Beak length analysis of the Southern Ocean squid Psychroteuthis glacialis (Cephalopoda : Psychroteuthidae) and its use for size and biomass estimation

Citation
J. Groger et al., Beak length analysis of the Southern Ocean squid Psychroteuthis glacialis (Cephalopoda : Psychroteuthidae) and its use for size and biomass estimation, POLAR BIOL, 23(1), 2000, pp. 70-74
Citations number
34
Categorie Soggetti
Biology
Journal title
POLAR BIOLOGY
ISSN journal
07224060 → ACNP
Volume
23
Issue
1
Year of publication
2000
Pages
70 - 74
Database
ISI
SICI code
0722-4060(200001)23:1<70:BLAOTS>2.0.ZU;2-N
Abstract
A detailed analysis of beak length to body size and mass measurements was c arried out for the glacial squid Psychroteuthis glacialis, which is an ende mic cephalopod species in the Southern Ocean. Beak lengths (lower rostral l ength) were measured from 211 specimens which had been sampled in the Atlan tic sector of the Southern Ocean. The basic idea was to find some calibrati on model in order to inter- or extrapolate missing mantle length and/or wet body mass data by means of beak lengths. The relationships between beak le ngth and mantle length/wet body mass bear essential information for future use in biomass estimates in Southern Ocean top predators, since beaks of P. glacialis occur frequently in the stomach contents of Antarctic seabirds, seals and toothed whales. Therefore, lower rostral lengths were plotted aga inst both mantle length and wet body mass to determine the relationship bet ween these variables. The relationships had limited scatter and very high c oefficients of determination, showing that lower rostral length is a good p redictor of the squid's mantle length and wet mass. A non-linear 3rd order polynomial regression of lower rostral length against mantle length was ide ntified as the best fitted calibration model, explaining 93% (R-2) of the a ssociated variance. The relationship between lower rostral length and wet b ody mass was empirically well fitted through regressing In-transformed valu es of lower rostral length against wet body mass, explaining 95% (R-2) of t he associated variance. The present investigation provides measurements for a wide size range of P. glacialis individuals compared to earlier studies, which were limited on very small data sets.