John G. Swallow
John G. Swallow
Professor of Biology, University of Colorado Denver
Verified email at - Homepage
Cited by
Cited by
Artificial selection for increased wheel-running behavior in house mice
JG Swallow, PA Carter, T Garland
Behavior genetics 28 (3), 227-237, 1998
Effects of voluntary activity and genetic selection on aerobic capacity in house mice (Mus domesticus)
JG Swallow, T Garland Jr, PA Carter, WZ Zhan, GC Sieck
Journal of applied physiology 84 (1), 69-76, 1998
Effects of voluntary activity and genetic selection on muscle metabolic capacities in house mice Mus domesticus
P Houle-Leroy, T Garland Jr, JG Swallow, H Guderley
Journal of Applied Physiology 89 (4), 1608-1616, 2000
Behaviour of house mice artificially selected for high levels of voluntary wheel running
P Koteja, T Garland Jr, JK Sax, JG Swallow, PA Carter
Animal behaviour 58 (6), 1307-1318, 1999
Evolution of a small‐muscle polymorphism in lines of house mice selected for high activity levels
T Garland Jr, MT Morgan, JG Swallow, JS Rhodes, I Girard, JG Belter, ...
Evolution 56 (6), 1267-1275, 2002
The long and short of sperm polymorphisms in insects
JG Swallow, GS Wilkinson
Biological Reviews 77 (2), 153-182, 2002
Food consumption and body composition in mice selected for high wheel-running activity
J Swallow, P Koteja, P Carter, T Garland
Journal of Comparative Physiology B 171 (8), 651-659, 2001
Artificial selection for increased wheel-running activity in house mice results in decreased body mass at maturity
JG Swallow, P Koteja, PA Carter, T Garland
Journal of Experimental Biology 202 (18), 2513-2520, 1999
Trade‐offs in phenotypic traits: endurance at birth, growth, survival, predation and susceptibility to parasitism in a lizard, Lacerta vivipara
J Clobert, A Oppliger, G Sorci, B Ernande, JG Swallow, T Garland Jr
Functional Ecology 14 (6), 675-684, 2000
Energy cost of wheel running in house mice: implications for coadaptation of locomotion and energy budgets
P Koteja, JG Swallow, PA Carter, T Garland, Jr
Physiological and Biochemical Zoology 72 (2), 238-249, 1999
Open-field behavior of house mice selectively bred for high voluntary wheel-running
AM Bronikowski, PA Carter, JG Swallow, IA Girard, JS Rhodes, T Garland
Behavior genetics 31 (3), 309-316, 2001
Selection experiments and experimental evolution of performance and physiology
JG Swallow, JP Hayes, P Koteja, T Garland Jr
Experimental evolution: concepts, methods, and applications of selection …, 2009
Quantitative genetics of locomotor speed and endurance in the lizard Lacerta vivipara
G Sorci, JG Swallow, T Garland Jr, J Clobert
Physiological Zoology 68 (4), 698-720, 1995
Artificial selection for high activity favors mighty mini-muscles in house mice
P Houle-Leroy, H Guderley, JG Swallow, T Garland Jr
American Journal of Physiology-Regulatory, Integrative and Comparative …, 2003
Glucocorticoid response to forced exercise in laboratory house mice (Mus domesticus)
MA Coleman, T Garland Jr, CA Marler, SS Newton, JG Swallow, ...
Physiology & behavior 63 (2), 279-285, 1998
Phenotypic and evolutionary plasticity of organ masses in response to voluntary exercise in house mice
JG Swallow, JS Rhodes, T Garland Jr
Integrative and Comparative Biology 45 (3), 426-437, 2005
Numerical responses of natural enemies to artificial honeydew in Utah alfalfa
EW Evans, JG Swallow
Environmental Entomology 22 (6), 1392-1401, 1993
Compensatory traits and the evolution of male ornaments
J Swallow, J Husak
Behaviour 148 (1), 1-29, 2011
Genetic selection of mice for high voluntary wheel running: effect on skeletal muscle glucose uptake
CL Dumke, JS Rhodes, T Garland Jr, E Maslowski, JG Swallow, ...
Journal of Applied Physiology 91 (3), 1289-1297, 2001
Selection for aerobic capacity affects corticosterone, monoamines and wheel-running activity
RP Waters, KJ Renner, RB Pringle, CH Summers, SL Britton, LG Koch, ...
Physiology & behavior 93 (4-5), 1044-1054, 2008
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