In many biological systems, it is essential for individuals to gain information from their local environment before making decisions. In particular, through sight, hearing or smell, animals detect the presence of other individuals and adjust their behavior accordingly. Interestingly, this feature is not only restricted to higher level species, such as animals, but is also found in cells. For example, some human immune cells are able to interact non- locally by extending long thin protrusions to detect the presence of chemicals or signaling molecules. Indeed, the process of gaining information about the surrounding environment is intrinsically non-local and mathematically this leads to non-local advection terms in continuum models.
In this seminar, Valeria Giunta (Sheffield University) will focus on a class of nonlocal advection-diffusion equations modeling population movements generated by inter and intra-species interactions. Giunta will show that the model supports a great variety of complex spatio-temporal patterns, including stationary aggregations, segregations, oscillatory patterns, and irregular spatio-temporal solutions.
However, if populations respond to each other in a symmetric fashion, the system admits an energy functional that is decreasing and bounded below, suggesting that patterns will be asymptotically stable. She will describe novel techniques for using this functional to gain insight into the analytic structure of the stable steady state solutions. This process reveals a range of possible stationary strongly modulated patterns, including regions of multi-stability. Through a nonlinear analysis, Giunta will classify the bifurcations occurring at the onset of an instability and show the coexistence between small amplitude patterns and strongly modulated solutions. These will be validated via comparison with numerical simulations.
The online talk is scheduled for Tuesday, 23rd of May, 10:00 at uniMEET (uni-graz.at).