Larval feeding activity and use of embryonic resources determine juvenile performance of the common prawn Palaemonserratus

• Published in: Journal of thermal biology Vol. 123; p. 103892
• Main Authors: Baudet, Jean-Baptiste, Jeanne, Jason, Xuereb, Benoît, Dedourge-Geffard, Odile, Duflot, Aurélie, Poret, Agnès, Tremolet, Gauthier, Le Foll, Frank, Coulaud, Romain
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 01.07.2024
• Subjects: Animals; Compensatory growth; Embryo, Nonmammalian - physiology; Feeding Behavior; Female; Larva - growth & development; Larval development; Lipid Metabolism; Nutritional stress; Palaemonidae - growth & development; Palaemonidae - physiology; Phenotypic links; Shrimp; Temperature; Nutritional stress; Compensatory growth; Larval development; Shrimp; Phenotypic links
• ISSN: 0306-4565
• DOI: 10.1016/j.jtherbio.2024.103892

Phenotypic links are the potential for “carryover” of effects of experience during one life history stage into performance and selection at subsequent stages. They reflect plastic responses to the environment experienced during an early phase on the phenotype of subsequent phases. We are studying these effects by following individuals of the shrimp Palaemon serratus from the embryonic (eggs carried by females) through the larval phase (pelagic) to the juvenile phase (benthic). In experiment 1, we investigated the effects of larval prey concentration (10, 4 and 2 Artemia/mL) and larval incubation temperature (16 and 22 °C) on larval performance (metamorphosis rate, developmental duration and growth) and then on juvenile performance (survival and Specific Growth Rate, SGR, at 18 and 24 °C in 14 days). In experiment 2, we investigated the effects of embryonic incubation temperature (larval biomass and lipid content of newly hatched larvae from embryos incubated at 12 and 18 °C) and larval prey concentration on larval performance and then on juvenile performance. In both experiments, the larvae plastically increased their development time in response to the reduction in temperature and prey concentration, whereas their survival decreased with temperature and prey concentration. The quantity of lipids available at hatching decreased with decreasing embryonic incubation temperature, which reduced the larval performance, particularly with a low concentration of prey. Survival at 14 days post-metamorphosis was significantly reduced when the embryos were incubated at 12 °C compared with those incubated at 18 °C, regardless of the subsequent larval incubation conditions, revealing phenotypic links between overconsumption of embryonic yolk reserves and post-metamorphic fitness. Overall, juveniles had a better SGR at 24 than at 18 °C, and even better when incubated under stressful embryo-larval conditions (temperature and prey concentration). This study highlighted phenotypic links between developmental stages and over developmental periods of several months. •We studied phenotypic links in Palaemon serratus from the embryonic to the juvenile phase.•We had different temperature scenarios consistent with the environment and prey concentration.•Larval development was delayed in response to low temperatures and prey concentrations.•Overconsumption of embryonic reserves in cold water reduced larval and juvenile performance.•The novel phenotypic links revealed here range from the embryonic to the post-metamorphic stage.