Underwater behavior of humpback whales in a western North Atlantic foraging area

In July of 2004 we used synchronous motion, digital acoustic recording tags (DTAGs) to investigate the underwater behavior of humpback whales in the Great South Channel. Tag attachments to four animals resulted in ~50 hours of data in water depths from 70 - 90m. We conducted a detailed analysis of d...

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Main Authors: Wiley, David N, Ware, Colin, Barton, Kira L, Shorter, Kenneth A, Johnson, Mark P, Arsenault, Roland J., Moller, Just C, Weinrich, Mason
Format: Text
Language:unknown
Published: University of New Hampshire Scholars' Repository 2005
Subjects:
Whale Tracking
Computer Sciences
Oceanography and Atmospheric Sciences and Meteorology
North Atlantic
Online Access:https://scholars.unh.edu/ccom/356
id ftuninhampshire:oai:scholars.unh.edu:ccom-1355
record_format openpolar
spelling ftuninhampshire:oai:scholars.unh.edu:ccom-1355 2023-05-15T17:36:39+02:00 Underwater behavior of humpback whales in a western North Atlantic foraging area Wiley, David N Ware, Colin Barton, Kira L Shorter, Kenneth A Johnson, Mark P Arsenault, Roland J. Moller, Just C Weinrich, Mason 2005-12-01T08:00:00Z https://scholars.unh.edu/ccom/356 unknown University of New Hampshire Scholars' Repository https://scholars.unh.edu/ccom/356 Center for Coastal and Ocean Mapping Whale Tracking Computer Sciences Oceanography and Atmospheric Sciences and Meteorology text 2005 ftuninhampshire 2023-01-30T21:32:35Z In July of 2004 we used synchronous motion, digital acoustic recording tags (DTAGs) to investigate the underwater behavior of humpback whales in the Great South Channel. Tag attachments to four animals resulted in ~50 hours of data in water depths from 70 - 90m. We conducted a detailed analysis of dive patterns, including apparent bottom feeding and associated sounds. We partitioned dive records into 3 categories: descent, ascent, and at-depth. All four animals traversed a majority of the descent in freeglide (86%, 78%, 84%, and 70%), and fluke-strokes were confined to the upper portions of the water column [ending at: -11.2 m (0.22), -16.1 m (2.9), -12.0 m (2.9), -25.5 m (6.8)]. On ascent, fluke-strokes were in much more of the water column [ending at: -19.9 m (2.4), -39.6 m (11.0), -24.4 m (6.0), -28.6 m (5.6)], but animals still traversed a substantial portion in free-glide (24%, 54%, 33%, and 33%). Thus, descent and ascent demonstrated buoyancy related adaptations for locomotor efficiency. At-depth behavior consisted primarily of presumed foraging activity. In 95% of flat-bottomed dives whales exhibited a characteristic “side-roll” behavior. Side-rolls involved the animal rolling laterally more than 40º from dorsal and holding that position for a consistent duration, usually more than 10 seconds. Mean number of side-rolls per dive for each animal was 2.84, 6.7, 3.15, and 4.32. Two animals had a consistent mean sideroll duration (in seconds), while mean duration for the other two was more varied [17.7 s (4.0), 24.6 s (11.5), 13.1 s (2.6), 19.1 s (14.4)]. For each animal the angle of roll was consistent [96.7º (7.7), -73º (17.6), - 80.5º (3.7), -84.2º (23)], and they maintained a head-down pitch angle [28.5º (3.2), 24.4º (9.3), 10.7º (4.8), 32.2º (2.6)]. Between side-rolls, animals returned to a dorsal-ventral orientation. Side-rolls occurred at or within a few meters of the sea floor and were often preceded by a stereotypic sound. We speculate that side-rolls indicate periods of consumatory feeding. Data have ... Text North Atlantic University of New Hampshire: Scholars Repository
institution Open Polar
collection University of New Hampshire: Scholars Repository
op_collection_id ftuninhampshire
language unknown
topic Whale Tracking
Computer Sciences
Oceanography and Atmospheric Sciences and Meteorology
spellingShingle Whale Tracking
Computer Sciences
Oceanography and Atmospheric Sciences and Meteorology
Wiley, David N
Ware, Colin
Barton, Kira L
Shorter, Kenneth A
Johnson, Mark P
Arsenault, Roland J.
Moller, Just C
Weinrich, Mason
Underwater behavior of humpback whales in a western North Atlantic foraging area
topic_facet Whale Tracking
Computer Sciences
Oceanography and Atmospheric Sciences and Meteorology
description In July of 2004 we used synchronous motion, digital acoustic recording tags (DTAGs) to investigate the underwater behavior of humpback whales in the Great South Channel. Tag attachments to four animals resulted in ~50 hours of data in water depths from 70 - 90m. We conducted a detailed analysis of dive patterns, including apparent bottom feeding and associated sounds. We partitioned dive records into 3 categories: descent, ascent, and at-depth. All four animals traversed a majority of the descent in freeglide (86%, 78%, 84%, and 70%), and fluke-strokes were confined to the upper portions of the water column [ending at: -11.2 m (0.22), -16.1 m (2.9), -12.0 m (2.9), -25.5 m (6.8)]. On ascent, fluke-strokes were in much more of the water column [ending at: -19.9 m (2.4), -39.6 m (11.0), -24.4 m (6.0), -28.6 m (5.6)], but animals still traversed a substantial portion in free-glide (24%, 54%, 33%, and 33%). Thus, descent and ascent demonstrated buoyancy related adaptations for locomotor efficiency. At-depth behavior consisted primarily of presumed foraging activity. In 95% of flat-bottomed dives whales exhibited a characteristic “side-roll” behavior. Side-rolls involved the animal rolling laterally more than 40º from dorsal and holding that position for a consistent duration, usually more than 10 seconds. Mean number of side-rolls per dive for each animal was 2.84, 6.7, 3.15, and 4.32. Two animals had a consistent mean sideroll duration (in seconds), while mean duration for the other two was more varied [17.7 s (4.0), 24.6 s (11.5), 13.1 s (2.6), 19.1 s (14.4)]. For each animal the angle of roll was consistent [96.7º (7.7), -73º (17.6), - 80.5º (3.7), -84.2º (23)], and they maintained a head-down pitch angle [28.5º (3.2), 24.4º (9.3), 10.7º (4.8), 32.2º (2.6)]. Between side-rolls, animals returned to a dorsal-ventral orientation. Side-rolls occurred at or within a few meters of the sea floor and were often preceded by a stereotypic sound. We speculate that side-rolls indicate periods of consumatory feeding. Data have ...
format Text
author Wiley, David N
Ware, Colin
Barton, Kira L
Shorter, Kenneth A
Johnson, Mark P
Arsenault, Roland J.
Moller, Just C
Weinrich, Mason
author_facet Wiley, David N
Ware, Colin
Barton, Kira L
Shorter, Kenneth A
Johnson, Mark P
Arsenault, Roland J.
Moller, Just C
Weinrich, Mason
author_sort Wiley, David N
title Underwater behavior of humpback whales in a western North Atlantic foraging area
title_short Underwater behavior of humpback whales in a western North Atlantic foraging area
title_full Underwater behavior of humpback whales in a western North Atlantic foraging area
title_fullStr Underwater behavior of humpback whales in a western North Atlantic foraging area
title_full_unstemmed Underwater behavior of humpback whales in a western North Atlantic foraging area
title_sort underwater behavior of humpback whales in a western north atlantic foraging area
publisher University of New Hampshire Scholars' Repository
publishDate 2005
url https://scholars.unh.edu/ccom/356
genre North Atlantic
genre_facet North Atlantic
op_source Center for Coastal and Ocean Mapping
op_relation https://scholars.unh.edu/ccom/356
_version_ 1766136204558860288

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