Seasonal Length–Weight Relationships of European Sea Bass (Dicentrarchus labrax) in Two Aquaculture Production Systems

Different non-intrusive methods have been developed to estimate fish biomass, which is a determinant factor for aquaculture farming management. Length–weight conversion is a crucial parameter for accurate biomass estimation. However, the potential environmental and seasonal variations in fish length...

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Published in	Fishes Vol. 8; no. 5; p. 227
Main Authors	Orduna, Carlos, de Meo, Ilaria, Rodríguez-Ruiz, Amadora, Cid-Quintero, Juan Ramón, Encina, Lourdes
Format	Journal Article
Language	English
Published	Basel MDPI AG 25.04.2023
Subjects	Analysis of covariance Aquaculture Aquaculture products Bass Biomass biomass estimation Cages Costs Dicentrarchus labrax Environmental aspects European sea bass Farm management Farming systems Farms Fish Frequency distribution Length-weight relationships length–weight relationship Marine fishes Metabolism Offshore Physiological aspects Polyculture (aquaculture) Ponds Respiration Salinity seasonal changes Seasonal variation Seasonal variations Seasons temperature Ventilation Water temperature Weight Whitefish Spain
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Abstract	Different non-intrusive methods have been developed to estimate fish biomass, which is a determinant factor for aquaculture farming management. Length–weight conversion is a crucial parameter for accurate biomass estimation. However, the potential environmental and seasonal variations in fish length–weight relationships are rarely considered. In this study, we examined seasonal variation in length–weight relationships for European sea bass (Dicentrarchus labrax) from two farming systems subject to different salinity and temperature conditions: inland ponds and offshore cages. The results showed significant differences in intercept and slope between the two types of facilities studied, as well as between the same seasons for both facilities. This highlights the need to use specific length–weight equations to obtain accurate biomass estimation based on fish length data.
AbstractList	Different non-intrusive methods have been developed to estimate fish biomass, which is a determinant factor for aquaculture farming management. Length–weight conversion is a crucial parameter for accurate biomass estimation. However, the potential environmental and seasonal variations in fish length–weight relationships are rarely considered. In this study, we examined seasonal variation in length–weight relationships for European sea bass (Dicentrarchus labrax) from two farming systems subject to different salinity and temperature conditions: inland ponds and offshore cages. The results showed significant differences in intercept and slope between the two types of facilities studied, as well as between the same seasons for both facilities. This highlights the need to use specific length–weight equations to obtain accurate biomass estimation based on fish length data.
Audience	Academic
Author	Orduna, Carlos Rodríguez-Ruiz, Amadora Cid-Quintero, Juan Ramón de Meo, Ilaria Encina, Lourdes
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Snippet	Different non-intrusive methods have been developed to estimate fish biomass, which is a determinant factor for aquaculture farming management. Length–weight...
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SubjectTerms	Analysis of covariance Aquaculture Aquaculture products Bass Biomass biomass estimation Cages Costs Dicentrarchus labrax Environmental aspects European sea bass Farm management Farming systems Farms Fish Frequency distribution Length-weight relationships length–weight relationship Marine fishes Metabolism Offshore Physiological aspects Polyculture (aquaculture) Ponds Respiration Salinity seasonal changes Seasonal variation Seasonal variations Seasons temperature Ventilation Water temperature Weight Whitefish
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Title	Seasonal Length–Weight Relationships of European Sea Bass (Dicentrarchus labrax) in Two Aquaculture Production Systems
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