Burst muscle performance predicts the speed, acceleration, and turning performance of Anna’s hummingbirds

Burst muscle performance predicts the speed, acceleration, and turning performance of Anna’s hummingbirds

Despite recent advances in the study of animal flight, the biomechanical determinants of maneuverability are poorly understood. It is thought that maneuverability may be influenced by intrinsic body mass and wing morphology, and by physiological muscle capacity, but this hypothesis has not yet been...

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Bibliographic Details
Main Authors: Paolo S Segre, Roslyn Dakin, Victor B Zordan, Michael H Dickinson, Andrew D Straw, Douglas L Altshuler
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2015-11-01
Series:eLife
Subjects:
biomechanic
flight
hummingbirds
maneuverability
muscle capacity
wing morphology
Online Access:https://elifesciences.org/articles/11159
id doaj-71bb4581dc2b469cb84ac6345af39e73
record_format Article
spelling doaj-71bb4581dc2b469cb84ac6345af39e732021-05-05T00:07:24ZengeLife Sciences Publications LtdeLife2050-084X2015-11-01410.7554/eLife.11159Burst muscle performance predicts the speed, acceleration, and turning performance of Anna’s hummingbirdsPaolo S Segre0https://orcid.org/0000-0002-2396-2670Roslyn Dakin1Victor B Zordan2Michael H Dickinson3Andrew D Straw4https://orcid.org/0000-0001-8381-0858Douglas L Altshuler5https://orcid.org/0000-0002-1364-3617Department of Zoology, University of British Columbia, Vancouver, CanadaDepartment of Zoology, University of British Columbia, Vancouver, CanadaDepartment of Computer Science and Engineering, University of California, Riverside, Riverside, United StatesBiology and Bioengineering, California Institute of Technology, Pasadena, United StatesBiology and Bioengineering, California Institute of Technology, Pasadena, United States; Institute of Molecular Pathology, Vienna, AustriaDepartment of Zoology, University of British Columbia, Vancouver, CanadaDespite recent advances in the study of animal flight, the biomechanical determinants of maneuverability are poorly understood. It is thought that maneuverability may be influenced by intrinsic body mass and wing morphology, and by physiological muscle capacity, but this hypothesis has not yet been evaluated because it requires tracking a large number of free flight maneuvers from known individuals. We used an automated tracking system to record flight sequences from 20 Anna's hummingbirds flying solo and in competition in a large chamber. We found that burst muscle capacity predicted most performance metrics. Hummingbirds with higher burst capacity flew with faster velocities, accelerations, and rotations, and they used more demanding complex turns. In contrast, body mass did not predict variation in maneuvering performance, and wing morphology predicted only the use of arcing turns and high centripetal accelerations. Collectively, our results indicate that burst muscle capacity is a key predictor of maneuverability.https://elifesciences.org/articles/11159biomechanicflighthummingbirdsmaneuverabilitymuscle capacitywing morphology
collection DOAJ
language English
format Article
sources DOAJ
author Paolo S Segre
Roslyn Dakin
Victor B Zordan
Michael H Dickinson
Andrew D Straw
Douglas L Altshuler
spellingShingle Paolo S Segre
Roslyn Dakin
Victor B Zordan
Michael H Dickinson
Andrew D Straw
Douglas L Altshuler
Burst muscle performance predicts the speed, acceleration, and turning performance of Anna’s hummingbirds
eLife
biomechanic
flight
hummingbirds
maneuverability
muscle capacity
wing morphology
author_facet Paolo S Segre
Roslyn Dakin
Victor B Zordan
Michael H Dickinson
Andrew D Straw
Douglas L Altshuler
author_sort Paolo S Segre
title Burst muscle performance predicts the speed, acceleration, and turning performance of Anna’s hummingbirds
title_short Burst muscle performance predicts the speed, acceleration, and turning performance of Anna’s hummingbirds
title_full Burst muscle performance predicts the speed, acceleration, and turning performance of Anna’s hummingbirds
title_fullStr Burst muscle performance predicts the speed, acceleration, and turning performance of Anna’s hummingbirds
title_full_unstemmed Burst muscle performance predicts the speed, acceleration, and turning performance of Anna’s hummingbirds
title_sort burst muscle performance predicts the speed, acceleration, and turning performance of anna’s hummingbirds
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2015-11-01
description Despite recent advances in the study of animal flight, the biomechanical determinants of maneuverability are poorly understood. It is thought that maneuverability may be influenced by intrinsic body mass and wing morphology, and by physiological muscle capacity, but this hypothesis has not yet been evaluated because it requires tracking a large number of free flight maneuvers from known individuals. We used an automated tracking system to record flight sequences from 20 Anna's hummingbirds flying solo and in competition in a large chamber. We found that burst muscle capacity predicted most performance metrics. Hummingbirds with higher burst capacity flew with faster velocities, accelerations, and rotations, and they used more demanding complex turns. In contrast, body mass did not predict variation in maneuvering performance, and wing morphology predicted only the use of arcing turns and high centripetal accelerations. Collectively, our results indicate that burst muscle capacity is a key predictor of maneuverability.
topic biomechanic
flight
hummingbirds
maneuverability
muscle capacity
wing morphology
url https://elifesciences.org/articles/11159
work_keys_str_mv AT paolossegre burstmuscleperformancepredictsthespeedaccelerationandturningperformanceofannashummingbirds
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AT victorbzordan burstmuscleperformancepredictsthespeedaccelerationandturningperformanceofannashummingbirds
AT michaelhdickinson burstmuscleperformancepredictsthespeedaccelerationandturningperformanceofannashummingbirds
AT andrewdstraw burstmuscleperformancepredictsthespeedaccelerationandturningperformanceofannashummingbirds
AT douglaslaltshuler burstmuscleperformancepredictsthespeedaccelerationandturningperformanceofannashummingbirds
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