Fundamentality. Australia is a world leader in metaphysical research. This project aims to strengthen the tradition of Australian metaphysics, by studying fundamentality, or the notion of being fundamental. It revives the classical monistic worldview on which we are interdependent and interrelated fragments of a greater whole. It thus connects the philosophical tradition of Plotinus, Spinoza, and Hegel to the physical picture of the cosmos as a single entangled quantum system, and so promises to ....Fundamentality. Australia is a world leader in metaphysical research. This project aims to strengthen the tradition of Australian metaphysics, by studying fundamentality, or the notion of being fundamental. It revives the classical monistic worldview on which we are interdependent and interrelated fragments of a greater whole. It thus connects the philosophical tradition of Plotinus, Spinoza, and Hegel to the physical picture of the cosmos as a single entangled quantum system, and so promises to deepen our understanding of our place in nature—while strengthening Australian leadership in the field.Read moreRead less
Evolvability and the Evolution of Complexity. Anyone engaging in a moment's reflection on the striking richness, diversity, and complexity of the biological world is faced with the question: how did it get here? Though natural selection is central to answering this question, important new work has identified various conditions that make some lineages of organisms "evolvable": capable of changing in ways that radically expand the range of further possible changes. This project will clarify and in ....Evolvability and the Evolution of Complexity. Anyone engaging in a moment's reflection on the striking richness, diversity, and complexity of the biological world is faced with the question: how did it get here? Though natural selection is central to answering this question, important new work has identified various conditions that make some lineages of organisms "evolvable": capable of changing in ways that radically expand the range of further possible changes. This project will clarify and integrate these various conditions using empirical examples and simple models. The resulting work from this project will provide a clearer general understanding of what biological complexity is, and how science has compelling candidates for understanding how it evolves.Read moreRead less
Mimetics and small chemical compounds for hemopoietic stem cell mobilisation. This project will result in the design and synthesis of new chemical compounds that could be used clinically to help collect blood stem cells for bone marrow transplantation. For patients this will mean more effective and less painful ways to collect stem cells and better transplant outcomes. There is a large, ongoing international market for this type of drug and likelihood of significant financial benefit.