| Wing flexibility enhances load-lifting capacity in bumblebees AM Mountcastle, SA Combes Proceedings of the Royal Society B: Biological Sciences 280 (1759), 20130531, 2013 | 191 | 2013 |
| Aerodynamic and functional consequences of wing compliance AM Mountcastle, TL Daniel Experiments in fluids 46, 873-882, 2009 | 162 | 2009 |
| BEEtag: a low-cost, image-based tracking system for the study of animal behavior and locomotion JD Crall, N Gravish, AM Mountcastle, SA Combes PloS one 10 (9), e0136487, 2015 | 159 | 2015 |
| Biomechanical strategies for mitigating collision damage in insect wings: structural design versus embedded elastic materials AM Mountcastle, SA Combes Journal of Experimental Biology 217 (7), 1108-1115, 2014 | 114 | 2014 |
| Spatial fidelity of workers predicts collective response to disturbance in a social insect JD Crall, N Gravish, AM Mountcastle, SD Kocher, RL Oppenheimer, ... Nature communications 9 (1), 1201, 2018 | 96 | 2018 |
| Thermal histories of brooding lobsters, Homarus americanus, in the Gulf of Maine DF Cowan, WH Watson, AR Solow, AM Mountcastle Marine Biology 150, 463-470, 2007 | 73 | 2007 |
| Bumblebee flight performance in cluttered environments: effects of obstacle orientation, body size and acceleration JD Crall, S Ravi, AM Mountcastle, SA Combes The Journal of experimental biology 218 (17), 2728-2737, 2015 | 66 | 2015 |
| Wing wear reduces bumblebee flight performance in a dynamic obstacle course AM Mountcastle, TM Alexander, CM Switzer, SA Combes Biology letters 12 (6), 20160294, 2016 | 38 | 2016 |
| Nectar vs. pollen loading affects the tradeoff between flight stability and maneuverability in bumblebees AM Mountcastle, S Ravi, SA Combes Proceedings of the National Academy of Sciences 112 (33), 10527-10532, 2015 | 37 | 2015 |
| Wing flexibility improves bumblebee flight stability EA Mistick, AM Mountcastle, SA Combes Journal of Experimental Biology 219 (21), 3384-3390, 2016 | 32 | 2016 |
| Vortexlet models of flapping flexible wings show tuning for force production and control AM Mountcastle, TL Daniel Bioinspiration & biomimetics 5 (4), 045005, 2010 | 31 | 2010 |
| An insect-inspired collapsible wing hinge dampens collision-induced body rotation rates in a microrobot AM Mountcastle, EF Helbling, RJ Wood Journal of the Royal Society Interface 16 (150), 20180618, 2019 | 24 | 2019 |
| Resonance frequencies of honeybee (Apis mellifera) wings CJ Clark, AM Mountcastle, E Mistick, DO Elias Journal of Experimental Biology 220 (15), 2697-2700, 2017 | 15 | 2017 |
| Insect wing buckling influences stress and stability during collisions M Jankauski, R Schwab, C Casey, A Mountcastle Journal of Computational and Nonlinear Dynamics 17 (11), 111002, 2022 | 2 | 2022 |
| Structural dynamics and aerodynamics of flexible wings in insect flight AM Mountcastle University of Washington, 2010 | 2 | 2010 |
| Wing stiffness affects mean advective flows of Manduca sexta, with wing overlap a potential contributor AM Mountcastle, C Tull, TL Daniel INTEGRATIVE AND COMPARATIVE BIOLOGY 49, E120-E120, 2009 | 2 | 2009 |
| Bigger but not always better: Tradeoffs between maneuverability and flight speed with body size in bumblebees JD Crall, S Ravi, AM Mountcastle, SA Combes Integrative and comparative biology 54, E44-E44, 2014 | 1 | 2014 |
| Effects of wing size and wingbeat frequency on wing wear in bumblebees AM Mountcastle, PD Ahlholm, I Stone, P Federico, E Nixon, N Johnson INTEGRATIVE AND COMPARATIVE BIOLOGY 60, E167-E167, 2020 | | 2020 |
| Mapping resilin distribution in the wings of bees and wasps AW Carter, AM Mountcastle INTEGRATIVE AND COMPARATIVE BIOLOGY 58, E289-E289, 2018 | | 2018 |
| Effect of collision speed on rate of wing wear in Bombus impatiens bumblebees PD Ahlholm, AM Mountcastle INTEGRATIVE AND COMPARATIVE BIOLOGY 58, E266-E266, 2018 | | 2018 |
