|Comparing dengue and chikungunya emergence and endemic transmission in A. aegypti and A. albopictus|
CA Manore, KS Hickmann, S Xu, HJ Wearing, JM Hyman
Journal of theoretical biology 356, 174-191, 2014
|Modelling vertical transmission in vector-borne diseases with applications to Rift Valley fever|
N Chitnis, JM Hyman, CA Manore
Journal of biological dynamics 7 (1), 11-40, 2013
|Defining the risk of Zika and chikungunya virus transmission in human population centers of the eastern United States|
C Manore, R Ostfeld, F Agusto, H Gaff, S LaDeau
PLOS Neglected Tropical Diseases 11 (1), 1-19, 2017
|Towards an early warning system for forecasting human West Nile virus incidence|
CA Manore, JK Davis, RC Christofferson, DM Wesson, JM Hyman, ...
PLoS currents 6, 2014
|Inter‐epidemic and between‐season persistence of Rift Valley fever: Vertical transmission or cryptic cycling?|
CA Manore, BR Beechler
Transboundary and emerging diseases 62 (1), 13-23, 2015
|A network-patch methodology for adapting agent-based models for directly transmitted disease to mosquito-borne disease|
CA Manore, KS Hickmann, JM Hyman, IM Foppa, JK Davis, DM Wesson, ...
Journal of biological dynamics 9 (1), 52-72, 2015
|Estimating the reproductive number, total outbreak size, and reporting rates for Zika epidemics in South and Central America|
DP Shutt, CA Manore, S Pankavich, AT Porter, SY Del Valle
Epidemics 21, 63-79, 2017
|Modeling virus coinfection to inform management of maize lethal necrosis in Kenya|
FM Hilker, LJS Allen, VA Bokil, CJ Briggs, Z Feng, KA Garrett, LJ Gross, ...
Phytopathology 107 (10), 1095-1108, 2017
|Spatiotemporal model of barley and cereal yellow dwarf virus transmission dynamics with seasonality and plant competition|
SM Moore, CA Manore, VA Bokil, ET Borer, PR Hosseini
Bulletin of mathematical biology 73 (11), 2707-2730, 2011
|Two-sex mosquito model for the persistence of Wolbachia|
L Xue, CA Manore, P Thongsrpong, JM Hyman
Journal of Biological Dynamics, 2016
|Enemies and turncoats: bovine tuberculosis exposes pathogenic potential of Rift Valley fever virus in a common host, African buffalo (Syncerus caffer)|
BR Beechler, CA Manore, B Reininghaus, D O'Neal, EE Gorsich, ...
Proceedings of the Royal Society B: Biological Sciences 282 (1805), 20142942, 2015
|Forecasting zoonotic infectious disease response to climate change: mosquito vectors and a changing environment|
AW Bartlow, C Manore, C Xu, KA Kaufeld, S Del Valle, A Ziemann, ...
Veterinary sciences 6 (2), 40, 2019
|A mathematical model for the spread of West Nile virus in migratory and resident birds|
LD Bergsman, JM Hyman, CA Manore
Mathematical Biosciences & Engineering 13 (2), 401, 2016
|Towards a hybrid agent-based model for mosquito borne disease|
SM Mniszewski, CA Manore, C Bryan, SY Del Valle, D Roberts
Summer Computer Simulation Conference:(SCSC 2014): 2014 Summer Simulation …, 2014
|Mathematical models for fighting Zika virus|
C Manore, M Hyman
SIAM news 2016, 1-5, 2016
|Disease properties, geography, and mitigation strategies in a simulation spread of rinderpest across the United States|
C Manore, B McMahon, J Fair, JM Hyman, M Brown, M LaBute
Veterinary research 42 (1), 55, 2011
|Epidemiological parameter review and comparative dynamics of influenza, respiratory syncytial virus, rhinovirus, human coronavirus, and adenovirus|
J Spencer, DP Shutt, SK Moser, H Clegg, HJ Wearing, H Mukundan, ...
|Spatiotemporal incidence of Zika and associated environmental drivers for the 2015-2016 epidemic in Colombia|
AS Siraj, I Rodriguez-Barraquer, CM Barker, N Tejedor-Garavito, ...
Scientific data 5, 180073, 2018
|Coupling vector-host dynamics with weather geography and mitigation measures to model Rift Valley fever in Africa|
BH McMahon, CA Manore, JM Hyman, MX LaBute, JM Fair
Mathematical modelling of natural phenomena 9 (2), 161-177, 2014
|Constructing rigorous and broad biosurveillance networks for detecting emerging zoonotic outbreaks|
M Brown, L Moore, B McMahon, D Powell, M LaBute, JM Hyman, A Rivas, ...
PloS one 10 (5), e0124037, 2015