本文主要研究内容
作者张涛(2019)在《壳寡糖与苹果酸抑制甲烷排放效果及机制研究》一文中研究指出:甲烷(CH4)作为温室气体,不仅会造成温室效应,同时反刍动物瘤胃生成甲烷也会造成能量的浪费。目前,减少瘤胃甲烷生成主要是通过饲料添加剂改变瘤胃的发酵类型,减少乙酸生成,促进丙酸合成;与甲烷菌竞争性利用氢气,减少甲烷的合成。苹果酸是机体三羧酸循环的中间产物,可以利用氢合成丙酸。革兰氏阳性菌对壳聚糖较为敏感,壳聚糖会抑制革兰氏阳性菌的数量,减少乙酸生成。壳寡糖是壳聚糖脱乙酰降解的产物,很多生物性能优于壳聚糖。我们假设苹果酸和壳聚糖最终都是通过改变瘤胃发酵模式来减少甲烷的合成,两者之间可能存在协同作用;壳寡糖相对于壳聚糖对瘤胃会有更好的调控作用。本试验首先探究了不同苹果酸和壳寡糖添加水平对体外发酵模式下瘤胃甲烷减排的效果,并观察两者是否存在协同作用,在此基础上,探究不同粘度的壳聚糖对瘤胃发酵类型的调控,为更好、更安全地利用饲料添加剂促进甲烷减排提供研究基础。本研究共包含两部分:试验一不同苹果酸和壳寡糖添加水平对瘤胃甲烷排放的影响本试验通过体外发酵技术,在饲料中添加不同水平的苹果酸和壳寡糖来观测两者对瘤胃发酵参数的影响,旨在阐明壳寡糖对瘤胃的调控效果并确定其与苹果酸是否存在协同效应。本试验采用双因素析因试验设计,苹果酸添加浓度为0、4、8、12 mm/ml,壳寡糖添加浓度为0、4、8、12 mg/g,共16个处理,每个处理6个重复。通过体外发酵24 h,测定瘤胃发酵气体体积、CH4生成量、瘤胃发酵参数等指标的变化。结果显示:1)随着饲料中苹果酸添加水平的提高,甲烷产量逐渐降低,且当苹果酸添加量为8 mm/ml时,甲烷产量降到最低;饲料中添加壳寡糖对甲烷的产量无显著影响(P>0.05);2)随着饲料中苹果酸添加水平的提高,瘤胃液乙酸浓度显著降低(P<0.05),丙酸浓度显著提高(P<0.05),瘤胃液乙丙比显著降低(P<0.05),且当苹果酸添加量为12 mm/mL时,乙酸浓度、乙酸丙酸比达到最低,丙酸浓度达到最高。饲料中添加壳寡糖对瘤胃液乙酸浓度、丙酸浓度、乙酸丙酸比均无显著影响(P>0.05);3)苹果酸和壳寡糖对抑制瘤胃甲烷排放不存在协同作用。本试验中,苹果酸改善了瘤胃发酵模式,减少了瘤胃甲烷排放,壳寡糖没有达到预期效果,具体原因需进一步探讨。试验二不同粘度壳聚糖对瘤胃发酵类型的影响及其作用时间本试验结合试验一的结果,利用人工瘤胃系统探究不同粘度壳聚糖对瘤胃发酵的影响,试验共分为对照组、低粘度(<200 mPa·s)、中粘度(200-400 mPa·s)和高粘度(>400mPa·s)壳聚糖组四个处理,每个处理6个重复,试验共11天,前7天为预试期,后4天采样期。结果表明:与对照组相比,不同粘度壳聚糖可显著的提升瘤胃中丙酸浓度(P<0.05),降低乙酸丙酸比,且低粘度壳聚糖组效果最为明显,处理组在添加壳聚糖6-8 h后,乙酸浓度下降,丙酸浓度上升,乙酸丙酸比下降,到0 h时间点,乙酸丙酸比显著低于6 h处(P<0.05),低粘度、中粘度、高粘度壳聚糖组均展现出这个趋势。这说明,不同粘度壳聚糖均对瘤胃发酵有调控作用。综上,饲料中添加苹果酸可以降低乙酸的合成,改变瘤胃的发酵模式,使其向着丙酸发酵的方向进行,减少甲烷排放。壳寡糖对瘤胃发酵没有调控作用。不同粘度的壳聚糖可以促进丙酸的合成,改善瘤胃的发酵模式,低粘度壳聚糖效果最优,壳聚糖在添加后6 h开始发挥作用,延续到24 h。因此,在生产实践中,为了提高反刍动物的生产性能,可以在日量中添加适量的苹果酸和壳聚糖。
Abstract
jia wan (CH4)zuo wei wen shi qi ti ,bu jin hui zao cheng wen shi xiao ying ,tong shi fan chu dong wu liu wei sheng cheng jia wan ye hui zao cheng neng liang de lang fei 。mu qian ,jian shao liu wei jia wan sheng cheng zhu yao shi tong guo si liao tian jia ji gai bian liu wei de fa jiao lei xing ,jian shao yi suan sheng cheng ,cu jin bing suan ge cheng ;yu jia wan jun jing zheng xing li yong qing qi ,jian shao jia wan de ge cheng 。ping guo suan shi ji ti san suo suan xun huan de zhong jian chan wu ,ke yi li yong qing ge cheng bing suan 。ge lan shi yang xing jun dui ke ju tang jiao wei min gan ,ke ju tang hui yi zhi ge lan shi yang xing jun de shu liang ,jian shao yi suan sheng cheng 。ke gua tang shi ke ju tang tuo yi xian jiang jie de chan wu ,hen duo sheng wu xing neng you yu ke ju tang 。wo men jia she ping guo suan he ke ju tang zui zhong dou shi tong guo gai bian liu wei fa jiao mo shi lai jian shao jia wan de ge cheng ,liang zhe zhi jian ke neng cun zai xie tong zuo yong ;ke gua tang xiang dui yu ke ju tang dui liu wei hui you geng hao de diao kong zuo yong 。ben shi yan shou xian tan jiu le bu tong ping guo suan he ke gua tang tian jia shui ping dui ti wai fa jiao mo shi xia liu wei jia wan jian pai de xiao guo ,bing guan cha liang zhe shi fou cun zai xie tong zuo yong ,zai ci ji chu shang ,tan jiu bu tong nian du de ke ju tang dui liu wei fa jiao lei xing de diao kong ,wei geng hao 、geng an quan de li yong si liao tian jia ji cu jin jia wan jian pai di gong yan jiu ji chu 。ben yan jiu gong bao han liang bu fen :shi yan yi bu tong ping guo suan he ke gua tang tian jia shui ping dui liu wei jia wan pai fang de ying xiang ben shi yan tong guo ti wai fa jiao ji shu ,zai si liao zhong tian jia bu tong shui ping de ping guo suan he ke gua tang lai guan ce liang zhe dui liu wei fa jiao can shu de ying xiang ,zhi zai chan ming ke gua tang dui liu wei de diao kong xiao guo bing que ding ji yu ping guo suan shi fou cun zai xie tong xiao ying 。ben shi yan cai yong shuang yin su xi yin shi yan she ji ,ping guo suan tian jia nong du wei 0、4、8、12 mm/ml,ke gua tang tian jia nong du wei 0、4、8、12 mg/g,gong 16ge chu li ,mei ge chu li 6ge chong fu 。tong guo ti wai fa jiao 24 h,ce ding liu wei fa jiao qi ti ti ji 、CH4sheng cheng liang 、liu wei fa jiao can shu deng zhi biao de bian hua 。jie guo xian shi :1)sui zhao si liao zhong ping guo suan tian jia shui ping de di gao ,jia wan chan liang zhu jian jiang di ,ju dang ping guo suan tian jia liang wei 8 mm/mlshi ,jia wan chan liang jiang dao zui di ;si liao zhong tian jia ke gua tang dui jia wan de chan liang mo xian zhe ying xiang (P>0.05);2)sui zhao si liao zhong ping guo suan tian jia shui ping de di gao ,liu wei ye yi suan nong du xian zhe jiang di (P<0.05),bing suan nong du xian zhe di gao (P<0.05),liu wei ye yi bing bi xian zhe jiang di (P<0.05),ju dang ping guo suan tian jia liang wei 12 mm/mLshi ,yi suan nong du 、yi suan bing suan bi da dao zui di ,bing suan nong du da dao zui gao 。si liao zhong tian jia ke gua tang dui liu wei ye yi suan nong du 、bing suan nong du 、yi suan bing suan bi jun mo xian zhe ying xiang (P>0.05);3)ping guo suan he ke gua tang dui yi zhi liu wei jia wan pai fang bu cun zai xie tong zuo yong 。ben shi yan zhong ,ping guo suan gai shan le liu wei fa jiao mo shi ,jian shao le liu wei jia wan pai fang ,ke gua tang mei you da dao yu ji xiao guo ,ju ti yuan yin xu jin yi bu tan tao 。shi yan er bu tong nian du ke ju tang dui liu wei fa jiao lei xing de ying xiang ji ji zuo yong shi jian ben shi yan jie ge shi yan yi de jie guo ,li yong ren gong liu wei ji tong tan jiu bu tong nian du ke ju tang dui liu wei fa jiao de ying xiang ,shi yan gong fen wei dui zhao zu 、di nian du (<200 mPa·s)、zhong nian du (200-400 mPa·s)he gao nian du (>400mPa·s)ke ju tang zu si ge chu li ,mei ge chu li 6ge chong fu ,shi yan gong 11tian ,qian 7tian wei yu shi ji ,hou 4tian cai yang ji 。jie guo biao ming :yu dui zhao zu xiang bi ,bu tong nian du ke ju tang ke xian zhe de di sheng liu wei zhong bing suan nong du (P<0.05),jiang di yi suan bing suan bi ,ju di nian du ke ju tang zu xiao guo zui wei ming xian ,chu li zu zai tian jia ke ju tang 6-8 hhou ,yi suan nong du xia jiang ,bing suan nong du shang sheng ,yi suan bing suan bi xia jiang ,dao 0 hshi jian dian ,yi suan bing suan bi xian zhe di yu 6 hchu (P<0.05),di nian du 、zhong nian du 、gao nian du ke ju tang zu jun zhan xian chu zhe ge qu shi 。zhe shui ming ,bu tong nian du ke ju tang jun dui liu wei fa jiao you diao kong zuo yong 。zeng shang ,si liao zhong tian jia ping guo suan ke yi jiang di yi suan de ge cheng ,gai bian liu wei de fa jiao mo shi ,shi ji xiang zhao bing suan fa jiao de fang xiang jin hang ,jian shao jia wan pai fang 。ke gua tang dui liu wei fa jiao mei you diao kong zuo yong 。bu tong nian du de ke ju tang ke yi cu jin bing suan de ge cheng ,gai shan liu wei de fa jiao mo shi ,di nian du ke ju tang xiao guo zui you ,ke ju tang zai tian jia hou 6 hkai shi fa hui zuo yong ,yan xu dao 24 h。yin ci ,zai sheng chan shi jian zhong ,wei le di gao fan chu dong wu de sheng chan xing neng ,ke yi zai ri liang zhong tian jia kuo liang de ping guo suan he ke ju tang 。
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论文详细介绍
论文作者分别是来自西北农林科技大学的张涛,发表于刊物西北农林科技大学2019-07-11论文,是一篇关于甲烷减排论文,苹果酸论文,壳聚糖论文,壳寡糖论文,瘤胃发酵类型论文,西北农林科技大学2019-07-11论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自西北农林科技大学2019-07-11论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:甲烷减排论文; 苹果酸论文; 壳聚糖论文; 壳寡糖论文; 瘤胃发酵类型论文; 西北农林科技大学2019-07-11论文;