Forecasting zoonotic disease risks in a changing climate
Modelling predicts how the ecological impacts of climate change are expected to drive changes in the endemic ranges of zoonotic vector-borne diseases globally
Modelling predicts how the ecological impacts of climate change are expected to drive changes in the endemic ranges of zoonotic vector-borne diseases globally
While the ‘greening’ of cities offers a promising avenue for enhancing urban resilience to climate change, careful consideration must be given to balance… Read more »
The development of novel, broad-spectrum antihelmintics is a major priority for ensuring the future of effective chemotheraptuic control of parasitic flatworms… Read more »
In Southeast Asia, changes in land-use can increase human and non-human primate interactions, increasing the potential for spillover of zoonotic malaria from… Read more »
Development of a duplex tetra-primer amplification refractory mutation system polymerase chain reaction (T-ARMS-PCR) assay enables the detection of two… Read more »
The development of an effective anti-schistosome vaccine is increasingly considered an essential tool in moving towards schistosomiasis end-game elimination.… Read more »
Surveillance and monitoring of the prevalence and distribution of zoonotic pathogens is crucial in improving our awareness of potential ‘spillover events’,… Read more »
Pollution of our waters with plastic debris has been a major focus of how humans are putting pressure on our ecosystems. Research is increasingly showing that… Read more »
Vector-borne diseases (VBDs), caused by parasites, bacteria and viruses, constitute over 17% of all infectious diseases, and are responsible for more than… Read more »
Surveillance of local mosquito populations for insecticide resistance, and understanding the factors that influence resistance and mosquito transmission… Read more »