DISTRIBUTION AND COMMUNITY STRUCTURE OF MIDWATER FISHES IN RELATION TO THE SUBTROPICAL CONVERGENCE OFF EASTERN TASMANIA, AUSTRALIA

Citation
Jw. Young et al., DISTRIBUTION AND COMMUNITY STRUCTURE OF MIDWATER FISHES IN RELATION TO THE SUBTROPICAL CONVERGENCE OFF EASTERN TASMANIA, AUSTRALIA, Marine Biology, 126(4), 1996, pp. 571-584
Citations number
45
Categorie Soggetti
Marine & Freshwater Biology
Journal title
ISSN journal
00253162
Volume
126
Issue
4
Year of publication
1996
Pages
571 - 584
Database
ISI
SICI code
0025-3162(1996)126:4<571:DACSOM>2.0.ZU;2-G
Abstract
Midwater fishes were sampled at night to a depth of 400 m in oceanic w aters east of Tasmania, Australia, in May/June of 1992, 1993 and 1994. We examined whether there were differences in the distribution and de nsity of these fishes in relation to the subtropical convergence (STC) separating East Australia Current (EAC) water from subantarctic water (SAW) to the south. A total of 23 999 fishes from 107 taxa and 43 fam ilies were identified. Four new records were identified from the study area. Myctophids and stomiatoids were the main fish taxa captured. We found no evidence of increased density of the combined fish catch in any particular area. However, differences between areas in the density of individual species were noted, although no species was confined to any one area. Ceratoscopelus warmingi, Lobianchia dofleini and Vincig uerria spp. were most abundant in the EAC, whereas Lampichthys proceru s was most abundant in the SAW. Only Diaphus danae was found in signif icantly higher numbers in the STC. Multivariate analysis revealed that community structure in the EAC was significantly different from that of the SAW but not from the STC. Further, when separated by depth, the shallow EAC group was significantly different in all group comparison s bar that with the shallow STC. Our data indicated that the thin EAC layer above 200 m could be distinguished by its fauna from the SAW. Ho wever, we could not detect a separate community in the STC. We conclud e, therefore, that the STC is not an area of increased micronekton abu ndance, nor does it contain a distinct community, during the Australia n autumn/winter.