Body reserves mediate trade-offs between life-history traits: new insights from small pelagic fish reproduction

Limited resources in the environment prevent individuals from simultaneously maximizing all life-history traits, resulting in trade-offs. In particular, the cost of reproduction is well known to negatively affect energy investment in growth and maintenance. Here, we investigated these trade-offs during contrasting periods of high versus low fish size and body condition (before/after 2008) in the Gulf of Lions. Female reproductive allocation and performance in anchovy (Engraulis encrasicolus) and sardine (Sardina pilchardus) were examined based on morphometric historical data from the 1970s and from 2003 to 2015. Additionally, potential maternal effects on egg quantity and quality were examined in 2014/2015. After 2008, the gonadosomatic index increased for sardine and remained steady for anchovy, while a strong decline in mean length at first maturity indicated earlier maturation for both species. Regarding maternal effects, for both species egg quantity was positively linked to fish size but not to fish lipid reserves, while the egg quality was positively related to lipid reserves. Atresia prevalence and intensity were rather low regardless of fish condition and size. Finally, estimations of total annual numbers of eggs spawned indicated a sharp decrease for sardine since 2008 but a slight increase for anchovy during the last 5 years. This study revealed a biased allocation towards reproduction in small pelagic fish when confronted with a really low body condition. This highlights that fish can maintain high reproductive investment potentially at the cost of other traits which might explain the present disappearance of old and large individuals in the Gulf of Lions.

Disruption of amylase genes by RNA interference affects reproduction in the Pacific oyster Crassostrea gigas

Feeding strategies and digestive capacities can have important implications for variation in energetic pathways associated with ecological and economically important traits, such as growth or reproduction in bivalve species. Here, we investigated the role of amylase in the digestive processes of Crassostrea gigas, using in vivo RNA interference. This approach also allowed us to investigate the relationship between energy intake by feeding and gametogenesis in oysters. Double-stranded (ds)RNA designed to target the two α-amylase genes A and B was injected in vivo into the visceral mass of oysters at two doses. These treatments caused significant reductions in mean mRNA levels of the amylase genes: −50.7% and −59% mRNA A, and −71.9% and −70.6% mRNA B in 15 and 75 µg dsRNA-injected oysters, respectively, relative to controls. Interestingly, reproductive knock-down phenotypes were observed for both sexes at 48 days post-injection, with a significant reduction of the gonad area (−22.5% relative to controls) and germ cell under-proliferation revealed by histology. In response to the higher dose of dsRNA, we also observed reductions in amylase activity (−53%) and absorption efficiency (−5%). Based on these data, dynamic energy budget modeling showed that the limitation of energy intake by feeding that was induced by injection of amylase dsRNA was insufficient to affect gonadic development at the level observed in the present study. This finding suggests that other driving mechanisms, such as endogenous hormonal modulation, might significantly change energy allocation to reproduction, and increase the maintenance rate in oysters in response to dsRNA injection.

Eléments de connaissance sur la mortalité et la reproduction de la moule bleue (Mytilus edulis) sur la façade atlantique

Ce document s’inscrit dans le cadre de la problématique des mortalités de moules bleues sur les côtes françaises depuis l’hiver 2014. Il a été conçu comme une contribution aux projets Morbleu (projet de recherche) et Mytilobs (observatoire national sur les traits de vie de la moule). D’un point de vu historique, depuis le début du 20ème siècle, le principale « ennemi » de la moule reste la météo et en particulier, les tempêtes. Une seule crise de mortalité, majeure, est survenue en 1960-61 dans le pertuis Breton. Elle résulte d’une interaction entre le parasite mytilicola intestinalis et des conditions drastiques d’élevage sur bouchots dans la baie de l’Aiguillon. L’évaluation des mortalités de moules est difficile du fait des pratiques d’élevage et des pertes qui en résultent. Lorsque la crise survient en 2014, l’investigation scientifique s’appuie à la fois sur des déclarations (professionnels), des constats (DDTMs), des saisines (Repamo) et des mesures (réseau Mytilobs). L’intensité des mortalités, variable selon les sites et les années (2014 et 2015) est comparée à un référentiel de mortalités issu d’un réseau régional de suivi des mortalités de moules en paniers (Remoula, 2000-2010). En février 2014, les mortalités surviennent dans le pertuis Breton et s’étendent en quelques mois vers le sud (pertuis d’Antioche) et vers le Nord (Côte de Noirmoutier et Baie de Bourgneuf). Les simulations hydrodynamiques montrent la connectivité spatio-temporelle entre le site d’émergence des mortalités et les sites touchés quelques semaines plus tard. Alors qu’il existe plusieurs génomes de Mytililus edulis et des populations hybrides (entre Mytililus edulis et Mytilus galloprovincialis) sur les cotes de la France, seul le génome Mytililus edulis de la cote atlantique semble au départ concerné par ces mortalités. La quasi simultanéité d’occurrence d’épisodes de mortalités de moules en Rade de Brest (en hiver 2014), et sur les gisements profonds de la cote Est du Cotentin (dès le printemps 2014) reste aujourd’hui une énigme scientifique. Lorsque les mortalités surviennent en 2014 et lors de leur reprise en 2015, les moules sont en période de reproduction. Ce rapport synthétise également des résultats acquis sur la reproduction de Mytilus edulis sur la cote atlantique (Arcachon et Pertuis Charentais).

Fish Reproduction Is Disrupted upon Lifelong Exposure to Environmental PAHs Fractions Revealing Different Modes of Action

Polycyclic aromatic hydrocarbons (PAHs) constitute a large family of organic pollutants emitted in the environment as complex mixtures, the compositions of which depend on origin. Among a wide range of physiological defects, PAHs are suspected to be involved in disruption of reproduction. In an aquatic environment, the trophic route is an important source of chronic exposure to PAHs. Here, we performed trophic exposure of zebrafish to three fractions of different origin, one pyrolytic and two petrogenic. Produced diets contained PAHs at environmental concentrations. Reproductive traits were analyzed at individual, tissue and molecular levels. Reproductive success and cumulative eggs number were disrupted after exposure to all three fractions, albeit to various extents depending on the fraction and concentrations. Histological analyses revealed ovary maturation defects after exposure to all three fractions as well as degeneration after exposure to a pyrolytic fraction. In testis, hypoplasia was observed after exposure to petrogenic fractions. Genes expression analysis in gonads has allowed us to establish common pathways such as endocrine disruption or differentiation/maturation defects. Taken altogether, these results indicate that PAHs can indeed disrupt fish reproduction and that different fractions trigger different pathways resulting in different effects.