Ragen ( Johns Hopkins University Press, Baltimore), pp. “ Impacts of anthropogenic sound,” in Marine Mammal Research: Conservation beyond Crisis, edited by J. “ Clicks from Cuvier's beaked whales, Ziphius cavirostris (L),” J. , Google Scholar Crossrefįrantzis, A., Goold, J. “ Does acoustic testing strand whales?” Nature 392, 29. “ Sighting characteristics and photo-identification of Cuvier's beaked whales ( Ziphius cavirostris) near San Clemente Island, California: A key area for beaked whales and the military?” Marine Biol. B., Calambokidis, J., Henderson, E., McKenna, M. , Google Scholar Crossrefįalcone, E., Schorr, G. “ Comparative review of marine mammal guidance implemented during naval exercises,” Marine Pollution Bull. “ Active military sonar and marine mammals: Events and references,” Congressional Research Service Reports, Paper 30, available from (Last viewed ). “ Mitigating, monitoring and assessing the effects of anthropogenic around on beaked whales,” J. Google Scholarīarlow, J., and Gisiner, R. “ A mass stranding of cetaceans caused by naval sonar in the Bahamas,” Bahamas J. 9, 2009, National Marine Fisheries Services, La Jolla, CA. “ Movements of satellite-tagged Cuvier's and Blainville's beaked whales in Hawai'i: Evidence for an offshore population of Blainville's beaked whales,” Report to Cascadia Research Collective, Olympia, WA, Sept. “ A simplified formula for viscous and chemical absorption in sea water,” J. thesis, Universidad de La Laguna, La Laguna, Spain. “ Acoustic and diving behaviour of the short-finned pilot whale ( Globicephala macrorhynchus) and Blainville's beaked whale ( Mesoplodon densirostris) in the Canary Islands: Implications on the effects of man-made noise and boat collisions,” Ph.D. ![]() This is PMEL contribution number 3846.Īguilar de Soto, N. N0-1198, N0-1082, and N0-0387, and Naval Postgraduate School Grants Nos. The research was funded by the Office of Naval Research Grants Nos. Logan Williams, an undergraduate student at the Massachusetts Institute of Technology, helped with float controller programming during the initial stage. David Borg-Breen at Computing and Network Services Division of NOAA customized the Iridium data buoy communication protocols for the QUEphone. We are grateful to Dana Swift (UW) for giving many hours of consultation in modifying the APEX float code Ben Allsup of Teledyne Webb Research Corporation for providing technical assistance during the Kona and AUTEC tests and Joe Haxel and Matt Fowler of OSU for assisting with deployment and recovery of the float. Neil Bogue of the University of Washington (UW), assisted by Angela Wood, made the cruise plan for the joint field operation of UW gliders and Oregon State University (OSU) floats. We are in debt to the staff of the AUTEC facility and crew of the R/V Ranger for logistic and field operation support. ![]() We thank David Moretti and Susan Jarvis of NUWC for providing the M3R detection results from AUTEC. ![]() The range tests demonstrated that the QUEphone's beaked whale detections were comparable to that of M3R's, and that the float is effective at detecting beaked whales. The field tests provided data useful to evaluate the QUEphone's operational capability as a tool to detect beaked whales and report their presence in near-real time. Beaked whale were present at AUTEC, and the performance of the QUEphone was compared with the Navy's Marine Mammal Monitoring on Navy Ranges (M3R) system. The QUEphone was tested at detecting Blainville's beaked whales at the Atlantic Undersea Test and Evaluation Center (AUTEC), a Navy acoustic test range in the Bahamas, in June 2010. A relatively inexpensive and easy-to-use acoustic float, the QUEphone, was developed by converting a commercially available profiler float to a mobile platform, adding acoustic capability, and installing the ERMA cetacean click detection algorithm of Klinck and Mellinger running on a high-power DSP. Advantages of acoustic methods over visual ones include the ability to detect submerged animals, to work at night, and to work in any weather conditions. Acoustic methods are frequently used to monitor endangered marine mammal species.
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