Skip to main content Accessibility help

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
Cancel
×
×
Home
  • Home
Article
  • Cited by 7
  • Cited by
    Crossref Citations
    Crossref logo
    This article has been cited by the following publications. This list is generated based on data provided by CrossRef.
    Kühn, Gianna Pallauf, Kathrin Schulz, Carsten and Rimbach, Gerald 2018. Flavonoids as putative modulators of Δ4-, Δ5-, and Δ6-desaturases: Studies in cultured hepatocytes, myocytes, and adipocytes. BioFactors, Vol. 44, Issue. 5, p. 485.
    Henke, Anika Westreicher-Kristen, Edwin Molkentin, Joachim Dickhoefer, Uta Knappstein, Karin Hasler, Mario and Susenbeth, Andreas 2017. Effect of dietary quebracho tannin extract on milk fatty acid composition in cows. Journal of Dairy Science, Vol. 100, Issue. 8, p. 6229.
    Nguyen, Don Le, Van Nguyen, Quang Malau-Aduli, Bunmi Nichols, Peter and Malau-Aduli, Aduli 2017. Omega–3 Long-Chain Fatty Acids in the Heart, Kidney, Liver and Plasma Metabolite Profiles of Australian Prime Lambs Supplemented with Pelleted Canola and Flaxseed Oils. Nutrients, Vol. 9, Issue. 8, p. 893.
    Alves, Susana P. Francisco, Alexandra Costa, Mónica Santos-Silva, José and Bessa, Rui J.B. 2017. Biohydrogenation patterns in digestive contents and plasma of lambs fed increasing levels of a tanniferous bush ( Cistus ladanifer L.) and vegetable oils. Animal Feed Science and Technology, Vol. 225, Issue. , p. 157.
    van Leeuwen, Katryna A. Camin, Federica Jerónimo, Eliana Vasta, Valentina Prenzler, Paul D. Ryan, Danielle and Bessa, Rui J. B. 2017. Dietary Effects on Stable Carbon Isotope Composition of Fatty Acids in Polar and Neutral Fractions of Intramuscular Fat of Lambs. Journal of Agricultural and Food Chemistry, Vol. 65, Issue. 43, p. 9404.
    Costa, M. Alves, S. P. Francisco, A. Almeida, J. Alfaia, C. M. Martins, S. V. Prates, J. A. M. Santos-Silva, J. Doran, O. and Bessa, R. J. B. 2017. The reduction of starch in finishing diets supplemented with oil does not prevent the accumulation of trans-10 18:1 in lamb meat1. Journal of Animal Science, Vol. 95, Issue. 8, p. 3745.
    Oliveira, Maria A. Alves, Susana P. Santos-Silva, José and Bessa, Rui J.B. 2017. Effect of dietary starch level and its rumen degradability on lamb meat fatty acid composition. Meat Science, Vol. 123, Issue. , p. 166.
    ×
  • Get access
    Add to cart €30.00
    Check if you have access via personal or institutional login
    Log in Register

Effect of feeding lambs with a tanniferous shrub (rockrose) and a vegetable oil blend on fatty acid composition of meat lipids

  • A. Francisco (a1) (a2) (a3), S. P. Alves (a1) (a2), P. V. Portugal (a3), V. M. R. Pires (a1) (a2), M. T. Dentinho (a3), C. M. Alfaia (a1) (a2), E. Jerónimo (a1) (a4), J. A. M. Prates (a1) (a2), J. Santos-Silva (a1) (a3) and R. J. B. Bessa (a1) (a2)...
Abstract

The effects of feeding Cistus ladanifer (Cistus) and a blend of soybean and linseed oil (1 : 2 vol/vol) on fatty acid (FA) composition of lamb meat lipids and messenger RNA (mRNA) expression of desaturase enzymes was assessed. In total, 54 male lambs were randomly assigned to 18 pens and to nine diets, resulting from the combination of three inclusion levels of Cistus (50 v. 100 v. 200 g/kg of dry matter (DM)) and three inclusion levels of oil (0 v. 40 v. 80 g/kg of DM). The forage-to-concentrate ratio of the diets was 1 : 1. Longissimus muscle lipids were extracted, fractionated into neutral (NL) and polar lipid (PL) and FA methyl esters obtained and analyzed by GLC. The expression of genes encoding Δ5, Δ6 and Δ9 desaturases (fatty acid desaturase 1 (FADS1), fatty acid desaturase 2 (FADS2) and stearoyl CoA desaturase (SCD)) was determined. Intramuscular fat, NL and PL contents were not affected by oil or Cistus. Oil supplementation reduced (P<0.05) 16:0, c9-16:1, 17:0, c9-17:1 and c9-18:1 FA and increased (P<0.05) 18:2n-6, 18:3n-3 and the majority of biohydrogenation intermediates in NL. Cistus alone had few effects on FA of NL but interacted with oil (P<0.05) by increasing t10-18:1,t10,t12-18:2,t10,c12-18:2 and t7,c9-18:2. The t10-/t11-18:1 ratio increased with both Cistus and oil levels. The c9, t11-18:2 did not increase (P<0.05) with both oil and Cistus dietary inclusion. Oil reduced c9-16:1, 17:0, c9-17:1,c9-18:1, 20:4n-6, 22:4n-6 and 20:3n-9 proportions in PL, and increased 18:2n-6, 18:3n-3, 20:3n-3 and of most of the biohydrogenation intermediates. The Cistus had only minor effects on FA composition of PL. Cistus resulted in a reduction (P<0.05) of 20:5n-3 and 22:6n-3 in the meat PL. The expression level of SCD mRNA increased (P=0.015) with Cistus level, although a linear relationship with condensed tannins intake (P=0.11) could not be established. FADS1 mRNA expressed levels increased linearly (P=0.019) with condensed tannins intake. In summary, the inclusion of Cistus and oil in 1 : 1 forage-to-concentrate ratio diets resulted in a large increase in t10-18:1 and no increase in c9,t11-18:2 or n-3 long chain poor in polyunsaturated fatty acids in lamb meat.

Copyright
© The Animal Consortium 2016 
Corresponding author
E-mail: rjbbessa@fmv.ulisboa.pt
References
Hide All
Aldai, N, de Renobales, M, Barron, LJR and Kramer, JKG 2013. What are the trans fatty acids issues in foods after discontinuation of industrially produced trans fats? Ruminant products, vegetable oils, and synthetic supplements. European Journal of Lipid Science and Technology 115, 13781401.
Alvarenga, TIRC, Chen, Y, Furusho-Garcia, IF, Perez, JRO and Hopkins, DL 2015. Manipulation of omega-3 PUFAs in lamb: phenotypic and genotypic views. Comprehensive Reviews in Food Science and Food Safety 14, 189204.
Alves, SP and Bessa, RJB 2009. Comparison of two gas-liquid chromatograph columns for the analysis of fatty acids in ruminant meat. Journal of Chromatography A 1216, 51305139.
Alves, SP and Bessa, RJB 2014. The trans-10,cis-15 18:2: a missing intermediate of trans-10 shifted rumen biohydrogenation pathway? Lipids 49, 527541.
Bessa, RJB, Alves, SP, Jerónimo, E, Alfaia, CM, Prates, JAM and Santos-Silva, J 2007. Effect of lipid supplements on ruminal biohydrogenation intermediates and muscle fatty acids in lambs. European Journal of Lipid Science and Technology 109, 868878.
Bessa, RJB, Alves, SP and Santos-Silva, J 2015. Constraints and potentials for the nutritional modulation of the fatty acid composition of ruminant meat. European Journal of Lipid Science and Technology 117, 13251344.
Bessa, RJB, Portugal, PV, Mendes, IA and Santos-Silva, J 2005. Effect of lipid supplementation on growth performance, carcass and meat quality and fatty acid composition of intramuscular lipids of lambs fed dehydrated lucerne or concentrate. Livestock Production Science 96, 185194.
Bessa, RJB, Santos-Silva, J, Ribeiro, JMR and Portugal, AV 2000. Reticulo-rumen biohydrogenation and the enrichment of ruminant edible products with linoleic acid conjugated isomers. Livestock Production Science 63, 201211.
Buccioni, A, Pauselli, M, Viti, C, Minieri, S, Pallara, G, Roscini, V, Rapaccini, S, Marinucci, MT, Lupi, P, Conte, G and Mele, M 2015. Milk fatty acid composition, rumen microbial population, and animal performances in response to diets rich in linoleic acid supplemented with chestnut or quebracho tannins in dairy ewes. Journal of Dairy Science 98, 11451156.
da Costa, ASH, Bessa, RJB, Pires, VMR, Rolo, EA, Pinto, RMA, Fontes, CMGA and Prates, JAM 2014. Is hepatic lipid metabolism of beef cattle influenced by breed and dietary silage level? BMC Veterinary Research 10, 65.
Daniel, ZCTR, Wynn, RJ, Salter, AM and Buttery, PJ 2004. Differing effects of forage and concentrate diets on the oleic acid and conjugated linoleic acid content of sheep tissues: the role of stearoyl-CoA desaturase. Journal of Animal Science 82, 747758.
Food and Agriculture Organization (FAO) 2010. Fats and fatty acids in human nutrition (FAO report of an expert consultation). FAO, Rome, Italy.
Francisco, A, Dentinho, MT, Alves, SP, Portugal, PV, Fernandes, F, Sengo, S, Jerónimo, E, Oliveira, MA, Costa, P, Sequeira, A, Bessa, RJB and Santos-Silva, J 2015. Growth performance, carcass and meat quality of lambs supplemented with increasing levels of a tanniferous bush (Cistus ladanifer L.) and vegetable oils. Meat Science 100, 275282.
Gruffat, D, Remond, C, Durand, D, Loreau, O and Bauchart, D 2008. 9cis, 11trans conjugated linoleic acid (CLA) is synthesised and desaturated into conjugated 18:3 in bovine adipose tissues. Animal 2, 645652.
Guerreiro, O, Alves, SP, Duarte, MF, Bessa, RJB and Jerónimo, E 2015. Cistus ladanifer L. Shrub is rich in saturated and branched chain fatty acids and their concentration increases in the mediterranean dry season. Lipids 50, 493501.
Guerreiro, O, Dentinho, MT, Moreira, OC, Guerra, AR, Ramos, PAB, Bessa, RJB, Duarte, MF and Jerónimo, E 2016. Potential of Cistus ladanifer L. (rockrose) in small ruminant diets – effect of season and plant age on chemical composition, in vitro digestibility and antioxidant activity. Grass and Forage Science, doi: 10.1111/gfs.12188.
Jerónimo, E, Alves, SP, Alfaia, CM, Prates, JAM, Santos-Silva, J and Bessa, RJB 2011. Biohydrogenation intermediates are differentially deposited between polar and neutral intramuscular lipids of lambs. European Journal of Lipid Science and Technology 113, 924934.
Jerónimo, E, Alves, SP, Dentinho, MTP, Martins, SV, Prates, JAM, Vasta, V, Santos-Silva, J and Bessa, RJB 2010. Effect of grape seed extract, Cistus ladanifer L., and vegetable oil supplementation on fatty acid composition of abomasal digesta and intramuscular fat of lambs. Journal of Agricultural and Food Chemistry 58, 1071010721.
Khiaosa-Ard, R, Bryner, SF, Scheeder, MRL, Wettstein, HR, Leiber, F, Kreuzer, M and Soliva, CR 2009. Evidence for the inhibition of the terminal step of ruminal α-linolenic acid biohydrogenation by condensed tannins. Journal of Dairy Science 92, 177188.
Kronberg, SL, Scholljegerdes, EJ, Barcelo-Coblijn, G and Murphy, EJ 2007. Flaxseed treatments to reduce biohydrogenation of α-linolenic acid by rumen microbes in cattle. Lipids 42, 11051111.
Livak, KJ and Schmittgen, TD 2001. Analysis of relative gene expression data using real-time quantitative PCR and the 2-ΔΔCT method. Methods 25, 402408.
Moore, JH and Christie, WW 1984. Digestion, absorption and transport of fats in ruminant animals. In Fats in Animal Nutrition (ed. J Wiseman), pp. 123149. Butterwords, London, UK.
Palmquist, DL, St-Pierre, N and McClure, KE 2004. Tissue fatty acid profiles can be used to quantify endogenous rumenic acid synthesis in lambs. Journal of Nutrition 134, 24072414.
Rana, MS, Tyagi, A, Hossain, SA and Tyagi, AK 2012. Effect of tanniniferous Terminalia chebula extract on rumen biohydrogenation, Δ9-desaturase activity, CLA content and fatty acid composition in longissimus dorsi muscle of kids. Meat Science 90, 558563.
Rosa, HJD, Rego, OA, Silva, CCG, Alves, SP, Alfaia, CMM, Prates, JAM and Bessa, RJB 2014. Effect of corn supplementation of grass finishing of Holstein bulls on fatty acid composition of meat lipids. Journal of Animal Science 92, 37013714.
Shingfield, KJ, Bonnet, M and Scollan, ND 2013. Recent developments in altering the fatty acid composition of ruminant-derived foods. Animal 7, 132162.
Shingfield, KJ and Wallace, RJ 2014. Synthesis of conjugated linoleic acid in ruminants and humans. In Conjugated linoleic acids and conjugated vegetable oils (ed. B Sels and A Philippaerts), pp. 165. The Royal Society of Chemistry, London, UK.
Smith, SB, Kawachi, H, Choi, CB, Choi, CW, Wu, G and Sawyer, JE 2009. Cellular regulation of bovine intramuscular adipose tissue development and composition. Journal of Animal Science 87, E72E82.
Sukhija, PS and Palmquist, DL 1988. Rapid method for determination of total fatty acid content and composition of feedstuffs and feces. Journal of Agricultural and Food Chemistry 36, 12021206.
Toral, PG, Hervas, G, Belenguer, A, Bichi, E and Frutos, P 2013. Effect of the inclusion of quebracho tannins in a diet rich in linoleic acid on milk fatty acid composition in dairy ewes. Journal of Dairy Science 96, 431439.
Vasta, V and Bessa, RJB 2012. Manipulating ruminal biohydrogenation by the use of plants bioactive compounds. In Dietary phytochemistry and microbes (ed. AK Patra), pp. 263284. Springer, Dordrecht, The Netherlands.
Vasta, V, Mele, M, Serra, A, Scerra, M, Luciano, G, Lanza, M and Priolo, A 2009b. Metabolic fate of fatty acids involved in ruminal biohydrogenation in sheep fed concentrate or herbage with or without tannins. Journal of Animal Science 87, 26742684.
Vasta, V, Priolo, A, Scerra, M, Hallett, KG, Wood, JD and Doran, O 2009a. Δ9 desaturase protein expression and fatty acid composition of longissimus dorsi muscle in lambs fed green herbage or concentrate with or without added tannins. Meat Science 82, 357364.
Wynn, RJ, Daniel, ZCTR, Flux, CL, Craigon, J, Salter, AM and Buttery, PJ 2006. Effect of feeding rumen-protected conjugated linoleic acid on carcass characteristics and fatty acid composition of sheep tissues. Journal of Animal Science 84, 34403450.
Recommend this journal

Email your librarian or administrator to recommend adding this journal to your organisation's collection.

animal
  • ISSN: 1751-7311
  • EISSN: 1751-732X
  • URL: /core/journals/animal
Please enter your name
Please enter a valid email address
Who would you like to send this to? *

CAPTCHA *

Skip to the audio challenge
×

Keywords

Type Description Title
PDF
Supplementary materials

Francisco supplementary material
Table S1

 PDF (274 KB)
274 KB

Metrics

Full text views

Total number of HTML views: 0
Total number of PDF views: 0 *
Loading metrics...

Abstract views

Total abstract views: 0 *
Loading metrics...

* Views captured on Cambridge Core between <date>. This data will be updated every 24 hours.

Usage data cannot currently be displayed

Cancel
Confirm
×