Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2020, Cilt: 67 Sayı: 4, 419 - 425, 01.09.2020
https://doi.org/10.33988/auvfd.702257

Öz

Kaynakça

  • 1. Amer S, Hassanat F, Berthiaume R, et al (2012): Effects of water soluble carbohydrate content on ensiling characteristics, chemical composition and in vitro gas production of forage millet and forage sorghum silages. Anim Feed Sci Tech, 177, 23-29.
  • 2. AOAC (2002): Official methods of analysis. 17th ed. 1st revision. Association of Analytical Communities, Gaithersburg, MD, USA.
  • 3. Canevari WM, Putnam DH, Lanini WT, et al (2000): Overseeding and companion cropping in alfalfa. University of California, Agriculture and Natural Resources, Oakland, CA, USA.
  • 4. Coblentz WK, Abdelgadir IEO, Cochran RC, et al (1999): Degradability of forage proteins by in situ and in vitro enzymatic methods. J Dairy Sci, 82, 343-354.
  • 5. Dijkstra J, Reynolds, CK, Kebreab E, et al (2013): Challenges in ruminant nutrition: towards minimal nitrogen losses in cattle. 47-58. In: JW Oltjen, E Kebreab, H Lapierre (Ed), Energy and protein metabolism and nutrition in sustainable animal production. Wageningen Academic Publishers, EAAP publication No. 134, The Netherlands.
  • 6. Edmunds B, Südekum KH, Spiekers H, et al (2012): Estimating ruminal crude protein degradation of forages using in situ and in vitro techniques. Anim Feed Sci Tech, 175, 95-105.
  • 7. Elizalde JC, Merchen NR, Faulkner DB (1999): Fractionation of fiber and crude protein in fresh forages during the spring growth. J Anim Sci, 77, 476-484.
  • 8. Fijałkowska M, Pysera B, Lipiński K, et al (2015): Changes of nitrogen compounds during ensiling of high protein herbages: a review. Ann Anim Sci, 15, 289-305.
  • 9. Frank B, Persson M, Gustafsson G (2002): Feeding dairy cows for decreased ammonia emission. Livest Prod Sci, 76, 171-179.
  • 10. Gierus M, Herrmann A, Kruse S, et al (2006): Variation in the non-protein nitrogen content (fraction A) of several forages during the growing period. Grassland Sci Eur, 11, 595-597.
  • 11. Grabber JH (2009a): Protein fractions in forage legumes containing protein-binding polyphenols: Freeze-drying vs. conservation as hay or silage. Anim Feed Sci Tech., 151, 324-329.
  • 12. Grabber JH (2009b): Forage management effects on protein and fiber fractions, protein degradability, and dry matter yield of red clover conserved as silage. Anim Feed Sci Tech, 154, 284-291.
  • 13. Guo XS, Ding WR, Han JG, et al (2008): Characterization of protein fractions and amino acids in ensiled alfalfa treated with different chemical additives. Anim Feed Sci Tech, 142, 89-98.
  • 14. Higgs RJ, Chase LE, Ross DA, et al (2015): Updating the Cornell Net Carbohydrate and Protein System feed library and analyzing model sensitivity to feed inputs. J Dairy Sci, 98, 6340-6360.
  • 15. Hristov AN, Bannink A, Crompton LA, et al (2019): Invited review: Nitrogen in ruminant nutrition: A review of measurement techniques. J Dairy Sci, 102, 5811-5852.
  • 16. Hyams Development (2017): CurveExpert Professional, Version 2.6.3. Available at www.curveexpert.net. (Accessed March 01, 2020).
  • 17. Krawutschke M, Weiher N, Thaysen J, et al (2013): The effect of cultivar on the changes in protein quality during wilting and ensiling of red clover (Trifolium pratense L.). J Agr Sci Cambridge, 151, 506-518.
  • 18. Licitra G, Hernandez T, Van Soest PJ (1996): Standardization of procedures for nitrogen fractionation of ruminant feeds. Anim Feed Sci Tech, 57, 347-358. 19. Makoni NF, Shelford JA, Nakai S, et al (1993): Characterization of protein fractions in fresh, wilted, and ensiled alfalfa. J Dairy Sci, 76, 1934-1944.
  • 20. Mathis CP, Cochran RC, Vanzant ES, et al (2001): A collaborative study comparing an in situ protocol with single time-point enzyme assays for estimating ruminal protein degradability of different forages. Anim Feed Sci Tech, 93, 31-42.
  • 21. Owens VN, Albrecht KA, Muck RE (1999): Protein degradation and ensiling characteristics of red clover and alfalfa wilted under varying levels of shade. Can J Plant Sci, 79, 209-222.
  • 22. Pedersen JF, Fritz JO (2000): Forages and Fodder. 797-810. In: CW Smith, RA Frederiksen (Ed), Sorghum: origin, history, technology and production. John Wiley & Sons Inc, Hoboken, NJ, USA.
  • 23. Reynal SM, Broderick GA (2005): Effect of dietary level of rumen-degraded protein on production and nitrogen metabolism in lactating dairy cows. J Dairy Sci, 88, 4045-4064.
  • 24. Sniffen CJ, O’Connor JD, Van Soest PJ, et al (1992): A net carbohydrate and protein system for evaluating cattle diets: II. Carbohydrate and protein availability. J Anim Sci, 70, 3562-3577.
  • 25. StatSoft. Inc. (2003): Statistica (data analysis software system), version 6.0. Available at www.statsoft.com. (Accessed March 01, 2020).
  • 26. Tremblay GF, Michaud R, Bélanger G (2003): Protein fractions and ruminal undegradable proteins in alfalfa. Can J Plant Sci, 83, 555-559.

The in vitro protein degradability of legume and sudan grass forage types and ensiled mixtures

Yıl 2020, Cilt: 67 Sayı: 4, 419 - 425, 01.09.2020
https://doi.org/10.33988/auvfd.702257

Öz

This study examined the in vitro crude protein (CP) degradability of wilted, dried for hay and ensiled Medicago sativa, Trifolium pratense and Sorghum sudanense, as well as of ensiled legume-sudan grass mixtures. The rumen degradable protein (RDP) was estimated using the latest Cornell net carbohydrate and protein system (CNCPS v6.5) and with the Streptomyces griseus protease assay (48 h of incubation). Sudan grass forages were the lowest in moderately degradable CP and the highest in CP fraction C, while red clover showed the least values for the soluble true protein like alfalfa forages for slowly degradable protein bound in neutral detergent fibre (NDF). Ensiling of legume-sudan grass mixtures decreases N-NH3 content by 12.2 and 5.1% in comparison with alfalfa and red clover silages, respectively. The RDP values for sudan grass (fresh, wilted, hay) were lower by 7.2 to 7.9% or 10.4 to 15.7% (CNCPS or S. griseus procedure) and up to 0.8 or 5.3 to 9.7% in comparison with alfalfa and red clover, respectively. The reduction of protein degradability in ensiled legume-sudan grass mixtures was 5.5 or 6.1% and 1.5 or 3% compared to alfalfa and red clover silages, respectively. Due to higher rumen undegradable protein content, the sudan grass and legume-sudan grass mixtures may be efficiently used to improve the protein utilization in ruminant nutrition.

Kaynakça

  • 1. Amer S, Hassanat F, Berthiaume R, et al (2012): Effects of water soluble carbohydrate content on ensiling characteristics, chemical composition and in vitro gas production of forage millet and forage sorghum silages. Anim Feed Sci Tech, 177, 23-29.
  • 2. AOAC (2002): Official methods of analysis. 17th ed. 1st revision. Association of Analytical Communities, Gaithersburg, MD, USA.
  • 3. Canevari WM, Putnam DH, Lanini WT, et al (2000): Overseeding and companion cropping in alfalfa. University of California, Agriculture and Natural Resources, Oakland, CA, USA.
  • 4. Coblentz WK, Abdelgadir IEO, Cochran RC, et al (1999): Degradability of forage proteins by in situ and in vitro enzymatic methods. J Dairy Sci, 82, 343-354.
  • 5. Dijkstra J, Reynolds, CK, Kebreab E, et al (2013): Challenges in ruminant nutrition: towards minimal nitrogen losses in cattle. 47-58. In: JW Oltjen, E Kebreab, H Lapierre (Ed), Energy and protein metabolism and nutrition in sustainable animal production. Wageningen Academic Publishers, EAAP publication No. 134, The Netherlands.
  • 6. Edmunds B, Südekum KH, Spiekers H, et al (2012): Estimating ruminal crude protein degradation of forages using in situ and in vitro techniques. Anim Feed Sci Tech, 175, 95-105.
  • 7. Elizalde JC, Merchen NR, Faulkner DB (1999): Fractionation of fiber and crude protein in fresh forages during the spring growth. J Anim Sci, 77, 476-484.
  • 8. Fijałkowska M, Pysera B, Lipiński K, et al (2015): Changes of nitrogen compounds during ensiling of high protein herbages: a review. Ann Anim Sci, 15, 289-305.
  • 9. Frank B, Persson M, Gustafsson G (2002): Feeding dairy cows for decreased ammonia emission. Livest Prod Sci, 76, 171-179.
  • 10. Gierus M, Herrmann A, Kruse S, et al (2006): Variation in the non-protein nitrogen content (fraction A) of several forages during the growing period. Grassland Sci Eur, 11, 595-597.
  • 11. Grabber JH (2009a): Protein fractions in forage legumes containing protein-binding polyphenols: Freeze-drying vs. conservation as hay or silage. Anim Feed Sci Tech., 151, 324-329.
  • 12. Grabber JH (2009b): Forage management effects on protein and fiber fractions, protein degradability, and dry matter yield of red clover conserved as silage. Anim Feed Sci Tech, 154, 284-291.
  • 13. Guo XS, Ding WR, Han JG, et al (2008): Characterization of protein fractions and amino acids in ensiled alfalfa treated with different chemical additives. Anim Feed Sci Tech, 142, 89-98.
  • 14. Higgs RJ, Chase LE, Ross DA, et al (2015): Updating the Cornell Net Carbohydrate and Protein System feed library and analyzing model sensitivity to feed inputs. J Dairy Sci, 98, 6340-6360.
  • 15. Hristov AN, Bannink A, Crompton LA, et al (2019): Invited review: Nitrogen in ruminant nutrition: A review of measurement techniques. J Dairy Sci, 102, 5811-5852.
  • 16. Hyams Development (2017): CurveExpert Professional, Version 2.6.3. Available at www.curveexpert.net. (Accessed March 01, 2020).
  • 17. Krawutschke M, Weiher N, Thaysen J, et al (2013): The effect of cultivar on the changes in protein quality during wilting and ensiling of red clover (Trifolium pratense L.). J Agr Sci Cambridge, 151, 506-518.
  • 18. Licitra G, Hernandez T, Van Soest PJ (1996): Standardization of procedures for nitrogen fractionation of ruminant feeds. Anim Feed Sci Tech, 57, 347-358. 19. Makoni NF, Shelford JA, Nakai S, et al (1993): Characterization of protein fractions in fresh, wilted, and ensiled alfalfa. J Dairy Sci, 76, 1934-1944.
  • 20. Mathis CP, Cochran RC, Vanzant ES, et al (2001): A collaborative study comparing an in situ protocol with single time-point enzyme assays for estimating ruminal protein degradability of different forages. Anim Feed Sci Tech, 93, 31-42.
  • 21. Owens VN, Albrecht KA, Muck RE (1999): Protein degradation and ensiling characteristics of red clover and alfalfa wilted under varying levels of shade. Can J Plant Sci, 79, 209-222.
  • 22. Pedersen JF, Fritz JO (2000): Forages and Fodder. 797-810. In: CW Smith, RA Frederiksen (Ed), Sorghum: origin, history, technology and production. John Wiley & Sons Inc, Hoboken, NJ, USA.
  • 23. Reynal SM, Broderick GA (2005): Effect of dietary level of rumen-degraded protein on production and nitrogen metabolism in lactating dairy cows. J Dairy Sci, 88, 4045-4064.
  • 24. Sniffen CJ, O’Connor JD, Van Soest PJ, et al (1992): A net carbohydrate and protein system for evaluating cattle diets: II. Carbohydrate and protein availability. J Anim Sci, 70, 3562-3577.
  • 25. StatSoft. Inc. (2003): Statistica (data analysis software system), version 6.0. Available at www.statsoft.com. (Accessed March 01, 2020).
  • 26. Tremblay GF, Michaud R, Bélanger G (2003): Protein fractions and ruminal undegradable proteins in alfalfa. Can J Plant Sci, 83, 555-559.
Toplam 25 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Veteriner Cerrahi
Bölüm Araştırma Makalesi
Yazarlar

Bojan Stojanović 0000-0001-5057-1790

Nenad đorđević 0000-0003-4196-4773

Aleksandar Simić 0000-0002-7605-3796

Aleksa Božičković 0000-0002-8671-4906

Vesna Davidović 0000-0003-0764-3183

Aleksandra Ivetić 0000-0003-2762-1870

Yayımlanma Tarihi 1 Eylül 2020
Yayımlandığı Sayı Yıl 2020Cilt: 67 Sayı: 4

Kaynak Göster

APA Stojanović, B., đorđević, N., Simić, A., Božičković, A., vd. (2020). The in vitro protein degradability of legume and sudan grass forage types and ensiled mixtures. Ankara Üniversitesi Veteriner Fakültesi Dergisi, 67(4), 419-425. https://doi.org/10.33988/auvfd.702257
AMA Stojanović B, đorđević N, Simić A, Božičković A, Davidović V, Ivetić A. The in vitro protein degradability of legume and sudan grass forage types and ensiled mixtures. Ankara Univ Vet Fak Derg. Eylül 2020;67(4):419-425. doi:10.33988/auvfd.702257
Chicago Stojanović, Bojan, Nenad đorđević, Aleksandar Simić, Aleksa Božičković, Vesna Davidović, ve Aleksandra Ivetić. “The in Vitro Protein Degradability of Legume and Sudan Grass Forage Types and Ensiled Mixtures”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 67, sy. 4 (Eylül 2020): 419-25. https://doi.org/10.33988/auvfd.702257.
EndNote Stojanović B, đorđević N, Simić A, Božičković A, Davidović V, Ivetić A (01 Eylül 2020) The in vitro protein degradability of legume and sudan grass forage types and ensiled mixtures. Ankara Üniversitesi Veteriner Fakültesi Dergisi 67 4 419–425.
IEEE B. Stojanović, N. đorđević, A. Simić, A. Božičković, V. Davidović, ve A. Ivetić, “The in vitro protein degradability of legume and sudan grass forage types and ensiled mixtures”, Ankara Univ Vet Fak Derg, c. 67, sy. 4, ss. 419–425, 2020, doi: 10.33988/auvfd.702257.
ISNAD Stojanović, Bojan vd. “The in Vitro Protein Degradability of Legume and Sudan Grass Forage Types and Ensiled Mixtures”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 67/4 (Eylül 2020), 419-425. https://doi.org/10.33988/auvfd.702257.
JAMA Stojanović B, đorđević N, Simić A, Božičković A, Davidović V, Ivetić A. The in vitro protein degradability of legume and sudan grass forage types and ensiled mixtures. Ankara Univ Vet Fak Derg. 2020;67:419–425.
MLA Stojanović, Bojan vd. “The in Vitro Protein Degradability of Legume and Sudan Grass Forage Types and Ensiled Mixtures”. Ankara Üniversitesi Veteriner Fakültesi Dergisi, c. 67, sy. 4, 2020, ss. 419-25, doi:10.33988/auvfd.702257.
Vancouver Stojanović B, đorđević N, Simić A, Božičković A, Davidović V, Ivetić A. The in vitro protein degradability of legume and sudan grass forage types and ensiled mixtures. Ankara Univ Vet Fak Derg. 2020;67(4):419-25.

Cited By

Feed Quality of New Sudan Grass Varieties
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https://doi.org/10.18016/ksutarimdoga.vi.916295