Utilisation of co-streams in the Norwegian food processing industry

Food losses occur throughout the entire food chain, from primary production via postharvest handling and storage, to food processing, distribution, retailing and consumption. Globally, food losses account for about one third of the total food produced for human consumption. The aim of this report was to map the production and utilisation of co-streams in the food processing industry in Norway and to discuss possibilities for alternative utilisation based on qualitative aspects of the co-streams, and current legislation. This report is produced by work package 3 in the CYCLE project (2013-2016), “Total utilisation of raw materials in the supply chain for food with a bio-economical perspective”. The CYCLE project aims to improve resource utilisation in the Norwegian food chain by developing sustainable eco-friendly bio-processes and novel technology, in close relationship with food industry partners. Inputs and outputs of organic materials were roughly mapped at selected food processing plants presenting three Norwegian food chains: 1) Vegetables and potatoes; 2) white and pelagic fish; and 3) poultry. Data was collected during plant visits in June 2013, and later checked by staff from the described plants. The report describes the qualitative properties of co-streams, and their current utilisation as feed, fertiliser and as substrate for bioenergy production. We also present relevant regulations in EU and Norway regarding processing and utilisation of co-streams, and discuss alternative utilisation. Altogether, the food processing plants had significant market shares in Norway within fresh potatoes (38%), lettuce (17%), poultry meat (24%) and white and pelagic fish, where export makes up a large proportion. Generally, a large proportion of the raw materials were utilised as food and feed. On average for all plants, 75% of the raw material was utilised in food products, 21% in feed products, 1% in fertiliser and bioenergy production and 3% was deposited in landfill. The plants used in average 8.6 tonnes of process water per tonne of food produced, but the amount varied considerably between the plants. Possible improvements in the utilisation of raw materials and co-streams include a higher degree of utilisation in food products, and developing new or improved feed components from co-streams with increased nutritional value. Due to the current high degree of utilisation in food and feed applications with high economic values, the potential for bioenergy and fertiliser production is limited to certain risk materials. Feed potatoes and vegetables and feathers, bones, blood, viscera and skin from fish or poultry have considerable potential for better utilisation for food or feed. Relevant processing methods for these co-streams are fractionation, hydrolysis, fermentation and drying

Marine bioaktive fiskepeptider for forebygging av overvekt og mikrobiotarelaterte sykdommer i mennesker og dyr

publishedVersio

Marine bioaktive fiskepeptider for forebygging av overvekt og mikrobiotarelaterte sykdommer i mennesker og dyr

publishedVersio

Cyberlindnera jadinii yeast as a protein source for broiler chickens: effects on growth performance and digestive function from hatching to 30 days of age

Europe is heavily dependent on imported feed protein sources such as soybean meal (SBM); thus, investigating local sustainable alternatives is crucial to increase self-sufficiency. This study evaluated the effects of the inactivated yeast Cyberlindnera jadinii grown on local lignocellulosic sugars on the growth performance and digestive function of Ross 308 broiler chickens. A total of 1,000 male chicks were allocated to 20 pens. There were 5 replicate pens with 50 birds each, from 1 to 30 D after hatch. The birds were offered one conventional wheat–oat–SBM–based control diet and 3 diets with increasing levels of C. jadinii replacing 10, 20, and 30% of dietary crude protein (CP), whereas SBM levels were gradually decreased. The feed intake and weight gain of the birds decreased linearly, and feed conversion ratio increased linearly (P < 0.01) with increasing dietary levels of C. jadinii. Nevertheless, growth performance and feed intake were similar between the birds fed with control diets and diets containing 10% CP from C. jadinii in the starter and grower periods. The apparent ileal digestibility (AID) of dry matter, crude fat, organic matter, and carbohydrates was higher in control diets than in diets with 30% C. jadinii CP (P < 0.05) and decreased (P < 0.01) with incremental levels of dietary C. jadinii. Regardless, the AID of CP, starch, ash, and phosphorus was unaffected. Ileal villus height on day 10 was maintained in birds fed with diets containing 30% C. jadinii CP compared with the birds fed with control diets but was lower for birds fed with diets containing 10 and 20% C. jadinii protein (P < 0.05). To conclude, up to 10% C. jadinii CP can replace SBM CP in broiler chicken diets, maintaining growth performance and digestive function, whereas higher levels of C. jadinii may decrease bird performance. Altogether, this suggests the potential of C. jadinii as a local-based protein source in broiler chicken diets, contributing to a more sustainable feed.publishedVersio

Utilisation of co-streams in the Norwegian food processing industry – A multiple case study

Food losses occur throughout the entire food chain, from primary production via postharvest handling and storage, to food processing, distribution, retailing and consumption. Globally, food losses account for about one third of the total food produced for human consumption. The aim of this report was to map the production and utilisation of co-streams in the food processing industry in Norway and to discuss possibilities for alternative utilisation based on qualitative aspects of the co-streams, and current legislation. This report is produced by work package 3 in the CYCLE project (2013-2016), “Total utilisation of raw materials in the supply chain for food with a bioeconomical perspective”. The CYCLE project aims to improve resource utilisation in the Norwegian food chain by developing sustainable eco-friendly bio-processes and novel technology, in close relationship with food industry partners. Inputs and outputs of organic materials were roughly mapped at selected food processing plants presenting three Norwegian food chains: 1) Vegetables and potatoes; 2) white and pelagic fish; and 3) poultry. Data was collected during plant visits in June 2013, and later checked by staff from the described plants. The report describes the qualitative properties of co-streams, and their current utilisation as feed, fertiliser and as substrate for bioenergy production. We also present relevant regulations in EU and Norway regarding processing and utilisation of co-streams, and discuss alternative utilisation. Altogether, the food processing plants had significant market shares in Norway within fresh potatoes (38%), lettuce (17%), poultry meat (24%) and white and pelagic fish, where export makes up a large proportion. Generally, a large proportion of the raw materials were utilised as food and feed. On average for all plants, 75% of the raw material was utilised in food products, 21% in feed products, 1% in fertiliser and bioenergy production and 3% was deposited in landfill. The plants used in average 8.6 tonnes of process water per tonne of food produced, but the amount varied considerably between the plants. Possible improvements in the utilisation of raw materials and co-streams include a higher degree of utilisation in food products, and developing new or improved feed components from co-streams with increased nutritional value. Due to the current high degree of utilisation in food and feed applications with high economic values, the potential for bioenergy and fertiliser production is limited to certain risk materials. Feed potatoes and vegetables and feathers, bones, blood, viscera and skin from fish or poultry have considerable potential for better utilisation for food or feed. Relevant processing methods for these co-streams are fractionation, hydrolysis, fermentation and drying

Cyberlindnera jadinii yeast as a protein source for broiler chickens: effects on growth performance and digestive function from hatching to 30 days of age

Europe is heavily dependent on imported feed protein sources such as soybean meal (SBM); thus, investigating local sustainable alternatives is crucial to increase self-sufficiency. This study evaluated the effects of the inactivated yeast Cyberlindnera jadinii grown on local lignocellulosic sugars on the growth performance and digestive function of Ross 308 broiler chickens. A total of 1,000 male chicks were allocated to 20 pens. There were 5 replicate pens with 50 birds each, from 1 to 30 D after hatch. The birds were offered one conventional wheat–oat–SBM–based control diet and 3 diets with increasing levels of C. jadinii replacing 10, 20, and 30% of dietary crude protein (CP), whereas SBM levels were gradually decreased. The feed intake and weight gain of the birds decreased linearly, and feed conversion ratio increased linearly (P < 0.01) with increasing dietary levels of C. jadinii. Nevertheless, growth performance and feed intake were similar between the birds fed with control diets and diets containing 10% CP from C. jadinii in the starter and grower periods. The apparent ileal digestibility (AID) of dry matter, crude fat, organic matter, and carbohydrates was higher in control diets than in diets with 30% C. jadinii CP (P < 0.05) and decreased (P < 0.01) with incremental levels of dietary C. jadinii. Regardless, the AID of CP, starch, ash, and phosphorus was unaffected. Ileal villus height on day 10 was maintained in birds fed with diets containing 30% C. jadinii CP compared with the birds fed with control diets but was lower for birds fed with diets containing 10 and 20% C. jadinii protein (P < 0.05). To conclude, up to 10% C. jadinii CP can replace SBM CP in broiler chicken diets, maintaining growth performance and digestive function, whereas higher levels of C. jadinii may decrease bird performance. Altogether, this suggests the potential of C. jadinii as a local-based protein source in broiler chicken diets, contributing to a more sustainable feed