Investigation of the potential for vascular bubble formation in a repetitively diving dolphin

Citation:
Houser, DS, Dankiewicz-Talmadge LA, Stockard TK, Ponganis PJ.  2010.  Investigation of the potential for vascular bubble formation in a repetitively diving dolphin. Journal of Experimental Biology. 213:52-62.

Date Published:

Jan

Keywords:

ascent rate, beaked-whales, bubble emboli, decompression-sickness, diving, dolphin, marine mammals, mesoplodon-densirostris, nitrogen tensions, simulated dives, tursiops-truncatus, ultrasound, venous gas-bubbles, ziphius-cavirostris

Abstract:

The production of venous gas emboli (VGE) resulting from altered dive behavior is postulated as contributing to the stranding of beaked whales exposed to mid-frequency active sonar. To test whether nitrogen gas uptake during repetitive breath-hold diving is sufficient for asymptomatic VGE formation in odontocetes, a bottlenose dolphin (Tursiops truncatus Montagu) was trained to perform 10-12 serial dives with 60s surface intervals to depths of 30, 50, 70 or 100m. The dolphin remained at the bottom depth for 90s on each dive. Doppler and/or two-dimensional imaging ultrasound did not detect VGE in the portal and brachiocephalic veins following a dive series. Van Slyke analyses of serial, post-dive blood samples drawn from the fluke yielded blood nitrogen partial pressure (P(N2)) values that were negligibly different from control samples. Mean heart rate (HR; +/-1. s.d.) recorded during diving was 50+/-3. beats min(-1) and was not significantly different between the 50, 70 and 100 m dive sessions. The absence of VGE and elevated blood P(N2) during post-dive periods do not support the hypothesis that N(2) supersaturation during repetitive dives contributes to VGE formation in the dolphin. The diving HR pattern and the presumed rapid N(2) washout during the surface-interval tachycardia probably minimized N(2) accumulation in the blood during dive sessions.

Notes:

n/a

Website

DOI:

10.1242/jeb.028365