2017
DOI: 10.1590/s0100-204x2017000900001
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Mathematical modeling for the management of the carrying capacity of aquaculture enterprises in lakes and reservoirs

Abstract: -Flooded areas of reservoirs and artificial lakes have been increasingly used for fish production; however, the waste generated by aquaculture has become a concern for the sustainable development of this activity. One of the main strategies adopted by management and regulatory agencies is the use of hydrodynamic models that calculate the carrying or nutrient load capacity of a particular water body and the effect of fish farming. These models are precise in the development of optimal strategies for feeding and… Show more

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Cited by 26 publications
(25 citation statements)
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“…; Bueno et al . ) and have been applied to fish as the upper trophic level in IMTA systems (Reid et al . , ).…”
Section: Modelling Performance Measures Of Cultured Speciesmentioning
confidence: 99%
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“…; Bueno et al . ) and have been applied to fish as the upper trophic level in IMTA systems (Reid et al . , ).…”
Section: Modelling Performance Measures Of Cultured Speciesmentioning
confidence: 99%
“…To account for temperature effects on ectothermic growth, the von Bertalanffy equation has been modified, such as with the thermal growth coefficient (TGC, Iwama & Tautz 1981). TGC models are common in fish culture (Cho & Bureau 1998;Dumas et al 2007;Chowdhury et al 2013;Bueno et al 2017) and have been applied to fish as the upper trophic level in IMTA systems . TGC is a function of historical growth performance under a given temperature regimen, but it may not perform well when applied beyond those conditions (Jobling 2003).…”
Section: Growth Models Of Aquatic Animalsmentioning
confidence: 99%
“…As one of the main problems of aquaculture is the generation of waste, the bioenergetic models were developed to assist in this estimation and have exhibited high accuracy. These models take into account environmental conditions such as temperature, species characteristics such as basal metabolism, and feed properties such as digestibility (BUENO et al, 2017). One of the prominent bioenergetic models in aquaculture has been implemented in the FishPrFEQ software (CHO & BUREAU, 1998), which incorporates growth equations for fish at different stages of cultivation.…”
Section: Modelling Of Aquatic Ecosystems Submitted To Aquaculture Actmentioning
confidence: 99%
“…One of the prominent bioenergetic models in aquaculture has been implemented in the FishPrFEQ software (CHO & BUREAU, 1998), which incorporates growth equations for fish at different stages of cultivation. BUENO et al (2017) created a bioenergetic model to simulate the production of tilapias in net-tanks, which allowed daily estimates of phosphorus emissions from the cultivation system throughout the productive period and in all breeding phases.…”
Section: Modelling Of Aquatic Ecosystems Submitted To Aquaculture Actmentioning
confidence: 99%
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