Fast and Furious: Energetic Tradeoffs and Scaling of High-Speed Foraging in Rorqual Whales

Although gigantic body size and obligate filter feeding mechanisms have evolved in multiple vertebrate lineages (mammals and fishes), intermittent ram (lunge) filter feeding is unique to a specific family of baleen whales: rorquals. Lunge feeding is a high cost, high benefit feeding mechanism that r...

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Main Authors: Gough, William T., Cade, David E., Czapanskiy, Max F., Potvin, Jean, Fish, Frank E., Kahane-Rapport, Shirel R., Savoca, Matthew S., Bierlich, K. C., Johnston, David W., Friedlaender, Ari S., Szabo, Andy, Bejder, Lars, Goldbogen, Jeremy A.
Format: Text
Language:unknown
Published: Digital Commons @ West Chester University 2022
Subjects:
feeding strategies
baleen whales
body-mass
prey
engulfment behavior
limits
size
kinematics
growth
Behavior and Ethology
Rorqual
Online Access:https://digitalcommons.wcupa.edu/bio_facpub/78
https://digitalcommons.wcupa.edu/cgi/viewcontent.cgi?article=1079&context=bio_facpub
id ftwestchesteruni:oai:digitalcommons.wcupa.edu:bio_facpub-1079
record_format openpolar
spelling ftwestchesteruni:oai:digitalcommons.wcupa.edu:bio_facpub-1079 2023-05-15T15:37:08+02:00 Fast and Furious: Energetic Tradeoffs and Scaling of High-Speed Foraging in Rorqual Whales Gough, William T. Cade, David E. Czapanskiy, Max F. Potvin, Jean Fish, Frank E. Kahane-Rapport, Shirel R. Savoca, Matthew S. Bierlich, K. C. Johnston, David W. Friedlaender, Ari S. Szabo, Andy Bejder, Lars Goldbogen, Jeremy A. 2022-09-15T07:00:00Z application/pdf https://digitalcommons.wcupa.edu/bio_facpub/78 https://digitalcommons.wcupa.edu/cgi/viewcontent.cgi?article=1079&context=bio_facpub unknown Digital Commons @ West Chester University https://digitalcommons.wcupa.edu/bio_facpub/78 https://digitalcommons.wcupa.edu/cgi/viewcontent.cgi?article=1079&context=bio_facpub Biology Faculty Publications feeding strategies baleen whales body-mass prey engulfment behavior limits size kinematics growth Behavior and Ethology text 2022 ftwestchesteruni 2022-10-01T22:45:28Z Although gigantic body size and obligate filter feeding mechanisms have evolved in multiple vertebrate lineages (mammals and fishes), intermittent ram (lunge) filter feeding is unique to a specific family of baleen whales: rorquals. Lunge feeding is a high cost, high benefit feeding mechanism that requires the integration of unsteady locomotion (i.e., accelerations and maneuvers); the impact of scale on the biomechanics and energetics of this foraging mode continues to be the subject of intense study. The goal of our investigation was to use a combination of multi-sensor tags paired with UAS footage to determine the impact of morphometrics such as body size on kinematic lunging parameters such as fluking timing, maximum lunging speed, and deceleration during the engulfment period for a range of species from minke to blue whales. Our results show that, in the case of krill-feeding lunges and regardless of size, animals exhibit a skewed gradient between powered and fully unpowered engulfment, with fluking generally ending at the point of both the maximum lunging speed and mouth opening. In all cases, the small amounts of propulsive thrust generated by the tail were unable to overcome the high drag forces experienced during engulfment. Assuming this thrust to be minimal, we predicted the minimum speed of lunging across scale. To minimize the energetic cost of lunge feeding, hydrodynamic theory predicts slower lunge feeding speeds regardless of body size, with a lower boundary set by the ability of the prey to avoid capture. We used empirical data to test this theory and instead found that maximum foraging speeds remain constant and high (∼4 m s–1) across body size, even as higher speeds result in lower foraging efficiency. Regardless, we found an increasing relationship between body size and this foraging efficiency, estimated as the ratio of energetic gain from prey to energetic cost. This trend held across timescales ranging from a single lunge to a single day and suggests that larger whales are capturing more ... Text baleen whales Digital Commons @ West Chester University Rorqual ENVELOPE(-62.311,-62.311,-65.648,-65.648)
institution Open Polar
collection Digital Commons @ West Chester University
op_collection_id ftwestchesteruni
language unknown
topic feeding strategies
baleen whales
body-mass
prey
engulfment behavior
limits
size
kinematics
growth
Behavior and Ethology
spellingShingle feeding strategies
baleen whales
body-mass
prey
engulfment behavior
limits
size
kinematics
growth
Behavior and Ethology
Gough, William T.
Cade, David E.
Czapanskiy, Max F.
Potvin, Jean
Fish, Frank E.
Kahane-Rapport, Shirel R.
Savoca, Matthew S.
Bierlich, K. C.
Johnston, David W.
Friedlaender, Ari S.
Szabo, Andy
Bejder, Lars
Goldbogen, Jeremy A.
Fast and Furious: Energetic Tradeoffs and Scaling of High-Speed Foraging in Rorqual Whales
topic_facet feeding strategies
baleen whales
body-mass
prey
engulfment behavior
limits
size
kinematics
growth
Behavior and Ethology
description Although gigantic body size and obligate filter feeding mechanisms have evolved in multiple vertebrate lineages (mammals and fishes), intermittent ram (lunge) filter feeding is unique to a specific family of baleen whales: rorquals. Lunge feeding is a high cost, high benefit feeding mechanism that requires the integration of unsteady locomotion (i.e., accelerations and maneuvers); the impact of scale on the biomechanics and energetics of this foraging mode continues to be the subject of intense study. The goal of our investigation was to use a combination of multi-sensor tags paired with UAS footage to determine the impact of morphometrics such as body size on kinematic lunging parameters such as fluking timing, maximum lunging speed, and deceleration during the engulfment period for a range of species from minke to blue whales. Our results show that, in the case of krill-feeding lunges and regardless of size, animals exhibit a skewed gradient between powered and fully unpowered engulfment, with fluking generally ending at the point of both the maximum lunging speed and mouth opening. In all cases, the small amounts of propulsive thrust generated by the tail were unable to overcome the high drag forces experienced during engulfment. Assuming this thrust to be minimal, we predicted the minimum speed of lunging across scale. To minimize the energetic cost of lunge feeding, hydrodynamic theory predicts slower lunge feeding speeds regardless of body size, with a lower boundary set by the ability of the prey to avoid capture. We used empirical data to test this theory and instead found that maximum foraging speeds remain constant and high (∼4 m s–1) across body size, even as higher speeds result in lower foraging efficiency. Regardless, we found an increasing relationship between body size and this foraging efficiency, estimated as the ratio of energetic gain from prey to energetic cost. This trend held across timescales ranging from a single lunge to a single day and suggests that larger whales are capturing more ...
format Text
author Gough, William T.
Cade, David E.
Czapanskiy, Max F.
Potvin, Jean
Fish, Frank E.
Kahane-Rapport, Shirel R.
Savoca, Matthew S.
Bierlich, K. C.
Johnston, David W.
Friedlaender, Ari S.
Szabo, Andy
Bejder, Lars
Goldbogen, Jeremy A.
author_facet Gough, William T.
Cade, David E.
Czapanskiy, Max F.
Potvin, Jean
Fish, Frank E.
Kahane-Rapport, Shirel R.
Savoca, Matthew S.
Bierlich, K. C.
Johnston, David W.
Friedlaender, Ari S.
Szabo, Andy
Bejder, Lars
Goldbogen, Jeremy A.
author_sort Gough, William T.
title Fast and Furious: Energetic Tradeoffs and Scaling of High-Speed Foraging in Rorqual Whales
title_short Fast and Furious: Energetic Tradeoffs and Scaling of High-Speed Foraging in Rorqual Whales
title_full Fast and Furious: Energetic Tradeoffs and Scaling of High-Speed Foraging in Rorqual Whales
title_fullStr Fast and Furious: Energetic Tradeoffs and Scaling of High-Speed Foraging in Rorqual Whales
title_full_unstemmed Fast and Furious: Energetic Tradeoffs and Scaling of High-Speed Foraging in Rorqual Whales
title_sort fast and furious: energetic tradeoffs and scaling of high-speed foraging in rorqual whales
publisher Digital Commons @ West Chester University
publishDate 2022
url https://digitalcommons.wcupa.edu/bio_facpub/78
https://digitalcommons.wcupa.edu/cgi/viewcontent.cgi?article=1079&context=bio_facpub
long_lat ENVELOPE(-62.311,-62.311,-65.648,-65.648)
geographic Rorqual
geographic_facet Rorqual
genre baleen whales
genre_facet baleen whales
op_source Biology Faculty Publications
op_relation https://digitalcommons.wcupa.edu/bio_facpub/78
https://digitalcommons.wcupa.edu/cgi/viewcontent.cgi?article=1079&context=bio_facpub
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