Many marine invertebrates have embryos and larvae that are small and transparent, and ideal for the application of new imaging technologies. Leveraging this biological diversity, representing more than BIOS 500 million years of independent evolution, offers a unique opportunity to address a wide range of foundational developmental and cell biological questions, and the role of the environment in regulating embryo and larval behavior. This residential practical course will introduce students to working with a range of marine invertebrate species at Hopkins Marine Station, and a hands-on opportunity to try new imaging technologies from high resolution live imaging with confocal, to embryo and larval tracking with Gravity Scope.
3 units · Medical Satisfactory/No Credit
Many marine invertebrates have embryos and larvae that are small and transparent, and ideal for the application of new imaging technologies. Leveraging this biological diversity, representing more than 500 million years of independent evolution, offers a unique opportunity to address a wide range of foundational developmental and cell biological questions, and the role of the environment in regulating embryo and larval behavior. This residential practical course will introduce students to working with a range of marine invertebrate species at Hopkins Marine Station, and a hands-on opportunity to try new imaging technologies from high resolution live imaging with confocal, to embryo and larval tracking with Gravity Scope.
Offered in Spring 2026 at Stanford University.