The development of an intermediate‐duration tag to characterize the diving behavior of large whales

The development of high‐resolution archival tag technologies has revolutionized our understanding of diving behavior in marine taxa such as sharks, turtles, and seals during their wide‐ranging movements. However, similar applications for large whales have lagged behind due to the difficulty of keepi...

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Veröffentlicht in:	Ecology and evolution 2017-01, Vol.7 (2), p.585-595
Hauptverfasser:	Mate, Bruce R., Irvine, Ladd M., Palacios, Daniel M.
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Sprache:	eng
Schlagworte:	Accelerometers animal‐borne data loggers Anthropogenic factors Aquatic mammals archival whale tags Archives & records Balaenoptera musculus biologging Cetacea Columnar structure Data recovery Diving diving and foraging behavior Diving behavior Downloading Fastloc GPS Foraging behavior Global positioning systems GPS Hydrostatic pressure Magnetometers Marine technology Ocean floor Original Research Physeter catodon Prey Seals Shape recognition Sharks Sperm Tags Temperature sensors Turtles Water column Water temperature Whales Whales & whaling
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description	The development of high‐resolution archival tag technologies has revolutionized our understanding of diving behavior in marine taxa such as sharks, turtles, and seals during their wide‐ranging movements. However, similar applications for large whales have lagged behind due to the difficulty of keeping tags on the animals for extended periods of time. Here, we present a novel configuration of a transdermally attached biologging device called the Advanced Dive Behavior (ADB) tag. The ADB tag contains sensors that record hydrostatic pressure, three‐axis accelerometers, magnetometers, water temperature, and light level, all sampled at 1 Hz. The ADB tag also collects Fastloc GPS locations and can send dive summary data through Service Argos, while staying attached to a whale for typical periods of 3–7 weeks before releasing for recovery and subsequent data download. ADB tags were deployed on sperm whales (Physeter macrocephalus; N = 46), blue whales (Balaenoptera musculus; N = 8), and fin whales (B. physalus; N = 5) from 2007 to 2015, resulting in attachment durations from 0 to 49.6 days, and recording 31 to 2,539 GPS locations and 27 to 2,918 dives per deployment. Archived dive profiles matched well with published dive shapes of each species from short‐term records. For blue and fin whales, feeding lunges were detected using peaks in accelerometer data and matched corresponding vertical excursions in the depth record. In sperm whales, rapid orientation changes in the accelerometer data, often during the bottom phase of dives, were likely related to prey pursuit, representing a relative measure of foraging effort. Sperm whales were documented repeatedly diving to, and likely foraging along, the seafloor. Data from the temperature sensor described the vertical structure of the water column in all three species, extending from the surface to depths >1,600 m. In addition to providing information needed to construct multiweek time budgets, the ADB tag is well suited to studying the effects of anthropogenic sound on whales by allowing for pre‐ and post‐exposure monitoring of the whale's dive behavior. This tag begins to bridge the gap between existing long‐duration but low‐data throughput tags, and short‐duration, high‐resolution data loggers. We present a multiweek data logger developed to record large whale behavior at high resolution (1‐Hz) while collecting GPS‐quality locations. The tag has been deployed on blue, fin, and sperm whales, and it has recorded diving
doi_str_mv	10.1002/ece3.2649
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However, similar applications for large whales have lagged behind due to the difficulty of keeping tags on the animals for extended periods of time. Here, we present a novel configuration of a transdermally attached biologging device called the Advanced Dive Behavior (ADB) tag. The ADB tag contains sensors that record hydrostatic pressure, three‐axis accelerometers, magnetometers, water temperature, and light level, all sampled at 1 Hz. The ADB tag also collects Fastloc GPS locations and can send dive summary data through Service Argos, while staying attached to a whale for typical periods of 3–7 weeks before releasing for recovery and subsequent data download. ADB tags were deployed on sperm whales (Physeter macrocephalus; N = 46), blue whales (Balaenoptera musculus; N = 8), and fin whales (B. physalus; N = 5) from 2007 to 2015, resulting in attachment durations from 0 to 49.6 days, and recording 31 to 2,539 GPS locations and 27 to 2,918 dives per deployment. Archived dive profiles matched well with published dive shapes of each species from short‐term records. For blue and fin whales, feeding lunges were detected using peaks in accelerometer data and matched corresponding vertical excursions in the depth record. In sperm whales, rapid orientation changes in the accelerometer data, often during the bottom phase of dives, were likely related to prey pursuit, representing a relative measure of foraging effort. Sperm whales were documented repeatedly diving to, and likely foraging along, the seafloor. Data from the temperature sensor described the vertical structure of the water column in all three species, extending from the surface to depths >1,600 m. In addition to providing information needed to construct multiweek time budgets, the ADB tag is well suited to studying the effects of anthropogenic sound on whales by allowing for pre‐ and post‐exposure monitoring of the whale's dive behavior. This tag begins to bridge the gap between existing long‐duration but low‐data throughput tags, and short‐duration, high‐resolution data loggers. We present a multiweek data logger developed to record large whale behavior at high resolution (1‐Hz) while collecting GPS‐quality locations. The tag has been deployed on blue, fin, and sperm whales, and it has recorded diving and feeding behaviors during dives down to 1,600 m deep. 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However, similar applications for large whales have lagged behind due to the difficulty of keeping tags on the animals for extended periods of time. Here, we present a novel configuration of a transdermally attached biologging device called the Advanced Dive Behavior (ADB) tag. The ADB tag contains sensors that record hydrostatic pressure, three‐axis accelerometers, magnetometers, water temperature, and light level, all sampled at 1 Hz. The ADB tag also collects Fastloc GPS locations and can send dive summary data through Service Argos, while staying attached to a whale for typical periods of 3–7 weeks before releasing for recovery and subsequent data download. ADB tags were deployed on sperm whales (Physeter macrocephalus; N = 46), blue whales (Balaenoptera musculus; N = 8), and fin whales (B. physalus; N = 5) from 2007 to 2015, resulting in attachment durations from 0 to 49.6 days, and recording 31 to 2,539 GPS locations and 27 to 2,918 dives per deployment. Archived dive profiles matched well with published dive shapes of each species from short‐term records. For blue and fin whales, feeding lunges were detected using peaks in accelerometer data and matched corresponding vertical excursions in the depth record. In sperm whales, rapid orientation changes in the accelerometer data, often during the bottom phase of dives, were likely related to prey pursuit, representing a relative measure of foraging effort. Sperm whales were documented repeatedly diving to, and likely foraging along, the seafloor. Data from the temperature sensor described the vertical structure of the water column in all three species, extending from the surface to depths >1,600 m. In addition to providing information needed to construct multiweek time budgets, the ADB tag is well suited to studying the effects of anthropogenic sound on whales by allowing for pre‐ and post‐exposure monitoring of the whale's dive behavior. This tag begins to bridge the gap between existing long‐duration but low‐data throughput tags, and short‐duration, high‐resolution data loggers. We present a multiweek data logger developed to record large whale behavior at high resolution (1‐Hz) while collecting GPS‐quality locations. The tag has been deployed on blue, fin, and sperm whales, and it has recorded diving and feeding behaviors during dives down to 1,600 m deep. Capable of staying attached to an animal for periods of up to 7 weeks, this tag fills a critical technology gap and represents a dramatic improvement in our ability to study the behavior of large whales and the ecological mechanisms that drive it.</abstract><cop>England</cop><pub>John Wiley & Sons, Inc</pub><pmid>28116055</pmid><doi>10.1002/ece3.2649</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects	Accelerometers animal‐borne data loggers Anthropogenic factors Aquatic mammals archival whale tags Archives & records Balaenoptera musculus biologging Cetacea Columnar structure Data recovery Diving diving and foraging behavior Diving behavior Downloading Fastloc GPS Foraging behavior Global positioning systems GPS Hydrostatic pressure Magnetometers Marine technology Ocean floor Original Research Physeter catodon Prey Seals Shape recognition Sharks Sperm Tags Temperature sensors Turtles Water column Water temperature Whales Whales & whaling
title	The development of an intermediate‐duration tag to characterize the diving behavior of large whales
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