My research uses mathematical models and computer simulation to help identify improved infectious disease prevention and control strategies in both humans and animals. Our work has a significant impact on public health and veterinary health, by strengthening planning and disease control strategies to prevent infectious disease outbreaks.
My research is in the area of Environmental Economics, ranging from typical economics topics like taxes and policy analysis, to more interdisciplinary work such as...
I combine experiments, simulations, and theory to tackling problems like improving small hydropower systems, modeling the climate inside greenhouses, and studying airflow in both industrial processes and outdoors.
Research in my laboratory aims to identify and characterize new molecular factors and cellular mechanisms implicated in neuronal development and plasticity, which in turn will help reveal important new details about the pathophysiology of different brain disorders and identify potential targets for improved pharmacological treatments.
My research program seeks to understand the underlying physiology of diseases common in horses, and how these diseases can be modified with targeted nutrition, with a focus on cartilage biology.
