DNA methylation correlates with transcriptional noise in response to elevated pCO in the eastern oyster ().

Ocean acidification significantly affects marine calcifiers like oysters, warranting the study of molecular mechanisms like DNA methylation that contribute to adaptive plasticity in response to environmental change. However, a consensus has not been reached on the extent to which methylation modules gene expression, and in turn plasticity, in marine invertebrates. In this study, we investigated the impact of pCO on gene expression and DNA methylation in the eastern oyster, .

Coral larvae increase nitrogen assimilation to stabilize algal symbiosis and combat bleaching under increased temperature.

Rising sea surface temperatures are increasingly causing breakdown in the nutritional relationship between corals and algal endosymbionts (Symbiodiniaceae), threatening the basis of coral reef ecosystems and highlighting the critical role of coral reproduction in reef maintenance. The effects of thermal stress on metabolic exchange (i.e.

Evidence for Professional Conceptualization in Science as an Important Component of Science Identity.

Experience in research facilitates development of science identity and encourages undergraduate student persistence along the pathway to careers in science, technology, engineering, and math (STEM). Participation in authentic research can foster identity development by influencing a sense of belonging, recognition, interest, and performance and competence in science. We examine science identity in a group of five community college women in marine science during a 2-year study in which students participated in a research experience.

Temperature-mediated acquisition of rare heterologous symbionts promotes survival of coral larvae under ocean warming.

Reef-building corals form nutritional symbioses with endosymbiotic dinoflagellates (Symbiodiniaceae), a relationship that facilitates the ecological success of coral reefs. These symbionts are mostly acquired anew each generation from the environment during early life stages ("horizontal transmission"). Symbiodiniaceae species exhibit trait variation that directly impacts the health and performance of the coral host under ocean warming.

Feeding and thermal conditioning enhance coral temperature tolerance in juvenile .

Scleractinian corals form the foundation of coral reefs by acquiring autotrophic nutrition from photosynthetic endosymbionts (Symbiodiniaceae) and use feeding to obtain additional nutrition, especially when the symbiosis is compromised (i.e. bleaching).