Cambridge Core – Ecology and Conservation – Elements of Mathematical Ecology – by Mark Kot. pages. Dimensions: in. x in. x ts of Mathematical Ecology provides an introduction to classical and modern mathematical models. Elements of Mathematical Ecology Mark Kot. Elements of Mathematical Ecology provides an introduction to classical and modern mathematical models.
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Here is a link to my Google Scholar profile. A First Course in the Elmeents of Variations. Elements of Mathematical Ecology. Journal of Ecology, Persistence in a two-dimensional moving-habitat model. Bulletin of Mathematical Biology, 77, Models for the spread of white pine blister rust. Journal of Theoretical Biology, Bounds for the critical speed of climate-driven moving-habitat models.
Mathematical Biosciences, Keeping pace with climate warming: American Naturalist, Life on the move: Discrete-time growth-dispersal models with shifting species ranges. Theoretical Ecology, 4, The dynamics of a simple laissez-faire model with two predators. Mathematical Biosciences and Engineering, 6, Saddle-point approximations, integrodifference equations, and invasions.
Bulletin of Mathematical Biology, 70, Limit cycles in a chemostat model for a single species with age structure.
Torus bubbling in a discrete-time predator-prey model. Journal of Difference Equations and Applications, 11, Stochasticity, invasions, and branching random walks.
Theoretical Population Biology, 66, Zipf’s law and the diversity of biology newsgroups. Do invading organisms do the wave? Canadian Applied Mathematics Quarterly, 10, Integrodifference equations, Allee effects, and invasions. Journal of Mathematical Biology, 44, Testing a simple stochastic model for the dynamics of waterfowl aggregations.
Speeds of invasion in a model with strong or weak Allee effects.
Invasion speeds in fluctuating environments. Proceedings of the Royal Society of London B, Rate estimation for a simple movement model. Bulletin of Mathematical Biology, 62, Dispersal data and the pf of invading organisms.
Elements of Mathematical Ecology – Mark Kot – Google Books
Weakly dissipative predator-prey systems. Bulletin of Mathematical Biology, 58, Comparative tests of evolutionary lability and rates using molecular phylogenies.
Maynard Smith, and S. Oxford University Press, Oxford. Phylogenetic lability and rates of evolution: A comparison of behavioral, morphological, and life history traits. Dispersal and pattern formation in a discrete-time predator-prey model. Theoretical Population Biology, 48, Comparative methods at the species level: Invasion kog chaos in a pulsed mass-action chemostat.
Theoretical Population Biology, B44, Subcriticality and population collapse in some simple discrete-time predator-prey models. Complex dynamics in a model microbial system.
elementts Bulletin of Mathematical Biology, 54, Journal of Mathematical Biology, 30, Systematic Zoology, 39, Investigation of the nonlinear behavior of a partially ionized, turbulent plasma in a magnetic field. Journal of Applied Physics, 68, Multidimensional trees, range searching, and a correlation dimension algorithm of reduced complexity. Physics Letters A, Changing criteria for imposing order.
Ecological Modelling, 43, Mathematical Biosciences, 80, Effects of noise on some dynamical models in ecology. Journal of Mathematical Biology, 24, Differential systems in ecology and epidemiology. Princeton University Press, Princeton.
Chaos in ecological systems: Trends in Ecology and Evolution, 1, Nearly one-dimensional dynamics in an epidemic. Do strange attractors govern ecological systems? The effects of seasonality on discrete models of population growth. Theoretical Population Biology, 26, Wednesday, November 28,