Publications

View my Google Scholar Citations page


  1. M.A. Robert, R.C. Christofferson, N.J.B. Silva, C. Vasquez, C.N. Mores, H.J. Wearing. 2016. Modeling mosquito-borne disease spread in U.S. Urbanized Areas: The case of dengue in Miami. PLoS ONE 11(8):e0161365. [LINK]
  2. H.J. Wearing, M.A. Robert, R.C. Christofferson. 2016. Dengue and chikungunya: modelling the expansion of mosquito-borne viruses into naive populations. Parasitology 143: 860-873. [LINK]
  3. M.A. Robert, K. Okamoto, F. Gould, A.L. Lloyd. 2014. Anti-pathogen genes and the replacement of disease-vectoring mosquito populations: a model-based evaluation. Evolutionary Applications. doi: 10.1111/eva.12219 [LINK]
  4. K.W. Okamoto, M.A. Robert, F. Gould, A.L. Lloyd. 2014. Feasible introgression of an anti-pathogen transgene into an urban mosquito population without using gene-drive. PLoS Neglected Tropical Diseases 8(7):e2827. [LINK]
  5. K.W. Okamoto, M.A. Robert, A. L. Lloyd, F. Gould. 2013. A reduce and replace strategy for suppressing vector-borne diseases: insights from a stochastic, spatial model. PLoS ONE 8(12):e81860. [LINK]
  6. M.A. Robert, K. Okamoto, A. L. Lloyd, F. Gould. 2013. A reduce and replace strategy for suppressing vector-borne diseases: insights from a deterministic model. PLoS ONE 8(9):e73233. [LINK]
  7. L. Facchinelli, L. Valerio, J.M. Ramsey, F. Gould, R. Katz, G. Bond, M.A. Robert, A. L. Lloyd, A.A. James, L. Alphey, T.W. Scott. 2013. Field cage studies and progressive evaluation of genetically-engineered mosquitoes. PLoS Neglected Tropical Diseases 7(1):e2001. [LINK]
  8. M.A. Robert, M. Legros, L. Facchinelli, L. Valerio, J. M. Ramsey, T. W. Scott, F. Gould, A. L. Lloyd. 2012. Mathematical models as aids for design and interpretation of experiments: The case of transgenic mosquitoes. Journal of Medical Entomology 49(6): 1177-1188. [LINK]


Ph.D. Dissertation: Mathematical models of genetic strategies for controlling the dengue vector, Aedes aegypti. Submitted August, 2 2013. LINK

E-mail: m.robert@usciences.edu