| Honey bee nest thermoregulation: diversity promotes stability JC Jones, MR Myerscough, S Graham, BP Oldroyd Science 305 (5682), 402-404, 2004 | 595 | 2004 |
| A quantitative model of honey bee colony population dynamics DS Khoury, MR Myerscough, AB Barron PloS one 6 (4), e18491, 2011 | 334 | 2011 |
| Rapid behavioral maturation accelerates failure of stressed honey bee colonies CJ Perry, E Søvik, MR Myerscough, AB Barron Proceedings of the National Academy of Sciences 112 (11), 3427-3432, 2015 | 316 | 2015 |
| Spatio-temporal patterns generated by Salmonella typhimurium DE Woodward, R Tyson, MR Myerscough, JD Murray, EO Budrene, ... Biophysical journal 68 (5), 2181-2189, 1995 | 313 | 1995 |
| Modelling food and population dynamics in honey bee colonies DS Khoury, AB Barron, MR Myerscough PloS one 8 (5), e59084, 2013 | 208 | 2013 |
| Bifurcating spatially heterogeneous solutions in a chemotaxis model for biological pattern generation PK Maini, MR Myerscough, KH Winter, JD Murray Bulletin of mathematical biology 53, 701-719, 1991 | 139 | 1991 |
| Pigmentation pattern formation on snakes JD Murray, MR Myerscough Journal of theoretical biology 149 (3), 339-360, 1991 | 139 | 1991 |
| An analysis of an ordinary differential equation model for a two-species predator-prey system with harvesting and stocking MR Myerscough, BF Gray, WL Hogarth, J Norbury Journal of Mathematical Biology 30, 389-411, 1992 | 114 | 1992 |
| Pattern formation in a generalized chemotactic model MR Myerscough, PK Maini, KJ Painter Bulletin of mathematical biology 60 (1), 1-26, 1998 | 110 | 1998 |
| Stability, persistence and structural stability in a classical predator-prey model MR Myerscough, MJ Darwen, WL Hogarth Ecological Modelling 89 (1-3), 31-42, 1996 | 84 | 1996 |
| An ODE model of early stages of atherosclerosis: mechanisms of the inflammatory response A Ougrinovskaia, RS Thompson, MR Myerscough Bulletin of mathematical biology 72, 1534-1561, 2010 | 83 | 2010 |
| Clonal diversity in carcinomas: its implications for tumour progression and the contribution made to it by epithelial-mesenchymal transitions JG Lyons, E Lobo, AM Martorana, MR Myerscough Clinical & experimental metastasis 25, 665-677, 2008 | 78 | 2008 |
| Simulation models of the role of genetic variability in social insect task allocation MR Myerscough, BP Oldroyd Insectes Sociaux 51, 146-152, 2004 | 77 | 2004 |
| Bifurcation and dynamics in a mathematical model of early atherosclerosis: How acute inflammation drives lesion development AD Chalmers, A Cohen, CA Bursill, MR Myerscough Journal of mathematical biology 71, 1451-1480, 2015 | 75 | 2015 |
| Modelling the role of intracolonial genetic diversity on regulation of brood temperature in honey bee (Apis mellifera L.) colonies S Graham, MR Myerscough, JC Jones, BP Oldroyd Insectes Sociaux 53, 226-232, 2006 | 74 | 2006 |
| A flexible model of foraging by a honey bee colony: the effects of individual behaviour on foraging success MD Cox, MR Myerscough Journal of Theoretical Biology 223 (2), 179-197, 2003 | 69 | 2003 |
| Keratin-14-positive precursor cells spawn a population of migratory corneal epithelia that maintain tissue mass throughout life A Richardson, EP Lobo, NC Delic, MR Myerscough, JG Lyons, ... Stem cell reports 9 (4), 1081-1096, 2017 | 61 | 2017 |
| Self-organized centripetal movement of corneal epithelium in the absence of external cues EP Lobo, NC Delic, A Richardson, V Raviraj, GM Halliday, N Di Girolamo, ... Nature communications 7 (1), 12388, 2016 | 58 | 2016 |
| Dancing for a decision: a matrix model for nest–site choice by honeybees MR Myerscough Proceedings of the Royal Society of London. Series B: Biological Sciences …, 2003 | 53 | 2003 |
| Analysis of propagating pattern in a chemotaxis system MR Myerscough, JD Murray Bulletin of mathematical biology 54, 77-94, 1992 | 52 | 1992 |
