Symbol key: *undergraduate mentee, ^graduate student mentee, ‡equal authorship contributions
Peer-reviewed Journal Articles
2024
Dennington, N., M. Grossman, F. Ware-Gilmore, J. Teeple, L. Johnson, M. Shocket, Elizabeth A. McGraw, M. Thomas. (2024) Phenotypic adaptation to temperature in the mosquito vector, Aedes aegypti. Global Change Biology. 30(1): e17041.
Hector, T., M. Shocket, C. Sgrò, and M. Hall. (2024) Thermal acclimation to warmer temperatures can protect host populations from both further heat stress and the potential invasion of pathogens. Global Change Biology. 30(6): e17341.
Pawar, S., P. Huxley, T. Smallwood, M. Nesbit, A. Chan, M. Shocket, L. Johnson, G. Dimitrios, and L. Cator (2024). Variation in temperature of peak trait performance will constrain adaptation of arthropod populations to climatic warming. Nature Ecology & Evolution. In press.
Penczykowski, R., M. Fearon, J. Hite, Shocket, M., S. Hall, and M. Duffy. (2024) Pathways linking nutrient enrichment, habitat structure, and parasitism to host–resource interactions. Oecologia. 204: 439-449.
2023
Shocket, M. (2023) Fluctuating temperatures have a surprising effect on disease transmission. PLOS Biology. 21(9): e3002288.
2022
Penczykowski, R., S. Hall, M. Shocket, J. Ochs, B. Lemanski, H. Sundar, and M. Duffy. (2022) Virulent disease epidemics can increase host density by depressing foraging of hosts. American Naturalist. 199(1): 75-90. PDF
Walsman, J., A. Strauss, J. Hite, M. Shocket, and S. Hall. (2022) A paradox of parasite resistance: disease-driven trophic cascades increase the cost of resistance, selecting for lower resistance with parasites than without them. Evolutionary Ecology. In press. PDF
2021
Athni, T.*, M. Shocket, L. Couper, N. Nova, I. Caldwell, J. Caldwell, J. Childress, M. Childs, G. De Leo, D. Kirk, A. MacDonald, K. Olivarius, D. Pickel, S. Roberts, O. Winkour, H. Young, J. Cheng, E. Grant, P. Kurzner, S. Kyaw, B. Lin, R. López, D. Massihpour, E. Olsen, M. Roache, A. Ruiz, E. Schultz, M. Shafat, R. Spencer, N. Bharti, and E. Mordecai. (2021) The influence of vector-borne disease on human history: socio-ecological mechanisms. Ecology Letters. 24(4): 829-846. PDF
Couper, L., J. Farner, J. Caldwell, M. Childs, M. Harris, D. Kirk, N. Nova, M. Shocket, E. Skinner, L. Uricchio, M. Exposito-Alonso, and E. Mordecai. (2021) How will mosquitoes adapt to climate warming? eLife. 10: e69630. PDF
Keyel, A., M. Gorris, I. Rochlin, J. Uelmen, L. Chaves, G. Hamer, I. Moise, M. Shocket, A. Kilpatrick, N. DeFelice, J. Davis, E. Little, P. Irwin, A. Tyre, K. Helm-Smith, C. Fredregill, O. Timm, K. Holcomb, M. Wimberly, M. Ward, C. Barker, and R. Smith. (2021) A proposed framework for the development and qualitative evaluation of West Nile virus models and their application to local public health decision-making. PLOS Neglected Tropical Diseases. 15(9): e0009653. PDF
2020
Shocket, M., A. Verwillow, M. Numazu, H. Slamani, J. Cohen, F. El Moustaid, J. Rohr, L. Johnson, and E. Mordecai. (2020) Transmission of West Nile and five other temperate mosquito-borne viruses peaks at temperatures between 23°C and 26°C. eLife. 9: e58511. PDF
Nova, N., E. Deyle, M. Shocket, A. MacDonald, M. Childs, M. Rypdal, G. Sugihara, and E. Mordecai. (2020) Susceptible host availability modulates climate effects on dengue dynamics. Ecology Letters. 24(3): 415-425. PDF
2019
Shocket, M., A. Magnante*, M. Duffy, C. Cáceres, and S. Hall. (2019) Can hot temperatures limit disease transmission? A test of mechanisms in a zooplankton-fungus system. Functional Ecology. 33(10): 2017-2029. PDF
Altassan, K.^, C. Morin, M. Shocket, K. Ebi, and J. Hess (2019). Dengue fever in Saudi Arabia: A review of environmental and population factors impacting emergence and spread. Travel Med Infect Dis. 30: 46-53. PDF
Miazgowicz, K., M. Shocket, S. Ryan, O. Villena, R. Hall, H. Owen, T. Adanlawo, K. Balaji, L. Johnson, E. Mordecai, and C. Murdock. (2020) Age influences the thermal suitability of Plasmodium falciparum transmission in the Asian malaria vector Anopheles stephensi. Proc. R. Soc. B. 287(1931): 20201093. PDF
Mordecai, E., J. Caldwell, M. Grossman, C. Lippi, L. Johnson, M. Niera, J. Rohr, S. Ryan, V. Savage, M. Shocket, R. Sippi, A. Stewart Ibarra, M. Thomas, and O. Villena. (2019) Thermal biology of mosquito-borne disease. (Cover article) Ecology Letters. 22(10): 1690-1708. PDF
Strauss, A., J. Hite, D. Civitello, M. Shocket, C. Cáceres, and S. Hall. (2019) Genotypic variation in parasite avoidance behaviour and other mechanistic, non-linear components of parasite transmission. Proc. R. Soc. B. 286(1915): 20192164. PDF
2018
Shocket, M., S. Ryan, and E. Mordecai. (2018) Temperature explains broad patterns of Ross River virus transmission. eLife. 7: e37762. PDF
Shocket, M., D. Vergara, A. Sickbert*, J. Walsman, A. Strauss, J. Hite, M. Duffy, C. Cáceres, and S. Hall. (2018) Parasite rearing and infection temperatures jointly influence disease transmission and shape seasonality of epidemics. Ecology. 99(9): 1975-87. PDF
Shocket, M., A. Strauss, J. Hite, M. Šljivar, D. Civitello, M. Duffy, C. Cáceres, and S. Hall. (2018) Temperature drives epidemics in a zooplankton-fungus disease system: a trait-driven approach points to transmission via host foraging. American Naturalist. 191(4): 435-451. PDF Winner of The American Naturalist 2018 Student Paper Award.
2017
Hite, J., R. Penczykowski, M. Shocket, K. Griebel, A. Strauss, M. Duffy, C. Cáceres, and S. Hall. (2017) Allocation, not male resistance, increases male frequency during epidemics: a case study in facultatively sexual hosts. Ecology. 98(11): 2773-2783. PDF
Mordecai, E., J. Cohen, M. Evans, P. Gudapati, L. Johnson, K. Miazgowicz, C. Murdock, J. Rohr, S. Ryan, V. Savage, M. Shocket, A. Stewart-Ibarra, M. Thomas, and D. Weikel. (2017) Detecting the impact of temperature on transmission of Zika, dengue and chikungunya using mechanistic models. PLoS Neglected Tropical Diseases. 11(4): e0005568. PDF
Strauss, A., J. Hite, M. Shocket, C. Cáceres, M. Duffy, and S. Hall. (2017) Rapid evolution rescues hosts from competition and disease and—despite a dilution effect—increases the density of infected hosts. Proc. R. Soc. B. 284(1868): 20171970. PDF
2016
Hite, J., R. Penczykowski, M. Shocket, A. Strauss, P. Orlando, M. Duffy, C. Cáceres, and S. Hall. (2016) Parasites destabilize host populations by shifting stage-structured interactions. Ecology. 97(2): 439-449. PDF
Strauss, A., M. Shocket, J. Hite, R. Penczykowski, M. Duffy, C. Cáceres, and S. Hall. (2016) Habitat, predators, and hosts regulate disease in Daphnia through direct and indirect pathways. Ecological Monographs. 86(4): 393-411. PDF
2015
Civitello, D., R. Penczykowski, A. Smith, M. Shocket, M. Duffy, and S. Hall. (2015) Resources, key traits, and the size of fungal epidemics in Daphnia populations. Journal of Animal Ecology. 84(4): 1010-1017. PDF
Peer-reviewed Book Chapters
Kirk, D.‡, E. Skinner‡, M. Shocket, L. Couper, N. Nova, T. Athni, J. Pourtois, J. Farner, M. Childs, M. Harris, S. Nyathi,and E. Mordecai. (2022) Chapter 4: Climate change and infectious Disease. Ecology of Infectious Disease. Ed: G. Suzán, A. Aguirre, and J. Mills. Oxford University Press. In press.
Shocket, M., J. Caldwell, P. Huxley, C. Lippi, F. Windram, and A. Keyel. (2024) Chapter 10: Modelling the effects of climate and climate change on transmission of vector-borne disease. Planetary Health Approaches to Understand and Control Vector-borne Diseases. Ed: K. Fornace, J. Conn, M. Mureb Sallum, L. Moereira Chaves, and J. Logan. Brill Academic Publishers.
Shocket, M., C. Anderson, J. Caldwell, M. Childs, L. Couper, S. Han, M. Harris, M. Howard, M. Kain, A. McDonald, N. Nova, and E. Mordecai. (2021) Chapter 6: Environmental drivers of vector-borne diseases. Population Biology of Vector-borne Diseases. Ed: J. Drake. Oxford University Press.