Investigation of the Nutritional Potential of some Rangeland Plants Species by in vitro Gas Production and Fermentation Parameters in Torbat-e Jam, Iran: A Meta-Analysis and Meta-Regression
الموضوعات :E. Ibrahimi Khoram Abadi 1 , M. Kazemi 2
1 - Department of Animal Science, Faculty of Agriculture and Animal Science, University of Torbat-e Jam, Torbat-e Jam, Iran
2 - Department of Animal Science, Faculty of Agriculture and Animal Science, University of Torbat-e Jam, Torbat-e Jam, Iran
الکلمات المفتاحية: meta-analysis, gas production, Rangeland plants, <i>in vitro</i>,
ملخص المقالة :
The current study aimed to evaluate the nutritional potential of some rangeland plants by in vitro gas production kinetics and ruminal fermentation parameters in the Torbat-e Jam region using a meta-analysis approach. A comprehensive literature searches in the scientific databases was carried out to identify studies that investigated the variables of interest. The data analyzed were extracted from 13 peer-reviewed publications. The effect size of all outcomes was reported as a standardized means difference (SMD) with 95% confidence intervals (CI). Q test and I2 were calculated to determine the heterogeneity, and a meta-regression was also used to investigate sources of heterogeneity. A significant increase for 24 h in vitro gas production (IVGP) was observed (P<0.01). Among the estimated gas parameters, potential GP (bgas) and fractional rate of GP (cgas) were increased significantly (P<0.05). Also, short chain fatty acids (SCFA) (P<0.05), microbial protein yield (MPY) (P<0.01), and ammonia nitrogen (NH3-N) (P<0.01) of culture medium were increased. The values of I2 (>50) and Q (P<0.05) for 24 h IVGP, bgas, cgas, SCFA, MPY and NH3-N indicated high heterogeneity. No publication bias was found for 24 h IVGP, bgas, and SCFA. With the evaluation of funnel plots, only one study on the right of each plot indicates publication bias for cgas, MPY, and NH3-N. A strong regression relation (P<0.01) between some chemical compositions (dry matter, crude protein, neutral detergent fiber, and acid detergent fiber) and MPY and NH3-N was suggested from meta-regression analysis. In conclusion, the current meta-analysis confirmed that there were differences in fermentation parameters among all rangeland plants. However, all plants species had a relatively high potential nutritive value. According to the reported fermentation parameters, it seems that most of the Torbat-e Jam rangeland plants species have high nutritional value in small ruminant feeding. More in vivo and in vitro studies are needed to assess the other nutritive values and their effects on animal performance.
Abdulrazak S.A., Fujihara T., Ondilek J.K. and Ørskov E.R. (2000). Nutritive evaluation of some Acacia tree leaves from Kenya. Anim. Feed Sci. Technol. 85, 89-98.
Arzani H., Motamedi H., Aghajanlu H., Rashtvand R. and Zareii A. (2017). Forage quality of important rangeland species in Alamut Qazvin and Badamestan mountain rangelands of Zanjan. J. Watershed Manag. Res. 69(4), 805-818.
Bach A., Calsamiglia S. and Stern M.D. (2005). Nitrogen metabolism in the rumen. J. Dairy Sci. 88, 9-21.
Bergman E.N. (1990). Energy contributions of volatile fatty acids from the gastrointestinal tract in various species. Physiol. Rev. 70, 567-590.
Blümmel M., Steinga H. and Becker K. (1997). The relationship between in vitro gas production, in vitro microbial biomass yield and 15N incorporation and its implications for prediction of voluntary feed intake of roughages. British J. Nutr. 77(6), 911-921.
Borenstein M., Hedges L., Higgins J.P. and Rothstein H. (2009). Introduction to Meta-Analysis. John Wiley and Sons, Chichester, United Kingdom.
Dijkstra J., Forbes J.M. and France J. (2005). Quantitative Aspects of Ruminant Digestion and Metabolism. CAB Int., Wallingford. United Kingdom.
Egger M., Smith G.D. and Altman D.G. (2001). Systematic Reviews in Health Care. MBJ Publishing Group, London, United Kingdom.
Getachew G., Blummel M., Makkar H.P.S. and Becker K. (1998). In vitro gas measuring techniques for assessment of nutritional quality of feeds: A review. Anim. Feed Sci. Technol. 72, 261-281.
Gilaverte S., Susin I., Pires A.V., Ferreira E.M., Mendes C.Q., Gentil R.S. and Rodrigues G.H. (2011). Diet digestibility, ruminal parameters and performance of Santa Ines sheep fed dried citrus pulp and wet brewer grain. Rev. Bras. Zootec. 40, 639-647.
Haddi M.L., Filacorda S., Meniai K., Rollin F. and Susmel P. (2003). In vitro fermentation kinetics of some halophyte shrubs sampled at three stages of maturity. Anim. Feed Sci. Technol. 104, 215-225.
Higgins J. and Thompson S.G. (2002). Quantifying heterogeneity in a meta-analysis. Stat Med. 21, 1539-1558.
Holchek J.I., Herbal C.H. and Pieper R.D. (2004). Range Management Principles and Practices. Prentice Hall Publisher, New Jersey, USA.
Kazemi M. (2019a). Comparing mineral and chemical compounds, in vitro gas production and fermentation parameters of some range species in Torbat-e Jam, Iran. J. Rangel. Sci. 9(4), 351-363.
Kazemi M. (2019b). Effects of hexane extract of medicinal plant Artemisia aucheri Boiss. on fermentation characteristics, gas production parameters, and degradability under in vitro conditions. Iranian J. Med. Arom. Plants. 35(6), 902-913.
Kazemi M. (2019c). Laboratory study of Balangu (Lallemantia royleana) essential oil effects on gas production kinetic, degradability, protozoan population, and some fermentation parameters of a balanced diet. J. Anim. Sci. 30(1), 29-43.
Kazemi M. (2020). Determination of nutritional value of four plant species (Malcolmia africana, Plantago lanceolata, Phlomis cancellata, and Klasea latifolia) in rangelands of Bala Jam, Torbat-e Jam. J. Plant Ecol. Conserv. 7(15), 155-179.
Kazemi M. (2021a). Investigating the nutritional value and ensiling possibility of purslane as a weed plant (Portulaca oleracea L.) with or without wheat bran. Anim. Prod. Res. 10, 25-36.
Kazemi M. (2021b). Nutritional value of some rare forage plants fed to small ruminants. Trop. Subtrop. Agroecosyst. 24, 1-11.
Kazemi M. and Ghasemi Bezdi K. (2021). An investigation of the nutritional value of camelthorn (Alhagi maurorum) at three growth stages and its substitution with part of the forage in Afshari ewes’ diets. Anim. Feed Sci. Technol. 271, 1-12.
Kazemi M. and Ibrahimi Khoram Abadi E. (2019). The effect of hexane-extracted Teucrium polium L. on the ruminal microorganism’s fermentation activity using in vitro technique. Vet. Res. Biol. Prod. 127, 110-120.
Kazemi M., Ibrahimi Khoram Abadi E. and Mokhtarpour A. (2019). Evaluation of the nutritional value of Iranian melon (Cucumis melo cv. Khatooni) wastes before and after ensiling in sheep feeding. J. Livest. Sci. Technol. 7(2), 9-15.
Kazemi M., Moheghi M.M. and Tohidi R. (2021). A study on the nutritional characteristics of some plants and their effects on ruminal microbial fermentation and protozoa population. AMB Exp. 11, 174-182.
Kazemi M., Tahmasbi A.M., Naserian A.A., Valizadeh R. and Moheghi M.M. (2012). Potential nutritive value of some forage species used as ruminants feed in Iran. African J. Biotechnol. 11(57), 12110-12117.
Kazemi M. and Valizadeh R. (2018). Nutritional value of two plant species containing Salvia hydrangea and Sophora alopecuroides in two phenological stages. Plant Ecophysiol. 41, 175-178.
Kazemi M. and Valizadeh R. (2019). Nutritive value of some rangeland plants compared to medicago sativa. J. Rangel. Sci. 9(2), 136-150.
Keim J.P., Cabanilla J., Balocchi O.A., Pulido R.G. and Bertrand A. (2018). In vitro fermentation and in situ rumen degradation kinetics of summer forage brassica plants. Anim. Prod. Sci. 59(7), 1271-1280.
Khazaal K., Boza J. and Ørskov E.R. (1994). Assessment of phenolics-related anti-nutritive effects in Mediterranean browse. A comparison between the use of the in vitro gas production technique with or without insoluble polyvinyl polypyrrolidone or nylon bag. Anim. Feed Sci. Technol. 49, 133-149.
Krogstad K.C., Tempelman P.R.J., Abney-Schulte C. and Bradford B.J. (2021). Feeding a branded, modified wet corn gluten feed to lactating dairy cows: A meta-regression approach. Appl. Anim. Sci. 37, 559-573.
Lean I.J., Rabiee A.R., Duffield T.F. and Dohoo I.R. (2009). Invited review: Use of meta-analysis in animal health and reproduction. Methods and applications. J. Dairy Sci. 92, 3545-3565.
Lean I.J., Thompson J.M. and Dunshea F.R. (2014). A meta-analysis of zilpaterol and ractopamine effects on feedlot performance, carcass traits and shear strength of meat in cattle. PLoS One. 9(12), e115904.
Mahdavi A., Mahdavi A. Darabighane B., Mead A. and Lee M.R.F. (2019). Effects of soybean oil supplement to diets of lactating dairy cows, on productive performance, and milk fat acids profile: A meta-analysis. Italian J. Anim. Sci. 18(1), 809-819.
Makkar H.P.S. (2004). Recent advances in the in vitro gas method for evaluation of nutritional quality of feed resources. Pp. 55-88 in Assessing Quality and Safety of Animal Feeds. FAO Animal Production and Health Series 160. FAO, Rome.
Makkar H.P.S. (2005). In vitro gas methods for evaluation of feeds containing phytochemicals. Anim. Feed Sci. Technol. 123, 291-302.
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.
Orzuna-Orzuna J.F., Dorantes-Iturbide G., Lara-Bueno A., Mendoza-Martínez G.D., Miranda-Romero L.A. and Hernández-García P.A. (2021). Effects of dietary tannins’ supplementation on growth performance, rumen fermentation, and enteric methane emissions in beef cattle: A meta-analysis. Sustainability. 13, 7410-7419.
Rahbar A., Mir jalili A. and Baghestani Meybodi N. (2008). Comparison of forage quality of 2 range species, Artemisia aucheri and Peteropyron aucheri under water spreading and control condition in Herat station, Yazd province. Iranian J. Rangel. Desert Res. 14(4), 579-588.
Sutton A. and Higgins J. (2008). Recent developments in meta-analysis. Stat Med. 27, 625-650.
Tolera A., Khazaal K. and Ørskov E.R. (1997). Nutritive evaluation of some browses species. Anim. Feed Sci. Technol. 67, 181-195.
Valizadeh R., Ghadami Kohestani M. and Melati F. (2011). Chemical composition, in situ Degradability and in vitro gas production of winterfat plant (Eurotia ceratoides). Iranian J. Anim. Sci. Res. 3(2), 159-165.