|
Inter-Research |
IR Home
MEPS Home Editors Forthcoming Information Subscribe Journals Home MEPS AME CR DAO ESEP Search Subscribe Book Series EE Books Top Books ESEP Books Order EEIU Brochures (pdf format) Discussion Forums Home Research Endangered Species Programs Institutions International Ecology Institute Eco-Ethics International Union Foundation Otto Kinne Foundation  | |
Relative swimming speeds in reef fish larvaeDavid R. Bellwood*, Rebecca FisherDepartment of Marine Biology James Cook University, Townsville, Queensland 4811, AustraliaABSTRACT: In most organisms relative locomotor speed (body lengths per second [bls-1]) is inversely proportional to body size. The ability of late stage reef fish larvae to achieve swimming speeds of over 40 bls-1 is consistent with this general scaling relationship. However, this relationship does not extend to smaller larvae which are not fully developed. Maximum critical swimming speeds appear to be limited by both developmental stage and size. At 7 mm total length when settling, the unusually small larvae of anemonefishes are able to sustain speeds of 49 bls-1. This probably approaches the maximum limit for sustained aquatic vertebrate locomotion.
KEY WORDS: Swimming · Coral reef fish · Larvae · Development · Settlement
Published in MEPS Vol.
211
(2001) on February 14
|
| |
 |
Copyright © 2003; Inter-Research
Webmaster: webmaster@int-res.com |