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2020-01-01

S. M. Fischer, M. Beck, L.-M. Herborg, M. A. Lewis

Human traffic along roads can be a major vector for infectious diseases and invasive species. Though most road traffic is local, a small number of long-distance trips can suffice to move an invasion or disease front forward. Therefore, understanding how many agents travel over long distances and...

2019-01-01

Fazly, Mostafa, Lewis, Mark A, Wang, Hao

We study a hybrid impulsive reaction-advection-diffusion model given by a reaction-advection-diffusion equation composed with a discrete-time map in space dimension $n\in\mathbb N$. The reaction-advection-diffusion equation takes the form \begin{equation}\label{} u^{(m)}_t = \text{div}(A\nabla...

2015-04-02

Carpenter, Eric J., Xie, Yinlong, Soltis, Douglas E. , Covshoff, Sarah, Smith, Stephen A. , Moore, Michael J., Brockington, Samuel F., Hibberd, Julian M., Sage, Rowan F., Nelson, Matthew N., Yang, Ya, Chen, Li, Yan, Zhixiang, Zhang, Yong, Wong, Gane K.

2016-01-01

Jonathan R. Potts, Mark A. Lewis

Mechanistic home range analysis (MHRA) is a highly effective tool for understanding spacing patterns of animal populations. It has hitherto focused on populations where animals defend their territories by communicating indirectly, e.g. via scent marks. However, many animal populations defend...

2020-06-20

Mark Lewis, William Fagan, Marie Auger-Methe, Jacqueline Frair, John Fryxell, Claudius Gros, Eliezer Gurarie, Susan Healy, Jerod Merkle

Integrating diverse concepts from animal behavior, movement ecology, and machine learning, we develop an overview of the ecology of learning and animal movement. Learning-based movement is clearly relevant to ecological problems, but the subject is rooted firmly in psychology, including a...

2016-01-01

Maya L. Groner, Luke A. Rogers, Andrew W. Bateman, Brendan M. Connors, L. Neil Frazer, Sean C. Godwin, Martin Krkosˇek, Mark A. Lewis, Stephanie J. Peacock, Erin E. Rees, Crawford W. Revie, Ulrike E. Schla¨gel

Effective disease management can benefit from mathematical models that identify drivers of epidemiological change and guide decision-making. This is well illustrated in the host–parasite system of sea lice and salmon, which has been modelled extensively due to the economic costs associated...

1999-01-01

Wilson, M.V.H.

2008-01-01

Cahill, J. F.

2018-01-01

University of Alberta, Department of Biological Sciences

This image is part of a series displaying key features of micropipetting. This image illustrates micropipette tips. This laboratory equipment is used in Introduction to Cell Biology: Biology 107 and Molecular Genetics and Heredity: Biology 207. This image was created as part of the University of...

2018-01-01

University of Alberta, Department of Biological Sciences

This image is part of a series displaying key features of micropipetting. This image illustrates micropipette tips. This laboratory equipment is used in Introduction to Cell Biology: Biology 107 and Molecular Genetics and Heredity: Biology 207. This image was created as part of the University of...