Morphological
descriptions of the early stages of spine and vertebral development in
hatchery-reared larval and juvenile Atlantic halibut (Hippoglossus
hippoglossus)
L.M.
Lewis, S.P. Lall, P.E. Witten-2004
Aquaculture, 241(1-4): 47-59
Abstract:
Larval
and juvenile Atlantic halibut (Hippoglossus hippoglossus L.) were
sampled from a commercial hatchery in order to classify and quantify
skeletal abnormalities and meristic characters. Specimens were collected
during two periods, July and December 2002, and were subdivided into length
classes: fish <3 cm in standard length (Ls) and fish >3 cm in Ls.
Using a whole mount bone-staining technique with Alizarin Red S, skeletal
abnormalities were classified into 23 types, affecting the vertebrae
centrums as well as the neural and hemal spines. Meristic characters
included the total number of vertebrae and the number of vertebrae in the
cephalic, prehemal, hemal, and caudal regions of the vertebral column. Fish
sampled in July displayed more types of abnormalities and serious
abnormalities such as lordosis and scoliosis. There were significant
differences in the total number of vertebrae and number of vertebrae in the
cephalic, pre-hemal, and caudal regions, although there was no significance
in the number of vertebrae in the hemal region. The highest frequency of
abnormalities occurred in the pre-hemal and hemal regions for each group.
Results indicate that the types of abnormalities were more severe and varied
from fish sampled in July, although the number of individuals afflicted with
at least one type of abnormality did not decrease in fish sampled in
December. These results provide information for further investigations into
the nutritional and environmental factors causing bone deformities in
cultured Atlantic halibut.
(Department
of Biology, Dalhousie University, Halifax, NS, Canada B3H 4J1, e-mail of
S.P. Lall: santosh.lall@nrc-cnrc.gc.ca)