Effects of mixed sowing ratio and mowing period of Medicago sativa and Bromus inermis on silage quality in cold regions of north China

doi:10.11686/cyxb2018027

Abstract

Abstract: The aim of this study was to determine optimal conditions for the production of silage from Medicago sativa and Bromus inermis. The two crops were sown at different proportions and both were mowed each year. Silage tests were carried out in the early flowering period and full?bloom period of first stubble, and in the full?bloom period of second stubble in the third year. The results for silage tests conducted at the flowering period of second stubble have been published previously. The nutritional indicators and fermentation indicators of silage made from mixed forages were determined. The forage quality and nutrient quality of silage were determined, and the optimal mixed sowing ratio was determined using grey system theory. We compared the silages produced in the above three periods, and found that the mixed sowing combination E1 (sowing rate: 9 kg?ha-1 M. sativa+30 kg?ha-1 B. inermis) performed best, especially silage produced in the full?bloom period of second stubble (fermentation indicators: pH 4.21, ammonia nitrogen/total nitrogen 3.94%, lactic acid 3.08%; nutritional indicators: crude protein 16.78%, crude fat 3.95%, neutral detergent fiber 61.02%, acidic detergent fiber 48.65%, soluble sugars 0.91%). The dry matter of the mixed forage combination was 6955.73 kg?ha-1. Considering the yield factors, under the production conditions of the E1 mixed forages, the highest yield of silage made in the early flowering period of first stubble+the full?bloom period of second stubble was 16337.13 kg?ha-1.

Key words: Medicago sativa, Bromus inermis, clipping stage, silage quality, mixed proportion

KUANG Xiao, JI Jing, LIANG Wen?xue, CUI Guo?wen, JI Guo?xu, CUI Xin, LIU Jian,HU Guo?fu. Effects of mixed sowing ratio and mowing period of Medicago sativa and Bromus inermis on silage quality in cold regions of north China[J]. Acta Prataculturae Sinica, 2018, 27(12): 187-198.

References

[1]　Pan Q M, Han X G, Bai Y F, et al. Advances in physiology and ecology studies on stored non?structure carbohydrates in plants. Chinese Bulletin of Botany, 2002, 19(1): 30-38.
潘庆民, 韩兴国, 白永飞, 等. 植物非结构性贮藏碳水化合物的生理生态学研究进展. 植物学报, 2002, 19(1): 30-38.
[2]　Li Z Q. Quality evaluation of alfalfa hay. China Dairy Cattle, 2013, 31(15): 7-9.
李志强. 苜蓿干草质量评价. 中国奶牛, 2013, 31(15): 7-9.
[3]　Zhang X J. Preliminary study the heterosis of Medicago varia using morphological method and SSR, EST-SSR. Hohhot: Inner Mongolia University, 2008.
张旭婧. 利用形态学方法和SSR、EST-SSR技术对杂花苜蓿杂种优势的初步研究. 呼和浩特: 内蒙古大学, 2008.
[4]　Feng L X. Effects of different nitrogen, phosphorus and potassium fertilization ratio on growth characteristics and yield of alfalfa in dry land. Yinchuan: Ningxia University, 2009.
冯玲霞. 氮磷钾不同配比施肥对旱地紫花苜蓿生长特征及产量的影响. 银川: 宁夏大学, 2009.
[5]　Wang X Z, Sun Z B, Tan Y K, et al. Demarcation and features of Northeast China rainy season. Journal of Nanjing Institute of Meteorology, 2006, 29(2): 203-208.
王学忠, 孙照渤, 谭言科, 等. 东北雨季的划分及其特征. 南京气象学院学报, 2006, 29(2): 203-208.
[6]　Wang Y N, Li G P, Han H Y. Research progress on Medicago sativa silage technology. China Feed, 2016, (23): 10-15.
王亚楠, 李光鹏, 韩红燕. 苜蓿青贮技术研究进展. 中国饲料, 2016, (23): 10-15.
[7]　Liu Y M, Chai F J. Technology and method of alfalfa silage. Technical Advisor for Animal Husbandry, 2004, (8): 20.
刘永明, 柴凤久. 苜蓿青贮技术与方法. 养殖技术顾问, 2004, (8): 20.
[8]　Gao C X, Wang P. Effect of various harvest time and drying methods on nutritive value of alfalfa hay. Acta Agrestia Sinica, 1997, 5(2): 113-116.
高彩霞, 王培. 收获期和干燥方法对苜蓿干草质量的影响. 草地学报, 1997, 5(2): 113-116.
[9]　Wang K L. Study on correlation of alfalfa haying mechanism and nutrition changes. Hohhot: Inner Mongolia Agricultural University, 2014.
王坤龙. 苜蓿干燥机制与营养物质变化相关性研究. 呼和浩特: 内蒙古农业大学, 2014.
[10]　Yin Q, Jia Y S, Yan Z J, et al. Plastic covered sheds for drying alfalfa. Acta Prataculturae Sinica, 2015, 24(7): 205-211.
尹强, 贾玉山, 闫志坚, 等. 塑料大棚在苜蓿干燥中的应用研究. 草业学报, 2015, 24(7): 205-211.
[11]　Hai Z Q. Processing methods and key technical links of alfalfa products in Yuanzhou District, Guyuan city, Ningxia. Animal Husbandry and Feed Science, 2013, (10): 39-40.
海志清. 宁夏固原市原州区紫花苜蓿草产品的加工调制方法及关键技术环节. 畜牧与饲料科学, 2013, (10): 39-40.
[12]　Sun Z S, Sun G J, Yu L, et al. Effect of mixed silage Medicago sativa and Bromous inermis on fermentation quality. Grass?Feeding Livestock, 2014, (5): 43-48.
张战胜, 孙国君, 于磊, 等. 紫花苜蓿与无芒雀麦混合青贮对发酵品质的影响. 草食家畜, 2014, (5): 43-48.
[13]　He W H, Cui G W, Cui X, et al. Effect of mix?sowing ratios of Medicago sativa L. and Bromus inermis Leyss. on silage quality. Acta Agrestia Sinica, 2017, 25(2): 407-414.
贺文骅, 崔国文, 崔新, 等. 紫花苜蓿与无芒雀麦不同混播比例对青贮品质的影响. 草地学报, 2017, 25(2): 407-414.
[14]　Broderick G A, Kang J H. Automated simultaneous determination of ammonia and total amino acids in ruminal fluid and in vitro media. Journal of Dairy Science, 1980, 63(1): 64-75.
[15]　Feng Z C, Gao M. Improvement of colorimetric determination of ammonia nitrogen content in rumen fluid. Animal and Feed Science, 2010, (6): 40-41.
冯宗慈, 高民. 通过比色测定瘤胃液氨氮含量方法的改进. 畜牧与饲料科学, 2010, (6): 40-41.
[16]　Lu D Q, Xu B, Li H, et al. Simultaneous determination of lactic acid and methyl lactate by reversed phase high performance liquid chromatography. Fine Chemicals, 2007, 24(2): 206-208.
卢定强, 徐蓓, 李晖, 等. 反相高效液相色谱法同时测定乳酸及乳酸甲酯. 精细化工, 2007, 24(2): 206-208.
[17]　Liu D D. The effects of different concentrations of previosly fernmented juice and dehydroacetic acid on the quality and aerobic stability of rice straw silage. Harbin: Northeast Agricultural University, 2008.
刘丹丹. 不同浓度绿汁发酵液和脱氢乙酸钠对青贮水稻秸品质和有氧稳定性的影响. 哈尔滨: 东北农业大学, 2008.
[18]　Song J C, Niu Y B. Feed analysis and feed quality detection technology. Beijing: China Agricultural Science and Technology Press, 2012.
宋金昌, 牛一兵. 饲料分析与饲料质量检测技术. 北京: 中国农业科学技术出版社, 2012.
[19]　Zhang Y S, Huang X, Chen Y F. Experimental course of plant physiology (BZ). Beijing: Higher Education Press, 2009.
张以顺, 黄霞, 陈云凤. 植物生理学实验教程(BZ). 北京: 高等教育出版社, 2009.
[20]　Gao H J, Chai F J, Liu Z D, et al. Evaluation of alfalfa silage quality with different water contents by V?Score system. China Feed, 2016, (12): 16-18.
高海娟, 柴凤久, 刘泽东, 等. 应用V?Score体系评价不同含水量苜蓿青贮饲料品质. 中国饲料, 2016, (12): 16-18.
[21]　Gao H J, Chai F J, Liu Z D, et al. The comprehensive evaluation of alfalfa silage quality by different storage methods. Modern Animal Husbandry Science and Technology, 2017, (1): 1-3.
高海娟, 柴凤久, 刘泽东, 等. 不同贮藏方式苜蓿青贮饲料品质综合评价. 现代畜牧科技, 2017, (1): 1-3.
[22]　Ji J, Duo T Q, Mei C, et al. Effect of mix?sowing ratio on silage quality of Medicago sativa L. and Bromus inermis Leyss. Chinese Journal of Grassland, 2017, 39(2): 19-25.
季婧, 多田琦, 梅错, 等. 混播比例对紫花苜蓿/无芒雀麦青贮品质的影响. 中国草地学报, 2017, 39(2): 19-25.
[23]　Giffel M C T, Wagendorp A, Herrewegh A, et al. Bacterial spores in silage and raw milk. Antonie Van Leeuwenhoek, 2002, 81(1/2/3/4): 625-630.
[24]　Fairbairn R, Alli I, Baker B E. Proteolysis associated with the ensiling of chopped alfalfa. Journal of Dairy Science, 1988, 71(1): 152-158.
[25]　Xue Z L, Luo F C, Kuang C Y, et al. Analysis to mixed silage effect of sorghum?sudangrass hybrid and alfalfa. Journal of Yunnan Agricultural University, 2013, 28(3): 340-345.
薛祝林, 罗富成, 匡崇义, 等. 高丹草与紫花苜蓿的混合青贮效果分析. 云南农业大学学报, 2013, 28(3): 340-345.
[26]　Wei H J. Studies on improving the fermentation quality of mixed silages of alfalfa with perennial ryegrass or tall fescue. Nanjing: Nanjing Agricultural University, 2011.
魏化敬. 提高紫花苜蓿与多年生黑麦草、苇状羊茅混合青贮发酵品质的研究. 南京: 南京农业大学, 2011.
[27]　Jiang H, Yu L, Ma C H. Effects of different mix?sowing ratio on alfalfa silage quality. Journal of Anhui Agricultural Sciences, 2009, 37(3): 1020-1021.
蒋慧, 于磊, 马春晖. 混播比例对苜蓿青贮品质的影响. 安徽农业科学, 2009, 37(3): 1020-1021.
[28]　Li S C, Huang X H, Wang J, et al. Effects of different mixed ratio and fermenting period on efficiency of mixed silage of Melilotus albus and corn straw. Pratacultural Science, 2014, 31(2): 321-327.
李树成, 黄晓辉, 王静, 等. 白花草木樨与玉米秸秆混合青贮的发酵品质及有毒成分分析. 草业科学, 2014, 31(2): 321-327.
[29]　Zhan F Q, Bao H F, Cui W D, et al. Dynamic changes of lactic acid bacteria during a 15?day ensilage of corn. Microbiology China, 2010, 37(6): 834-838.
詹发强, 包慧芳, 崔卫东, 等. 玉米青贮过程中乳酸菌动态变化. 微生物学通报, 2010, 37(6): 834-838.
[30]　Han J Y. Study on diversity of lactic acid bacteria in silage fermentation. Hohhot: Inner Mongolia Agricultural University, 2009.
韩吉雨. 青贮发酵体系中乳酸菌多样性的研究. 呼和浩特: 内蒙古农业大学, 2009.
[31]　Zhang H J. The dynamic changes of microbial flora in forage silage and identification and screening of lactic acid bacteria species isolated from forage silage. Beijing: Chinese Academy of Agricultural Sciences, 2011.
张慧杰. 饲草青贮微生物菌群动态变化与乳酸菌的鉴定筛选. 北京: 中国农业科学院, 2011.
[32]　Zhang Z S, Yu L, Sun G J, et al. Study on fermentation quality of mixed silage of Medicago sativa/Dactylis glomerata pasture in oasis area. Grassland and Turf, 2015, (3): 50-54.
张战胜, 于磊, 孙国君, 等. 绿洲区苜蓿与鸭茅混播饲草的青贮发酵品质研究. 草原与草坪, 2015, (3): 50-54.
[33]　Yang H S, Cao M J, Zheng Q F, et al. Effect of cutting times on yield, quality and root of alfalfa grass. Crops, 2004, (2): 33-34.
杨恒山, 曹敏建, 郑庆福, 等. 刈割次数对紫花苜蓿草产量、品质及根的影响. 作物杂志, 2004, (2): 33-34.
[34]　Yuan C L, Zhu Y J, Lin Y T, et al. Comparison of different methods on the determination of NDF and ADF in feed. Cereal and Feed Industry, 2014, 12(4): 62-64.
袁翠林, 朱亚骏, 林英庭, 等. 饲料中中性洗涤纤维和酸性洗涤纤维不同测定方法的比较. 粮食与饲料工业, 2014, 12(4): 62-64.