Evaluation of Carob (Ceratonia siliqua) and Honey Locust (Gleditsia triacanthos) Pods as a Feed for Sheep
الموضوعات :اس. مدجکال 1 , ر. بداس 2 , اچ. بوسبوآ 3 , اس. لاپز 4
1 - Département de Microbiologie et Biochimie, Université Mohamed Boudiaf-M’sila, Faculté des Science, 2800 M’sila, Algérie
2 - Instituto Tecnológico Agrario de Castilla y León, Subdirección de Investigación y Tecnología, Valladolid, Spain
3 - Ecole Nationale Supérieure de Biotechnologie, Ali Mendjeli BP 66E RP 25100, Ali Mendjeli / Constantine, Algérie
4 - Departamento de Producción Animal, Instituto de Ganadería de Montaña (IGM) CSIC-Universidad de León, Universidad de León, León, Spain
الکلمات المفتاحية: digestibility, carob, honey locust pods, tannins, <, i>, in vitro<, /i>, gas production,
ملخص المقالة :
The nutritive value of Ceratonia siliqua and Gleditsia triacanthos pods was determined on the basis of their chemical composition, in vitro gas production and rumen fermentation end-products. Medicago sativa was used as a reference feed material. The studied samples showed differences in chemical composition and phenolic compounds. Crude protein (CP) content was particulary low (80 g/kg DM) in carob and higher in Medicago sativa and G. triacanthos pods with (159.79 and 121.56 g/kg DM, respectively). Inclusion of Polyethylene glycol (PEG) in fermentation medium results in a significant increase (P<0.05) of gas production in Ceratonia siliqua and Gleditsia triacanthos and no effect was observed with M. sativa. The highest values of gas production were observed for C. siliqua and G. triacanthos, whereas Medicago sativa had significantly low values. The highest asymptotic gas production was observed in Ceratonia siliqua and Gleditsia triacanthos (296.80 and 289.55 mL g-1 DM, respectively), whereas Medicago sativa recorded the lowest value (243.64 mL g-1 DM). The concentration of acetate differentiated two groups: Medicago sativa and Gleditsia triacanthos (86.58 and 66.32% respectively), while the fermentation of Ceratonia siliqua resulted in a lower acetate concentration (59.84%). Although there were noticeable differences among the three studied samples, Ceratonia siliqua and Gleditsia triacanthos pods showed better nutritional quality, indicating that they could be considered promising and interesting sources of feed for sheep during the dry season or as supplement to low quality diets.
Albengres Abecia L., Toral P.G., Martín-García A.I., Martínez G., Tomkins N.W., Molina-Alcaide E., Newbold C.J. and Yáñez-Ruiz D.R. (2012). Effect of bromochloromethane on methane emission, rumen fermentation pattern, milk yield, and fatty acid profile in lactating dairy goats. J. Dairy Sci. 95, 2027-2036.
Ammar H., Lopez S. and Gonzalez J.S. (2005). Assessment of the digestibility of some Mediterranean shrubs by in vitro techniques. Anim. Feed Sci. Technol. 119, 323-331.
Ammar H., Lopez S., Gonzalez J.S. and Ranilla M.J. (2004). Seasonal variations in the chemical composition and in vitro digestibility of some Spanish leguminous shrub species. Anim. Feed Sci. Technol. 115, 327-340.
AOAC. (2000). Official Methods of Analysis. 17th Ed. Association of Official Analytical Chemists, Arlington, Washington, D.C. Arhab R., Macheboeuf D., Aggoun M., Bousseboua H., Viala D. and Besle J.M. (2009). Effect of polyethylene glycol on in vitro gas production and digestibility of tannin containing feedstuffs from North African arid zone. Trop. Subtrop. Agroecosyst. 10, 475-486.
Armstrong D.G. and Blaxter K.L. (1957). The utilization of acetic, propionic and butyric acids by fattening sheep. Br. J. Nutr. 11, 413-425.
Bakhshizadeh S. and Taghizadeh A. (2013). The effect of polyethylene glycol (6000) supplementation on in vitro kinetics of red grape pomace. Int. J. Agric. 3, 523-528.
Barakat N.A., Laudadio V., Cazzato E. and Tufarelli V. (2013). Potential contribution of retama raetam (Forssk.) Webb and Berthel as a forage shrub in Sinai, Egypt. Arid Land Res. Manag. 27, 257-271.
Battle I. and Tous J. (1997). Carob tree. Ceratonia siliqua Promoting the Conservation and Use of Underutilized and Neglected Crops. 17. Institute of Plant Genetics and Crop Plant Research. Gatersleben/International Plant Genetic Resources Institute, Rome, Italy.
Ben Salem H., Nefzaoui A. and Ben Salem L. (2002). Supplementation of Acacia cyanophylla foliage-based diets with barley or shrubs from arid areas (Opuntia ficus-indica f. inermis and Atriplex nummularia) on growth and digestibility in lambs. Anim. Feed Sci. Technol. 96(1), 15-30.
Bhat K.T., Kannan A. and Sharma P.O. (2013). Value addition of feed and fodder by alleviating the antinutritional effects of tannins. Agric. Res. 2, 189-206.
Blummel M. and Orskov E.R. (1993). Comparison of in vitro gas production and nylon bag degradability of roughages in predicting of food intake in cattle. Anim. Feed Sci. Technol. 40, 109-119.
Bouazza L., Boufennara S., Bodas R., Bousseboua H., Tejido M.L., Ammar H. and Lopez S. (2014). Methane production from the rumen fermentation of Algerian: Acacia tree foliage. Forage resources and ecosystem services provided by mountain and Mediterranean grasslands and rangelands. Options Méditerranéennes Series A. 109, 797-800.
Boufennara S., Bouazza L., López S., Bousseboua H. and Bodas R. (2013). Feeding and management strategies to improve livestock productivity, welfare and product quality under climate change Zaragoza. Options Méditerranéennes Series A. 107, 283-287.
Boufennara S., Lopez S., Bousseboua H., Bodas R. and Bouazza L. (2012). Chemical composition and digestibility of some browse plant species collected from Algerian arid rangelands. Spanish J. Agric. Res. 10, 88-98.
Brown V.E., Rymer C., Agnew R.E. and Givens D.I. (2002). Relationship between in vitro gas production profiles of forages and in vivo rumen fermentation patterns in beef steers fed those forages. Anim. Feed Sci. Technol. 98, 13-24.
Bruno-Soares A.M. and Abreu J.M. (2003). Merit of Gleditsia triacanthos pods in animal feeding: Chemical composition and nutritional evaluation. Anim. Feed Sci. Technol. 107(1), 151-160.
Chassany J.P. and Flamant J.C. (1996). Contexte économique, social et institutionnel de la question pastorale et des systèmes d’élevage extensif en régions méditerranéennes. Pp. 15-32 in The Optimal Exploitation of Marginal Mediterranean Areas by Extensive Ruminant Production Systems. N. Zervas and J. Boyazoglu, Eds. EAAP Publication, Rome, Italy.
Duke J.A. (1983). Handbook of Energy Crops. Department of Agronomy Purdue University, US. Available at: http://www.hort.purdue.edu.
El Hajaji H., Farah A., Ennabili A., Bousta D., Greche H., El Bali B. and Lachkar M. (2013). Etude comparative de la composition minérale des constituants de trois catégories de Ceratonia siliqua (comparative study of the mineral composition of the constituents of three varieties of Ceratonia siliqua). J. Mater. Environ. Sci. 4(2), 165-170.
Elahi M.Y., Nia M.M., Salem A.Z.M., Mansouri H., Olivares-Perez J. and Kholif A.E. (2014). Effect of polyethylene glycol on in vitro gas production kinetics of Prosopis cineraria leaves at different growth stages. Italian J. Anim. Sci. 13, 363-368.
France J., Dijkstra J., Dhanoa M.S., Lopez S. and Bannink A. (2000). Estimating the extent of degradation of ruminant feeds from a description of their gas production profiles observed in vitro: Derivation of models and other mathematical considerations. Br. J. Nutr. 83, 143-150.
Frutos P., Hervas G., Ramos G., Giraldez F.J. and Mantecon A.R. (2002). Condensed tannin content of several shrub species from a mountain area in Northern Spain and its relationship to various indicators of nutritive value. Anim. Feed Sci. Technol. 95, 215-226.
Getachew G., Robinson P.H., DePeters E.J. and Taylor S.J. (2004). Relationships between chemical composition, dry matter degradation and in vitro gas production of several ruminant feeds. Anim. Feed Sci. Technol. 111, 57-71.
Guessous F., Rihani N., Kabbali A. and Johnson W.L. (1989). Improving feeding systems for sheep in a Mediterranean rain-fed cereals/livestock area of Morocco. J. Anim. Sci. 67, 3080-3086.
Kamalak A., Guven I., Kaplan M., Boga M., Atalay A.I. and Ozkan C.O. (2012). Potential nutritive value of honey locust (Gleditsia triacanthos) pods from different growing sites for ruminants. J. Agric. Sci. Technol. 14, 115-126.
Karabulut A., Canbolat O. and Kamalak A. (2006). Evaluation of carob, Ceratonia siliqua pods as a feed for sheep. Livest. Rese. Rural Dev. Available at: http://www.lrrd.org/lrrd18/7/kara18104.htm.
Khazaal K. and Ørskov E.R. (1994). The in vitro gas production technique: An investigation on its potential use with insoluble polyvinylpolypyrrolidone for the assessment of phenolics-related antinutritive factors in browse species. Anim. Feed Sci. Technol. 47, 305-320.
Leng R.A., Steel J.W. and Luick J.R. (1967). Contribution of propionate to glucose synthesis in sheep. Biochem. J. 103, 785-790.
López S. (2005). In vitro and in situ techniques for estimating digestibility. Pp.87-121 in Quantitative Aspects of Ruminant Digestion and Metabolism. J. Dijkstra, J.M. Forbes and J. France, Eds. CAB International, Wallingford, United Kigdom.
López S., Dijkstra J. and France J. (2000). Prediction of energy supply in ruminants, with emphasis on forages. Pp. 63-94 in Forage Evaluation in Ruminant Nutrition. D.I. Givens, E. Owens, R.F.E. Axford and H.M. Omed, Eds. CAB International, Washington, United Kigdom.
Madrid J., Megías M.D. and Hernández F. (2002). In vitro determination of ruminal dry matter and cell wall degradation, and production of fermentation end-products of various by-products. Anim. Res. 51, 189-199.
Makkar H.P.S. (2003). Quantification of Tannins in Tree and Shrub Foliage. Kluwer Academic Publishers, Dordrecht, Netherlands.
Marakis S., Lambraki M., Marakis G. and Roussous S. (1997). Enrichment of deseeded crob pod with protein and sucrose or fructose by solid state fermentation. Pp. 235-236 in Advances in Solid State Fermentation. S. Roussos, B.K. Lonsane, M. Raimbault and G. Viniegra-Gonzalez, Eds. Springer Science, Media Dordrecht, Netherlands.
Mbugua D.M., Kiruiro E.M. and Pell A.N. (2008). In vitro fermentation of intact and fractionated tropical herbaceous and tree legumes containing tannins and alkaloids. Anim. Feed Sci. Technol. 146(1), 1-20.
Medjekal S., Ghadbane M. and Bousseboua H. (2015). Impact of season of harvest on potential nutritive value, methane production and condensed tannins content of calobota saharae in m´sila, north-central Algeria. J. Polish Agric. Univ. 18(2), 1-9.
Medjekal S., Ghadbane M., Bodas R., Bousseboua H. and López S. (2016). Volatile fatty acids and methane production from browse species of Algerian arid and semi-arid areas. J. Appl. Anim. Res. 4, 1-6.
Menke K.H. and Steingass H. (1988). Estimation of the energetic feed value obtained from chemical analysis and in vitro gas production using rumen fluid. Anim. Res. Dev. 28, 7-55.
Moss A.R., Jouany J.P. and Newbold C.J. (2000). Methane production by ruminants: its contribution to global warming. Annl Zoot. 49, 231-253.
Nurfeta A., Tolera A., Eik L.O. and Sundstøl F. (2008). The supplementary value of different parts of enset (Ensete ventricosum) to sheep fed wheat straw and Desmodium intortum hay. Livest. Sci. 119(1), 22-30.
Obeidata B.S., Alrababah M.A., Abdullah A.Y., Alhamad M.N., Gharaibeh M.A., Rababah T.M. and Abu Ishmais M.A. (2011). Growth performance and carcass characteristics of Awassi lambs fed diets containing carob pods (Ceratonia siliqua). Small Rumin. Res. 96, 149-154.
Odenyo A.A. and Osuji P.O. (1998). Tannin-tolerant ruminal bacteria from East African ruminants. Canadian J. Microbiol. 44(9), 905-909.
Papanastasis V. (1996). Selection and utilization of cultivated fodder trees and shrubs in the Mediterranean production systems. Pp. 85 in Proc. Int. Symp. Organ. HSAP and EAAP. Ioannina, Greece.
Pereira B.A.M. (2000). Aspects of nutritive value of Gleditsia triacanthos pods as fodder for ruminants. Implications in the interest of the species to improve the pastoral systems in center and South of Portugal. MS Thesis. Technical University of Lisbon, Lisbon, Portugal.
Piluzza G., Sulas L. and Bullitta S. (2014). Tannins in forage plants and their rolein animal husbandry and environmental sustainability: A review. Grass and Forage. Sci. 69, 32-48.
Roukas T. (1998). Citric acid production from carob pod by solid-state fermentation. Enzyme. Microb. Technol. 24, 54-59.
Roukas T. (1998). Carob pod: A new substrate for citric acid production by Aspergillus niger. Appl. Biochem. Biotechnol. 74(1), 43-53.
Salem A.Z.M. (2005). Impact of season of harvest on in vitro gas production and dry matter degradability of Acacia saligna leaves with inoculums from three ruminant species. Anim. Feed Sci. Technol. 123, 67-79.
Salem A.Z.M., González J.S., López S. and Ranilla M.J. (2001). Evolución de la respuesta en la producción unilateral de saliva parotidea a la inclusión de quebracho en la dieta en ganado ovino y caprino. Pp. 322-324 in Proc. Asoc. Interprof. Para el Desarrollo Agrario (AIDA), Zaragoza, Spain.
SAS Institute. (2000). SAS®/STAT Software, Release 8.1. SAS Institute, Inc., Cary, NC. USA.
Silanikove N., Gilboa N. and Nitsan Z. (1997). Interactions among tannins, supplementation, and polyethylene glycol in goats fed oak leaves. Anim. Sci. 64, 479-483.
Silanikove N., Gilboa N., Nir I., Perevolotsky A. and Nitsan Z. (1996). Effect of a daily supplementation of polyethylene glycol on intake and digestion of tannin-containing leaves (Quercus calliprinos, Pistacia lentiscus and Ceratonia siliqua) by goats. J. Agric. Food Chem. 44, 199-205.
Silanikove N., Landau S., Or D., Kababya D., Bruckental I. and Nitsan Z. (2006). Analytical approach and effect of condensed tannins in carob pods (Ceratonia siliqua) on feed intake, digestive and metabolic responses of kids. Livest. Sci. 99, 29-38.
Singh B., Sahoo A., Sharma R. and Bhat T.K. (2005). Effect of polethylene glycol on gas production parameters and nitrogen disappearance of some tree forages. Anim. Feed Sci. Technol. 123(1), 351-364.
Skene I.K. and Brooker J.D. (1995). Characterisation of tannin acylhydrolase activity in the ruminal bacterium Selenomonas ruminantium. Anaerobe. 1, 321-327.
Small M. (1983). Honeylocust pods and the digestion of protein by sheep. Agrofor. Rev. 4, 6-7.
Steel R.G. and Torrie J.H. (1997). Principles and Procedures of Statistics. A Biometrical Approach, McGraw-Hill Co., New York.
Terrill T.H., Rowan A.M., Douglas G.B. and Barry T.N. (1992). Determination of extractable and bound condensed tannin concentrations in forage plants, protein concentrate meals and cereal grains. J. Sci. Food Agric. 58, 321-329.
Theodorou M.K., Willams B.A., Dhanoa M.S., McAllan A.B. and France J. (1994). A simple gas production method using a pressure transducer to determine the fermentation kinetics of ruminant feeds. Anim. Feed Sci. Technol. 48, 185-197.
Tous J. and Batlle I. (1990). El Algarrobo. Mundi-Prensa, Madrid, Spain.
Van Soest P.J. (1994). Nutritional Ecology of the Ruminant. Cornell University Press, Ithaca, New York.
Van Soest P.J., Robertson J.B. and Lewis B.A. (1991). Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. J. Dairy Sci. 74, 3583-3597.
Van Soest P.J., Wine R.H. and Moore L.A. (1966). Estimation of the true digestibility of forages by the in vitro digestion of cell walls. Pp. 438-441 in Proc. 10th Int. Grassland Congr. Helsinki, Finland.
Vourdoubas J., Makris D., Kefalas P. and Kaliakatsos J. (2002). Studies on the productionof bioethanol from carob. Pp. 489-493 in Proc. 12th European Conf. Technol. Exhibit. Biomass Energy, Indust. Clim. Protec. Amsterdam, Netherlands.
Waghorn G. (2008). Beneficial and detrimental effects of dietary condensed tannins for sustainable sheep and goat production-progress and challenges. Anim. Feed Sci. Technol. 147, 116-139.
Williams B.A. (2000). Cumulative gas production techniques for forage evaluation. Pp 189-213 in Forage Evaluation in Ruminant Nutrition. D.I. Givens, E. Owen, R.F.E. Axford and H.M. Omed, Eds. CABI Publishing, Wallingford, United Kigdom.
Wilson J.R. and Kennedy P.M. (1996). Plant and animal constraints to voluntary feed intake associated with fibre characteristics and particle breakdown and passage in ruminants. Aust. J. Agric. Res. 47, 199-225.
Wolin M.J. (1960). A theoretical rumen fermentation balance. J. Dairy Sci. 43, 1452-1459.
Yisehak K., De Boever J.L. and Janssens G.P. (2014). The effect of supplementing leaves of four tannin-rich plant species with polyethylene glycol on digestibility and zootechnical performance of zebu bulls (Bosindicus). J. Anim. Physiol. Anim. Nutr. 98, 417-423.