APES vs. The Effects of Climate Change on Vector-Borne Diseases

Hattie Halloway & Caroline Foley


DISCLAIMER: All guests are high school students, not actual experts.


(n.d.). Extreme Weather. Retrieved from Global Change website: https://nca2014.globalchange.gov/highlights/report-findings/extreme-weather
(2019, May 23). Global Climate Change. Retrieved from NASA website: https://climate.nasa.gov/
Fabrice Courtin, J. R., Tamboura, I., Serdébéogo, O., Koudougou, Z., Solano, P., & Sidibé, I. (2010, April 15). Updating the Northern Tsetse Limit in Burkina Faso (1949–2009): Impact of Global Change. Retrieved May 26, 2019, from https://www.mdpi.com/1660-4601/7/4/1708/htm
Lindgren, E., Jaenson, T. G., Menne, B., & World Health Organization. (2006). Lyme borreliosis in Europe: influences of climate and climate change, epidemiology, ecology and adaptation measures (No. EUR/04/5046250). Copenhagen: WHO Regional Office for Europe.
Moore, S., Shrestha, S., Tomlinson, K. W., & Vuong, H. (2011, November 09). Predicting the effect of climate change on African trypanosomiasis: Integrating epidemiology with parasite and vector biology. Retrieved May 26, 2019, from https://royalsocietypublishing.org/doi/full/10.1098/rsif.2011.0654
Morin, C. W., & Comrie, A. C. (2013). Regional and seasonal response of a West Nile virus vector to climate change. Proceedings of the National Academy of Sciences, 110(39), 15620-15625.
Ogden, N. H., Radojevic, M., Wu, X., Duvvuri, V. R., Leighton, P. A., & Wu, J. (2014). Estimated effects of projected climate change on the basic reproductive number of the Lyme disease vector Ixodes scapularis. Environmental health perspectives, 122(6), 631-638.
Paz, S. (2015). Climate change impacts on West Nile virus transmission in a global context. Philosophical Transactions of the Royal Society B: Biological Sciences, 370(1665), 20130561.

Hattie Halloway & Caroline Foley

DISCLAIMER: All guests are high school students, not actual experts.

(n.d.). Extreme Weather. Retrieved from Global Change website: https://nca2014.globalchange.gov/highlights/report-findings/extreme-weather

(2019, May 23). Global Climate Change. Retrieved from NASA website: https://climate.nasa.gov/

Fabrice Courtin, J. R., Tamboura, I., Serdébéogo, O., Koudougou, Z., Solano, P., & Sidibé, I. (2010, April 15). Updating the Northern Tsetse Limit in Burkina Faso (1949–2009): Impact of Global Change. Retrieved May 26, 2019, from https://www.mdpi.com/1660-4601/7/4/1708/htm

Lindgren, E., Jaenson, T. G., Menne, B., & World Health Organization. (2006). Lyme borreliosis in Europe: influences of climate and climate change, epidemiology, ecology and adaptation measures (No. EUR/04/5046250). Copenhagen: WHO Regional Office for Europe.

Moore, S., Shrestha, S., Tomlinson, K. W., & Vuong, H. (2011, November 09). Predicting the effect of climate change on African trypanosomiasis: Integrating epidemiology with parasite and vector biology. Retrieved May 26, 2019, from https://royalsocietypublishing.org/doi/full/10.1098/rsif.2011.0654

Morin, C. W., & Comrie, A. C. (2013). Regional and seasonal response of a West Nile virus vector to climate change. Proceedings of the National Academy of Sciences, 110(39), 15620-15625.

Ogden, N. H., Radojevic, M., Wu, X., Duvvuri, V. R., Leighton, P. A., & Wu, J. (2014). Estimated effects of projected climate change on the basic reproductive number of the Lyme disease vector Ixodes scapularis. Environmental health perspectives, 122(6), 631-638.

Paz, S. (2015). Climate change impacts on West Nile virus transmission in a global context. Philosophical Transactions of the Royal Society B: Biological Sciences, 370(1665), 20130561.

DISCLAIMER: All guests featured in this podcast are actually high school students playing pretend. 

Works Cited

(n.d.). Extreme Weather. Retrieved from Global Change website: https://nca2014.globalchange.gov/highlights/report-findings/extreme-weather

(2019, May 23). Global Climate Change. Retrieved from NASA website: https://climate.nasa.gov/

Fabrice Courtin, J. R., Tamboura, I., Serdébéogo, O., Koudougou, Z., Solano, P., & Sidibé, I. (2010, April 15). Updating the Northern Tsetse Limit in Burkina Faso (1949–2009): Impact of Global Change. Retrieved May 26, 2019, from https://www.mdpi.com/1660-4601/7/4/1708/htm

Lindgren, E., Jaenson, T. G., Menne, B., & World Health Organization. (2006). Lyme borreliosis in Europe: influences of climate and climate change, epidemiology, ecology and adaptation measures (No. EUR/04/5046250). Copenhagen: WHO Regional Office for Europe.

Moore, S., Shrestha, S., Tomlinson, K. W., & Vuong, H. (2011, November 09). Predicting the effect of climate change on African trypanosomiasis: Integrating epidemiology with parasite and vector biology. Retrieved May 26, 2019, from https://royalsocietypublishing.org/doi/full/10.1098/rsif.2011.0654

Morin, C. W., & Comrie, A. C. (2013). Regional and seasonal response of a West Nile virus vector to climate change. Proceedings of the National Academy of Sciences, 110(39), 15620-15625.

Ogden, N. H., Radojevic, M., Wu, X., Duvvuri, V. R., Leighton, P. A., & Wu, J. (2014). Estimated effects of projected climate change on the basic reproductive number of the Lyme disease vector Ixodes scapularis. Environmental health perspectives, 122(6), 631-638.

Paz, S. (2015). Climate change impacts on West Nile virus transmission in a global context. Philosophical Transactions of the Royal Society B: Biological Sciences, 370(1665), 20130561.