Picture of fish in sea

Open Access research that uses mathematical models to solve ecological problems...

Solving a variety of ecological and biological problems is the focus of marine population modelling research conducted within the Department of Mathematics & Statistics. Here research deploys mathematical models to better understanding issues relating to fish stock management, ecosystem dynamics, ocean currents, and the effects of multispecies interactions within diverse marine ecosystems.

Research work in marine population modelling interfaces with a number of other key research specialisms, including mathematical biology, epidemiology and statistical informatics, where investigations are improving human understanding of the behaviour of infectious diseases, particularly in relation to animal infections; but also the modelling of complex biological processes such as antibiotic prodcution in actinobacteria.

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Jump to: 2017 | 2016 | 2013 | 2012 | 2011
Number of items: 7.

2017

Gomez-Gallegos, A. A. and Farrell, M. and Zuelli, N. and Staiano, A. (2017) A comparative study assessing the wear behaviour of different ceramic die materials during superplastic forming. Materials Science and Engineering Technology, 48 (10). pp. 983-992. ISSN 0933-5137

2016

Zuelli, Nicola and Fleming, Christopher and Farrell, Mark and Zante, Remi and Robinson, Luke; Sato, Eiichi and Itoh, Goroh and Takayama, Yoshimasa and Kitazono, Koichi and Morita, Koji and Itoi, Takaomi and Kobayashi, Junya, eds. (2016) Innovative methods for investigating key process variables in the manufacture of superplastically formed aero-engine components. In: Superplasticity in Advanced Materials - ICSAM 2015. Materials Science Forum . Trans Tech Publications, GBR, pp. 603-609. ISBN 978-3-03835-672-1

2013

Farrell, Mark and Riches, Philip (2013) On the Poisson's ratio of the nucleus pulposus. Journal of Biomechanical Engineering, 135 (10). ISSN 0148-0731

2012

Farrell, Mark and Riches, Philip (2012) The Poisson’s ratio of the nucleus pulposus is strain dependent. In: 18th Congress of the European Society of Biomechanics, 2012-07-01 - 2012-07-04.

Farrell, Mark and Riches, Philip (2012) Poisson’s ratio of nucleus pulposus tissue : comparison of experimental results with a biphasic poroviscoelastic finite element model. In: Euromech 534 Colloquium: Advanced experimental approaches and inverse problems in tissue biomechanics, 2012-05-29 - 2012-05-31.

2011

Farrell, Mark and Riches, Philip (2011) Ionic osmotic effects increase fluid flow during permeation tests. Journal of Mechanics in Medicine and Biology.

Farrell, Mark and Riches, Philip (2011) The apparent permeability of the nucleus pulposus is increased by ionic osmotic effects. In: International Society of Biomechanics, 2011-07-03 - 2011-07-07.

This list was generated on Wed Jul 15 17:16:59 2020 BST.