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Metabolic basis of growth variation in juvenile sole (Solea senegalensis, Kaup 1858)
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Advisor(s)
Abstract(s)
The general aim of this study was to understand the underlying factors responsible for the
individual variation in growth of juvenile Senegalese sole (Solea senegalensis). Senegalese sole
is a species of high commercial value and high interest for aquaculture in Europe, therefore it
would be important to understand these individual variations. Understanding the causes for
individual variation in growth in relation with the feed intake, metabolic rate and response to
stress contributes to maximize the production efficiency by reducing food waste and
improving water quality. In order to identify the possible factors responsible for the individual
variation in sole growth, its relationship with metabolic rate, stress response and feed intake
was determined. Twelve fish with 18.49 ± 2.94g of initial weight were kept in standard
conditions and feed once a day, during a period of six months. Individual oxygen consumption
measurements in Sole juveniles were determined by flow-through respirometry at standard
conditions, after the fish were fed a single meal and after a stressful condition. Blood samples
for plasma cortisol, were taken from all fish at the start of the experiment (control, indicative
of basal levels) and after stress exposure. Quantification of individual feed intake was
performed by incorporation with radio-opaque ballotinis glass beads in a dry feed, followed by
radiography to quantify the amount of ingested pellets. Individual fish exhibited pronounced
variation in growth (final weight ranging from 30.45 to 67.53g), oxygen consumption of fasted
fish (108.0 to 447.4 μmol/g/h), oxygen consumption of fed fish (174.7 μmol/g/h to 813.5
μmol/g/h), oxygen consumption after emersion stress (186.8 μmol/g/h to 376.7 μmol/g/h),
and plasma cortisol after emersion stress (4.81 ng/ml to 46.45 ng/ml). Individual differences in
metabolic rate do not contribute to explain individual differences in growth. However, after
emersion stress individual differences in stress response seem to play a role in explaining
individual differences in growth, what may result from different copying styles. Sole feed
intake as measured by X-ray does not seem to be a good indicator of growth rate. The oxygen
consumption increases both when fish are fed and after an emersion stress, as result of
additive costs of growth and stress to the cost of maintenance. All together, this study
suggests that individual variation of growth in Solea senegalensis is essentially due to genetic
variation, and its reduction may accomplished when genetic selection programs are adopted.
Furthermore, a study with a larger number of fish and over a larger time period would be
important to check some of the trends found in this thesis between growth potential,
metabolic rate and coping styles of Senegalese sole.
Description
Dissertação mest., Aquacultura e Pescas, Universidade do Algarve, 2009
Keywords
Teses Linguado senegalês Solea senegalensis Aquacultura Crescimento Alimentação Metabolismo