Your search keyword '"Pierre Methou"' showing total 9 results

1. Reproduction in deep‐sea vent shrimps is influenced by diet, with rhythms apparently unlinked to surface production

Author

Pierre Methou, Chong Chen, Hiromi Kayama Watanabe, Marie‐Anne Cambon, and Florence Pradillon

Subjects

biological rhythms, crustacean, deep sea, hydrothermal vent, reproduction, seasonality, Ecology, QH540-549.5

Abstract

Abstract Variations in offspring production according to feeding strategies or food supply have been recognized in many animals from various ecosystems. Despite an unusual trophic structure based on non‐photosynthetic primary production, these relationships remain largely under‐studied in chemosynthetic ecosystems. Here, we use Rimicaris shrimps as a study case to explore relationships between reproduction, diets, and food supply in these environments. For that, we compared reproductive outputs of three congeneric shrimps differing by their diets. They inhabit vents located under oligotrophic waters of tropical gyres with opposed latitudes, allowing us to also examine the prevalence of phylogenetic vs environmental drivers in their reproductive rhythms. For this, we used both our original data and a compilation of published observations on the presence of ovigerous females covering various seasons over the past 35 years. We report distinct egg production trends between Rimicaris species relying solely on chemosymbiosis—R. exoculata and R. kairei—and one relying on mixotrophy, R. chacei. Besides, our data suggest a reproductive periodicity that does not correspond to seasonal variations in surface production, with substantial proportions of brooding females during the same months of the year, despite those months corresponding to either boreal winter or austral summer depending on the hemisphere. These observations contrast with the long‐standing paradigm in deep‐sea species for which periodic reproductive patterns have always been attributed to seasonal variations of photosynthetic production sinking from the surface. Our results suggest the presence of an intrinsic basis for biological rhythms in the deep sea, and bring to light the importance of having year‐round observations in order to understand the life history of vent animals.

Published

2022

2. Integrative taxonomy revisits the ontogeny and trophic niches of Rimicaris vent shrimps

Author

Pierre Methou, Loïc N. Michel, Michel Segonzac, Marie-Anne Cambon-Bonavita, and Florence Pradillon

Subjects

hydrothermal vents, stable isotopes, taxonomy, crustaceans, life history, trophic shift, Science

Abstract

Among hydrothermal vent species, Rimicaris exoculata is one of the most emblematic, hosting abundant and diverse ectosymbioses that provide most of its nutrition. Rimicaris exoculata co-occurs in dense aggregates with the much less abundant Rimicaris chacei in many Mid-Atlantic Ridge vent fields. This second shrimp also houses ectosymbiotic microorganisms but has a mixotrophic diet. Recent observations have suggested potential misidentifications between these species at their juvenile stages, which could have led to misinterpretations of their early-life ecology. Here, we confirm erroneous identification of the earliest stages and propose a new set of morphological characters unambiguously identifying juveniles of each species. On the basis of this reassessment, combined use of C, N and S stable isotope ratios reveals distinct ontogenic trophic niche shifts in both species, from photosynthesis-based nutrition before settlement, towards a chemosynthetic diet afterwards. Furthermore, isotopic compositions in the earliest juvenile stages suggest differences in larval histories. Each species thus exhibits specific early-life strategies that would, without our re-examination, have been interpreted as ontogenetic variations. Overall, our results provide a good illustration of the identification issues persisting in deep-sea ecosystems and the importance of integrative taxonomy in providing an accurate view of fundamental aspects of the biology and ecology of species inhabiting these environments.

Published

2020

3. Antimicrobial Peptides and Ectosymbiotic Relationships: Involvement of a Novel Type IIa Crustin in the Life Cycle of a Deep-Sea Vent Shrimp

Author

Simon Le Bloa, Céline Boidin-Wichlacz, Valérie Cueff-Gauchard, Rafael Diego Rosa, Virginie Cuvillier-Hot, Lucile Durand, Pierre Methou, Florence Pradillon, Marie-Anne Cambon-Bonavita, and Aurélie Tasiemski

Subjects

extreme, hydrothermal, symbiosis, host-microbe interaction, invertebrate immunity, crustacean, Immunologic diseases. Allergy, RC581-607

Abstract

The symbiotic shrimp Rimicaris exoculata dominates the macrofauna inhabiting the active smokers of the deep-sea mid Atlantic ridge vent fields. We investigated the nature of the host mechanisms controlling the vital and highly specialized ectosymbiotic community confined into its cephalothoracic cavity. R. exoculata belongs to the Pleocyemata, crustacean brooding eggs, usually producing Type I crustins. Unexpectedly, a novel anti-Gram-positive type II crustin was molecularly identified in R. exoculata. Re-crustin is mainly produced by the appendages and the inner surfaces of the cephalothoracic cavity, embedding target epibionts. Symbiosis acquisition and regulating mechanisms are still poorly understood. Yet, symbiotic communities were identified at different steps of the life cycle such as brooding stage, juvenile recruitment and molt cycle, all of which may be crucial for symbiotic acquisition and control. Here, we show a spatio-temporal correlation between the production of Re-crustin and the main ectosymbiosis-related life-cycle events. Overall, our results highlight (i) a novel and unusual AMP sequence from an extremophile organism and (ii) the potential role of AMPs in the establishment of vital ectosymbiosis along the life cycle of deep-sea invertebrates.

Published

2020

4. Is It First the Egg or the Shrimp? – Diversity and Variation in Microbial Communities Colonizing Broods of the Vent Shrimp Rimicaris exoculata During Embryonic Development

Author

Pierre Methou, Ivan Hernández-Ávila, Johanne Aube, Valérie Cueff-Gauchard, Nicolas Gayet, Louis Amand, Bruce Shillito, Florence Pradillon, and Marie-Anne Cambon-Bonavita

Subjects

hydrothermal, shrimp, microbial colonization, Alvinocarididae, egg development, Microbiology, QR1-502

Abstract

Rimicaris exoculata is one of the most well-known and emblematic species of endemic vent fauna. Like many other species from these ecosystems, Rimicaris shrimps host important communities of chemosynthetic bacteria living in symbiosis with their host inside the cephalothorax and gut. For many of these symbiotic partners, the mode of transmission remains to be elucidated and the starting point of the symbiotic relationship is not yet defined, but could begin with the egg. In this study, we explored the proliferation of microbial communities on R. exoculata broods through embryonic development using a combination of NGS sequencing and microscopy approaches. Variations in abundance and diversity of egg microbial communities were analyzed in broods at different developmental stages and collected from mothers at two distinct vent fields on the Mid-Atlantic Ridge (TAG and Snake Pit). We also assessed the specificity of the egg microbiome by comparing communities developing on egg surfaces with those developing on the cuticle of pleopods, which are thought to be exposed to similar environmental conditions because the brood is held under the female’s abdomen. In terms of abundance, bacterial colonization clearly increases with both egg developmental stage and the position of the egg within the brood: those closest to the exterior having a higher bacterial coverage. Bacterial biomass increase also accompanies an increase of mineral precipitations and thus clearly relates to the degree of exposure to vent fluids. In terms of diversity, most bacterial lineages were found in all samples and were also those found in the cephalothorax of adults. However, significant variation occurs in the relative abundance of these lineages, most of this variation being explained by body surface (egg vs. pleopod), vent field, and developmental stage. The occurrence of symbiont-related lineages of Epsilonbacteraeota, Gammaproteobacteria, Zetaproteobacteria, and Mollicutes provide a basis for discussion on both the acquisition of symbionts and the potential roles of these bacterial communities during egg development.

Published

2019

5. Life-history traits of alvinocaridid shrimps inhabiting chemosynthetic ecosystems around Japan

Author

Pierre Methou, Verity Nye, Jonathan T. Copley, Hiromi Kayama Watanabe, Yukiko Nagai, and Chong Chen

Subjects

Ecology, Aquatic Science, Ecology, Evolution, Behavior and Systematics

Published

2023

6. Symbioses of alvinocaridid shrimps from the South West Pacific: No chemosymbiotic diets but partially conserved gut microbiomes

Author

Pierre Methou, Valérie Cueff-Gauchard, Loïc N. Michel, Nicolas Gayet, Florence Pradillon, and Marie-Anne Cambon-Bonavita

Subjects

trophic ecology, stable isotopes, Crustacean, symbioses, hydrothermal vent, chemosynthesis

Abstract

Rimicaris exoculatashrimps from hydrothermal vent ecosystems are known to host dense epibiotic communities inside their enlarged heads and digestive systems. Conversely, other shrimps from the family, described as opportunistic feeders have received less attention. We examined the nutrition and bacterial communities colonizing “head” chambers and digestive systems of three other alvinocaridids –Rimicaris variabilis,Nautilocaris saintlaurentaeandManuscarissp. – using a combination of electron microscopy, stable isotopes and sequencing approaches. Our observations inside “head” cavities and on mouthparts showed only a really low coverage of bacterial epibionts. In addition, no clear correlation between isotopic ratios and relative abundance of epibionts on mouthparts could be established among shrimp individuals. Altogether, these results suggest that none of these alvinocaridids rely on chemosynthetic epibionts as their main source of nutrition. Our analyses also revealed a substantial presence of several Firmicutes within the foreguts and midguts of these shrimps, which closest known lineages were systematically digestive epibionts associated with alvinocaridids, and more broadly from digestive systems of other crustaceans from marine and terrestrial ecosystems. Overall, our study opens new perspectives not only about chemosynthetic symbioses of vent shrimps, but more largely about digestive microbiomes with potential ancient and evolutionarily conserved bacterial partnerships among crustaceans.

Published

2023

7. Symbiont Community Composition in Rimicaris kairei Shrimps from Indian Ocean Vents with Notes on Mineralogy

Author

Pierre Methou, Masanari Hikosaka, Chong Chen, Hiromi K. Watanabe, Norio Miyamoto, Hiroko Makita, Yoshio Takahashi, and Robert G. Jenkins

Subjects

Ecology, Applied Microbiology and Biotechnology, Food Science, Biotechnology

Abstract

Hydrothermal vent shrimps in the genus Rimicaris are among the most charismatic deep-sea animals of Atlantic and Indian Oceans, often occurring on towering black smokers in dense aggregates of thousands of individuals. Although this dominance is only possible because of symbiosis, no study on the symbiosis of Indian Ocean Rimicaris species has been conducted.

Published

2022

8. Reproduction in deep-sea vent shrimps is shaped by diet and phylogeny, with rhythms unlinked to surface production

Author

Marie-Anne Cambon-Bonavita, Florence Pradillon, Chong Chen, Hiromi Watanabe, and Pierre Methou

Subjects

Chemosynthesis, Ecology, media_common.quotation_subject, Biology, Seasonality, medicine.disease, Deep sea, Boreal, Productivity (ecology), medicine, Ecosystem, Reproduction, Trophic level, media_common

Abstract

Variations in offspring production according to feeding strategies or food supply have been recognized in many animals from various ecosystems. Despite an unusual trophic structure based on non-photosynthetic primary production, these relationships remain largely under-studied in chemosynthetic ecosystems. Here, we useRimicarisshrimps from deep-sea hydrothermal vents as a study case to explore relations between reproduction, diets and food supply in these environments. For that, we compared reproductive outputs of three congeneric shrimps differing by their diets. They inhabit vents located under oligotrophic waters of tropical gyres with opposed latitudes, allowing us to also examine the prevalence of phylogenetic vs environmental drivers in their reproductive rhythms. For this we used both our original data and a compilation of published observations on the presence of ovigerous females covering various seasons over the past 35 years. We report distinct egg production trends betweenRimicarisspecies relying solely on chemosymbiosis –R. exoculataandR. kairei– and those relying on mixotrophy –R. chacei– whereR. chaceiproduces broods with higher numbers of smaller eggs. Besides, our data and historical records suggest a reproductive period with substantial proportions of brooding females mostly between January and early April for all examined species whatever the region. Intriguingly, this periodicity does not correspond to seasonal variations in surface production with presence of brooding females during either boreal winter or austral summer. These observations contrast with the long-standing paradigm in deep-sea species for which periodic reproductive patterns have always been attributed to seasonal variations of photosynthetic production sinking from surface. Our results suggest the presence of intrinsic basis for biological rhythms in the deep sea, and bring to light the importance of having year-round observations in order to understand life history of vent animals.

Published

2021

9. Is It First the Egg or the Shrimp? - Diversity and Variation in Microbial Communities Colonizing Broods of the Vent Shrimp

Author

Pierre, Methou, Ivan, Hernández-Ávila, Johanne, Aube, Valérie, Cueff-Gauchard, Nicolas, Gayet, Louis, Amand, Bruce, Shillito, Florence, Pradillon, and Marie-Anne, Cambon-Bonavita

Published

2018