Troy Day
Troy Day
Department of Mathematics and Statistics, Queen's University
Verified email at - Homepage
Cited by
Cited by
A biologist's guide to mathematical modeling in ecology and evolution
SP Otto, T Day
A Biologist's guide to mathematical modeling in ecology and evolution, 2011
Nongenetic inheritance and its evolutionary implications
R Bonduriansky, T Day
Annual Review of Ecology, Evolution, and Systematics 40 (1), 103-125, 2009
Inclusive fitness theory and eusociality
P Abbot, J Abe, J Alcock, S Alizon, JAC Alpedrinha, M Andersson, ...
Nature 471 (7339), E1-E4, 2011
Modelling strategies for controlling SARS outbreaks
AB Gumel, S Ruan, T Day, J Watmough, F Brauer, P Van den Driessche, ...
Proceedings of the Royal Society of London. Series B: Biological Sciences …, 2004
Population structure attributable to reproductive time: isolation by time and adaptation by time
AP Hendry, T Day
Molecular ecology 14 (4), 901-916, 2005
The implications of nongenetic inheritance for evolution in changing environments
R Bonduriansky, AJ Crean, T Day
Evolutionary applications 5 (2), 192-201, 2012
Linking within-and between-host dynamics in the evolutionary epidemiology of infectious diseases
N Mideo, S Alizon, T Day
Trends in ecology & evolution 23 (9), 511-517, 2008
Developmental thresholds and the evolution of reaction norms for age and size at life-history transitions
T Day, L Rowe
The American Naturalist 159 (4), 338-350, 2002
Evolution of cooperation in a finite homogeneous graph
PD Taylor, T Day, G Wild
Nature 447 (7143), 469-472, 2007
The origins and potential future of SARS-CoV-2 variants of concern in the evolving COVID-19 pandemic
SP Otto, T Day, J Arino, C Colijn, J Dushoff, M Li, S Mechai, ...
Current Biology 31 (14), R918-R929, 2021
A unified approach to the evolutionary consequences of genetic and nongenetic inheritance
T Day, R Bonduriansky
The American Naturalist 178 (2), E18-E36, 2011
The adaptive evolution of virulence: a review of theoretical predictions and empirical tests
CE Cressler, DV McLeod, C Rozins, J Van Den Hoogen, T Day
Parasitology 143 (7), 915-930, 2016
Condition-dependent sexual selection can accelerate adaptation
PD Lorch, S Proulx, L Rowe, T Day
Evolutionary ecology research 5 (6), 867-881, 2003
A comparison of two sticklebacks
T Day, J Pritchard, D Schluter
Evolution 48 (5), 1723-1734, 1994
Antagonistic pleiotropy, mortality source interactions, and the evolutionary theory of senescence
PD Williams, T Day
Evolution 57 (7), 1478-1488, 2003
Evolutionary principles and their practical application
AP Hendry, MT Kinnison, M Heino, T Day, TB Smith, G Fitt, CT Bergstrom, ...
Evolutionary Applications 4 (2), 159-183, 2011
The evolution of static allometry in sexually selected traits
R Bonduriansky, T Day
Evolution 57 (11), 2450-2458, 2003
The evolution of drug resistance and the curious orthodoxy of aggressive chemotherapy
AF Read, T Day, S Huijben
Proceedings of the National Academy of Sciences 108 (supplement_2), 10871-10877, 2011
Population mixing and the adaptive divergence of quantitative traits in discrete populations: a theoretical framework for empirical tests
AP Hendry, T Day, EB Taylor
Evolution 55 (3), 459-466, 2001
Host–parasite coevolution and patterns of adaptation across time and space
S Gandon, A Buckling, E Decaestecker, T Day
Journal of evolutionary biology 21 (6), 1861-1866, 2008
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