Modelling the growth of white seabream (Diplodus sargus) and gilthead seabream (Sparus aurata) in semi-intensive earth production ponds using the Dynamic Energy Budget approach
Authored by Dalila Serpa, Pedro Pousao Ferreira, Hugo Ferreira, Fonseca Luis Cancela da, Maria Teresa Dinis, Pedro Duarte
Date Published: 2013
DOI: 10.1016/j.seares.2012.08.003
Sponsors:
European Union
Brazilian National Council for Scientific and Technological Development (CNPq)
Platforms:
C++
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Fish growth models may help understanding the influence of
environmental, physiological and husbandry factors on fish production, providing crucial information to maximize the growth rates of cultivated
species. The main objectives of this work were to: i) develop and
implement an Individual Based Model using a Dynamic Energy Budget
(IBM-DEB) approach to simulate the growth of two commercially important
Sparidae species in semi-intensive earth ponds, the white seabream which
is considered as a potential candidate for Mediterranean aquaculture and
the gilthead seabream that has been cultivated since the early 80s; ii)
evaluate which model parameters are more likely to affect fish
performance, and iii) investigate which parameters might account for
growth differences between the cultivated species. The model may be run
in two modes: the ``state variable{''} mode, in which an average fish is
simulated with a particular parameter set and the ``Individual Based
Model{''} (IBM) mode that simulates a population of n fishes, each with
its specific parameter set assigned randomly. The IBM mode has the
advantage of allowing a quick model calibration and an evaluation of the
parameter sets that produce the best fit between predicted and observed
fish growth. Results revealed that the model reproduces reasonably well
the growth of the two seabreams. Fish performance was mainly affected by
parameters related to feed ingestion/assimilation and reserves
utilization, suggesting that special attention should be taken in the
estimation of these parameters when applying the model to other species.
Comparing the DEB parameters set of the two sparids it seems that the
white seabream's low growth rates are a result of higher maintenance
costs and a lower feed assimilation efficiency. Hence, the development
of new feed formulations may be crucial for the success of white
seabream production in semi-intensive earth ponds. (C) 2012 Elsevier
B.V. All rights reserved.
Tags
ecosystems
Aquaculture
Temperature
Life
Diet
Fish
Protein
Deb theory
Sea bream
Flatfish