Your search keyword '"de Montaudouin X"' showing total 11 results

1. Trematode genetic patterns at host individual and population scales provide insights about infection mechanisms.

Author

Correia S, Fernández-Boo S, Magalhães L, de Montaudouin X, Daffe G, Poulin R, and Vera M

Subjects

Animals, Host-Parasite Interactions, Phylogeography, Trematoda genetics, Parasites, Cardiidae parasitology

Abstract

Multiple parasites can infect a single host, creating a dynamic environment where each parasite must compete over host resources. Such interactions can cause greater harm to the host than single infections and can also have negative consequences for the parasites themselves. In their first intermediate hosts, trematodes multiply asexually and can eventually reach up to 20% of the host's biomass. In most species, it is unclear whether this biomass results from a single infection or co-infection by 2 or more infective stages (miracidia), the latter being more likely a priori in areas where prevalence of infection is high. Using as model system the trematode Bucephalus minimus and its first intermediate host cockles, we examined the genetic diversity of the cytochrome c oxidase subunit I region in B. minimus from 3 distinct geographical areas and performed a phylogeographic study of B. minimus populations along the Northeast Atlantic coast. Within localities, the high genetic variability found across trematodes infecting different individual cockles, compared to the absence of variability within the same host, suggests that infections could be generally originating from a single miracidium. On a large spatial scale, we uncovered significant population structure of B. minimus , specifically between the north and south of Bay of Biscay. Although other explanations are possible, we suggest this pattern may be driven by the population structure of the final host.

Published

2023

2. Inertia of parasite infection versus host biomass fluctuation.

Author

de Montaudouin X and Stout L

Subjects

Animals, Host-Parasite Interactions, Biomass, Trematoda, Parasites, Parasitic Diseases, Cardiidae parasitology

Abstract

Infection by parasites with complex life cycles such as trematodes depends on many environmental factors which may result in a time-lag between host biomass fluctuations and parasite density in hosts. A cockle (marine bivalve, second intermediate host) population and its associated parasite community were monitored over 15 years. A time-shift correlation analysis suggests that trematode abundance in cockles responds to cockle biomass after a long delay (8 year time-lag). Thus, these parasites can sustainably support a deficit of their intermediate host., (Copyright © 2023 Australian Society for Parasitology. Published by Elsevier Ltd. All rights reserved.)

Published

2023

3. Extrinsic and intrinsic drivers of parasite prevalence and parasite species richness in a marine bivalve.

Author

Mahony KE, Lynch SA, de Montaudouin X, and Culloty SC

Subjects

Animals, Host-Parasite Interactions, Prevalence, Cardiidae parasitology, Parasites, Trematoda

Abstract

Parasite species richness is influenced by a range of drivers including host related factors (e.g. host size) and environmental factors (e.g. seawater temperature). However, identification of modulators of parasite species richness remains one of the great unanswered questions in ecology. The common cockle Cerastoderma edule is renowned for its diversity and abundance of parasites, yet drivers of parasite species richness in cockles have not been examined to investigate the association of both macro and microparasite communities. Using cockles as a model species, some of the key drivers of parasite prevalence and parasite species richness were investigated. Objectives of this 19-month survey were to determine the influence of the environment, host-parasite dynamics and parasite associations on parasite species richness and prevalence at two different geographic latitudes, chosen based on environmental differences. The highest parasite species richness was recorded in the northern sites, and this was potentially influenced by a range of interactions between the host, the pathogens and the environment. Parasite prevalence increased with host size and age, and parasite species richness increased with reduced salinity. A number of interactions between parasites, and between parasites and pathologies may be influencing parasite infection dynamics. New and concerning information is also presented regarding interactions between parasites and their environment. A number of parasites and potential pathogens (bacteria, Trichodina ciliates, metacercariae, trematode sporocysts) may be advantaged under climate change conditions (warming seas, increased precipitation), increasing disease incidence, which may prove detrimental not just for cockles, but for other bivalve species in the future., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

4. Parasitism in ecosystem engineer species: A key factor controlling marine ecosystem functioning.

Author

Pascal L, Grémare A, de Montaudouin X, Deflandre B, Romero-Ramirez A, and Maire O

Subjects

Animals, Ecosystem, Host-Parasite Interactions, Decapoda, Isopoda, Parasites

Abstract

Although parasites represent a substantial part of marine communities' biomass and diversity, their influence on ecosystem functioning, especially via the modification of host behaviour, remains largely unknown. Here, we explored the effects of the bopyrid ectoparasite Gyge branchialis on the engineering activities of the thalassinid crustacean Upogebia pusilla and the cascading effects on intertidal ecosystem processes (e.g. sediment bioturbation) and functions (e.g. nutrient regeneration). Laboratory experiments revealed that the overall activity level of parasitized mud shrimp is reduced by a factor 3.3 due to a decrease in time allocated to burrowing and ventilating activities (by factors 1.9 and 2.9, respectively). Decrease in activity level led to strong reductions of bioturbation rates and biogeochemical fluxes at the sediment-water interface. Given the world-wide distribution of mud shrimp and their key role in biogeochemical processes, parasite-mediated alteration of their engineering behaviour has undoubtedly broad ecological impacts on marine coastal systems functioning. Our results illustrate further the need to consider host-parasite interactions (including trait-mediated indirect effects) when assessing the contribution of species to ecosystem properties, functions and services., (© 2020 British Ecological Society.)

Published

2020

5. How does the bopyrid isopod Gyge branchialis interfere with trace metal bioaccumulation in the mud shrimp Upogebia cf. pusilla?

Author

Dairain A, Legeay A, Gernigon V, and de Montaudouin X

Subjects

Animals, Cadmium analysis, Decapoda growth & development, Gills growth & development, Gills parasitology, Trace Elements analysis, Trace Elements metabolism, Cadmium metabolism, Decapoda metabolism, Decapoda parasitology, Isopoda metabolism, Parasites metabolism

Abstract

Parasites are widespread in natural environments, and their impacts on the fitness of their host and, at a broader scale, on ecosystem functioning are well recognized. Over the last two decades, there has been an increasing interest in the effects of parasites in conjunction with other stressors, especially pollutants, on the health of organisms. For instance, parasites can interfere with the bioaccumulation process of contaminants in their host leading to parasitized organisms exhibiting lower pollutants burdens than unparasitized individuals for example. However, the mechanisms underlying these patterns are not well understood. This study examined how the bopyrid parasite Gyge branchialis could lower the cadmium (Cd) uptake of its mud shrimp host Upogebia cf. pusilla. When exposed to water-borne Cd, parasites were able to bioaccumulate this trace metal. However, the uptake of Cd by the parasite was low and cannot entirely explain the deficit of Cd contamination of the host. The weight of gills of parasitized organisms was significantly reduced compared with unparasitized organisms. We suggest that by reducing the surface for metal uptake, parasites could lower the contaminant burden of their host.

Published

2019

6. Spatio-temporal variation of trematode parasites community in Cerastoderma edule cockles from Ria de Aveiro (Portugal).

Author

Magalhães L, Correia S, de Montaudouin X, and Freitas R

Subjects

Animals, Europe, Host-Parasite Interactions, Portugal, Cardiidae, Parasites, Trematoda

Abstract

Cerastoderma edule (edible cockle) is among the most exploited bivalves in Europe playing an important socio-economic role. Cockles live in estuaries and lagoons where their population is controlled by several environmental factors including parasitism. Parasites represent an important part of the world known biodiversity but are often neglected. Trematodes are the most prevalent macroparasites of cockles being able to exert an impact both at the individual and population levels. Therefore, it is of prime relevance to recognize and understand the parasite-host system dynamics in order to better predict potential conservation threats to bivalve populations and to maximize the success of stock and disease episodes management. Cockle monitoring was conducted in 2012 and 2016, in six and eight stations, respectively, at the Ria de Aveiro coastal lagoon, Portugal. Cockles were sampled in one single occasion in 2012 and seasonally in 2016. The tested hypothesis is that the trematode community in cockles was spatially and seasonally heterogeneous but stable over time. The main result showed that despite a relative homogeneity of the parasite community structure in cockles, the among-years heterogeneity of trematode communities was higher than among-stations and among-seasons heterogeneity rejecting the postulated hypothesis. Results demonstrated that trematode communities from the Ria de Aveiro are characterized by low abundance, which resulted in a spatial and seasonal trematode homogeneity (despite an overall channel difference and a slight downstream-upstream gradient). The interannual analysis showed a worrisome loss of trematode diversity and prevalence which consequently indicates an important loss of overall diversity and/or environmental conditions reflecting the negative effects of global change (mean temperature rise and overharvesting, among others). The present study highlighted the importance of trematodes in characterising their associated environment and respective biodiversity which might be helpful to assess ecosystem ecological status and to identify threatened areas., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

7. Effect of trematode parasites on cockle Cerastoderma edule growth and condition index : a transplant experiment

Author

de Montaudouin, X., Bazairi, H., and Culloty, S.

Published

2012

8. Distribution of parasites in their second intermediate host, the cockle Cerastoderma edule : community heterogeneity and spatial scale

Author

de Montaudouin, X. and Lanceleur, L.

Published

2011

9. Can host density attenuate parasitism?

Author

Magalhães, L., Freitas, R., Dairain, A., and De Montaudouin, X.

Abstract

Bivalve populations display fluctuating densities resulting in different interactions among them and with their environment. Using the edible cockle (Cerastoderma edule) as a model, we investigated two alternative hypotheses concerning the effect of density on individual infection intensity by trematode parasites. Considering that these parasites infect cockles through filtration activity, our first hypothesis was that high host density will have a dilution effect so that infection intensity decreases with host density. Conversely, high cockle density could attract other hosts used by these trematode parasites to complete their life cycle. A 17-year monthly survey of a cockle population in Arcachon Bay, France, showed a negative correlation between the cockle density and the abundance of parasite larvae in juvenile cockles with a significant threshold when adult cockle density reached 400 ind. m−2. This result was confirmed for the four dominating trematode parasites, independently considered. Additionally, a field experiment was performed during 9 months, with cockles maintained in enclosures with two densities (200 and 800 ind. m−2). Individual cockle mean infection was 1.5 times higher at low cockle density, mainly due to one dominant trematode species (Parvatrema minutum). In conclusion and confirming the first advanced hypothesis, for certain environments, negative consequences of bivalve intraspecific competition at high density can be mitigated by lower parasite pressure. [ABSTRACT FROM PUBLISHER]

Published

2017

10. Bivalve population health: Multistress to identify hot spots.

Author

de Montaudouin, X., Paul-Pont, I., Lambert, C., Gonzalez, P., Raymond, N., Jude, F., Legeay, A., Baudrimont, M., Dang, C., Le Grand, F., Le Goïc, N., Bourasseau, L., and Paillard, C.

Subjects

BIVALVES, PHYSIOLOGICAL stress, MANILA clam, NUTTALL cockle, METALLOTHIONEIN, PARASITES, IMMUNITY, MARINE animals, MARINE biodiversity, METALS

Abstract

Abstract: This study investigated some stress (metals, parasites) and response (immunity, metallothionein) factors in two cockle and two Manila clam populations. Data from eight seasons were averaged to obtain global baseline values. Stress/response characteristics of each population were compared to population health status that was determined through population dynamics parameters. Four different scenarios were discussed: (1) a lightly stressed cockle population with correct population health but with a risk of deterioration (hot spot); (2) a lightly stressed introduced cockle population threatened of extinction. In this case ecological factors were suspected; (3) a moderately stressed clam population with moderate adaptative response. The population was sustainable but the level of stress should not increase (hotspot); and (4) a stressed clam population and unfavourable ecological conditions preventing clam settlement. This monitoring highlighted that the discrepancy between population health and stress levels could be due to insufficient response by bivalves and/or by unfavourable ecological factors. [ABSTRACT FROM AUTHOR]

Published

2010

11. Digenean trematodes--marine mollusc relationships: a stable isotope study.

Author

Dubois, S. Y., Savoye, N., Sauriau, P.-G., Billy, I., Martinez, P., and de Montaudouin, X.

Subjects

PARASITISM, PARASITES, PARASITOLOGY, NEMATODES, CARBON, NITROGEN, CERASTODERMA edule

Abstract

The article presents a study which examined the relationship between digenean trematodes and marine mollusc. It investigated the stable carbon and nitrogen isotopic composition trematode parasites and their marine mollusc hosts to describe the potential influence of parasites on their host and its different tissues and to obtain further insight into their trophic relationships. It found that the two endoparasites Labratrema minimus and Monorchis parvus appeared to be slightly depleted in carbon compared to Cerastoderma edule digestive gland and gonads. Results showed that digenean trematodes mainly feed on digestive glands with a possible slight preference for lipids and fractionation due to parasite metabolism should be due to abbreviated metabolic pathways.

Published

2009