James Crall
Cited by
Cited by
Linking biomechanics and ecology through predator–prey interactions: flight performance of dragonflies and their prey
SA Combes, DE Rundle, JM Iwasaki, JD Crall
Journal of Experimental Biology 215 (6), 903-913, 2012
Neonicotinoid exposure disrupts bumblebee nest behavior, social networks, and thermoregulation
JD Crall, CM Switzer, RL Oppenheimer, ANF Versypt, B Dey, A Brown, ...
Science 362 (6415), 683-686, 2018
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
Resilin in dragonfly and damselfly wings and its implications for wing flexibility
S Donoughe, JD Crall, RA Merz, SA Combes
Journal of morphology 272 (12), 1409-1421, 2011
Rolling with the flow: bumblebees flying in unsteady wakes
S Ravi, JD Crall, A Fisher, SA Combes
Journal of Experimental Biology 216 (22), 4299-4309, 2013
Dynamics of animal movement in an ecological context: dragonfly wing damage reduces flight performance and predation success
SA Combes, JD Crall, S Mukherjee
Biology letters 6 (3), 426-429, 2010
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), 1-13, 2018
Hummingbird flight stability and control in freestream turbulent winds
S Ravi, JD Crall, L McNeilly, SF Gagliardi, AA Biewener, SA Combes
Journal of Experimental Biology 218 (9), 1444-1452, 2015
Bumblebee flight performance in cluttered environments: effects of obstacle orientation, body size and acceleration
JD Crall, S Ravi, AM Mountcastle, SA Combes
Journal of Experimental Biology 218 (17), 2728-2737, 2015
Foraging in an unsteady world: bumblebee flight performance in field-realistic turbulence
JD Crall, JJ Chang, RL Oppenheimer, SA Combes
Interface Focus 7 (1), 20160086, 2017
Social context modulates idiosyncrasy of behaviour in the gregarious cockroach Blaberus discoidalis
JD Crall, AD Souffrant, D Akandwanaho, SD Hescock, SE Callan, ...
Animal Behaviour 111, 297-305, 2016
Wind alters landing dynamics in bumblebees
JJ Chang, JD Crall, SA Combes
Journal of Experimental Biology 219 (18), 2819-2822, 2016
MAPLE (modular automated platform for large-scale experiments), a robot for integrated organism-handling and phenotyping
T Alisch, JD Crall, AB Kao, D Zucker, BL de Bivort
Elife 7, e37166, 2018
Social buffering of pesticides in bumblebees: agent-based modeling of the effects of colony size and neonicotinoid exposure on behavior within nests
JD Crall, BL De Bivort, B Dey, AN Ford Versypt
Frontiers in Ecology and Evolution 7, 51, 2019
Pesticides and pollinators, an automated platform to assess the effects of neonicotinoid exposure and other environmental stressors on bee colonies: a computational …
JD Crall, CM Switzer, SS Myers, SA Combes, BL de Bivort
The Lancet 389, S4, 2017
Blown in the wind: Bumblebee temporal foraging patterns in naturally varying wind conditions
JD Crall, SA Combes
Integrative and Comparative Biology 53, E270-E270, 2013
An ancient push-pull pollination mechanism in cycads
S Salzman, D Crook, JD Crall, R Hopkins, NE Pierce
Science Advances 6 (24), eaay6169, 2020
BeeNestABM: An open-source agent-based model of spatiotemporal distribution of bumblebees in nests
ANF Versypt, JD Crall, B Dey
Journal of Open Source Software 3 (27), 718, 2018
Foraging in a complex world: from individual flight performance to collective behavior in bumblebees (Bombus impatiens)
JD Crall
Wing damage and flight performance in dragonflies: effects of area loss on force production and aerial predation
SA Combes, JD Crall, S Mukherjee
Integrative and Comparative Biology 50, E33-E33, 2010
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