3 results on '"Auchterlonie, Neil A."'
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2. Trends during development of Scottish salmon farming: An example of sustainable intensification?
- Author
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Ellis, Tim, Turnbull, James F., Knowles, Toby G., Lines, Jeff A., and Auchterlonie, Neil A.
- Subjects
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FISHERIES , *SALMON farming , *SUSTAINABLE aquaculture , *AGRICULTURAL intensification , *SOCIOECONOMICS - Abstract
Commercial farming of Atlantic salmon in Scotland started in 1969 and has since expanded to produce > 179,000 t year − 1 . A government department has published annual statistics and information on the seawater and freshwater sub-sectors of the Scottish salmon farming industry since 1979, and this review collates and discusses metrics covering aspects of production, farm sites and systems, fish performance, socio-economics and environmental pressures. Trends illustrated in this case study of aquaculture development include: initial increases in numbers of farms and companies, followed by decreases due to industry consolidation; increases in average farm size, and productivity of systems and employees; increases in survival, size at age and productivity of fish (yield per smolt, ova per broodstock); reduced dependence on wild stocks for ova. This case study also illustrates the importance of disease management, control of biological processes to overcome natural seasonality (i.e. production of out-of-season smolt), and the international nature of aquaculture. Improvements in fish survival, growth and productivity are attributed to progress in vaccination and health management (including fallowing), husbandry, system design, feed formulation and provision, and introduction of technology and mechanisation. Salmon farming is discussed in relation to the challenging strategy of “sustainable intensification”. Improved growth and survival over a period of increasing rearing unit size, farm size and output and decreasing relative staff input counters the common assumption that intensification compromises animal welfare. The value of capturing time series data on industry wide metrics is illustrated as it enables identification of trends, underperformance and bench-marking, as well as assessment of resource use efficiency, environmental pressures, and ultimately sustainability. Statement of relevance This review is an original collation of a comprehensive set of time series of official statistics on an entire, discrete and regionally important sector of commercial aquaculture. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
3. Fish as feed: Using economic allocation to quantify the Fish In : Fish Out ratio of major fed aquaculture species.
- Author
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Kok, Björn, Malcorps, Wesley, Tlusty, Michael F., Eltholth, Mahmoud M., Auchterlonie, Neil A., Little, David C., Harmsen, Robert, Newton, Richard W., and Davies, Simon J.
- Subjects
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AQUACULTURE , *FISH feeds , *FISH oils , *SALMON farming , *FISHES , *FISH populations , *ANIMAL feeds - Abstract
Efficiency assessments of marine ingredient use in aquaculture are required to fully understand their contribution to global seafood supply and their impacts on all UN Sustainable Development Goals. Fish In: Fish Out (FIFO) ratios have become the principal metric used to ensure aquaculture does not negatively impact wild fish stocks. However, several approaches have been advocated to calculate the FIFO ratio and there have been criticisms that the different approaches employed lead to over- or under- estimates of the dependence of aquaculture on marine ingredients. Critically, FIFO does not align with Life Cycle Assessment as a measure of other environmental impacts. In this paper we present an alternative method to calculate the FIFO ratio based on the principle of economic allocation (economic Fish In: Fish Out – eFIFO) as commonly used in Life Cycle Assessments. Economic allocation acts as a proxy for the nutritional value of ingredients and places higher importance on the more limiting co-products generated and their relative demand. Substitution of marine ingredients by alternate feed ingredients has significantly reduced the amount of fishmeal and fish oil in aquafeed formulations for most farmed fish species, resulting in a continually decreasing FIFO ratio. Results show that most aquaculture species groups assessed in this study are net producers of fish, while salmon and trout aquaculture are net neutral, producing as much fish biomass as is consumed. Overall, global fed-aquaculture currently produces three to four times as much fish as it consumes. Tracking historical prices of fish oil against fishmeal, the relative higher price of fish oil leads to relatively higher allocation of fish to fish oil compared to fishmeal. This leads to relatively higher eFIFO for species with high fish oil requirements. • Economic allocation is applied to the co-production of fishmeal and fish oil to assess the fish in: fish out (FIFO) ratio. • Economic allocation avoids double counting of fish resources. • Economic allocation gives a higher impact to the limiting feed ingredient, reflecting socio-economic drivers of fisheries. • The economic FIFO (eFIFO) ratio is compared to previously published FIFO ratios for the main aquaculture species groups. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
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