Temporal patterns in the acoustic signals of beaked whales at Cross Seamount

Seamounts may influence the distribution of marine mammals through a combination of increased ocean mixing, enhanced local productivity and greater prey availability. To study the effects of seamounts on the presence and acoustic behaviour of cetaceans, we deployed a high-frequency acoustic recordin...

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Veröffentlicht in:	Biology letters (2005) 2008-04, Vol.4 (2), p.208-211
Hauptverfasser:	Johnston, D.W, McDonald, M, Polovina, J, Domokos, R, Wiggins, S, Hildebrand, J
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal Communication Animals Appetitive Behavior - physiology Beaked Whales Cetacea Fisheries Acoustics Marine Marine Biology Pacific Ocean Passive Acoustic Monitoring Plankton Seamounts Sound Spectrography Whales - physiology
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container_end_page	211
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container_title	Biology letters (2005)
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creator	Johnston, D.W McDonald, M Polovina, J Domokos, R Wiggins, S Hildebrand, J
description	Seamounts may influence the distribution of marine mammals through a combination of increased ocean mixing, enhanced local productivity and greater prey availability. To study the effects of seamounts on the presence and acoustic behaviour of cetaceans, we deployed a high-frequency acoustic recording package on the summit of Cross Seamount during April through October 2005. The most frequently detected cetacean vocalizations were echolocation sounds similar to those produced by ziphiid and mesoplodont beaked whales together with buzz-type signals consistent with prey-capture attempts. Beaked whale signals occurred almost entirely at night throughout the six-month deployment. Measurements of prey presence with a Simrad EK-60 fisheries acoustics echo sounder indicate that Cross Seamount may enhance local productivity in near-surface waters. Concentrations of micronekton were aggregated over the seamount in near-surface waters at night, and dense concentrations of nekton were detected across the surface of the summit. Our results suggest that seamounts may provide enhanced foraging opportunities for beaked whales during the night through a combination of increased productivity, vertical migrations by micronekton and local retention of prey. Furthermore, the summit of the seamount may act as a barrier against which whales concentrate prey.
doi_str_mv	10.1098/rsbl.2007.0614
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subjects	Animal Communication Animals Appetitive Behavior - physiology Beaked Whales Cetacea Fisheries Acoustics Marine Marine Biology Pacific Ocean Passive Acoustic Monitoring Plankton Seamounts Sound Spectrography Whales - physiology
title	Temporal patterns in the acoustic signals of beaked whales at Cross Seamount
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