Your search keyword '"Reichard, Martin"' showing total 22 results

1. Parasitic fish embryos do a "front-flip" on the yolk to resist expulsion from the host.

Author

Yi W, Reichard M, Rücklin M, and Richardson MK

Subjects

Animals, Host-Parasite Interactions, Parasites, Cyprinidae

Abstract

Embryonic development is often considered shielded from the effects of natural selection, being selected primarily for reliable development. However, embryos sometimes represent virulent parasites, triggering a coevolutionary "arms race" with their host. We have examined embryonic adaptations to a parasitic lifestyle in the bitterling fish. Bitterlings are brood parasites that lay their eggs in the gill chamber of host mussels. Bitterling eggs and embryos have adaptations to resist being flushed out by the mussel. These include a pair of projections from the yolk sac that act as an anchor. Furthermore, bitterling eggs all adopt a head-down position in the mussel gills which further increases their chances of survival. To examine these adaptations in detail, we have studied development in the rosy bitterling ( Rhodeus ocellatus ) using molecular markers, X-ray tomography, and time-lapse imaging. We describe a suite of developmental adaptations to brood parasitism in this species. We show that the mechanism underlying these adaptions is a modified pattern of blastokinesis-a process unique, among fish, to bitterlings. Tissue movements during blastokinesis cause the embryo to do an extraordinary "front-flip" on the yolk. We suggest that this movement determines the spatial orientation of the other developmental adaptations to parasitism, ensuring that they are optimally positioned to help resist the ejection of the embryo from the mussel. Our study supports the notion that natural selection can drive the evolution of a suite of adaptations, both embryonic and extra-embryonic, via modifications in early development., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

2. Unusual egg shape diversity in bitterling fishes.

Author

Li F, Smith C, Kawamura K, Vetešník L, Arai R, and Reichard M

Subjects

Animals, Fishes, Cyprinidae

Published

2022

3. Individual copy number variation and extensive diversity between major MHC-DAB1 allelic lineages in the European bitterling.

Author

Talarico L, Bryjová A, Čížková D, Douda K, and Reichard M

Subjects

Alleles, Animals, Evolution, Molecular, Genes, MHC Class II, Genetic Variation, Major Histocompatibility Complex, Phylogeny, Selection, Genetic, Cyprinidae genetics, Cyprinidae parasitology, DNA Copy Number Variations

Abstract

Polymorphism of the major histocompatibility complex (MHC), DAB1 gene was characterized for the first time in the European bitterling (Rhodeus amarus), a freshwater fish employed in studies of host-parasite coevolution and mate choice, taking advantage of newly designed primers coupled with high-throughput amplicon sequencing. Across 221 genotyped individuals, we detected 1-4 variants per fish, with 28% individuals possessing 3-4 variants. We identified 36 DAB1 variants, and they showed high sequence diversity mostly located within predicted antigen-binding sites, and both global and codon-specific excess of non-synonymous mutations. Despite deep divergence between two major allelic lineages, functional diversity was surprisingly low (3 supertypes). Overall, these findings suggest the role of positive and balancing selection in promotion and long-time maintenance of DAB1 polymorphism. Further investigations will clarify the role of pathogen-mediated selection to drive the evolution of DAB1 variation., (© 2022. The Author(s).)

Published

2022

4. Intensity-dependent energetic costs in a reciprocal parasitic relationship.

Author

Methling C, Douda K, and Reichard M

Subjects

Animals, Host-Parasite Interactions, Oxygen, Oxygen Consumption, Cyprinidae, Parasites

Abstract

Parasitic infections elicit host defences that pose energetic trade-offs with other fitness-related traits. Bitterling fishes and unionid mussels are involved in a two-way parasitic interaction. Bitterling exploit mussels by ovipositing into their gills. In turn, mussel larvae (glochidia) develop on the epidermis and gills of fish. Hosts have evolved behavioural responses to reduce parasite load, suggesting that glochidia and bitterling parasitism are costly. We examined the energetic cost of parasitism on both sides of this relationship. We used intermittent flow-through respirometry to measure (1) standard metabolic rate (SMR) of individual duck mussels Anodonta anatina (a common bitterling host) before and during infection by embryos of the European bitterling Rhodeus amarus, and (2) SMR and maximum oxygen uptake (MO 2 max) of individual R. amarus before and during infection with glochidia of the Chinese pond mussel Sinanodonta woodiana (a mussel species that successfully infects bitterling). As predicted, we observed an increase in mussel SMR when infected by bitterling embryos and an increased SMR in glochidia-infected bitterling, though this was significantly mediated by the time post-infection. Contrary to our predictions, glochidia infection did not impair MO 2 max and the number of glochidia attached to gills positively (rather than negatively) correlated with MO 2 max. The results suggest that tolerance is the prevailing coping mechanism for both fish and mussels when infected, while resistance mechanisms appear to be confined to the behavioural level.

Published

2019

5. High cryptic diversity of bitterling fish in the southern West Palearctic.

Author

Bartáková V, Bryja J, Šanda R, Bektas Y, Stefanov T, Choleva L, Smith C, and Reichard M

Subjects

Animals, Asia, Western, Biodiversity, Cyprinidae genetics, Cytochromes b genetics, DNA, Mitochondrial chemistry, Demography, Europe, Genetic Drift, Genetic Variation, Genotype, Microsatellite Repeats, Mitochondria genetics, Phylogeny, Cyprinidae classification

Abstract

South-east Europe, along with the adjacent region of south-west Asia, is an important biodiversity hotspot with high local endemism largely contributed by contemporary continental lineages that retreated to southern refugia during colder Quaternary periods. We investigated the genetic diversity of the European bitterling fish (Rhodeus amarus) species complex (Cyprinidae) across its range in the western Palearctic, but with a particular emphasis in the region of Balkan, Pontic and Caspian refugia. We genotyped 12 polymorphic microsatellite loci and a partial sequence of mitochondrial gene cytochrome b (CYTB) for a set of 1,038 individuals from 60 populations. We used mtDNA sequences to infer phylogenetic relationships and historical demography, and microsatellite markers to describe fine-scale genetic variability and structure. Our mtDNA analysis revealed six well-supported lineages, with limited local co-occurrence. Two lineages are distributed throughout central and western Europe (lineages "A" and "B"), with two zones of secondary contact. Another two lineages were restricted to the Ponto-Aegean region of Greece (lineages "C" and "D") and the final two lineages were restricted south of the Caucasus mountains (lineage "E" from the Black Sea watershed and lineage "F" from the Caspian watershed). A signal of recent expansion was revealed in the two widespread lineages and the Ponto-Aegean lineage "C". The geographic distribution of clusters detected by nuclear microsatellites corresponded well with mitochondrial lineages and demonstrated finely sub-structured populations. A profound population structure suggested a significant role of genetic drift in differentiation among lineages. Lineage divergence in the Ponto-Aegean and Caspian regions are substantial, supporting the validity of two described endemic species (Rhodeus meridionalis as lineage "D" and Rhodeus colchicus as lineage "E") and invite taxonomic evaluation of the other two southern lineages (Thracean "C" and Caspian "F")., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

6. Population-specific responses to an invasive species.

Author

Reichard M, Douda K, Przybyłski M, Popa OP, Karbanová E, Matasová K, Rylková K, Polačik M, Blažek R, and Smith C

Subjects

Animals, Anodonta genetics, Anodonta growth & development, Europe, Female, Host-Parasite Interactions, Larva genetics, Larva growth & development, Larva physiology, Reproduction, Anodonta physiology, Avoidance Learning, Cyprinidae parasitology, Cyprinidae physiology, Introduced Species, Oviposition

Abstract

Predicting the impacts of non-native species remains a challenge. As populations of a species are genetically and phenotypically variable, the impact of non-native species on local taxa could crucially depend on population-specific traits and adaptations of both native and non-native species. Bitterling fishes are brood parasites of unionid mussels and unionid mussels produce larvae that parasitize fishes. We used common garden experiments to measure three key elements in the bitterling-mussel association among two populations of an invasive mussel (Anodonta woodiana) and four populations of European bitterling (Rhodeus amarus). The impact of the invasive mussel varied between geographically distinct R. amarus lineages and between local populations within lineages. The capacity of parasitic larvae of the invasive mussel to exploit R. amarus was higher in a Danubian than in a Baltic R. amarus lineage and in allopatric than in sympatric R. amarus populations. Maladaptive oviposition by R. amarus into A. woodiana varied among populations, with significant population-specific consequences for R. amarus recruitment. We suggest that variation in coevolutionary states may predispose different populations to divergent responses. Given that coevolutionary relationships are ubiquitous, population-specific attributes of invasive and native populations may play a critical role in the outcome of invasion. We argue for a shift from a species-centred to population-centred perspective of the impacts of invasions., (© 2015 The Author(s).)

Published

2015

7. Cognitive ability is heritable and predicts the success of an alternative mating tactic.

Author

Smith C, Philips A, and Reichard M

Subjects

Animals, Cyprinidae genetics, Female, Male, Reproduction, Cognition, Cyprinidae physiology, Quantitative Trait, Heritable, Sexual Behavior, Animal, Spatial Learning

Abstract

The ability to attract mates, acquire resources for reproduction, and successfully outcompete rivals for fertilizations may make demands on cognitive traits--the mechanisms by which an animal acquires, processes, stores and acts upon information from its environment. Consequently, cognitive traits potentially undergo sexual selection in some mating systems. We investigated the role of cognitive traits on the reproductive performance of male rose bitterling (Rhodeus ocellatus), a freshwater fish with a complex mating system and alternative mating tactics. We quantified the learning accuracy of males and females in a spatial learning task and scored them for learning accuracy. Males were subsequently allowed to play the roles of a guarder and a sneaker in competitive mating trials, with reproductive success measured using paternity analysis. We detected a significant interaction between male mating role and learning accuracy on reproductive success, with the best-performing males in maze trials showing greater reproductive success in a sneaker role than as a guarder. Using a cross-classified breeding design, learning accuracy was demonstrated to be heritable, with significant additive maternal and paternal effects. Our results imply that male cognitive traits may undergo intra-sexual selection., (© 2015 The Author(s) Published by the Royal Society. All rights reserved.)

Published

2015

8. Phylogenetic relationships of Acheilognathidae (Cypriniformes: Cyprinoidea) as revealed from evidence of both nuclear and mitochondrial gene sequence variation: evidence for necessary taxonomic revision in the family and the identification of cryptic species.

Author

Chang CH, Li F, Shao KT, Lin YS, Morosawa T, Kim S, Koo H, Kim W, Lee JS, He S, Smith C, Reichard M, Miya M, Sado T, Uehara K, Lavoué S, Chen WJ, and Mayden RL

Subjects

Animals, Bayes Theorem, Cyprinidae genetics, Genes, Mitochondrial, Genetic Variation, Likelihood Functions, Sequence Analysis, DNA, Biological Evolution, Cyprinidae classification, Phylogeny

Abstract

Bitterlings are relatively small cypriniform species and extremely interesting evolutionarily due to their unusual reproductive behaviors and their coevolutionary relationships with freshwater mussels. As a group, they have attracted a great deal of attention in biological studies. Understanding the origin and evolution of their mating system demands a well-corroborated hypothesis of their evolutionary relationships. In this study, we provide the most comprehensive phylogenetic reconstruction of species relationships of the group based on partitioned maximum likelihood and Bayesian methods using DNA sequence variation of nuclear and mitochondrial genes on 41 species, several subspecies and three undescribed species. Our findings support the monophyly of the Acheilognathidae. Two of the three currently recognized genera are not monophyletic and the family can be subdivided into six clades. These clades are further regarded as genera based on both their phylogenetic relationships and a reappraisal of morphological characters. We present a revised classification for the Acheilognathidae with five genera/lineages: Rhodeus, Acheilognathus (new constitution), Tanakia (new constitution), Paratanakia gen. nov., and Pseudorhodeus gen. nov. and an unnamed clade containing five species currently referred to as "Acheilognathus". Gene trees of several bitterling species indicate that the taxa are not monophyletic. This result highlights a potentially dramatic underestimation of species diversity in this family. Using our new phylogenetic framework, we discuss the evolution of the Acheilognathidae relative to classification, taxonomy and biogeography., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

9. An invasive species reverses the roles in a host-parasite relationship between bitterling fish and unionid mussels.

Author

Reichard M, Vrtílek M, Douda K, and Smith C

Subjects

Animals, Anodonta parasitology, Biological Evolution, Cyprinidae growth & development, Female, Genetic Speciation, Gills parasitology, Host-Parasite Interactions, Male, Oviposition, Species Specificity, Statistics, Nonparametric, Sympatry, Anodonta growth & development, Cyprinidae parasitology, Introduced Species

Abstract

The impact of multiple invading species can be magnified owing to mutual facilitation--termed 'invasional meltdown'--but invasive species can also be adversely affected by their interactions with other invaders. Using a unique reciprocal host-parasite relationship between a bitterling fish (Rhodeus amarus) and unionid mussels, we show that an invasive mussel reverses the roles in the relationship. Bitterling lay their eggs into mussel gills, and mussel larvae parasitize fish. Bitterling recently colonized Europe and parasitize all sympatric European mussels, but are unable to use a recently invasive mussel, Anodonta woodiana. The parasitic larvae of A. woodiana successfully develop on R. amarus, whereas larvae of European mussels are rejected by bitterling. This demonstrates that invading species may temporarily benefit from a coevolutionary lag by exploiting evolutionarily naive hosts, but the resulting relaxed selection may facilitate its exploitation by subsequent invading species, leading to unexpected consequences for established interspecific relationships.

Published

2012

10. Female rose bitterling prefer MHC-dissimilar males: experimental evidence.

Author

Reichard M, Spence R, Bryjová A, Bryja J, and Smith C

Subjects

Animals, Choice Behavior physiology, Decision Making, Female, Linear Models, Male, Cyprinidae immunology, Cyprinidae physiology, Major Histocompatibility Complex immunology, Mating Preference, Animal physiology

Abstract

The role of genetic benefits in female mate choice remains a controversial aspect of sexual selection theory. In contrast to "good allele" models of sexual selection, "compatible allele" models of mate choice predict that females prefer mates with alleles complementary to their own rather than conferring additive effects. While correlative results suggest complementary genetic effects to be plausible, direct experimental evidence is scarce. A previous study on the Chinese rose bitterling (Rhodeus ocellatus) demonstrated a positive correlation between female mate choice, offspring growth and survival, and the functional dissimilarity between the Major Histocompatibility Complex (MHC) alleles of males and females. Here we directly tested whether females used cues associated with MHC genes to select genetically compatible males in an experimental framework. By sequentially pairing females with MHC similar and dissimilar males, based on a priori known MHC profiles, we showed that females discriminated between similar and dissimilar males and deposited significantly more eggs with MHC dissimilar males. Notably, the degree of dissimilarity was an important factor for female decision to mate, possibly indicating a potential threshold value of dissimilarity for decision making, or of an indirect effect of the MHC.

Published

2012

11. The bitterling-mussel coevolutionary relationship in areas of recent and ancient sympatry.

Author

Reichard M, Polačik M, Tarkan AS, Spence R, Gaygusuz O, Ercan E, Ondračková M, and Smith C

Subjects

Adaptation, Physiological, Animals, Bivalvia parasitology, Bivalvia physiology, Cyprinidae parasitology, Cyprinidae physiology, Europe, Fresh Water, Genetic Variation, Larva, Species Specificity, Symbiosis, Turkey, Bivalvia genetics, Cyprinidae genetics, Evolution, Molecular, Host-Parasite Interactions

Abstract

Host-parasite relationships are often characterized by the rapid evolution of parasite adaptations to exploit their host, and counteradaptations in the host to avoid the costs imposed by parasitism. Hence, the current coevolutionary state between a parasite and its hosts is predicted to vary according to the history of sympatry and local abundance of interacting species. We compared a unique reciprocal coevolutionary relationship of a fish, the European bitterling (Rhodeus amarus) and freshwater mussels (Unionidae) between areas of recent (Central Europe) and ancient (Turkey) sympatry. Bitterling parasitize freshwater mussels by laying their eggs in the gills of mussel and, in turn, mussel larvae (glochidia) parasitize the fish. We found that all bitterling from both regions avoided one mussel species. Preferences among other mussel species tended to be related to local mussel abundance rather than duration of sympatry. Individual fish were not consistent in their oviposition choices, precluding the evolution of host-specific lineages. Mussels were demonstrated to have evolved strong defenses to bitterling parasitism in the area of ancient sympatry, but have no such defenses in the large areas of Europe where bitterling are currently invasive. Bitterling avoided glochidia infection irrespective of the duration of sympatry., (© 2010 The Author(s). Journal compilation © 2010 The Society for the Study of Evolution.)

Published

2010

12. Mate choice for nonadditive genetic benefits correlate with MHC dissimilarity in the rose bitterling (Rhodeus ocellatus).

Author

Agbali M, Reichard M, Bryjová A, Bryja J, and Smith C

Subjects

Animals, Embryonic Development, Female, Fertilization in Vitro, Male, Cyprinidae genetics, Major Histocompatibility Complex, Mating Preference, Animal

Abstract

Good genes models of mate choice predict additive genetic benefits of choice whereas the compatibility hypothesis predicts nonadditive fitness benefits. Here the Chinese rose bitterling, Rhodeus ocellatus, a freshwater fish with a resource-based mating system, was used to separate additive and nonadditive genetic benefits of female mate choice. A sequential blocked mating design was used to test female mate preferences, and a cross-classified breeding design coupled with in vitro fertilizations for fitness benefits of mate choice. In addition, the offspring produced by the pairing of preferred and nonpreferred males were reared to maturity and their fitness traits were compared. Finally, the MHC DAB1 gene was typed and male MHC genotypes were correlated with female mate choice. Females showed significant mate preferences but preferences were not congruent among females. There was a significant interaction of male and female genotype on offspring survival, rate of development, growth rate, and body size. No significant male additive effects on offspring fitness were observed. Female mate preferences corresponded with male genetic compatibility, which correlated with MHC dissimilarity. It is proposed that in the rose bitterling genetic compatibility is the mechanism by which females obtain a fitness benefit through mate choice and that male MHC dissimilarity, likely mediated by odor cues, indicates genetic compatibility.

Published

2010

13. Females solicit sneakers to improve fertilization success in the bitterling fish (Rhodeus sericeus).

Author

Smith C and Reichard M

Subjects

Aggression physiology, Animals, Female, Male, Oviposition physiology, Video Recording, Biological Evolution, Cyprinidae physiology, Fertilization physiology, Sexual Behavior, Animal physiology, Spermatozoa physiology

Abstract

In most species there is greater variance in reproductive fitness among males than females. A consequence is the evolution of alternative male mating tactics, including sneaking behaviour whereby males attempt to mate with females courted by other males, which could undermine female choice. In bitterling (Rhodeus sericeus), fish that lay their eggs on the gills of living freshwater mussels, sneaking is common and successful. Here we show that female bitterling can significantly improve their fertility with an increase in the number of spawning partners. Females perform conspicuous behaviours associated with spawning more frequently close to sneakers, and spawn more eggs close to high-quality sneakers. This is the first time that females have been shown to engage in behaviour that increases the probability of sneaking, and raises the possibility of a sexual conflict over the number and source of ejaculates during spawning in this species.

Published

2005

14. Seasonal dynamics of Posthodiplostomum cuticola (Digenea, Diplostomatidae) metacercariae and parasite-enhanced growth of juvenile host fish.

Author

Ondracková M, Reichard M, Jurajda P, and Gelnar M

Subjects

Animals, Fish Diseases parasitology, Host-Parasite Interactions, Prevalence, Seasons, Trematoda growth & development, Trematode Infections epidemiology, Trematode Infections parasitology, Cyprinidae growth & development, Cyprinidae parasitology, Fish Diseases epidemiology, Trematoda pathogenicity, Trematode Infections veterinary

Abstract

The seasonal dynamics of Posthodiplostomum cuticola metacercariae in 0+ juvenile fish, Rutilus rutilus, Scardinius erythrophthalmus and Abramis bjoerkna, was studied on the floodplain of the Dyje River, Czech Republic. Prevalence and mean abundance of P. cuticola were significantly higher in R. rutilus than in S. erythrophthalmus or A. bjoerkna. A seasonal pattern of parasite infection with maximum values in autumn was evident in all three species. No effect of overwintering on the P. cuticola infection was detected. Parasite-induced growth was found for all three fish species investigated; the fish standard length and body weight of parasitized individuals were significantly higher than those of unparasitized fish from July to October. In April, no difference was found. The maximum enhanced growth of parasitized fish was found in months with low zooplankton densities, while the difference was lower when food was abundant.

Published

2004

15. Ovipositor of bitterling fishes (Cyprinidae, Acheilognathinae): fine structure from a functional perspective.

Author

DYKOVÁ, Iva and REICHARD, Martin

Subjects

*BITTERLING, *CYPRINIDAE, *CELL junctions, *BASAL lamina, *CONNECTIVE tissues

Abstract

The study presents fine structure data on the ovipositor of four bitterling species (Rhodeus ocellatus, Rhodeus amarus, Paratanakia himantegus and Acheilognathus barbatulus). In A. barbatulus and P. himantegus, ovipositor structure has never been studied. Novel data on the structure of the ovipositor were collected using two complementary methods, light- and transmission electron microscopy. The new findings relate to the covering and lining epithelia, basal laminae, cell junctions and supporting/connective tissue layer. All examined fish shared the same basic ovipositor structure and the newly reported details, regardless of their species affiliation. Evaluation of structure modifications related to the passage of eggs through the ovipositor revealed a range of transitional tissue changes, corroborating their presumable role inferred from the study of fine structure. [ABSTRACT FROM AUTHOR]

Published

2023

16. High cryptic diversity of the bitterling fish in southern West Palearctic

Author

Bartáková, Veronika, Bryja, Josef, Šanda, Radek, Bektas, Yusuf, Stefanov, Tihomir, Choleva, Lukáš, Smith, Carl Hendrik, Reichard, Martin, and University of St Andrews. School of Biology

Subjects

QP Physiology, QH301, Mediterranean endemism, QH301 Biology, Ponto-Caspian region, Cyprinidae, Balkan refugium, DAS, QH426 Genetics, Genetic drift, QH426, QP, Gene flow

Abstract

Principal financial support came from the Czech Science Foundation (13-05872S) to MR. RŠ was supported by the Ministry of Culture of the Czech Republic (DKRVO 2018/14, National Museum, 00023272). LC acknowledges institutional support RVO: 67985904. South-east Europe, along with the adjacent region of south-west Asia, is an important biodiversity hotspot with high local endemism largely contributed by contemporary continental lineages that retreated to southern refugia during colder Quaternary periods. We investigated the genetic diversity of the European bitterling fish (Rhodeus amarus) species complex (Cyprinidae) across its range in the western Palearctic, but with a particular emphasis in the region of Balkan, Pontic and Caspian refugia. We genotyped 12 polymorphic microsatellite loci and a partial sequence of mitochondrial gene cytochrome b (CYTB) for a set of 1,038 individuals from 60 populations. We used mtDNA sequences to infer phylogenetic relationships and historical demography, and microsatellite markers to describe fine-scale genetic variability and structure. Our mtDNA analysis revealed six well-supported lineages, with limited local co-occurrence. Two lineages are distributed throughout central and western Europe (lineages “A” and “B”), with two zones of secondary contact. Another two lineages were restricted to the Ponto-Aegean region of Greece (lineages “C” and “D”) and the final two lineages were restricted south of the Caucasus mountains (lineage “E” from the Black Sea watershed and lineage “F” from the Caspian watershed). A signal of recent expansion was revealed in the two widespread lineages and the Ponto-Aegean lineage “C”. The geographic distribution of clusters detected by nuclear microsatellites corresponded well with mitochondrial lineages and demonstrated finely sub-structured populations. A profound population structure suggested a significant role of genetic drift in differentiation among lineages. Lineage divergence in the Ponto-Aegean and Caspian regions are substantial, supporting the validity of two described endemic species (Rhodeus meridionalis as lineage “D” and Rhodeus colchicus as lineage “E”) and invite taxonomic evaluation of the other two southern lineages (Thracean “C” and Caspian “F”). Postprint

Published

2019

17. Limited impacts of chronic eye fluke infection on the reproductive success of a fish host.

Author

Nezhybová, Veronika, Reichard, Martin, Methling, Caroline, and Ondračková, Markéta

Subjects

*EYE infections, *PARASITIC diseases, *FISHES, *OVULATION, *OXYGEN consumption, *CYPRINIDAE, *FISH reproduction

Abstract

Parasitic infections may affect the reproductive success of the host either directly, through behavioural modification, or indirectly, by altering their reproductive investment in response to infection. We determined the effects of infection with the eye fluke Diplostomum pseudospathaceum (Trematoda) on the reproductive traits of European bitterling (Rhodeus amarus , Cyprinidae), an intermediate fish host with a resource-based mating system. Male bitterling infected by Diplostomum exhibited a larger but less pronounced red eye spot (sexually selected signal) than control males, suggesting that infected males were less preferred by females. The frequency of female ovulation and number of offspring were comparable between the infected and the control group, although there was a 1–2 week delay in the peak of ovulation and offspring production in infected fish, which is known to coincide with higher juvenile mortality. Chronic eye fluke infection had minimal metabolic costs (measured as oxygen consumption) and, consistent with these results, reproductive activity did not differ between infected and control fish in an experimental test of intersexual selection. Overall, the impact of eye fluke infection on the reproduction of European bitterling was limited. We consider the potential effect of favourable conditions during experiments (abundant food, access to spawning substrate and lack of predators and co-infections) on experimental outcomes and recognize that the effects of chronic eye fluke infection in natural conditions might be more pronounced. [ABSTRACT FROM AUTHOR]

Published

2020

18. The role of local adaptation in shaping fish-mussel coevolution.

Author

Douda, Karel, Liu, Huan‐Zhang, Yu, Dan, Rouchet, Romain, Liu, Fei, Tang, Qiong‐Ying, Methling, Caroline, Smith, Carl, and Reichard, Martin

Subjects

COEVOLUTION, UNIONIDAE, FRESHWATER fishes, HOST-parasite relationships, BIOLOGICAL adaptation, CYPRINIDAE

Abstract

The survival of affiliate (dependent) species in a changing environment is determined by the interactions between the affiliate species and their available hosts. However, the patterns of spatial and temporal changes in host compatibility are often unknown despite host shifts having direct impact on the persistence of local populations. Bivalves of the order Unionida (freshwater mussels) are a functionally important but declining group of affiliate species, which are dependent on freshwater fish to host their parasitic larvae. The role of local adaptations and host fish resistance in shaping freshwater mussel host relationships remains poorly understood., We used an invasive East Asian unionid bivalve, Sinanodonta woodiana, and its potential host fishes to study the mechanisms shaping fish-mussel coevolution using a combination of laboratory cross-exposure methods and field-collected data. We tested whether generalist host use of S. woodiana is pertinent to native host species, with special attention to bitterling fishes (Cyprinidae: Acheilognathinae) that are characterised by a mutual association with freshwater mussels. We also tested whether the pattern of the parasite-host association varies temporally (between areas of ancient and recent sympatry) and spatially (at a sub-basin level in its native range)., Results revealed the ability of S. woodiana to widely exploit non-bitterling host fishes at a global scale. In contrast, the ability of S. woodiana to exploit closely associated bitterling fishes was low in its native range (with ancient sympatry). In areas of recent sympatry (non-native S. woodiana range in Europe), S. woodiana glochidia were demonstrated to readily parasitise local, evolutionarily naive bitterling species at high density., The results of a population-level experiment with three native populations of S. woodiana and rose bitterling, Rhodeus ocellatus, from various sub-basins of the River Yangtze confirmed that mussel populations vary in their compatibility with particular host populations. However, there was no evidence of population-specific adaptive coevolution., This study provides the first evidence for a role of fish counter-adaptations against freshwater mussel glochidia, and documents the importance of population-level variation in shaping compatibility between glochidia and their host fishes. This outcome can inform predictions on the impact of biotic homogenisation on endangered affiliate species in general and freshwater mussels in particular. [ABSTRACT FROM AUTHOR]

Published

2017

19. A morphological and genetic analysis of the European bitterling species complex.

Author

ZAKI, SHAMA A. H., JORDAN, WILLIAM C., REICHARD, MARTIN, PRZYBYLSKI, MIROSŁAW, and SMITH, CARL

Subjects

POLYMORPHISM (Zoology), MUSSELS, CYPRINIDAE, BITTERLING, LIFE cycles (Biology)

Abstract

Bitterling fishes lay their eggs on the gills of living freshwater mussels and are valuable models in behavioural and evolutionary ecology. We used morphological and genetic data to resolve the taxonomic relationships of bitterling in Europe. Previous studies have suggested the European bitterling is either a single species with a wide but discontinuous geographic distribution, or a complex of species. Morphometric and meristic data identified differences between three putative species; with a clear distinction between the eastern Asian Rhodeus sericeus, western European bitterling Rhodeus amarus, and colchian bitterling, Rhodeus colchicus. Polymorphism in the mitochondrial DNA control region was predominantly due to insertion/deletion events, making phylogenetic inference difficult, but the single haplotype found in R. sericeus populations was detected at low frequency (one of 24 individuals) in R. amarus and R. colchicus populations. Eight control region haplotypes were found in R. amarus populations, which were distinct from the two haplotypes in a R. colchicus population. Cytochrome b data produced a phylogeny with strongly-supported differentiation between a clade of two R. sericeus haplotypes and a clade of six R. amarus/ colchicus haplotypes. The star-like topology of the R. amarus/ colchicus haplotypes in a minimum spanning network suggested a rapid radiation in this clade. Our results are consistent with an hypothesis of relatively ancient divergence of R. sericeus from R. amarus/colchicus and more recent and rapid differentiation between R. amarus and R. colchicus. © 2008 The Linnean Society of London, Biological Journal of the Linnean Society, 2008, 95, 337–347. [ABSTRACT FROM AUTHOR]

Published

2008

20. The Effects of Elevated River Discharge on the Downstream Drift of Young-of-the-Year Cyprinid Fishes.

Author

Reichard, Martin and Jurajda, Pavel

Subjects

*TURBIDITY, *FISHES, *SPEED, *CYPRINIDAE, *WATER

Abstract

Increases in current velocity and water turbidity during elevated river discharge can increase the abundance of drifting fish of particular size, age or taxa. We tested the effect of artificial and natural increases in river discharge on the drift of young-of-the-year (YOY) cyprinid fishes in a European river. Elevated discharge affected neither drift abundance nor size, age, or taxonomic composition of drifting fishes. Elevated discharge was observed exclusively during the day and did not alter water transparency, whereas current velocity increased significantly. This allowed us to separate effect of these correlated factors, and we conclude that, at least in structurally complex habitats, water turbidity rather than current velocity is the causative factor for the cessation of diel periodicity in drift and increases in drift abundance during floods. [ABSTRACT FROM AUTHOR]

Published

2004

21. Male-male interference competition decreases spawning rate in the European bitterling (Rhodeus sericeus).

Author

Reichard, Martin, Jurajda, Pavel, and Smith, Carl

Subjects

SPAWNING, CYPRINIDAE, INSECT reproduction, MUSSELS, FRESHWATER fishes, TERRITORIALITY (Zoology)

Abstract

We investigated the consequences of male-male interference competition associated with alternative male mating tactics in a freshwater fish, the European bitterling (Rhodeus sericeus). Male bitterling defend territories around living mussels and attract females to lay their eggs in the gill cavities of mussels. We experimentally manipulated spawning-site abundance and male density at two spatial scales. We showed that the total number of eggs spawned by females was constrained by the number of mussels available for oviposition. The effect was mediated by behavioral interactions among competing males because of variation in the Operational Sex Ratio (OSR) in close proximity to a mussel and not by a direct limitation in mussel capacity to accommodate the eggs. Both total and local male densities affected spawning behavior, and interacted in their effect on female spawning rate. Territorial male aggression caused courtship interruptions that prolonged the time until successful spawning and increased with male density. However, territoriality broke down at the highest male density, with a consequent stabilizing effect on spawning rate. [ABSTRACT FROM AUTHOR]

Published

2004

22. Cognitive ability is heritable and predicts the success of an alternative mating tactic.

Author

Smith, Carl, Philips, André, and Reichard, Martin

Subjects

COGNITIVE ability, ANIMAL sexual behavior, SEXUAL selection, CYPRINIDAE, LEARNING, FISH reproduction

Abstract

The ability to attract mates, acquire resources for reproduction, and successfully outcompete rivals for fertilizations may make demands on cognitive traits—the mechanisms by which an animal acquires, processes, stores and acts upon information from its environment. Consequently, cognitive traits potentially undergo sexual selection in some mating systems. We investigated the role of cognitive traits on the reproductive performance of male rose bitterling (Rhodeus ocellatus), a freshwater fish with a complex mating system and alternative mating tactics. We quantified the learning accuracy of males and females in a spatial learning task and scored them for learning accuracy. Males were subsequently allowed to play the roles of a guarder and a sneaker in competitive mating trials, with reproductive success measured using paternity analysis. We detected a significant interaction between male mating role and learning accuracy on reproductive success, with the best-performing males in maze trials showing greater reproductive success in a sneaker role than as a guarder. Using a cross-classified breeding design, learning accuracy was demonstrated to be heritable, with significant additive maternal and paternal effects. Our results imply that male cognitive traits may undergo intra-sexual selection. [ABSTRACT FROM AUTHOR]

Published

2015