Geometric biology allows us to understand the dynamics of how living things convert energy flows into mass, at all scales of biological organisation.
The size and shape (together, the ‘geometry’) of organisms ultimately determine these flows.
The Geometric Theory of Biology allows us to predict how things function, grow, and change; be they tumours, schools of fish, or whole forests.
Professor Dustin Marshall is seeking an experienced ecologist / evolutionary biologist, who specialises in microalgal biology with a strong empirical background, to explore the ways in which size affects the structure and function of marine phytoplankton.
Professor Dustin Marshall is seeking a marine larval biologist, with strong quantitative skills, to explore the ways in which temperature affects the energetics of development in marine invertebrates.
Filip Ruzicka and Tim Connallon challenge the theory that the X chromosome is a ‘hot spot’ for sexually antagonistic genetic polymorphism
Dustin Marshall and Mariana Álvarez-Noriega found rising ocean temperatures will impact early life stages of marine invertebrates and change the patterns in the distribution of species. Species in which mothers invest more heavily in offspring will be the biggest losers.
Published in Philosophical Transactions of the Royal Society B: Biological Sciences
Alex Gangur and Dustin Marshall have identified a facultative feeder: a found a small crustacean that benefits from feeding in the larval stage, but can also complete larval development without food, albeit at a developmental cost.
Belinda Comerford, Mariana Álvarez-Noriega and Dustin Marshall have found different species of filter feeders tend to consume one species of phytoplankton much more than others when offered a selection.
Published in Proceedings of the Royal Society B: Biological Sciences.
Published in Oecologia.
Published in: Marine Ecology Progress Series.
