We are keen to share our research and collaborate and engage with the community.
Please get in touch with us via heal@canberra.edu.au or 02 6206 5131.
Respiratory infections such as COVID-19 are often transmitted via direct inhalation of respiratory droplets or contact with contaminated surfaces. Airborne transmission via the spread of smaller particles (“aerosols”) from exhaled air is also possible especially indoors. Many pathogens show environmental resistance that makes transmission via air, water, waste and food plausible.
A better understanding of environmental transmission routes and interactions with other exposures, such as temperature and humidity, can improve the management of infectious diseases in changing environmental conditions.
This project aims to investigate how coronaviruses and other infectious diseases are transmitted in indoor and outdoor environments, and what the mechanisms, carriers, range transmission, and seasonality are.
Funded by: Dyson
Project team: Sotiris Vardoulakis, Daniela Espinoza-Oyarce, Kinley Wangdi and Enembe Okokon
Vardoulakis S., Espinoza Oyarce D.A., Donner E., 2022. Transmission of COVID-19 and other infectious diseases in public washrooms: a systematic review. Science of the Total Environment 803, 149932.
Vardoulakis S., Sheel M., Lal A., Gray D., 2020. COVID-19 environmental transmission and preventive public health measures. Australian & New Zealand Journal of Public Health 44(5), 333-335.
We are keen to share our research and collaborate and engage with the community.
Please get in touch with us via heal@canberra.edu.au or 02 6206 5131.
ϳԹ acknowledges the Ngunnawal people, traditional custodians of the lands where Bruce campus is situated. We wish to acknowledge and respect their continuing culture and the contribution they make to the life of Canberra and the region. We also acknowledge all other First Nations Peoples on whose lands we gather.