Larval organogenesis in
common dentex Dentex dentex L. (Sparidae): histological and
histochemical aspects
C.A. Santamaría, M. Marín de Mateo, R. Traveset, R.
Sala, A. Grau, E. Pastor, C. Sarasquete, S. Crespo-2004
Aquaculture, 237(1-4): 207-228
Abstract:
The present study describes histological and
histochemical aspects of Dentex dentex larval development up to day
36 after hatching and provides a tabular overview on the ontogeny of
structures involved in general metabolic processes, mechanisms of defence
against disease and, particularly, nutrition. Observations are related to
main developmental stages defined on the basis of external morphological
features. During stage 1, the mouth and the anus of the larvae are still
closed. Stage 2 starts when the mouth opens and stages 3 and 4 are
characterized by the appearance of opercular spines and notochord flexion,
respectively. During the first three stages, dentex larvae undergo intense
organogenesis, this being particularly intense during stages 2 and 3. Stage
4 is not characterized by the appearance of new structures but by the
increase in size and complexity of pre-existing ones. During stage 1, the
larva acquires morphological and enzymatic equipments (hepatocytes with
glycogen stores, pancreatic cells with first zymogen granules, enterocytes
with microvilli, non-specific esterase and alkaline and acid phosphatase
activities) which will ensure absorptive and digestive processes before the
mouth opening. Pronephric excretory structures and a tubular heart are
present at hatching and endocrine elements (corpuscles of Stannius,
endocrine pancreas and thyroid gland) appear. During stages 2 and 3, food
capture as well as digestive and absorptive processes become fully
guaranteed (pharyngeal as well as mandibular teeth and taste buds appear and
then proliferate, the gut progressively differentiates, the mucosa folds,
ATPase and aminopeptidase M activities appear, mucus secretion establishes,
particularly in the oesophagus, and at the end of stage 3, gastric glands
differentiate). Before this last event occurs, acidophilic supranuclear
vesicles are seen in the hindgut enterocytes and disappear at the moment the
stomach develops. Gill slits are evident at initial stage 2; filaments start
differentiation by the end of this stage and lamellae appear by the second
half of stage 3. By this time compartmentalisation of the heart is
completed, trabeculae being evident in the ventricle, and mesonephric
excretory structures appear. During stage 4, gastric glands proliferate,
rodlet cells appear in the stomach and the oesophagus and rodlet and goblet
cells proliferate in the intestine; gill filaments and lamellae increase in
number and length and there is a notable development of the mesonephros. The
lymphoid organs, which appear in the sequence pronephric kidney (present at
stage 1), spleen (observed at stage 2) and thymus (first seen at stage 3)
remarkably increase in size during this stage.
(Centre de Referència en Aqüicultura de Catalunya,
Departament de Biologia Animal, de Biologia Vegetal i d'Ecologia,
Universitat Autònoma de Barcelona, 08193 Bellaterra, Barcelona, Spain,
e-mail of S. Crespo: Silvia.Crespo@uab.es)