ll: Spatial Models and Biomedical Applications.
Kurtz, "Product-form stationary distributions for deficiency zero chemical reaction networks," Bulletin of Mathematical Biology
Kraenkel, "The role of immunity and seasonality in cholera epidemics," Bulletin of Mathematical Biology
Brindley, "Zooplankton mortality and the dynamical behavior of plankton population models," Bulletin of Mathematical Biology
Li, "Global asymptotic stability and the ideal free distribution in a starvation driven diffusion," Journal of Mathematical Biology
Rojas-Palma, "Multiple limit cycles in a Gause type predator-prey model with Holling type III functional response and Allee effect on prey," Bulletin of Mathematical Biology
Herod, Mathematical Biology
: An Introduction with Maple and Matlab, Undergraduate Texts in Mathematics, Springer, New York, NY, USA, 2nd edition, 2009.
van den Driessche, "An SIS epidemic model with variable population size and a delay," Journal of Mathematical Biology
Vargas, "A model for dengue disease with variable human population," Journal of Mathematical Biology
Robert Sinclair, who heads the Mathematical Biology
Unit at OIST.
Mick Roberts, Professor in Mathematical Biology
at Massey University
Focusing on mathematical methods for dissipative system complexity and mathematical biology
, Vakulenko (mechanical engineering, Russian Academy of Sciences) considers the problem of the emergence of complexity in dissipative systems and chaos, stability, and evolution for genetic networks.