Waiheke 2024: The 27th Annual New Zealand Phylogenomics Meeting, February 13–16
The 27th Annual New Zealand Phylogenomics Meeting is a conference at the interface of mathematics, computer science, statistics, and biology in the study of phylogenetics, genome analysis and molecular evolution. In 2024, the meeting will again be held on Waiheke Island, a short ferry trip away from Auckland City.
ASPM2023: The First Australasian Structural Phylogenetics Meeting, October 24–25
The inaugural Australasian Structural Phylogenetics Meeting will bring together researchers of all career stages, working at the intersection of structural biology and phylogenetics. Structural Phylogenetics is an emerging interdisciplinary field that merges principles from evolutionary biology, bioinformatics, and structural biology. The meeting will be held at the University of Auckland.
Computational Evolution Lecture Series
As part of the launch of the Centre for Computational Evolution, a mini-symposium was held with speakers across New Zealand and from Australia.
The speakers are using these mathematical models for evolution and ecology to study a growing list of fundamental questions. This includes how diseases spread, how populations spread and adapt to their environment to the evolution of culture and language. The speakers also discussed how this area of research has evolved and what challenges lay ahead.
Darwin’s computer: Modelling evolution from fossil records to infectious diseases
What would have Darwin used a computer for? Professor Alexei Drummond, director of Centre for Computational Evolution explains how evolutionary models and ideas can help to understand a wide range of topics.
Evolutionary modelling and control of food pathogens
Professor Nigel French uses evolutionary tools to solve real-world problems, and takes us through how his group determined how campylobacteriosis spread and through this enabled policy changes that reduced cases by 50% and saved the economy an estimated $50M per annum since 2007.
Professor Mike Steel takes us through a brief overview of how mathematics and related fields have helped shape the study of evolution and some of the new directions and challenges for the field.
The Art of the Null: Neutral models in computational evolutionary biology
Professor Allen Rodigo explains how mundane processes or ‘null models’ in the family of evolutionary processes are far more interesting than you think.
Next-generation genetics using last generation’s mathematics
Professor David Bryant wonders if the coalescent theory practise is perhaps fundamentally limited. It may be time to go old school.
From viruses to languages
Associate Professor Quentin Atkinson shows how tools developed in the Centre for Computational Evolution to solve problems in biology and epidemiology are being productively adapted to shed light on human cultural evolution in domains as varied as language, religion and the fortunes of nation-states.