Dynamics of fat cell turnover in humans KL Spalding, E Arner, PO Westermark, S Bernard, BA Buchholz, ... Nature 453 (7196), 783-787, 2008 | 2998 | 2008 |

Stochastic epidemic models and their statistical analysis H Andersson, T Britton Springer Science & Business Media, 2012 | 1293 | 2012 |

Mathematical tools for understanding infectious disease dynamics O Diekmann, H Heesterbeek, T Britton Princeton University Press, 2013 | 1025 | 2013 |

Diversification of Neoaves: integration of molecular sequence data and fossils PGP Ericson, CL Anderson, T Britton, A Elzanowski, US Johansson, ... Biology letters 2 (4), 543-547, 2006 | 798 | 2006 |

Adipocyte turnover: relevance to human adipose tissue morphology E Arner, PO Westermark, KL Spalding, T Britton, M Rydén, J Frisén, ... Diabetes 59 (1), 105-109, 2010 | 788 | 2010 |

Reliability of Bayesian posterior probabilities and bootstrap frequencies in phylogenetics P Erixon, B Svennblad, T Britton, B Oxelman Systematic biology 52 (5), 665-673, 2003 | 780 | 2003 |

A mathematical model reveals the influence of population heterogeneity on herd immunity to SARS-CoV-2 T Britton, F Ball, P Trapman science 369 (6505), 846-849, 2020 | 761 | 2020 |

Stochastic epidemic models: a survey T Britton Mathematical biosciences 225 (1), 24-35, 2010 | 610 | 2010 |

Generating simple random graphs with prescribed degree distribution T Britton, M Deijfen, A Martin-Löf Journal of statistical physics 124, 1377-1397, 2006 | 391 | 2006 |

Estimating divergence times in large phylogenetic trees T Britton, CL Anderson, D Jacquet, S Lundqvist, K Bremer Systematic biology 56 (5), 741-752, 2007 | 333 | 2007 |

Lipolysis—not inflammation, cell death, or lipogenesis—is involved in adipose tissue loss in cancer cachexia M Rydén, T Agustsson, J Laurencikiene, T Britton, E Sjölin, B Isaksson, ... Cancer: Interdisciplinary International Journal of the American Cancer …, 2008 | 211 | 2008 |

Statistical studies of infectious disease incidence NG Becker, T Britton Journal of the Royal Statistical Society: Series B (Statistical Methodology …, 1999 | 176 | 1999 |

Stochastic epidemic models with inference T Britton, E Pardoux, F Ball, C Laredo, D Sirl, VC Tran Springer, 2019 | 173 | 2019 |

Inferring speciation and extinction rates under different sampling schemes S Höhna, T Stadler, F Ronquist, T Britton Molecular biology and evolution 28 (9), 2577-2589, 2011 | 169 | 2011 |

Estimation in emerging epidemics: biases and remedies T Britton, G Scalia Tomba Journal of the Royal Society Interface 16 (150), 20180670, 2019 | 151 | 2019 |

Seven challenges for metapopulation models of epidemics, including households models F Ball, T Britton, T House, V Isham, D Mollison, L Pellis, GS Tomba Epidemics 10, 63-67, 2015 | 138 | 2015 |

Key questions for modelling COVID-19 exit strategies RN Thompson, TD Hollingsworth, V Isham, D Arribas-Bel, B Ashby, ... Proceedings of the Royal Society B 287 (1932), 20201405, 2020 | 131 | 2020 |

Bayesian inference for stochastic epidemics in populations with random social structure T Britton, PD O'NEILL Scandinavian Journal of Statistics 29 (3), 375-390, 2002 | 131 | 2002 |

Epidemics on random graphs with tunable clustering T Britton, M Deijfen, AN Lagerås, M Lindholm Journal of Applied Probability 45 (3), 743-756, 2008 | 118 | 2008 |

Phylogenetic dating with confidence intervals using mean path lengths T Britton, B Oxelman, A Vinnersten, K Bremer Molecular phylogenetics and evolution 24 (1), 58-65, 2002 | 111 | 2002 |