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1. A preliminary threshold model of parasitism in the Cockle\emph{Cerastoderma edule} using delayed exchange of stability

Author

O'Grady, E. A., Culloty, S. C., Kelly, T. C., O'Callaghan, M. J. A., and Rachinskii, D.

Subjects
Quantitative Biology - Populations and Evolution
Abstract

Thresholds occur in the dynamics of many biological communities. Here we model a persistence type threshold which has been shown experimentally to exist in hyperparasitised flukes in the cockle, a shellfish. Our model consists of a periodically driven slow-fast host-parasite system of equations for a slow flukes population and a fast Unikaryon hyperparasite population. The model exhibits two branches of the critical curve crossing in a transcritical bifurcation scenario. We discuss two thresholds due to immediate and delayed exchange of stability effects; and we derive algebraic relationships for parameters of the periodic solution in the limit of the infinite ratio of the time scales. Flukes parasitise cockles and in turn are hyperparasitised by the microsporidian Unikaryon legeri; the life cycle of flukes includes several life stages and a number of different hosts. That is, the flukes-hyperparasite system in a cockle is part of a larger estuarine ecosystem of species involving parasites, shellfish and birds which prey on shellfish. A population dynamics model which accounts for such multi-species interactions and includes the fluke-hyperparasite model in a cockle as a subsystem is presented. We provide evidence that the threshold effect we observed in the flukes-hyperparasite subsystem remains apparent in the multi-species system. Assuming that flukes damage cockles, and taking into account that the hyperparasite is detrimental to flukes, it is natural to suggest that the hyperparasitism may support the abundance of cockles and, thereby, the persistence of the ecosystem, including shellfish and birds. We confirm the possibility of this scenario in our model by removing the hyperparasite and demonstrating that this may result in a substantial drop in cockle numbers. The result indicates a possible significant role for the microparasite in this estuarine ecosystem.

Published
2014
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5. Identification of molecular markers associated to OsHV-1 resistance in Crassostrea gigas

Author

Prado-Álvarez, María, Carlsson, Jeanette, Cao, Asunción, Culloty, S. C., Gestal, C., Villalba, Antonio, and Carlsson, Jens

Abstract

Póster.-- 113th Annual Meeting National Shellfisheries Association, Virtual Conference, March 22 – 25, 2021, Significant mortalities have been regularly occurring in the Pacific oyster, Crassostrea gigas, associated with the incidence of OsHV-1 and impacting the aquaculture production at a global level. Long-term solutions such as the selection of resistant strains and the identification of molecular markers have been postulated as prioritizing strategies by the scientific community. In this context, the information gathered by novel sequencing methodologies offers new perspectives for the study of non-model species. RNA-seq data previously carried out for comparison of C. gigas spat with different susceptibility was further analysed for potential molecular markers examination. For that, read mappings corresponding to differently expressed transcripts were manually checked for variant localization. Validation of potential polymorphisms was carried out in oyster families produced by single pair matting of adult animals with different susceptibility to OsHV-1. Families were naturally exposed to OsHV-1 in a culturing raft and after a mortality outbreak; survivors were collected and compared to initial samples. A total of 461 animals were genotyped by sequencing using individual barcoding identification for multiplex amplification. Twelve transcripts containing 30 nucleotide variants were analysed. Among them, 18 variants were real single nucleotide polymorphisms (SNPs). The allele frequencies significantly varied in 10 loci on resistant families and 5 loci on susceptible families. Moreover, two linked SNPs were also significantly different attending to the disease susceptibility features of the broodstock. These results showed the identification of two linked molecular markers that can be used in selective breeding programmes.

Published
2021

9. A naïve population of European oyster Ostrea edulis with reduced susceptibility to the pathogen Bonamia ostreae: are S-strategy life traits providing protection?

Author

Egerton, Sian, Lynch, Sharon A., Prado-Álvarez, María, Flannery, Grace, Brennan, Elaine, Hugh-Jones, Tristan, Hugh-Jones, David, Culloty, S. C., Egerton, Sian, Lynch, Sharon A., Prado-Álvarez, María, Flannery, Grace, Brennan, Elaine, Hugh-Jones, Tristan, Hugh-Jones, David, and Culloty, S. C.

Abstract

European populations of the native flat oyster, Ostrea edulis, have been heavily depleted by two protozoan parasites, Marteila refringens and Bonamia ostreae, with mortalities of up to 90% reported in naïve populations. However, in studies carried out over a 10-year period, researching the parasite–host relationship of B. ostreae and O. edulis in several age cohorts within a naïve O. edulis population from Loch Ryan (LR), Scotland, 1364 specimens were challenged and only 64 (5%), across multiple testing protocols, screened positive for B. ostreae. This article presents a case for the development of S-strategy life traits in the LR population that coincide with enhanced immune function and survival. Oysters are considered typical r-strategists (small in size with fast development and high fecundity) while S-strategists, as outlined in Grime’s (1977) competitor–stress tolerant–ruderal (C–S–R) triangle theory, are characterized by slow growth and investment in the durability of individuals. This study hypothesizes that slower growth and reduced reproductive output in LR oysters has resulted in the investment of an enhanced immune function and reduced susceptibility to B. ostreae that is, r-strategists with S-strategy life traits equates to protection from significant pathogens. The findings presented here within provide a strong case study for local adaptation of energy allocation and provides empirical support for the C–S–R triangle theory in a marine organism

Published
2020

13. Other Disorders

Author

Gestal, C., Pascual, Santiago, and Culloty, S. C.

Subjects
Inflammation, Aedema, Neoplasia, Haemocytic infiltration, Tumors
Abstract

6 pages, 6 figures.-- This chapter is licensed under the terms of the Creative Commons Attribution 4.0 International License, Neoplasia are growth disturbances characterized by excessive, abnormal proliferation of cells, independent of normal-regulating mechanisms of the animal and persisting after termination of the stimulus that initiated growth. Over lasts years there has been an increase in research into tumors of invertebrates. In cephalopods, reports on the incidence of the tumors or neoplasia are scarce. They have been described as hard compact and homogeneous nodules of connective tissue located in the mantle or at the base of suckers. The aetiological origin of tumors observed in cephalopods is unknown, but it could be related to aquarium maintenance. Other injurious agents, including infectious (virus, bacteria, or parasites) and xenobiotics, may also have produced the lesions. In occasions inflammatory processes have been associated with tumors with severe oedema associated. Inflammation is part of the biological response to body tissues to harmful stimuli such as pathogens, damaged cells or effect of xenobiotics. The inflammatory focus is characterized by exudation with interstitial fluid changes and hemocytic migration. Some inflammatory lesions include fibrosis and necrotic cells in the affected area, with loss of histological features and even organ architecture. All this changes have been observed in cephalopods in inflammatory reactions originated by infection with different pathogens. The chapter covers a selection of the reported cases of disorders related to neoplasia and inflammation

Published
2019

18. Detection of haplosporidian protistan parasites supports an increase to their known diversity, geographic range and bivalve host specificity.

Author

Lynch, S. A., Lepée-Rivero, S., Kelly, R., Quinn, E., Coghlan, A., Bookelaar, B., Morgan, E., Finarelli, J. A., Carlsson, J., and Culloty, S. C.

Subjects
CRASSOSTREA, DNA, MYTILUS galloprovincialis, AQUATIC animals, PARASITES, MYTILUS edulis
Abstract

Haplosporidian protist parasites are a major concern for aquatic animal health, as they have been responsible for some of the most significant marine epizootics on record. Despite their impact on food security, aquaculture and ecosystem health, characterizing haplosporidian diversity, distributions and host range remains challenging. In this study, water filtering bivalve species, cockles Cerastoderma edule, mussels Mytilus spp. and Pacific oysters Crassostrea gigas, were screened using molecular genetic assays using deoxyribonucleic acid (DNA) markers for the Haplosporidia small subunit ribosomal deoxyribonucleic acid region. Two Haplosporidia species, both belonging to the Minchinia clade, were detected in C. edule and in the blue mussel Mytilus edulis in a new geographic range for the first time. No haplosporidians were detected in the C. gigas, Mediterranean mussel Mytilus galloprovincialis or Mytilus hybrids. These findings indicate that host selection and partitioning are occurring amongst cohabiting bivalve species. The detection of these Haplosporidia spp. raises questions as to whether they were always present, were introduced unintentionally via aquaculture and or shipping or were naturally introduced via water currents. These findings support an increase in the known diversity of a significant parasite group and highlight that parasite species may be present in marine environments but remain undetected, even in well-studied host species. [ABSTRACT FROM AUTHOR]

Published
2020
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20. Bonamia ostreae in the Native Oyster Ostrea edulis

Author

Culloty, S. C. and Mulcahy, M. F.

Subjects
MEHS
Abstract

Ireland has a long history of producing and harvesting native flat oysters, Ostrea edulis. At the start of the nineteenth century, almost every bay and harbour, around the coast had abundant beds of native oysters. Intensive dredging to meet the demands of the markets in Dublin and England depleted the stocks, so that in 1845 the government passed legislation to permit the formation of private oyster beds to improve the ailing stocks. According to the book on “Shellfish & Shellfisheries of Ireland” (Wilkins, 2004) Irish stocks began to collapse between 1850 and 1860. By the second half of the twentieth century, only the beds of Tralee Bay, Galway Bay and Clew Bay were still yielding a good return for local fishermen. The arrival of the oyster parasite Bonamia ostreae in the mid 1980s was an additional blow to the Irish native oyster stocks. This report sets out to document the spread and the impact of the Bonamia ostreae parasite in Irish bays since the 1980s., Funder: Marine Institute

Published
2007

22. The role of the mussel Mytilus spp. in the transmission of ostreid herpesvirus-1 microVar.

Author

O’ Reilly, A. J., Laide, C., Maloy, A, Hutton, S., Bookelaar, B., O’ Sullivan, K., Lynch, S. A., and Culloty, S. C.

Subjects
PACIFIC oysters, CRASSOSTREA, MUSSELS, MARINE ecology, HERPESVIRUS diseases
Abstract

The Pacific oyster Crassostrea gigas contributes significantly to global aquaculture; however, C. gigas culture has been affected by ostreid herpesvirus-1 (OsHV-1) and variants. The dynamics of how the virus maintains itself at culture sites is unclear and the role of carriers, reservoirs or hosts is unknown. Both wild and cultured mussels Mytilus spp. ( Mytilus edulis , Mytilus galloprovincialis and hybrids) are commonly found at C. gigas culture sites. The objective of this study was to investigate if Mytilus spp. can harbour the virus and if viral transmission can occur between mussels and oysters. Mytilus spp. living at oyster trestles, 400–500 m higher up the shore from the trestles and up to 26 km at non-culture sites were screened for OsHV-1 and variants by all the World Organization for Animal Health (OIE) recommended diagnostic methods including polymerase chain reaction (PCR), quantitative PCR (qPCR), histology, in situ hybridization and confirmation using direct sequencing. The particular primers that target OsHV-1 and variants, including OsHV-1 microVar ( μ Var), were used in the PCR and qPCR. OsHV-1 μ Var was detected in wild Mytilus spp. at C. gigas culture sites and more significantly the virus was detected in mussels at non-culture sites. Cohabitation of exposed wild mussels and naïve C. gigas resulted in viral transmission after 14 days, under an elevated temperature regime. These results indicate that mussels can harbour OsHV-1 μ Var; however, the impact of OsHV-1 μ Var on Mytilus spp. requires further investigation. [ABSTRACT FROM AUTHOR]

Published
2018
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25. Susceptibility of a number of bivalve species to the protozoan parasite Bonamia ostreae and their ability to act as vectors for this parasite

Author

Culloty, S. C., Novoa, Beatriz, Pernas, María, Longshaw, Matt, Mulcahy, M. F., Feist, Stephen W., Figueras Huerta, Antonio, Culloty, S. C., Novoa, Beatriz, Pernas, María, Longshaw, Matt, Mulcahy, M. F., Feist, Stephen W., and Figueras Huerta, Antonio

Abstract

The protozoan parasite Bonamia ostreae (Pichot et al., 1980) is a serious pathogen of the native European flat oyster Ostrea edulis. Field and laboratory based experiments were carried out in Ireland and Spain to investigate the susceptibility to this protozoan of the Pacific oyster Crassostrea gigas, the mussels Mytilus edulis and Mytilus galloprovincialis, the European native clam Ruditapes decussatus and the Manila clam Ruditapes philippinarum. Their ability to act as vectors or intermediate hosts was also investigated. The study corroborated previous findings that demonstrated that flat oysters can be successfully infected both naturally in the field and experimentally in the laboratory, and the pathogen can be transmitted directly between flat oysters in the laboratory. However, the other bivalves tested could not be infected with the parasite either naturally or experimentally, and these bivalves did not appear to act as vectors or intermediate hosts for the parasite. These results have implications for movements of bivalves between areas within the European Union.

Published
1999

28. Infection of Mytilus edulis by the trematode Echinostephilla patellae (Digenea: Philophthalmidae).

Author

Prinz, K., Kelly, T. C., O'Riordan, R. M., and Culloty, S. C.

Subjects
MYTILUS edulis, MUSSELS, INFECTION, ANIMAL morphology, PARASITES
Abstract

The blue mussel Mytilus edulis is described as second intermediate host for Echinostephilla patellae from the common limpet Patella vulgata. Mussels were infected with metacercariae of E. patellae under laboratory conditions. Average infection rates increased with increasing temperature, whereas numbers of cercariae, to which individual mussels were exposed, had no effect on relative infection success. The round to slightly oval metacercariae with an average cyst diameter of 208 mm(range 186-243µm) encysted exclusively in the foot tissue of M. edulis. Morphologically similar metacercariae were found in naturally infected mussels at sites where parasitized P. vulgata and M. edulis are sympatric. This is the first report of E. patellae in blue mussels. The detection of M. edulis being a second intermediate host is of particular interest with regard to the abundance of the parasite and host organisms in intertidal rocky shore ecosystems. The potential role of the common limpet P. vulgata as an alternative secondary host is discussed. [ABSTRACT FROM AUTHOR]

Published
2010
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30. Comparison of two methods of haemoglobin measurement in rainbow trout, Oncorhynchus mykiss (Walbaum).

Author

Culloty, S. C., Cross, T. F., and O'Halloran, J.

Subjects
*TROUT, *FISHES, *BLOOD testing, *FISH food, *HEMOGLOBINS, *AQUATIC animals, *FISHERY management
Abstract

Focuses on the examination of fish health through its hematological status. Use of measurements of hematological status to assess dietary adequacy and to evaluate physiological responses; Comparison of two methods of hemoglobin measurement in rainbow trout; Accuracy and precision of measuring hemoglobin.

Published
1991
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31. COMPARISON OF TECHNIQUES FOR DIAGNOSIS OF BROWN RING DISEASE AND DETECTION OF VIBRIO TAPETIS IN THE MANILA CLAM, VENERUPIS (RUDITAPES) PHILIPPINARUM.

Author

Drummond, L. C., O'Reilly, P., Mulcahy, M. F., and Culloty', S. C.

Abstract

The bacterium, Vibrio tapetis, is the aetiological agent of Brown Ring Disease (BRD), which affects the Manila clam, Venerupis (Ruditapes) philippinarum. Two PCR assays for detection of V. tapetis were applied to a sample of 52 Manila clams, and evaluated in comparison with the more traditional V. tapetis detection method of microbiological isolation and characterization, as well as the traditional BRD diagnostic technique of shell valve analysis. The pathogen was detected in 15.4% of the sample using the PCR assay of Rodríguez et al. (2003, 2006) in 50% of the sample using the PCR assay of Paillard et al. (2006) and in 36.5% of the sample by microbiological methods. Whereas shell valve analysis was the least sensitive technique, detecting BRD in 7.7% of the sample, it was an essential diagnostic tool because it was the only technique that identified the disease, rather than the aetiological agent. None of the four techniques was sufficient on its own for effective BRD diagnosis; rather various combinations of two techniques were the minimum required. The combination of shell valve analysis with the assay of Paillard et al. (2006) proved to be the most sensitive and rapid of those tested. Shell valve analysis was the most time-efficient and cost-effective technique, whereas microbiological characterization was the most time-consuming, and PCR detection, using either set of primers, the most expensive. These results may need to be considered in light of diagnosis and management of BRD. [ABSTRACT FROM AUTHOR]

Published
2006
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32. THE SUSCEPTIBILITY OF YOUNG PRESPAWNING OYSTERS, OSTREA EDULIS, TO BONAMIA OSTREAE.

Author

Lynch, S. A., Armitage, D. V., Wylde, S., Mulcahy, M. F., and Culloty, S. C.

Abstract

Young prespawning oysters, Ostrea edulis, were held over 6 mo at two different Bonamia ostreae-endemic sites in Ireland, to determine to what extent they could become infected with this protozoan parasite. Prevalence and intensity of infection were monitored, using the traditional method of ventricular heart smears and polymerase chain reaction (PCR). Results showed that 0+ and 1+ oysters were susceptible to infection. Infection was observed in the naïve and previously exposed oysters 2 months post relaying. Of ventricular heart smears and PCR, PCR was the more sensitive diagnostic technique in detecting B. ostreae in most of the oysters. Current methods recommended by the Office International Epizooties (OlE) and the European Union (EU), histology and screening of heart smears for B. ostreae, may be inadequate because certain low levels of infection may go undetected. [ABSTRACT FROM AUTHOR]

Published
2005
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38. Biotic and abiotic factors influencing haplosporidian species distribution in the cockle Cerastoderma edule in Ireland.

Author

Albuixech-Martí S, Lynch SA, and Culloty SC

Subjects
Age Factors, Animals, Biodiversity, Body Size, Ireland, Seasons, Species Specificity, Cardiidae parasitology, Haplosporida physiology, Host-Parasite Interactions, Seawater chemistry
Abstract

The Phylum Haplosporidia consists of four genera (Minchinia, Haplosporidium, Urosporidium and Bonamia) that are endoparasitic protists of a wide range of marine invertebrates including commercial bivalve species. Characterization of haplosporidian species remains a challenge due to their patchy spatial and temporal distributions, host-restricted occurrence, and poorly known life cycles. However, they are commonly associated with significant mortality events in bivalves. Due to the recent sporadic mortality events that have occurred in cockles in Europe, the objectives of this study were to determine the diversity, distribution and seasonality of haplosporidian species in Cerastoderma edule populations at several Irish sites. The role of abiotic (temperature, salinity and dissolved oxygen in water) and biotic (cockle size and age) factors as drivers or inhibitors of haplosporidian infection were also assessed. Cockles (n = 998) from the intertidal were sampled from April/July 2018 to April 2019 at three sites with no commercial fishing activity on the south coast (Celtic Sea) and one site on the northeast coast (Irish Sea) with an active commercial fishery. Screening of the cockles by molecular techniques (PCR, Sanger sequencing) and by histopathology was carried out. Two species were identified and confirmed in Irish C. edule for the first time, Minchinia mercenariae -like (14.8%) and Minchinia tapetis (29.6%). Similar to other haplosporidian parasites, the Minchinia spp. detected in our study were present year-round at all sites, except for M. tapetis in Youghal Bay (Celtic Sea). Coinfection of both Minchinia species was only observed in Cork Harbour (Celtic Sea) and Dundalk Bay (Irish Sea), where Minchinia spp. showed a higher presence compared to Youghal Bay and Dungarvan Harbour (Celtic Sea). Moreover, haplosporidians detected with generic primers, were present at all of the sample sites throughout the year but had a higher occurrence during the winter months and were positively correlated with dissolved oxygen. Likewise, smaller and older C.edule seemed to be more vulnerable to the haplosporidian infection. Furthermore, haplosporidian distribution displayed spatial variability between and within sample sites, with the highest presence being observed in cockles at one of the commercially fished Dundalk beds, while the lowest presence was observed in cockles at the second Dundalk bed that was more influenced by freshwater runoff when the tide was out. Findings from this study provide additional information on the distribution and seasonal presence of novel haplosporidian species and their potential abiotic and biotic drivers/inhibitors of infection., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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39. Role of the intertidal predatory shore crab Carcinus maenas in transmission dynamics of ostreid herpesvirus-1 microvariant.

Author

Bookelaar BE, O'Reilly AJ, Lynch SA, and Culloty SC

Subjects
Animals, Crassostrea, Food Chain, In Situ Hybridization, Real-Time Polymerase Chain Reaction, Brachyura virology, Herpesviridae isolation & purification, Ostreidae virology
Abstract

Ostreid herpesvirus-1 microVar (OsHV-1 µVar) has been responsible for significant mortalities globally in the Pacific oyster Crassostrea gigas. While the impact of this virus on the Pacific oyster has been significant, this pathogen may have wider ecosystem consequences. It has not been definitively determined how the virus is sustaining itself in the marine environment and whether other species are susceptible. The shore crab Carcinus maenas is a mobile predator and scavenger of C. gigas, commonly found at Pacific oyster culture sites. The aim of this study was to investigate the role of the crab in viral maintenance and transmission to the Pacific oyster. A field trial took place over 1 summer at different shore heights at 2 Irish Pacific oyster culture sites that are endemic for OsHV-1 µVar. Infection of OsHV-1 µVar in tissues of C. maenas at both shore heights of both sites was detected by polymerase chain reaction (PCR), quantitative PCR (qPCR), in situ hybridization and direct Sanger sequencing. In addition, a laboratory trial demonstrated that transmission of the virus could occur to naïve C. gigas within 4 d, from C. maenas previously exposed to the virus in the wild. These findings provide some insight into the possibility that the virus can be transmitted through marine food webs. The results also suggest viral plasticity in the hosts required by the virus and potential impacts on a range of crustacean species with wider ecosystem impacts if transmission to other species occurs.

Published
2018
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40. The role of the mussel Mytilus spp. in the transmission of ostreid herpesvirus-1 microVar.

Author

O' Reilly AJ, Laide C, Maloy A, Hutton S, Bookelaar B, O' Sullivan K, Lynch SA, and Culloty SC

Subjects
Animals, Aquaculture, DNA Primers, DNA Viruses genetics, DNA, Viral, Disease Reservoirs virology, Herpesviridae Infections transmission, Real-Time Polymerase Chain Reaction, Crassostrea virology, DNA Viruses isolation & purification, Herpesviridae Infections veterinary, Mytilus virology
Abstract

The Pacific oyster Crassostrea gigas contributes significantly to global aquaculture; however, C. gigas culture has been affected by ostreid herpesvirus-1 (OsHV-1) and variants. The dynamics of how the virus maintains itself at culture sites is unclear and the role of carriers, reservoirs or hosts is unknown. Both wild and cultured mussels Mytilus spp. (Mytilus edulis, Mytilus galloprovincialis and hybrids) are commonly found at C. gigas culture sites. The objective of this study was to investigate if Mytilus spp. can harbour the virus and if viral transmission can occur between mussels and oysters. Mytilus spp. living at oyster trestles, 400-500 m higher up the shore from the trestles and up to 26 km at non-culture sites were screened for OsHV-1 and variants by all the World Organization for Animal Health (OIE) recommended diagnostic methods including polymerase chain reaction (PCR), quantitative PCR (qPCR), histology, in situ hybridization and confirmation using direct sequencing. The particular primers that target OsHV-1 and variants, including OsHV-1 microVar (μVar), were used in the PCR and qPCR. OsHV-1 μVar was detected in wild Mytilus spp. at C. gigas culture sites and more significantly the virus was detected in mussels at non-culture sites. Cohabitation of exposed wild mussels and naïve C. gigas resulted in viral transmission after 14 days, under an elevated temperature regime. These results indicate that mussels can harbour OsHV-1 μVar; however, the impact of OsHV-1 μVar on Mytilus spp. requires further investigation.

Published
2018
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41. A health status survey of clams, Mya arenaria and Ensis siliqua, in the Irish Sea.

Author

Cross ME, Lynch S, O'Riordan RM, and Culloty SC

Abstract

The soft shell clam, Mya arenaria, and the razor clam, Ensis siliqua, are widely distributed in Irish waters. Though the reproductive biology and other aspects of the physiology of these species has been previously investigated, little or no data are currently available on their health status. As this knowledge is essential for correct management of a species, M. arenaria and E. siliqua were examined to assess their current health status using histological and molecular methods, over a period of sixteen months. No pathogens or disease were observed in M. arenaria, and low incidences of Prokaryote inclusions, trematode parasites, Nematopsis spp. and eosinophilic bodies were recorded in razor clams for the first time in Northern European waters., (Copyright © 2014. Published by Elsevier Inc.)

Published
2014
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42. The health status of mussels, Mytilus spp., in Ireland and Wales with the molecular identification of a previously undescribed haplosporidian.

Author

Lynch SA, Morgan E, Carlsson J, Mackenzie C, Wooton EC, Rowley AF, Malham S, and Culloty SC

Subjects
Animals, Ireland, Polymerase Chain Reaction, Wales, Water Quality, Haplosporida genetics, Mytilus edulis parasitology
Abstract

Both wild and cultured mussels (Mytilus edulis, Mytilus galloprovincialis and hybrids), are found along most of the Irish coastline. M. edulis is widespread along all Irish coasts and is the only mussel species present on both the east coast of Ireland and the Welsh coast in the Irish Sea. M. galloprovincialis and hybrids are found along the Irish coastline except for the east coast. Samples of Mytilus spp. were collected from twenty-four sites, encompassing all coasts of Ireland and the Welsh coast, at different times of the year and over several years (2008-2011). In total, 841 mussels were examined histologically to assess their health status and the presence of any parasites or commensals. Mussels from 14 of the 24 sites were screened using polymerase chain reaction (PCR) to determine which mytilid species were present. A range of parasites were observed, generally at low levels. The most diverse community of parasites was observed at a sheltered site with poor water quality. Of significance, a previously undescribed haplosporidian was detected in a single mussel sample in the Menai Strait, Wales, by PCR and was confirmed by direct sequencing and is most closely related to Minchina chitonis and a haplosporidian of the Florida marsh clam Cyrenoida floridana. While M. edulis were infected by a variety of micro- and macro-parasites, only trematodes were observed in M. galloprovincialis and hybrids. Habitat description and the environmental factors influencing the study sites, including water quality and exposure, were recorded., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published
2014
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43. The occurrence of haplosporidian parasites, Haplosporidium nelsoni and Haplosporidium sp., in oysters in Ireland.

Author

Lynch SA, Villalba A, Abollo E, Engelsma M, Stokes NA, and Culloty SC

Subjects
Animals, Environmental Monitoring, Haplosporida classification, Haplosporida genetics, Host-Pathogen Interactions, Ireland, Haplosporida physiology, Ostreidae parasitology
Abstract

The phylum Haplosporidia is a group of obligate protozoan parasites that infect a number of freshwater and marine invertebrates. Haplosporidian parasites have caused significant mortalities in commercially important shellfish species worldwide. In this study, haplosporidia were detected in Pacific oysters Crassostrea gigas originating in Ireland and were subsequently identified independently in laboratories both in Ireland and in Spain as Haplosporidium nelsoni. In Ireland, H. nelsoni plasmodia were also observed in the heart tissue of a single Ostrea edulis. A range of techniques including heart smear screening, histology, standard polymerase chain reaction (PCR), direct sequencing and in situ hybridisation with an H. nelsoni specific DNA probe were carried out to confirm diagnosis. This is the first reporting of H. nelsoni in oysters in Ireland and this is the first reporting of the detection of this haplosporidian in O. edulis. In Ireland, another haplosporidian was also observed in a single O. edulis during heart smear screening. PCR and DNA sequencing were carried out and indicated the presence of a Haplosporidium sp., most likely Haplosporidium armoricanum. The low prevalence and intensity of infection of both haplosporidian species in Irish C. gigas and in particular O. edulis may indicate that their presence is inconsequential., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published
2013
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44. Influence of disseminated neoplasia, trematode infections and gametogenesis on surfacing and mortality in the cockle Cerastoderma edule.

Author

Morgan E, O'Riordan RM, Kelly TC, and Culloty SC

Subjects
Animals, Female, Host-Parasite Interactions, Male, Sex Ratio, Cardiidae, Gametogenesis physiology, Neoplasms, Trematoda isolation & purification
Abstract

Cerastoderma edule is a widely distributed bivalve mollusc, commercially exploited throughout Europe and is also an important food source for birds and crustaceans. Recently, mass surfacing and mortalities of cockles have been observed and reported at sites in Ireland and elsewhere, particularly in the summer months. One such site is Flaxfort Strand, Courtmacsherry Bay, County Cork, Ireland, an important feeding area used by many seabirds during the summer months. For the past few years large numbers of surfaced cockles have been observed at the site in a moribund condition. Samples of cockles from this area were collected over the summer months and their health status assessed. Cockles that had surfaced (moribund) and those still buried in the sediment were quantified and screened: sex, gonadal maturity and size class of cockles were also determined. Disseminated neoplasia and trematodes were observed in screened cockles. The most significant finding during the study was that mortalities and surfacing of cockles was related to a greater incidence of disseminated neoplasia. No neoplasia was observed in the smallest and largest size classes. There was a significantly higher prevalence of neoplasia in moribund cockles than in buried cockles, whereas in both groups a similar concentration of trematode metacercariae was observed in the screened tissues. Also, most of the cockles that had surfaced were either in the process of spawning or were spent. Overall a much larger percentage of moribund cockles exhibited both trematode infections plus neoplasia compared with buried cockles. A combination of the presence of neoplasia and trematodes, along with stress related to spawning, may immunocompromise the cockless, causing the animals to surface and become moribund.

Published
2012
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45. Investigating the possible role of benthic macroinvertebrates and zooplankton in the life cycle of the haplosporidian Bonamia ostreae.

Author

Lynch SA, Armitage DV, Coughlan J, Mulcahy MF, and Culloty SC

Subjects
Animals, DNA, Protozoan analysis, Haplosporida genetics, Haplosporida isolation & purification, Polymerase Chain Reaction, Seasons, Starfish parasitology, Geologic Sediments parasitology, Haplosporida growth & development, Invertebrates parasitology, Life Cycle Stages, Ostreidae parasitology, Zooplankton parasitology
Abstract

Bonamia ostreae is a protistan parasite of the European flat oyster, Ostrea edulis. Though direct transmission of the parasite can occur between oysters, it is unclear if this represents the complete life cycle of the parasite, and the role of a secondary or intermediate host or carrier species cannot be ruled out. In this preliminary study, benthic macroinvertebrates and zooplankton from a B. ostreae-endemic area were screened for the presence of parasite DNA, using polymerase chain reaction (PCR). Eight benthic macroinvertebrates and nineteen grouped zooplankton samples gave positive results. Certain species, found positive for the parasite DNA, were then used in laboratory transmission trials, to investigate if they could infect naïve oysters. Transmission of B. ostreae was effected to two naïve oysters cohabiting with the brittle star, Ophiothrix fragilis.

Published
2007
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46. Impacts of microcystins on the feeding behaviour and energy balance of zebra mussels, Dreissena polymorpha: a bioenergetics approach.

Author

Juhel G, Davenport J, O'Halloran J, Culloty SC, O'Riordan RM, James KF, Furey A, and Allis O

Subjects
Animals, Diet veterinary, Dreissena metabolism, Dreissena physiology, Eating drug effects, Particle Size, Dreissena drug effects, Energy Metabolism drug effects, Feeding Behavior drug effects, Microcystins toxicity, Microcystis chemistry
Abstract

Microcystins are produced by bloom-forming cyanobacteria and pose significant health and ecological problems. To investigate the impacts of these biotoxins on the physiology of the zebra mussels, Dreissena polymorpha, a series of short-term feeding experiments were conducted in the laboratory. We used five microalgal diets consisting of single-cell suspensions of the green algae, Chlorella vulgaris, the diatom, Asterionella formosa, the cryptophyte, Cryptomonas sp. and two strains of the toxic cyanobacterium, Microcystis aeruginosa (strains CCAP 1450/06 and CCAP 1450/10). A sixth diet was a mixture of the diatom and the CCAP 1450/10 cyanobacterial strain. The low-toxicity strain CCAP 1450/06 contained 7.4 microg l(-1) of the MC-LR variant while the very toxic strain CCAP 1450/10 contained 23.8 microg l(-1) of MC-LR and 82.9 microg l(-1) of MC-LF. A flow-through system was designed to measure the following feeding parameters: clearance, filtration, ingestion and absorption rates. Ultimately the scope for growth (SFG) was determined as a net energy balance. We observed that mussels cleared the cyanobacterial species containing MC-LF (mean+/-95% confidence interval) at a significant lower rate (498+/-82 ml h(-1) g(-1) for the single cell suspension and 663+/-100 ml h(-1) g(-1) for the mixture diet) than all of the non-toxic species and the cyanobacterium containing MC-LR (all above 1l h(-1) g(-1)). The same pattern was observed with all the feeding parameters, particularly absorption rates. Furthermore, MC-LF caused an acute irritant response manifested by the production of 'pseudodiarrhoea', unusually fluid pseudofaeces, rich in mucus and MC-LF-producing Microcystis cells, ejected through the pedal gape of the mussels. This overall response therefore demonstrates selective rejection of MC-LF-producing cyanobacteria by zebra mussels, enhancing the presence of the very toxic MC-LF-producing M. aeruginosa in mixed cyanobacterial blooms and in the benthos. Finally, we observed that the SFG (mean+/-95% confidence interval) of mussels feeding on M. aeruginosa containing MC-LF was significantly lower (34.0+/-18.8 J h(-1) g(-1) for the single cell suspension and 83.1+/-53.0 J h(-1) g(-1) for the mixture diet) than for mussels ingesting non-toxic diets, except for C. vulgaris (all above 200 J h(-1)g(-1)). This reveals a sublethal, stressful effect of microcystins (particularly MC-LF) on the feeding behaviour and energy balance of the zebra mussel.

Published
2006
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47. Lysozyme activity and protein concentration in the haemolymph of the flat oyster Ostrea edulis (L.).

Author

Cronin MA, Culloty SC, and Mulcahy MF

Subjects
Animals, Eukaryota isolation & purification, Eukaryota physiology, Hemolymph metabolism, Ostreidae chemistry, Ostreidae parasitology, Seasons, Hemolymph enzymology, Muramidase metabolism, Ostreidae enzymology, Proteins analysis
Abstract

Lysozyme activity and protein concentration in the haemolymph of the flat oyster Ostrea edulis were investigated. These biochemical constituents of the haemolymph could be an indication of the physiological condition and vitality of the defence system of an animal. Haemolymph protein and lysozyme in oysters were examined over an 18 month period to determine their relationship with the strain of oyster, the season, the site, and parasitism by Bonamia ostreae. Haemolymph protein concentration exhibited seasonal fluctuations and varied between strains. Levels of protein in oysters highly infected with B. ostreae were slightly depressed but not significantly so. Haemolymph lysozyme varied greatly between individuals but no correlation was found between lysozyme levels and infection of oysters by B. ostreae.

Published
2001
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48. Development of a PCR assay for detection of the oyster pathogen Bonamia ostreae and support for its inclusion in the Haplosporidia.

Author

Carnegie RB, Barber BJ, Culloty SC, Figueras AJ, and Distel DL

Subjects
Animals, Base Sequence, DNA Primers chemistry, DNA, Protozoan chemistry, DNA, Protozoan isolation & purification, Eukaryota classification, Eukaryota genetics, Europe, Molecular Sequence Data, Polymerase Chain Reaction methods, Sensitivity and Specificity, Sequence Analysis, DNA, United States, Eukaryota isolation & purification, Ostreidae parasitology, Phylogeny, Polymerase Chain Reaction veterinary
Abstract

The development of diagnostic assays more sensitive and specific than traditional histological techniques is important for the management of bonamiasis in flat oysters Ostrea edulis. A specific polymerase chain reaction (PCR) protocol was developed for the detection of very small amounts of Bonamia ostreae (Pichot et al. 1980) ribosomal DNA (rDNA) in bulk DNA from oyster gill and hemolymph. The presence of a 760 bp PCR amplification product corresponded with B. ostreae infections determined cytologically in 185 oysters from Ireland, Spain, and the USA. All (100%) 'heavily' and 'moderately' infected oysters, 86.7 % of the 'lightly' infected oysters, and 66.7 % of the 'scarcely' infected oysters were confirmed to be infected using the PCR. In addition, 37.9% of the oysters in which B. ostreae was not detected using cytology were positive using the PCR. Sampling error and the subjectivity of cytological diagnoses are the likely sources of disagreement between diagnostic methods in oysters with very light infections. The PCR assay developed here is more sensitive and less ambiguous than standard histological and cytological techniques. Phylogenetic analysis of DNA sequence data confirmed B. ostreae to be a member of the Haplosporidia.

Published
2000
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