REACTION OF FIN WHALES BALAENOPTERA PHYSALUS TO AN EARTHQUAKE |
| |
Authors: | JUAN-PABLO GALLO-REYNOSO JANITZIO ÉGIDO-VILLARREAL GUADALUPE MARTÍNEZ-VILLALBA |
| |
Affiliation: | Centro de Investigación en Alimentación y Desarrollo , A.C. Unidad Guaymas. Carretera a Varadero Nacional , km 6.6, Col. Las Playitas, Guaymas, Sonora , 85480 , México |
| |
Abstract: | ABSTRACT Whales living within seismically active regions are subject to intense disturbances from strong sounds produced by earthquakes that can kill or injure individuals. Nishimura & Clark (1993) relate the possible effects of underwater earthquake noise levels in marine mammals, adducing that T-phase source signal level (10- to 30- Hz range) can exceed 200 dB re: 1 μPa at 1 m, for a magnitude 4–5 earthquake, sounds audible to fin whales which produce low frequency sounds of 16–20/25–44 Hz over 0.5–1s, typically of 183 dB re: 1 μPa at 1 m. Here we present the response of a fin whale to a 5.5 Richter scale earthquake that took place on 22 February 2005, in the Gulf of California. The whale covered 13 km in 26 min (mean speed = 30.2 km/h). We deduce that the sound heard by this whale might have triggered the costly energy expenditure of high speed swimming as a seismic-escape response. These observations support the hypothesis of Richardson et al. (1995) that cetaceans may flee from loud sounds before they are injured, when exposed to noise in excess of 140 dB re: 1 μPa 1 m. |
| |
Keywords: | earthquake Balaenoptera physalus Gulf of California |
|
|