1 / 16

XXXIX. HAKI Napok Szarvas , 21. 05. 2015.

Preliminary study on replacement of fishmeal with rendered animal protein in the feeds of Silurus glanis. Máté HAVASI 1 , Shivendra KUMAR 1 , Zoltán NAGY 1 , Gábor BELICZKY 2 , Miklós BERCSÉNYI 2 , Dénes GÁL 1 1 NARIC – Research Institute for Fisheries and Aquaculture, Szarvas, Hungary

noelwhaley
Download Presentation

XXXIX. HAKI Napok Szarvas , 21. 05. 2015.

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Preliminarystudyonreplacement of fishmealwithrenderedanimal protein inthefeeds of Silurusglanis Máté HAVASI1, Shivendra KUMAR1, Zoltán NAGY1, Gábor BELICZKY2, Miklós BERCSÉNYI2, Dénes GÁL1 1NARIC – Research Institute for Fisheries and Aquaculture, Szarvas, Hungary 2University of Pannonia, Georgikon Faculty, Keszthely, Hungary XXXIX. HAKI Napok Szarvas, 21. 05. 2015. Project supported bythe European Union, co-financedbythe European RegionalDevelopmentFund (GOP-1.1.1-11-2011-0028) and the AQUAREDPOT project fundedbythe European Commission (FP7-316266).

  2. Introduction • European catfish (Silurus glanis) –size, growth rate, meat quality and market size • Development of new diets and feeding regimes • Fish meal – high price (1800 - 2300 USD/ton), uncertain availability, increasing demand • Alternative protein sources

  3. Introduction • Plantproteins –soybeanmeal(SBM), high protein content , essentialaminoacids, antinutritivefactor, otherconsumersectors, expensive, import, GMO • Rendered animal proteins –meat and bone meal (MBM), higher protein content and better growth promoter effect, EU permitted(Commission Regulation EU No 56/2013) • High level FM replacement MBM without reduction of growth • No studies on fishmeal replacement in Silurus glanis

  4. Materials and methods Experimentaldiets • 3 isonitrogenous and isocaloric ( 16MJ/kg) diets (35%) • similar amino acid profile • Sinking, 4mm ø pellets

  5. Materials and methods Experimentalfish and design • Triplicates • Recirculating system, 9 glass aquaria, filter tanks, dimmed lights • European catfishjuveniles (135 specimens) 70.9 ± 9.4 g (meanbw ± S. D.) • Twoweeksacclimatization, sixweeksstudyperiod • Feedingautomaticbeltfeeders 12 hrs/day, 2.5% body mass

  6. Materials and methods Measures, calculations • Body composition analysis (5-5 specimens/replicates), measures of visceral fat and liver • WG, SGR, FCR, PER, ANPU, CV% were calculated • ANOVA (Kruskal-Wallis), Tukey’s, Tamhane post hoc , (p<0.05) • DO level, watertemperature(24.1 ± 0.9 °C)daily, Nitrogenformsweekly • Fishweremeasuredindividually (0.1 g)

  7. Results and discussion Growth

  8. Results and discussion Growth • Decrease in growth in SC (but no in AP) • Three limiting factors: lower feed intake, lower digestibility, amino acid deficiency • High fibre content • Excretory waste of energy increased as the portion of soybean meal in the feed increased (Ai & Xie, 2005) • Rendered animal protein did not affect the growth performance (Bureau et al., 2000; Millamena, 2002)

  9. Results and discussion Feedutilization

  10. Results and discussion Feedutilization • Increased FCR correlated with increased plant protein inclusion (Reftsie et al., 2006) • Compensatory feed intake to meet demand of protein • Reducedpalatability, reducedfeedintake (Davis et al., 1995; Xue & Cui, 2001) • Betterpalatability of AP

  11. Results and discussion Feedutilization • Lower protein utilization • Trypsin inhibitor (Synder & Kwon, 1987; Krogdahl et al., 2003) • Fibrecontent, less digestible protein and energy • More aminoacidconvertedtoglucose and fat

  12. Results and discussion Body composition

  13. Results and discussion Body composition • No significant effect on body composition (Robaina et al., 1997; Bureau et al., 2000; Takagi et al., 2000; Shapawai et al, 2007; Gunben et al., 2014) • Higher lipid and visceral fat in AP – feed compostition • AP has no or little influence on body indices • Less lipid and fat in SC – anitinutritive factors of SB (Olli & Krogdahl, 1995)

  14. Summary • Total replacement with soybean or rendered AP did not effect body composition • Reduced growth and protein utilization in total replacement with soybean • But no significant negative effect of rendered AP • Rendered AP can be an appropriate alternative (EU permitted) • Further studies needed to optimize replacement ratio

  15. Acknowledgement • Co-authors • Project partners (University of Pannonia, Corax-Bioner Zrt., Aranyponty Zrt.) • The study was supported by the European Union, co-financed by the European Regional Development Fund (GOP-1.1.1-11-2011-0028) and partially supported by the AQUAREDPOT project funded by the European Commission (FP7-316266)

  16. Thank you for the kind attention!

More Related