Invertebrates facing environmental contamination by endocrine disruptors: Novel evidences and recent insights

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Dominance et fertilité chez la fourmi sans reine (streblognathus peetersi)

Les fourmis sans reine forment des colonies aux ouvières identiques, toutes aptes à devenir reproductrices. Le partage des tâches repose sur une hiérarchie de dominance comprenant : la dominante (alpha), les individus de rang social élevé ("hauts rangs"), et les individus de rang social faible ("bas rang"). Chez Streblognathus peetersi, l'alpha est l'unique pondeuse. Nous avons montré que pour conserver son rang, elle a besoin de l'appui des individus de bas rang, ces derniers exerçant leur pouvoir selon leurs propres intérêts, et via des comportements de "police par les ouvrières"(working policing"). La stabilité évolutive de cette alliance repose sur deux conditions : une sélection de l'alpha selon ses aptitudes physiques et un système honnête de communication de la fertilité. L'analyse des modifications des taux d'hydrocarbures cuticulaires selon le contexte social, désigne le profil cuticulaire comme un bon candidat au rôle de signal de fertilité chez les fourmis sans reine.TOURS-BU Sciences Pharmacie (372612104) / SudocSudocFranceF

Reproductive monopoly enforced by sterile police workers in a queenless ant

In societies of totipotent insects, dyadic dominance interactions generate a hierarchy that often underlies an extreme reproductive skew. Subordinates remain infertile but can maximize their indirect fitness benefits through collective power (worker policing): interference with challenging high-rankers can prevent an untimely replacement of the reproductive. However, police workers only benefit if they favor individuals with high fertility. In the monogynous queenless ant Streblognathus peetersi, we used behavioral, physiological, and chemical methods to show that police workers have the primary role in the selection of the reproductive, and that they probably use reliable information about fertility encoded in the cuticular hydrocarbons to make their decision. We successfully decreased an alpha's fertility by using a hormonal treatment (Pyriproxyfen, a juvenile hormone analogue), and she was always removed from the hierarchy by police workers. In the preceding days, one of the high-rankers became aggressive, although her interactions were not directed at the treated alpha. All treated alphas (n = 10) remained aggressive but ended up immobilized by low-ranking workers after a median time of 11.5 days. By then, the challenging high ranker exhibited dominance behaviors typical of the alpha rank. In parallel, the cuticular profile of the treated alpha exhibited predictable and opposite modifications to that of the challenger's. This is the first study that uncouples dominance and fertility in a social insect: it gives a better understanding of the crucial role of sterile helpers in the control of reproductive skew in animal societies. Copyright 2004.cuticular hydrocarbons; fertility signal; gamergate; juvenile hormone; Ponerinae; reproductive skew; worker policing

Regulation of reproduction in a queenless ant: aggression, pheromones and reduction in conflict

In the monogynous queenless ant Diacamma ceylonense, the future reproductive (future gamergate) is very aggressive towards infertile workers during the first days of her adult life. Overt aggression disappears at about three weeks, when the future gamergate begins to lay male-destined eggs and is ready to mate. Over the same period, her cuticular hydrocarbon profile alters, changing from a chemical signature similar to that of a sterile worker towards that of a gamergate. In nature, these behavioural and chemical changes will coincide with a reduction in conflict within the nest: faced with a virgin future gamergate, infertile workers have an interest in producing male-destined eggs; however, once the gamergate produces female eggs, they have an interest in rearing her offspring. This demonstration of a shift from physical inhibition to chemical signalling is interpreted in terms of sociogenetic theory, the role of cuticular hydrocarbons as an indicator of fertility in insects and the fact that the regulation of reproduction in Diacamma involves mechanisms redolent of both queenless and queenright ant species

Regulation of reproduction in a queenless ant: aggression, pheromones and reduction in conflict.

In the monogynous queenless ant Diacamma ceylonense, the future reproductive (future gamergate) is very aggressive towards infertile workers during the first days of her adult life. Overt aggression disappears at about three weeks, when the future gamergate begins to lay male-destined eggs and is ready to mate. Over the same period, her cuticular hydrocarbon profile alters, changing from a chemical signature similar to that of a sterile worker towards that of a gamergate. In nature, these behavioural and chemical changes will coincide with a reduction in conflict within the nest: faced with a virgin future gamergate, infertile workers have an interest in producing male-destined eggs; however, once the gamergate produces female eggs, they have an interest in rearing her offspring. This demonstration of a shift from physical inhibition to chemical signalling is interpreted in terms of sociogenetic theory, the role of cuticular hydrocarbons as an indicator of fertility in insects and the fact that the regulation of reproduction in Diacamma involves mechanisms redolent of both queenless and queenright ant species

Polychaetes as annelid models to study ecoimmunology of marine organisms

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Phthalate pollution in an Amazonian rainforest

International audiencePhthalates are ubiquitous contaminants and endocrine-disrupting chemicals that can become trapped in the cuticles of insects, including ants which were recognized as good bioindicators for such pollution. Because phthalates have been noted in developed countries and because they also have been found in the Arctic, a region isolated from direct anthropogenic influence, we hypothesized that they are widespread. So, we looked for their presence on the cuticle of ants gathered from isolated areas of the Amazonian rainforest and along an anthropogenic gradient of pollution (rainforest vs. road sides vs. cities in French Guiana). Phthalate pollution (mainly di(2-ethylhexyl) phthalate (DEHP)) was higher on ants gathered in cities and along road sides than on those collected in the pristine rainforest, indicating that it follows a human-mediated gradient of disturbance related to the use of plastics and many other products that contain phthalates in urban zones. Their presence varied with the ant species; the cuticle of Solenopsis saevissima traps higher amount of phthalates than that of compared species. However, the presence of phthalates in isolated areas of pristine rainforests suggests that they are associated both with atmospheric particles and in gaseous form and are transported over long distances by wind, resulting in a worldwide diffusion. These findings suggest that there is no such thing as a "pristine" zone

Fertility signalling and reproductive skew in queenless ants

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Ant cuticular response to phthalate pollution

International audiencePhthalates are common atmospheric contaminantsused in the plastic industry. Ants have been shown to constitutegood bioindicators of phthalate pollution. Hence,phthalates remain trapped on ant cuticles which are mostlycoated with long-chain hydrocarbons. In this study, we artificiallycontaminated Lasius niger ants with four phthalates:dibutyl phthalate (DBP), diisobutyl phthalate (DiBP), di(2-ethylhexyl) phthalate (DEHP), and benzyl butyl phthalate(BBP). The first three have previously been found on ants innature in Touraine (France), while the fourth has not. The fourphthalates disappeared rapidly (less than 5 days) from thecuticles of live ants. In contrast, on the cuticles of dead ants,DEHP quantities remained unchanged over time. These resultsindicate that phthalates are actively absorbed by thecuticles of live ants. Cuticular absorption of phthalates isnonspecific because eicosane, a nonnatural hydrocarbon onL. niger cuticle, was similarly absorbed. Ants are importantecological engineers and may serve as bioindicators of ecosystemhealth. We also suggest that ants and more generallyterrestrial arthropods may contribute to the removal ofphthalates from the local environmen