What predicts parasite infections (and co-infections) in networks of human, domestic animal, and wildlife overlaps?
The COVID-19 pandemic has brought new attention to the importance of understanding the spatial and temporal dynamics at interfaces where humans and wildlife interact. Work on this project involved creating networks human, domestic animal, and wildlife interactions in rural communities in Madagascar in collaboration with a team of researchers at Duke University, the University of California, Santa Barbara, and Association Vahatra in Madagascar to investigate ways in which overlaps in time and space may predict infection by an array of gastrointestinal parasites.
The COVID-19 pandemic has brought new attention to the importance of understanding the spatial and temporal dynamics at interfaces where humans and wildlife interact. Work on this project involved creating networks human, domestic animal, and wildlife interactions in rural communities in Madagascar in collaboration with a team of researchers at Duke University, the University of California, Santa Barbara, and Association Vahatra in Madagascar to investigate ways in which overlaps in time and space may predict infection by an array of gastrointestinal parasites.