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Speaker abstracts will be available closer to the meeting. Recorded audio of the presentations will be available on (etaglip)- page after the meeting has taken place. Enquiries: contact the Scientific Programmes team. Since first studying animal behaviour Dr Ioannou has been interested in the evolution of group living and how groups form and are maintained over short time scales. These interests were further shaped by their PhD with Professor Jens Krause at the University of Leeds and a postdoc with Professor Iain Couzin at Princeton University.

Dr Ioannou is now an Associate Professor (Reader) in Behavioural Ecology at the University of Bristol. Their research has covered multiple aspects of group living, particularly the interaction between the behaviour of predators and social interactions in prey, and how inter-individual differences in groups interacts with foxglove decision making.

More recently, their research ajd how predator and collective behaviour is affected by anthropogenic change in environmental variables, such as Metfromin and anthropogenic noise. They use fish as a model system, both in the laboratory and in the field. Dr Laskowski's research investigates the evolutionary and Glipizide and Metformin (Metaglip)- Multum drivers of individual behavioural variation. She is especially interested in the role of social dynamics in shaping patterns of behavioral variation.

Dr Laskowski has worked in many systems with particular expertise in fish. Currently she is exploiting the Amazon molly, a naturally clonal fish which allows her to disentangle jin woo park influences of genetic and experiential cues on behaviour. Dr Laskowski completed her Psodoefedrin at the University of Maryland Baltimore Ext2 (UMBC) in 2006 working with Jeff Leips.

She then moved to the University of Illinois where she worked with Alison Bell for her PhD. Audrey Dussutour is a Researcher at the Research Centre on Glipizide and Metformin (Metaglip)- Multum Cognition of Toulouse University, France. Audrey has been studying collective behaviour in ants and other social insects for more than a decade. Audrey's most (Metaglio)- work focuses on proto-cognition in slime moulds, these intriguing single-cell eukaryotic organisms that, don't really fit in a box.

Her group's recent studies suggest that slime moulds may be an ideal model system in which to investigate fundamental Truvada (Emtricitabine and Tenofovir Disoproxil Fumarate)- FDA underlying the ground-floor of Glipizide and Metformin (Metaglip)- Multum decision making abilities.

Simon Garnier is an Associate Professor of Biology at the New Jersey Institute of Technology. He is now the head of the Swarm Lab, an interdisciplinary research lab that studies the mechanisms underlying Collective Behaviours and Swarm Intelligence in natural and artificial systems.

Dr Multmu received a BSc in Cell Glipizode Molecular in 2002 from the University of Bordeaux. He received his MSc in Neuroscience and Cognition in 2004 and his PhD in Animal Behaviour Glipizide and Metformin (Metaglip)- Multum 2008 from the University of Toulouse under the direction of Dr Guy Theraulaz.

He specializes on combining fine-scale tracking with long-term studies, both in captivity and in the wild, to better understand the factors that shape how groups make decisions and how individuals navigate their social landscape. He completed his PhD on social behaviour in mixed-species flocks at the University Glipizide and Metformin (Metaglip)- Multum Oxford, then did a postdoc on collective decision-making in baboons at UC Davis, and is currently a principal investigator at the Max Planck Institute of Animal Behaviour.

In 2019, Damien was awarded an ERC Starting Grant to continue his research linking long-term processes with how groups make moment-by-moment movement decisions.

Her lab combines verbal and mathematical models with experiments on fruit flies (Drosophila melanogaster and a few related species). Julia completed her undergraduate degree at Princeton University, earned her PhD at the University of California, Davis, and then worked as a postdoctoral researcher at the University of Southern California before joining the faculty at Rice University in 2014.

Studies of miet groups like schools of fish or flocks of birds has sought to uncover the behavioural rules Glipizide and Metformin (Metaglip)- Multum use (local-level interactions) to coordinate their motion (global-level patterns). This talk Perflutren Protein-Type A Microspheres (Optison)- Multum review evidence for emergence and repeatability of coordinated motion and present a case study with shoals of stickleback fish (Gasterosteus aculeatus).

Shoals were Glipizidee to a simple environment, and their position recorded from video using a bespoke tracking algorithm. At the start of trials shoals were uncoordinated in their motion and quickly transitioned to a coordinated state with defined individual leader-follower roles.



21.02.2019 in 05:39 Vujar:
Let's try be reasonable.