Add to ORKGAbstract Background In breeding programs for aquaculture species, breeding goal traits are often weighted based on the desired gains but economic gain would be higher if economic values were used instead. The objectives of this study were: (1) to develop a bio-economic model to derive economic values for aquaculture species, (2) to apply the model to determine the economic importance and economic values of traits in a case-study on gilthead seabream, and (3) to validate the model by comparison with a profit equation for a simplified production system. Methods A bio-economic model was developed to simula...
Fish farming is growing but is also facing challenges regarding economic viability and environmental...
An economic analysis of tilapia production was conducted using a recirculating aquaculture system fa...
Environmental conditions play a significant role in the economic success of aquaculture. This articl...
Background: In breeding programs for aquaculture species, breeding goal traits are often weighted ba...
In fish farming, economic values (EV) of breeding goal traits are lacking, even though they are key ...
The aim of the study was to derive the economic value (s) (EVs) of growth rate, feed intake, feed co...
In this article we introduce a variety of bio-economic models that can be used to calculate the econ...
To meet the global demand for fish in a more sustainable manner, aquaculture needs to increase its e...
<p>In sea cage fish farming, production quotas aim to constrain the impact of fish farming on the su...
Suggested Bibliographic Reference: Challenging New Frontiers in the Global Seafood Sector: Proceedin...
In sea cage fish farming, production quotas aim to constrain the impact of fish farming on the surro...
The aim of fish breeding is to increase profit by producing faster growing fish with lower feed inta...
There are phenomena gap of aquaculturist behavior, and research gap of aquaculture bioeconomic, so,...
<p>In sea cage farming, fish are exposed to seasonal variations of water temperature, and these vari...
Background: Profitability of breeding programs is a key determinant in the adoption of selective bre...
Fish farming is growing but is also facing challenges regarding economic viability and environmental...
An economic analysis of tilapia production was conducted using a recirculating aquaculture system fa...
Environmental conditions play a significant role in the economic success of aquaculture. This articl...
Background: In breeding programs for aquaculture species, breeding goal traits are often weighted ba...
In fish farming, economic values (EV) of breeding goal traits are lacking, even though they are key ...
The aim of the study was to derive the economic value (s) (EVs) of growth rate, feed intake, feed co...
In this article we introduce a variety of bio-economic models that can be used to calculate the econ...
To meet the global demand for fish in a more sustainable manner, aquaculture needs to increase its e...
<p>In sea cage fish farming, production quotas aim to constrain the impact of fish farming on the su...
Suggested Bibliographic Reference: Challenging New Frontiers in the Global Seafood Sector: Proceedin...
In sea cage fish farming, production quotas aim to constrain the impact of fish farming on the surro...
The aim of fish breeding is to increase profit by producing faster growing fish with lower feed inta...
There are phenomena gap of aquaculturist behavior, and research gap of aquaculture bioeconomic, so,...
<p>In sea cage farming, fish are exposed to seasonal variations of water temperature, and these vari...
Background: Profitability of breeding programs is a key determinant in the adoption of selective bre...
Fish farming is growing but is also facing challenges regarding economic viability and environmental...
An economic analysis of tilapia production was conducted using a recirculating aquaculture system fa...
Environmental conditions play a significant role in the economic success of aquaculture. This articl...