Dr. Barbara A. Han

Disease Ecologist | PhD, Oregon State University

Expertise

machine learning, behavioral ecology, macroecology

www.hanlab.science

845 677-7600 x135

Download CV

Profile
Videos & Podcasts
Publications
People

Barbara Han’s research is at the intersection of ecology, computing, and global health. Han uses machine learning to forecast outbreaks of new zoonotic diseases – those that ‘jump’ from animals to humans. Of more than a billion cases of human illness reported each year, the majority are attributed to zoonotic pathogens.

Han employs complex computer algorithms to analyze patterns and processes in nature that could result in the next Ebola, SARS, or West Nile virus outbreak. Some of these models compare traits of known animal disease carriers – size, diet, reproductive habits, biogeography – with thousands of species not yet known to carry disease, in order to predict which animals might become disease carriers in the future. Han also works on projects that predict where and when diseases could emerge; other research investigates why and how some species transmit more zoonoses to humans than others.

Research like Han’s has the potential to become a valuable tool for public health officials. Predicting and preempting the arrival of a new zoonotic disease will save lives. This technology could also impact land management decisions, as it becomes obvious that diseases are more likely to emerge from certain habitats.

Han has partnered with diverse collaborators at IBM and NASA to advance research on global disease prediction. She contributes to efforts led by WHO and the US Government to apply this research to disease preemption.

Parasite sharing in wild ungulates and their predators: Effects of phylogeny, range overlap, and trophic links

Stephens, Patrick R., Sonia Altizer, Vanessa O. Ezenwa, John L. Gittleman, Emili Moan, Barbara A. Han, Shan Huang, and Paula Pappalardo. 2019. “Parasite Sharing in Wild Ungulates and Their Predators: Effects of Phylogeny, Range Overlap, and Trophic Links”. Journal of Animal Ecology 88 (7). Wiley: 1017-28. doi:10.1111/1365-2656.12987.

High mortality in aquatic predators of mosquito larvae caused by exposure to insect repellent

Almeida, Rafael M., Barbara A. Han, Alexander J. Reisinger, Catherine Kagemann, and Emma J. Rosi. 2018. “High Mortality in Aquatic Predators of Mosquito Larvae Caused by Exposure to Insect Repellent”. Biology Letters 14 (10): 20180526. doi:10.1098/rsbl.2018.0526.

Host traits associated with species roles in parasite sharing networks

Dallas, Tad A., Barbara A. Han, Charles L. Nunn, Andrew W. Park, Patrick R. Stephens, and John M. Drake. 2018. “Host Traits Associated With Species Roles in Parasite Sharing Networks”. Oikos 128 (1): 23-32. doi:10.1111/oik.05602.

The intrinsic vulnerability of networks to epidemics

Strona, G., C. J. Carstens, P. S. A. Beck, and Barbara A. Han. 2018. “The Intrinsic Vulnerability of Networks to Epidemics”. Ecological Modelling 383: 91-97. doi:10.1016/j.ecolmodel.2018.05.013.

Transmissibility of emerging viral zoonoses

Walker, Joseph, Barbara A. Han, Isabel M. Ott, and John M. Drake. 2018. “Transmissibility of Emerging Viral Zoonoses”. PLOS ONE 13 (11): e0206926. doi:10.1371/journal.pone.0206926.

Data-driven predictions and novel hypotheses about zoonotic tick vectors from the genus Ixodes

Yang, Laura H., and Barbara A. Han. 2018. “Data-Driven Predictions and Novel Hypotheses about Zoonotic Tick Vectors from the Genus Ixodes”. BMC Ecology 183 (1). doi:10.1186/s12898-018-0163-2.

Effects of Emerging Infectious Diseases on Amphibians: A Review of Experimental Studies

Blaustein, Andrew, Jenny Urbina, Paul Snyder, Emily Reynolds, Trang Dang, Jason Hoverman, Barbara A. Han, Deanna Olson, Catherine Searle, and Natalie Hambalek. 2018. “Effects of Emerging Infectious Diseases on Amphibians: A Review of Experimental Studies”. Diversity 10 (3): 81. doi:10.3390/d10030081.

Gauging support for macroecological patterns in helminth parasites

Dallas, Tad A., A. Aguirre, Sarah A. Budischak, Colin Carlson, V.O. Ezenwa, Barbara A. Han, Shan Huang, and Patrick R. Stephens. 2018. “Gauging Support for Macroecological Patterns in Helminth Parasites”. Global Ecology and Biogeography 27 (12): 1437-47. doi:10.1111/geb.12819.

Cognitive disease hunter: developing automated pathogen feature extraction from scientific literature

NeCamp, Timothy, Prasanna Sattigeri, Dennis Wei, Emily Ray, Youssef Drissi, Ananya Poddar, Diwakar Mahajan, et al. (2017) 2017. “ Cognitive Disease Hunter: Developing Automated Pathogen Feature Extraction from Scientific Literature”. In Data Science for Social Good Conference. Chicago, IL. https://pdfs.semanticscholar.org/151b/c458cc3433151a7695d2a9109068217b3613.pdf.

Google Scholar

Data-driven identification of potential Zika virus vectors

Evans, Michelle V., Tad A. Dallas, Barbara A. Han, Courtney C. Murdock, and John M. Drake. 2017. “Data-Driven Identification of Potential Zika Virus Vectors”. ELife 6. doi:10.7554/eLife.22053.

Dr. Adrian Castellanos is the data manager and spatial analyst in the Han lab, where he supports data visualization and scripting. He received his PhD in Wildlife and Fisheries Sciences from Texas A&M University working with Dr. Jessica Light. This work focused on how natural history collections can be used to examine patterns of biodiversity and biogeography in Central American mammals, highlighting the continued importance of specimen collection and data digitization. Although he identifies as a mammalogist, Adrian has also worked on birds, amphibians, orthopterans, and ticks with projects involving disease ecology, behavioral plasticity, morphological shape change, cryptic diversity, and species distribution and occupancy modeling. His research interests include improving species distribution modeling for conservation and biodiversity work, biodiversity informatics, and helping write and troubleshoot code.