A coupled biogeochemical-Dynamic Energy Budget model as a tool for managing fish production ponds. | - CCMAR -

Journal Article

TitleA coupled biogeochemical-Dynamic Energy Budget model as a tool for managing fish production ponds.
Publication TypeJournal Article
AuthorsSerpa, D, Pousão-Ferreira, P, Caetano, M, da Fonseca, LCancela, Dinis, MTeresa, Duarte, P
Year of Publication2013
JournalSci Total Environ
Volume463-464
Date Published2013 Oct 1
Pagination861-74
ISSN1879-1026
KeywordsAnimal Feed, Animals, Aquaculture, Environment, Models, Theoretical, Sea Bream
Abstract

The sustainability of semi-intensive aquaculture relies on management practices that simultaneously improve production efficiency and minimize the environmental impacts of this activity. The purpose of the present work was to develop a mathematical model that reproduced the dynamics of a semi-intensive fish earth pond, to simulate different management scenarios for optimizing fish production. The modeling approach consisted of coupling a biogeochemical model that simulated the dynamics of the elements that are more likely to affect fish production and cause undesirable environmental impacts (nitrogen, phosphorus and oxygen) to a fish growth model based on the Dynamic Energy Budget approach. The biogeochemical sub-model successfully simulated most water column and sediment variables. A good model fit was also found between predicted and observed white seabream (Diplodus sargus) growth data over a production cycle. In order to optimize fish production, different management scenarios were analysed with the model (e.g. increase stocking densities, decrease/increase water exchange rates, decrease/increase feeding rates, decrease phosphorus content in fish feeds, increase food assimilation efficiency and decrease pellets sinking velocity) to test their effects on the pond environment as well as on fish yields and effluent nutrient discharges. Scenarios were quantitatively evaluated and compared using the Analytical Hierarchical Process (AHP) methodology. The best management options that allow the maximization of fish production while maintaining a good pond environment and minimum impacts on the adjacent coastal system were to double standard stocking densities and to improve food assimilation efficiency.

DOI10.1016/j.scitotenv.2013.06.090
Sapientia

http://www.ncbi.nlm.nih.gov/pubmed/23872182?dopt=Abstract

Alternate JournalSci. Total Environ.
PubMed ID23872182
CCMAR Authors