The Influences of Adding Polyethylene Glycol and Activated Sodium Bentonite on the Performance, Blood Parameters, and Muscle Mineral Content of Saanen Goats Fed Pistachio Byproducts
الموضوعات :M. Kordi 1 , A.A. Naserian 2 , F. Samadian 3
1 - Department of Animal Science, Faculty of Agriculture, Yasouj University, Yasouj, Iran
2 - Department of Animal Science, Faculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, Iran
3 - Department of Animal Science, Faculty of Agriculture, Yasouj University, Yasouj, Iran
الکلمات المفتاحية: Polyethylene glycol, tannin, sodium bentonite, Polyphenolic, Saanen goat, pistachio skin,
ملخص المقالة :
This study was conducted to evaluate the impact of dietary addition of polyethylene glycol (PEG) or activated sodium bentonite as tannins deactivation materials on the performance of Saanen goats fed diets containing pistachio by-products (PBP). Twenty-one Saanen male goats (27±3 kg, 10 months) were assigned to three dietary treatments in a completely randomized design and fed for 60 days. Three experimental diets consisted of a diet containing 30% dry matter (DM) pistachio by-products with no additive (control); control diet supplemented with PEG at 1.0% of DM (PEG group), and control diet supplemented with activated sodium bentonite at 1.0% of DM (G-bind group). Results indicated that dry matter intake (DMI), total gain, average daily gain (ADG), and ruminal pH were not affected by treatments (P≥0.05). There were no significant differences among treatments in hematological parameters (P≥0.05) except monocyte count (P<0.05). The plasma concentrations of total triglycerides (TG) decreased (P<0.05) by adding G-bind. Serum Insulin concentration was also increased significantly (P<0.05) in the PEG group compared to the control. Besides, the G-bind increased the calcium content of this muscle compared to the control and PEG group (P<0.05). Zinc content in muscle showed a significant increase in the PEG treatments in comparison to other experimental groups (P<0.05). Furthermore, Iron (Fe) content in muscle improved by both additives (P<0.05). Data showed that there were no significant differences among treatments for hair fiber characteristics (P≥0.05). It can be concluded that activated sodium bentonite can be an appropriate substitute for PEG as a tannin-deactivation material in diets containing 30% DM PBP for feeding goats.
Akbag H.I. (2021). Potential nutritive value of Anagyris foetida shrub for goats. Agrofor. Syst. 95(1), 191-200.
Alipanahi Z., Fatahnia F., Jafari H., Taasoli G., Mirzaei-Alamouti H., Barrett D. and Pormalekshahi A.J.L.S. (2019). Effect of oak acorn with or without polyethylene glycol in diets containing extruded soybean on milk fatty acid profile, ruminal fermentation, and plasma metabolites of lactating goats. Livest. Sci. 221, 57-62.
American Society for Testing and Materials. (1978). Standard Method for Diameter of Wool and Other Animal Fibers by Microprojection, Method D2130-78, Part 33, ASTM, Philadelphia, Pennsylvania.
Anirudhan T.S. and Ramachandran M. (2006). Adsorptive removal of tannin from aqueous solutions by cationic surfactant-modified bentonite clay. J. Colloid Interface Sci. 299(1), 116-124.
AOAC. (2002). Official Methods of Analysis. Vol. I. 17th ed. Association of Official Analytical Chemists, Arlington, VA.
Aydin Ö.D., Merhan O. and Yildiz G. (2020). The effect of sodium bentonite on growth performance and some blood parameters in post-weaning Tuj breed lambs. Ankara Üniv. Vet. Fak. Derg. 67(3), 235-241.
Azadbakht S., Khadem A.A. and Norouzian M.A. (2017). Bentonite supplementation can improve performance and fermentation parameters of chronic lead-exposed lambs. Environ. Sci. Pollut. 24(6), 5426-5430.
Bagheripour E., Rozbehan Y. and Alipour D. (2008). Effect of ensiling, airdriying and addation of polyethylene glycol on in vitro gas production of pistachio by-products. Anim. Feed Sci. Technol. 146, 327-336.
Barry T.N. and McNabb W.C. (1999). The implications of condensed tannins on the nutritive value of temperate forages fed to ruminants. British J. Nutr. 81, 263-272.
Bhatta R., Shinde A.K., Vaithiyanathan S., Sankhyan S.K. and Verma D.L. (2002). Effect of polyethylene glycol-6000 on nutrient intake, digestion and growth of kids browsing Prosopis cineraria. Anim. Feed. Sci. Technol. 101, 45-54.
Ben Salem H., Makkar H.P.S., Nefzaoui A., Hassayoun L. and Abidi S. (2005). Benefit from the association of small amounts of tannin-rich shrub foliage (Acacia cyanophylla) with soyabean meal given as supplements to Barbarine sheep fed on oaten hay. Anim. Feed Sci. Technol. 122, 173-186.
Brown D. and Ng’ambi J.W. (2017). Effect of polyethylene glycol 4000 supplementation on the performance of yearling male Pedi goats fed dietary mixture levels of Acacia karroo leaf meal and Setaria verticillata grass hay. Trop. Anim. Health Prod. 49, 1051-1057.
Clovis C.D.S., Kozloski G.V., Sanchez L.M.B., Mesquita F.R., Alves T.P. and Castagnino D.S. (2008). Evaluation of autoclave procedures for fibre analysis in forage and concentrate feedstuffs. Anim. Feed. Sci. Technol. 146, 169-174.
Cobon D.H., Stephenson R.G.A. and Hopkins P.S. (1992). The effect of oral administration of methionine, bentonite, methionine/bentonite and methionine/oil homogenates on wool production of grazing and penned sheep in a semi-arid tropical environment. Australian J. Exp. Agric. 32, 435-441.
Decandia M., Sitzia M., Cabiddu A., Kababya D. and Molle G. (2000). The use of polyethylene glycol to reduce the anti-nutritional effects of tannins in goats fed woody species. Small Rumin. Res. 38, 157-164.
Eruden B., Nishida T., Matsuyama H., Hosoda K. and Shioya S. (2004). Nutritive value of green tea grounds silage and influence of polyethylene glycol on nitrogen metabolism in steers. Anim. Sci. J. 75, 559-566.
Fenn P.D. and Leng R.A. (1989). Wool growth and sulfur amino acid entry rate in sheep fed roughage based diets supplemented with bentonite and sulfur amino acids. Australian J. Agric. Res. 40(4), 889-896.
Forough Ameri N. and Shakeri P. (2008). Pistachio residues as feedstuff, challenges and opportunities for development. Pp. 55-61 in Proc. 3nd Natl. Congr. Recycl. Reuse Ren. Organ. Resour. Agric., Khorasgan, Isfahan, Iran.
Frutos P., Hervás G., Giráldez F.J. and Mantecó A.R. (2004). Review: Tannins and ruminant nutrition. Spanish J. Agric. Res. 2, 191-202.
Ghaffari M.H., Tahmasbi A.M., Khorvash M., Naserian N. and Vakili A.R. (2013). Effects of pistachio by-products in replacement of alfalfa hay on ruminal fermentation, blood metabolites, and milk fatty acid composition in Saanen dairy goats fed a diet containing fish oil. J. Appl. Anim. Res. 42(2), 186-193.
Ghaffari M.H., Tahmasbi A.M., Khorvash M., Naserian A.A., Ghaffari A.H. and Valizade H. (2014). Effects of pistachio by-products in replacement of alfalfa hay on populations of rumen bacteria involved in bio-hydrogenation and fermentative parameters in the rumen of sheep. J. Anim. Physiol. Anim. Nutr. 98, 578-586.
Ghandour M.M.A., Fayed A.M., Abdul-Aziz G.M. and Hanafy M.A. (2014). Effect of using polyethylene glycol or sodium bentonite on performance of sheep fed Acacia saligna. World Appl. Sci. J. 32(11), 2309-2316.
Gouda G.A., Khattab H.M., Abdel-Wahhab M.A., El-Nor S.A., El-Sayed H.M. and Kholif S.M. (2019). Clay minerals as sorbents for mycotoxins in lactating goat’s diets: Intake, digestibility, blood chemistry, ruminal fermentation, milk yield and composition, and milk aflatoxin M1 content. Small Rumin. Res. 175, 15-22.
Hammond A.C., Kunkle W.E., Genho P.C., Moore S.A., Crosby C.E. and Ramsay K.H. (1994). Use of blood urea nitrogen concentration to determine time and level of protein supplementation in wintering cows. Prof. Anim. Sci. 10, 24-31.
Henry P.R., Ammerman C.B. and Littell R.C. (1992). Relative bioavailability of manganese from a manganese-methionine complex and inorganic sources for ruminants. J. Dairy Sci. 75, 3473-3478.
Huwig A., Freimund S., Kappeli O. and Duttler H. (2001). Mycotoxin detoxification of animal feed by different adsorbents. Toxicol. Lett. 122, 179-188.
Iranian Council of Animal Care. (1995). Guide to the Care and Use of Experimental Animals, vol. 1. Isfahan University of Technology, Isfahan, Iran.
Ivan M., Dayrell M. de S. and Hidiroglou M. (1992a). Effects of bentonite and monensin on selected elements in stomach and liver of fauna-free and faunated sheep. J. Dairy Sci. 75, 201-208.
Ivan M., Dayrell de S., Mahadevan S. and Hidiroglou M. (1992b). Effects of bentonite on wool growth and nitrogen metabolism in fauna-free and faunated sheep. J. Anim. Sci. 70, 3194-3202.
Jerónimo E., Alves S.P., Martinsc S.V., José A.M., Rui J.B., Bessaa C. and Santos-Silvaa J. (2010). Effect of sodium bentonite and vegetable oil blend supplementation on growth, carcass quality and intramuscular fatty acid composition of lambs. Anim. Feed Sci. Technol. 158, 136-145.
Jorhem L. (2000). Determination of metals in foods by atomic absorption spectrometry after dry ashing. J. AOAC Int. 83, 1204-1211.
Khan J., Abbas A., Ayaz M., Naeem M., Akhter M.S. and Soomro M.H. (2012). Review: Factors affecting wool quality and quantity in sheep. African J. Biotechnol. 11(73), 13761-13766.
Klein G., Kim J., Himmeldirk K., Cao Y. and Chen X. (2007). Antidiabetes and anti-obesity activity of Lagerstroemia speciosa. Evid. Based Comp. Alt. Med. 4, 401-407.
Mahgoub O., Kadim I.T., Tageldin M.H., Al-Marzooqi W.S., Khalaf S.Q. and Amnbu Ali A. (2008a). Clinical profile of sheep fed non-conventional feeds containing phenols and condensed tannins. Small Rumin. Res. 78, 115-22.
Mahgoub O., Kadim I.T., Tageldin M.H., Al-Marzooqi W., Khalaf S.Q. and Ambu Ali A. (2008b). Pathological features in sheep fed rations containing phenols and condensed tannins. J. Anim. Vet. Adv. 7, 1105-1109.
Makkar H.P.S. (2003). Effects and fate of tannins in ruminant animals, adaptation to tannins, and strategies to overcome detrimental effects of feeding tannin-rich feeds. Small Rumin. Res. 49, 241-256.
Malau-Aduli A.E.O., Siebert B.D., Bottema C.D.K. and Pitchford W.S. (1998). Breed comparison of the fatty acid composition of muscle phospholipids in Jersey and Limousin cattle. J. Anim. Sci. 76, 766-773.
McNabb W.C., Waghorn G.C., Peters J.S. and Barry T.N. (1996). The effect of condensed tannins in Lotus pedunculatus on the solubilization and degradation of ribulose-1, 5-bisphosphate carboxylase (EC 4.1. 1.39; Rubisco) protein in the rumen and the sites of Rubisco digestion. British J. Nutr. 76(4), 535-549.
Mohammed S.A., Razzaque M.A., Omar A.E., Albert S. and Al-Gallaf W.M. (2016). Biochemical and haematological profile of different breeds of goat maintained under intensive production system. African J. Biotechnol. 15(24), 1253-1257.
Motubatse M.R., Ngambi J.W., Norris D. and Malatje M.M. (2008). Effect of polyethylene glycol 4000 supplementation on the performance of indigenous Pedi goats fed different levels of Acacia nilotica leaf meal and ad libitum Buffalo grass hay. Trop. Anim. Health Prod. 40, 229-238.
Nadziakiewicza M., Kehoe S. and Micek P. (2019). Physico-chemical properties of clay minerals and their use as a health promoting feed additive. Animals. 9(10), 714-722.
Nishida T., Eruden B., Hosoda K., Matsuyama H., Nakagawa K., Miyazawa T. and Shioya S. (2006). Effects of green tea (Camellia sinensis) waste silage and polyethylene glycol on ruminal fermentation and blood components in cattle. Asian. Australasian J. Anim. Sci. 19(12), 1728-1736.
Norouzian M.A. and Ghiasi S.E. (2012). Carcass performance and meat mineral content in Balouchi lamb fed istachio by-products. Meat Sci. 92, 157-159.
NRC. (2001). Nutrient Requirements of Dairy Cattle. 7th Ed. National Academy Press, Washington, DC., USA.
Olafadehan O.A. (2011). Changes in haematological and biochemical diagnostic parameters of Red Sokoto goats fed tannin-rich Pterocarpus erinaceus forage diets. Veterinarski Arhiv. 81(4), 471-483.
Peng K., Shirley D.C., Xu Z., Huang Q., McAllister T.A., Chaves A.V. and Wang Y. (2016). Effect of purple prairie clover (Dalea purpurea) hay and its condensed tannins on growth performance, wool growth, nutrient digestibility, blood metabolites and ruminal fermentation in lambs fed total mixed rations. Anim. Feed Sci. Technol. 222, 100-110.
Rangel J.H.A. and Gardiner C.P. (2011). Stimulation of wool growth by Desmanthus spp. as a supplement to a diet of Mitchell grass hay. Trop. Grassl. 43, 106-111.
Reykdal O. and Thorlacius A. (2001). Cadmium, mercury, iron, copper, manganese and zinc in the liver and kidney of the Icelandic lamb. Food Addit. Contam. 18, 960-969.
Rezaeenia A., Naserian A.A., Valizadeh R. and Tahmasbi A. (2012). Effect of using different levels of pistachio by-products silage on composition and blood parameters of Holstein dairy cows. African J. Biotechnol. 11(22), 6192-6196.
Rivero N., Salem A.Z.M., Ayala M., Elghandour M.M.Y., Kholif A.E., Barbabosa A. and Cipriano M. (2016). Influence of Salix babylonica extract, exogenous enzyme of xylanase and their combination on blood haematological and biochemical profile in sheep and goats. Indian J. Anim. Sci. 86(10), 1140-1144.
SAS Institute. (2003). SAS®/STAT Software, Release 9.1. SAS Institute, Inc., Cary, NC. USA.
Sedighi-Vesagh R., Naserian A.A., Ghaffari M.H. and Petit H.V. (2015) Effects of pistachio by-products on digestibility, milk production, milk fatty acid profile and blood metabolites in Saanen dairy goats. J. Anim. Physiol. Anim. Nutr. 99, 777-787.
Seoni E., Rothacher M., Arrigo Y., Ampuero Kragten S., Bee G. and Dohme-Meier F. (2021). The fate of tannins from Birdsfoot Trefoil and their effect on the nitrogen balance in growing lambs fed diets varying in protein level. Animals. 11(1), 190-197.
Seied Moemen S.M. (2003). Study of the effects of different levels of Pistachio byproducts on the performance of Raini goat. MS Thesis. Tehran Univ., Karaj, Iran.
Sejian V., Naqvi S.M.K., Ezeji T., Lakritz J. and Lal R. (2012). Environmental stress and amelioration in livestock production. Springer Berlin Heidelberg, Germany.
Shakeri P., Riasi A., Alikhani M., Fazaeli H. and Ghorbani G.R. (2013). Effects of feeding pistachio by‐products silage on growth performance, serum metabolites and urine characteristics in Holstein male calves. J. Anim. Physiol. Anim. Nutr. 97(6), 1022-1029.
Silanikove N., Gilboa N., Nir I., Perevolotsky A. and Nitsan Z. (1996a). Effect of daily supplementation of polyethyleneglycol on intake and digestion of tannin containing leaves (Quercus calliprinos, Pistacia lentiscus, and Ceratonia siliqua) bygoats. J. Agric. Food Chem. 44, 199-205.
Silanikove N., Gilboa N., Perevolotsky Z. and Nitsan Z. (1996b). Goats fed tannin-containing leaves do not exhibit toxic syndromes. Small Rumin. Res. 21, 195-201.
Sirois M. (1995). Veterinary Clinical Laboratory Procedure. Mosby Year Book, Inc. St Louis, Missouri, USA.
Smith B.P. (2007). Large Animal Internal Medicine. Elsevier, St Louis, Missouri, USA.
Solaiman S., Thomas J., Dupre Y., Min B.R., Gurung N., Terrill T.H. and Haenlein G.F.W. (2010). Effect of feeding sericea lespedeza (Lespedeza cuneata) on growth performance, blood metabolites, and carcass characteristics of Kiko crossbred male kids. Small Rumin. Res. 93(2), 149-156.
Walz L.S., White T.W., Fernandez J.M., Gentry L.R., Blouin D.C., Froetschel M.A. and Chapa A.M. (1998). Effects of fish meal and sodium bentonite on daily gain, wool growth, carcass characteristics, and ruminal and blood characteristics of lambs fed concentrate diets. J. Anim. Sci. 76(8), 2025-2031.
Xie B., Yang X., Yang L., Wen X. and Zhao G. (2021). Adding polyethylene glycol to steer ration containing sorghum tannins increases CP digestibility and shifts nitrogen excretion from feces to urine. Anim. Nutr. 7(3), 779-786.