foundation (P505/12/G112 (ECIP)). These funding sources had no role in the design of the study and collection, analysis, and interpretation of data and in writing the manuscript.
- Published
- 2019
60. Understanding the Influence of Host Radiation on Symbiont Speciation through Parasites of Species Flocks.
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Vanhove MPM, Kmentová N, Faes C, Fernandes JMO, Hahn C, Hens N, Pariselle A, and Koblmüller S
- Abstract
(Adaptive) radiations have attracted evolutionary biologists for a long time as ideal model systems to study patterns and processes of often rapid speciation. However, whereas a wealth of (sometimes already genome-scale) data is available for host radiations, very few studies target the patterns of diversification in their symbionts, even though they would be excellent models to study symbiont speciation. Our review summarizes what little is known about general patterns of symbiont diversification in often iconic adaptive host radiations and to what extent these patterns are dependent on the evolutionary trajectories of their hosts. We identify research gaps that need to be addressed in the future and discuss the potential of approaches not yet typically used in these study systems, such as epidemiological disease modeling and new omics technologies, for significantly advancing our understanding of these complex eco-evolutionary relationships., (Copyright © 2024 Cold Spring Harbor Laboratory Press; all rights reserved.)
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- 2024
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61. First insights into the diversity of gill monogeneans of 'Gnathochromis' and Limnochromis (Teleostei, Cichlidae) in Burundi: do the parasites mirror host ecology and phylogenetic history?
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Kmentová N, Gelnar M, Koblmüller S, and Vanhove MP
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Monogenea is one of the most species-rich groups of parasitic flatworms worldwide, with many species described only recently, which is particularly true for African monogeneans. For example, Cichlidogyrus, a genus mostly occurring on African cichlids, comprises more than 100 nominal species. Twenty-two of these have been described from Lake Tanganyika, a famous biodiversity hotspot in which many vertebrate and invertebrate taxa, including monogeneans, underwent unique and spectacular radiations. Given their often high degrees of host specificity, parasitic monogeneans were also used as a potential tool to uncover host species relationships. This study presents the first investigation of the monogenean fauna occurring on the gills of endemic 'Gnathochromis' species along the Burundese coastline of Lake Tanganyika. We test whether their monogenean fauna reflects the different phylogenetic position and ecological niche of 'Gnathochromis' pfefferi and Gnathochromis permaxillaris. Worms collected from specimens of Limnochromis auritus, a cichlid belonging to the same cichlid tribe as G. permaxillaris, were used for comparison. Morphological as well as genetic characterisation was used for parasite identification. In total, all 73 Cichlidogyrus individuals collected from 'G.' pfefferi were identified as C. irenae. This is the only representative of Cichlidogyrus previously described from 'G.' pfefferi, its type host. Gnathochromis permaxillaris is infected by a species of Cichlidogyrus morphologically very similar to C. gillardinae. The monogenean species collected from L. auritus is considered as new for science, but sample size was insufficient for a formal description. Our results confirm previous suggestions that 'G.' pfefferi as a good disperser is infected by a single monogenean species across the entire Lake Tanganyika. Although G. permaxillaris and L. auritus are placed in the same tribe, Cichlidogyrus sp. occurring on G. permaxillaris is morphologically more similar to C. irenae from 'G.' pfefferi, than to the Cichlidogyrus species found on L. auritus. Various evolutionary processes, such as host-switching or duplication events, might underlie the pattern observed in this particular parasite-host system. Additional samples for the Cichlidogyrus species occuring on G. permaxillaris and L. auritus are needed to unravel their evolutionary history by means of (co-)phylogenetic analyses.
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- 2016
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