A comparison of CTD satellite-linked tags for large cetaceans - Bowhead whales as real-time autonomous sampling platforms

Jonas Teilmann,Mette Dalgaard Agersted,Mads Peter Heide-Jørgensen

doi:10.1016/j.dsr.2020.103213

Jonas Teilmann, Mette Dalgaard Agersted + Show 1 more

Open Access

https://doi.org/10.1016/j.dsr.2020.103213

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Abstract

There is an increasing need for comprehensive oceanographic sampling, and taking advantage of marine mammal studies of movements and habitat use for augmenting spatial and temporal coverage, especially in remote and inaccessible areas, is an attractive approach. Oceanographic sampling instruments that transmit profiles of temperature and salinity (CTD) via satellite were deployed on bowhead whales Balaena mysticetus. A novel satellite-linked CTD tag (WC) was compared to an established design (SMRU). The two types of tags were deployed equally on nine bowhead whales in West Greenland. Both tag types used Argos for relaying data and locations, while the WC tag also provided Fastloc-GPS for more accurate locations. One whale carried both tag types. When comparing the two tag types deployed on the same whale, more complete data were obtained from the WC tag in terms of number of profiles, locations and transmissions received, although placement of the tag on the back of the whale and antenna position may have affected some of these parameters. Why transmissions terminated is difficult to determine, however, physical loss of the tag from the whale and mechanical damage to the antenna are the most likely; none of the tags failed because of battery exhaustion. Although, differences in performance of the two tag types were found, we conclude that both satellite-linked CTD tag types deployed on large cetaceans can provide high resolution oceanographic profiles at times and in areas where traditional methods for collecting oceanographic data are logistically difficult and prohibitively expensive.

Highlights

To understand global ocean conditions and circulation patterns, it is important to have ocean measurements from polar regions where climate changes are amplified (e.g. Screen et al, 2010; Thornalley et al, 2018)
During 7–13 May 2017, nine bowhead whales were tagged with CTD tags in Disko Bay, West Greenland
The mean difference in salinity was 0.03 (SD 1⁄4 0.02) and the mean difference in temperature was 0.02 C (SD 1⁄4 0.05), which is better than the accuracy of 0.1 PSU and 0.05 C specified by CastAway specifications

Summary

Introduction

To understand global ocean conditions and circulation patterns, it is important to have ocean measurements from polar regions where climate changes are amplified (e.g. Screen et al, 2010; Thornalley et al, 2018). Edu/) have been deployed in almost all oceans They collect data for the Global Ocean Observing System and are designed for broad-scale ocean sampling and collection of high-quality temperature and salinity profiles from the upper 2000 m of the ocean (Gould et al, 2004; Roemmich et al, 2004). These floats mostly sample waters between 60 N and 60 S (Gould et al, 2004; Treasure et al, 2017), and not the polar regions. Marine mammal studies have included satellite-linked transmitters with conductivity-temperature-depth (CTD)

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