Influence of nitrogen status on fermentation performances of non-Saccharomyces yeasts:a review

Nitrogen,one of the most crucial nutrients present in grapes and musts,plays a key role in yeast activities during alcoholic fermentation.Such influences are imposed on yeast growth and fermentation performances including the formation of secondary metabolites.Saccharomyces cerevisiae,the main yeast responsible for fermentation,has been studied extensively regarding nitrogen impacts.On the other hand,a similar study for non-Saccharomyces yeasts,whose contributions to winemaking have gradually been acknowledged,remains to be fully explored,with a few studies being reported.This review starts by discussing nitrogen impacts on non-Saccharomyces yeast growth and fermentation kinetics in different case scenarios,then proceeds to summarize the nitrogen preferences of individual yeast strains with regulation mechanisms elucidated by recent studies.Detailed discussions on the influences on the production of volatile compounds and proposed pathways therein are made,followed by future work suggested as the final section.In summarizing the nitrogen impacts on non-Saccharomyces yeasts throughout alcoholic fermentation,this review will be helpful in obtaining a more comprehensive view on these non-conventional wine yeasts in terms of nutrient requirements and corresponding volatile production.Research gaps will therefore be elucidated for future research.

High Ethanol Production by Marine-Derived Yeasts-<i>Saccharomyces cerevisiae</i>under Stress Pressures

For practical applications of bioethanol, the uses of both highly concentrated biomass materials and their effective fermentation by yeasts are indispensable in order to produce ethanol at low costs. However, as the saccharified products of those biomass generally contain abundant sugars, the yeasts are affected by the compounds and are inclined to decrease their physiological activities. In the process of fermentation, ethanol is gradually produced by the yeasts in the culture;the concentrated metabolic product also damages itself, and inhibition of the fermentation frequently occurs. The application of yeasts with high fermentative activities under stress pressures such as sugars and ethanol is thus desired for bioethanol production. In this study, various types of high-fermentative yeasts under stress pressures were isolated mainly from coastal waters in Japan and characterized. All yeast strains with high fermentative activities under 20% v/v ethanol were found to be Saccharomyces cerevisiae. The HK21 strain isolated from Tokyo Bay and identified as S. cerevisiae had the highest fermentation activity under 30% w/v sorbitol and under 20% v/v ethanol, and it produced approx. 70 g/l (9% v/v) ethanol from the 15% w/v glucose solution at 25 oC within 5 days.

基于Lachancea thermotolerans-Saccharomyces cerevisiae双酵母混合发酵酸啤酒的工艺研究

酸啤酒正在被越来越多的消费者接受,也正在成为啤酒企业多元化布局的方向之一。该研究在不添加外源风味物质的前提下,基于啤酒双酵母混合发酵体系,将耐热拉钱斯氏酵母(Lachancea thermotolerans)与酿酒酵母(Saccharomyces cerevisiae)组合按照10∶1同时接种进行啤酒发酵,耐热拉钱斯氏酵母的发酵过程可产生一定量的乳酸(1.5~1.8 g/L),降低酒液pH值(3.3~3.4),得到酸味柔和的新型酸啤酒。相比于单一菌株发酵,双酵母混合发酵酸啤酒体系的风味物质产量都有所提高,产生了更多乙酸异丁酯和乙酸异戊酯等酯类物质,增强了酸啤酒的水果香气,果香馥郁、爽口协调,对啤酒的质量产生了积极影响,并且减少了糖化锅酸化等工艺操作步骤,实现更快速的发酵和稳定的过程控制,促进了酸啤酒的大规模生产应用。

Predominant yeasts in Chinese Dong fermented pork(Nanx Wudl)and their aroma-producing properties in fermented sausage condition

Yeasts are one of the predominant microbial groups in fermented meats.In this study,yeast communities of Chinese Dong fermented pork(Nanx Wudl)were investigated and the technological properties of 73 yeast isolates were evaluated.Through culture-dependent and high-throughput sequencing methods,the main yeast species identified included Pichia membranifaciens,Kazachstania bulderi,Millerozyma farinosa,Candida zeylanoides,Kazachstania exigua,Candida parapsilosis and Saccharomyces cerevisiae.Among these yeasts,P.membranifaciens,M.farinosa,K.exigua and K.bulderi were detected in fermented meats for the first time.A total of 73 yeast isolates was investigated for their lipolytic and proteolytic activities.All yeast species showed lipolytic activity,while proteolytic activity against meat protein was only detected in S.cerevisiae.Assay of aroma-producing potential was performed in a model simulating fermented sausage condition.Inoculation of yeast strains increased volatiles production,especially esters and alcohols.The highest ester production was observed in S.cerevisiae Y70 strain,followed by K.exigua Y12 and K.bulderi Y19.C.zeylanoides Y10 and S.cerevisiae Y70 were the highest producers of benzeneethanol and 3-methyl-1-butanol.S.cerevisiae Y70 with its highest production of branched alcohols and esters could be a promising candidate as aroma enhancer in the manufacture of fermented sausages.

Use of radiation in strains of Saccharomyces cerevisiae:A new technique for industrial applications

During the industrial fermentation process in the production of fuel ethanol, yeasts are subject to several stressing conditions. The survival and the permanence of strains introduced in the process correlate with the capability of these yeasts in resisting to physical and chemical stresses, as well as their recovering ability to compete with contaminating micro-organisms commonly present in this industrial process. We aim at the selection of Saccharomyces cere visiae strains having this capability and ability. In this sense, cultivations of strains with industrial interest were irradiated with gammas ray at a wide dose interval. Growing curves for the strains were analyzed by means of their relative growth, a new concept here introduced, which allows a better understanding of the growing and recovering processes following radiative stress. It was found that gamma radiation could be used as an alternative method to quantify growing capabilities of S. cerevisiae strains under stressing conditions. It was also shown that this radiological method could be utilized as an additional procedure to select best robust industrial strains. This radiological method simplifies traditional analysis of strain viability, by avoiding the great number of necessary and consecutive fermentation assays.

酵母菌混合发酵乳清液及其乙醇发酵阶段工艺优化

选择马克斯克鲁维酵母CGMCC13907(以下简称马氏酵母CGMCC13907)和酿酒酵母AS2.119为混合发酵剂发酵乳清液制备乳清醋,并采用Plackett-Burman Design(PBD)和Box-Behnken Design(BBD)试验优化乙醇发酵阶段的工艺。结果表明:乙醇发酵阶段的最优工艺为马氏酵母CGMCC13907接种量4.0×10^(6) CFU/mL,酿酒酵母AS2.119接种量4.5×10^(6) CFU/mL,发酵时间151 h,发酵温度40.0℃,发酵pH值5.6,姜粉用量0.09 g/100 mL,在此条件下,发酵液中乙醇浓度可达8.70%vol,比优化前增加了56.2%。因此,选用马氏酵母CGMCC13907结合酿酒酵母AS2.119混合发酵乳清液,可有效解决乳清醋制作过程中的乳糖发酵难题,并获得较理想的乙醇浓度。

混菌发酵对山东胶东半岛产区“小芒森”葡萄酒香气的影响

为研究非酿酒酵母与酿酒酵母混菌发酵对山东胶东半岛产区“小芒森”葡萄酒香气品质的影响,设置三种发酵方案,分别是单独接种从山东胶东半岛产区筛选得到的非酿酒酵母Issatchenkia terricola JIAOD4101,单独接种商业酿酒酵母SY18,和非酿酒酵母与商业酿酒酵母混合发酵,来酿造“小芒森”葡萄酒,并对发酵完成之后的酒样进行香气检测和感官品评。结果表明,与商业酿酒酵母相比,非酿酒酵母Issatchenkia terricola JIAOD4101能够提高葡萄酒中甘油、酯类物质和萜烯类物质含量,明显提升了乙酸苯乙酯的含量,增强了葡萄酒玫瑰花、刺槐花的香气特征;混菌发酵的方式,提高了葡萄酒香气总量,增加了香气物质种类,增强了葡萄酒的香蕉、柑橘、玫瑰花、刺槐花的香气特征强度。因此,采用混菌发酵的方法,可以提高‘小芒森’葡萄酒的香气浓郁度,同时可以增加香气的复杂度。

非酿酒酵母与酿酒酵母在米酒混菌发酵中的相互作用机制分析

该研究以传统米酒酿造中常见的两种典型非酿酒酵母,假丝酵母(Candida glabrata,Ca)和扣囊复膜酵母(Saccharomycopsis fibuligera,Sf)为研究对象,利用同时接种和顺序接种两种发酵方式分别与酿酒酵母(Saccharomyces cerevisiae,Sc)进行米酒混菌发酵,探究非酿酒酵母和酿酒酵母间的相互影响及相关作用机制。研究结果表明,虽然2种混菌发酵方式表现出明显不同的发酵特性,但在混菌发酵过程中,当Sc生物量达到一定水平(约107 CFU/mL)后,2株非酿酒酵母的生长均受到显著的抑制,生物量快速下降,而Sc生物量基本未受非酿酒酵母的影响。细胞非接触发酵实验结果表明,一定浓度的Sc与非酿酒酵母的细胞-细胞接触是产生抑制的主要原因。Sc发酵代谢物以及酒精和营养物质含量对非酿酒酵母的生长影响不大。

戴尔有孢圆酵母与酿酒酵母细胞间接触对‘赤霞珠’葡萄酒风味品质的影响

【目的】利用酿酒酵母(Saccharomyces cerevisiae)和非酿酒酵母(Non-Saccharomyces yeasts,NS)混菌发酵可以改善葡萄酒的香气复杂性和浓郁度。深入分析混合发酵剂中酵母细胞之间的接触作用对酒精发酵及代谢产物的调节效应,更好地控制混菌发酵进程。【方法】以预处理的‘赤霞珠’葡萄汁为试材,分别接种戴尔有孢圆酵母(Torulaspora delbrueckii)及S.cerevisiae进行纯种发酵、混菌发酵和双室发酵,分析其发酵动力学及挥发性香气化合物差异;并探究不同接种时间模式下混菌和双室发酵对‘赤霞珠’葡萄酒酿造学参数和风味品质的影响。【结果】T.delbrueckii菌株纯种发酵组的最终还原糖含量为89.00 g·L-1,不能独立完成酒精发酵;S.cerevisiae在纯种发酵、混菌发酵和双室发酵组中均保持较高的生长活力,能顺利完成酒精发酵;但混菌发酵过程中的酵母细胞间接触显著降低了T.delbrueckii菌株的生存能力。与S.cerevisiae纯种发酵相比,混菌发酵组和双室处理组的乙醇含量均有所降低,pH显著下降,总酸显著增加(P<0.05);各处理酒样中检测到挥发酸含量均在0.2—0.7 g·L-1。与S.cerevisiae纯种发酵和双室发酵组相比,混菌发酵组的挥发酸及花色苷含量显著降低。气相色谱-质谱联用技术检测结果显示,T.delbrueckii菌株纯种发酵组香气物质含量最低;相比S.cerevisiae纯种发酵组,混菌发酵和双室发酵组的酯类物质含量均显著增加,高级醇和C6化合物含量明显降低。混菌发酵组中乙酸异戊酯、乙酸己酯、己酸乙酯和辛酸乙酯等酯类化合物含量较双室发酵组显著增加,高级醇和苯衍生物含量明显降低。此外,在混菌发酵过程中,S.cerevisiae的接种时间对乙酸异戊酯和乙酸己酯的生成也有显著影响。感官分析结果表明,与S.cerevisiae纯种发酵相比,同时接种(0 h)混菌发酵处理组显著降低葡萄酒中的生青味,酒样呈现较为浓郁的果香和花香味。【结论】在葡萄酒的混菌酒精发酵过程中,酵母细胞间接触不仅降低T.delbrueckii的生存能力,也显著影响‘赤霞珠’葡萄酒的香气特征和感官品质。

适于酿造红肉苹果酒的非酿酒酵母的研究及筛选

为研究非酿酒酵母在红肉苹果酒酿造中的作用并筛选出适宜的非酿酒酵母,本研究采用东方伊萨酵母、季也蒙有孢汉逊酵母和发酵毕赤酵母为试验菌,与酿酒酵母混合发酵制备红肉苹果酒,分析发酵酒液的香气和抗氧化能力,并对酒体进行感官评价。结果表明,与单纯酿酒酵母组发酵相比,添加东方伊萨酵母组能够提高发酵酒液的自由基清除能力,提高红肉苹果酒酯类物质的种类(23种),酯类含量是单纯酿酒酵母组的1.67倍,降低了酸类(7.37%)和其他类物质的含量(2.03%);东方伊萨酵母组感官评价得分最高。表明东方伊萨酵母可作为红肉苹果酒酿造专用的非酿酒酵母。

马克斯克鲁维酵母与酿酒酵母协同发酵米酒的特性

该文将非酿酒酵母马克斯克鲁维酵母C21(Kluyveromyces marxianus C21)与酿酒酵母1578(Saccharsaccharus cerevisiae 1578)应用于液态发酵米酒中,通过发酵米酒的理化指标、生物量、感官品质及响应面优化试验,研究两株酵母混合液态发酵米酒的特性及其最佳发酵工艺。结果表明:K.marxianus C21发酵米酒在48 h时其生物量及β-葡萄糖苷酶活性最高,与酿酒酵母1578的最佳接种比例为1∶1(质量比),最佳接种方式为混合顺序接种,该条件下米酒的乙酸乙酯含量及酒精度较优。最佳工艺参数为料液比1∶4(g/mL)、发酵时间74 h、发酵温度25℃,混合酵母添加量0.2%,最终米酒感官评分为98,乙酸乙酯含量为13.06 g/L,酒精度为3.13%vol。综上表明,采用非酿酒酵母和酿酒酵母混合顺序发酵可明显改善米酒的香气及口感。

非酿酒酵母筛选及协同发酵对醪糟挥发性风味影响

为解决目前传统酒曲生产的醪糟品质不稳定、香气不突出、酒精度偏高等问题,通过微生物多样性分析传统酒曲的真菌群落结构,筛选具有产酯增香特性的非酿酒酵母菌株,探究协同发酵对醪糟挥发性风味物质含量的影响。结果表明,子囊菌门(Ascomycota)和毛霉门(Mucoromycota)是醪糟酒曲的优势真菌门,根霉属(Rhizopus)、复膜孢酵母属(Saccharomycopsis)是主要真菌属。分离纯化后得到4株非酿酒酵母JLY1~4,经测序鉴定JLY1、JLY2是扣囊复膜酵母(Saccharomycops fibuligera),JLY3和JLY4分别是德尔布有孢圆酵母(Torulaspora delbrueckii)和异常威克汉姆酵母(Wickerhamomyces anomalus)。将4株非酿酒酵母分别协同根霉菌发酵醪糟,其中挥发性风味物质种类从46种增加到62种,增加了酯类和醇类化合物的种类,并且明显提升了异戊醇、苯乙醇、乙酸苯乙酯等主要风味物质的相对含量。对醪糟共有的40种挥发性风味成分进行偏最小二乘判别分析,以变量投影重要性值≥1为条件筛选出20种差异风味物质,其中醇类5种、酯类10种、酸类3种、醛酮类1种、烷烃类1种。经差异物质和感官评定分析,JLY1和JLY2产酯增香效果优于其他菌株,协同发酵能够显著提升醪糟的挥发性风味物质含量,改善醪糟品质。

混菌发酵蓝莓酒工艺及抗氧化活性评价

为提升蓝莓酒品质,采用异常威克汉姆酵母单独接种、葡萄酒酿酒酵母单独接种,异常威克汉姆酵母和葡萄酒酿酒酵母混菌接种发酵蓝莓酒,在单因素试验的基础上进行正交试验,确定了混合菌种发酵蓝莓酒的最佳工艺参数:异常威克汉姆酵母提前24 h接种,接种量4%,异常威克汉姆酵母与葡萄酒酿酒酵母的接种体积比为1.5∶1,初始可溶性固形物25°Brix,发酵温度25℃,发酵时间10 d。最佳工艺条件下发酵得到酒香协调,酒体丰满,具有蓝莓的特有风味的蓝莓酒,感官评价得分86.2,酒精度为13.5%vol。对混菌发酵的蓝莓酒进行抗氧化活性评价,结果表明混菌发酵的蓝莓酒DPPH和ABTS自由基清除率较高,与单菌发酵所得蓝莓酒DPPH和ABTS自由基清除率均存在显著性差异(P<0.05)。

单菌与混菌发酵软枣猕猴桃果酒品质比较

以软枣猕猴桃为原料,分别采用7种单菌酵母及5种组合酵母酿造软枣猕猴桃果酒,对其平均每日降糖量、出酒率及软枣猕猴桃果酒的pH值、总酸、酒精度、还原糖、维生素C、总酯和甲醇含量进行测定,并进行感官评价。结果表明,5种组合酵母发酵软枣猕猴桃果酒的平均每日降糖量(6.20~6.38 g/d)均高于单菌酵母(4.01~4.52 g/d)。其中,拉曼德酵母和帝伯仕酵母(1∶1)组合发酵的软枣猕猴桃果酒品质最佳,其平均每日降糖量为6.38 g/d,酒精度为8.0%vol,还原糖含量为1.4 g/L,维生素C含量为287.72 mg/L,总酯含量为675.90 mg/L,感官评分为95分,酒体呈淡黄色,口感醇厚、酸度适中、香气浓郁。综合考虑,拉曼德酵母和帝伯仕酵母(1∶1)组合更适合软枣猕猴桃果酒的酿造。

全混合日粮添加酵母培养物对肉牛生长性能、瘤胃发酵参数、免疫力及养分表观消化率的影响

试验研究在全混合日粮中添加不同剂量的酵母培养物对肉牛生长性能、瘤胃发酵参数、机体免疫功能及养分表观消化率的影响。试验选择60头体重相近、无病健康的肉牛,随机分为4组,每组15个重复,每个重复1头牛。各组肉牛分别饲喂含有0 (对照组)、20 (1组)、40 (2组)、80 g/(头·d)(3组)酵母培养物的全混合日粮,试验期60d。结果显示,与对照组相比,2组和3组肉牛的平均日增重显著提高(P<0.05),料重比显著降低(P<0.05)。与对照组相比,2组和3组肉牛瘤胃微生物蛋白(MCP)、丙酸(BA)含量显著提高(P<0.05),瘤胃氨态氮(NH_3-N)含量、乙丙比(AA/BA)显著降低(P<0.05)。与对照组相比,2组和3组肉牛血清免疫球蛋白A (IgA)、免疫球蛋白G (IgG)、白细胞介素-4 (IL-4)含量显著提高(P<0.05),白细胞介素-1 (IL-1)含量显著降低(P<0.05)。与对照组相比,2组和3组肉牛对干物质、中性洗涤纤维、酸性洗涤纤维的消化率显著提高(P<0.05);所有酵母培养物组肉牛对粗蛋白的消化率显著提高(P<0.05)。研究表明,在肉牛生产中使用适量的酵母培养物可改善其生长性能、机体免疫力、瘤胃发酵功能及养分表观消化率,综合养殖成本考虑,生产中酵母培养物最适添加量为40 g/(头·d)。

果酒增香酿造技术研究进展

香气是衡量果酒感官品质的重要指标之一,而长期以来香气淡薄问题制约着果酒品质的进一步提升。果酒增香酿造是相关从业人员关注的焦点之一,但香气调控机制复杂,是阻碍果酒增香发酵技术创制的“瓶颈”难题。本文从关键香气化合物的种类及其形成途径等方面,系统综述酿酒微生物、酶以及发酵前处理等工艺对果酒香气的影响机制,并对现代生物技术在优良产香酵母选育中的应用进行探讨。最后,对未来果酒风味的研究方向进行讨论与展望。

混菌发酵红枣果酒工艺条件优化及抗氧化性研究

为提升红枣果酒品质,该研究采用非酿酒酵母戴尔有孢圆酵母(Torulaspora delbrueckii)NS-D与安琪酵母混菌发酵制备红枣果酒。以酒精度及感官评分为评价指标,通过单因素试验和正交试验对其发酵工艺进行优化,并考察非酿酒酵母添加对红枣果酒抗氧化物质含量和抗氧化活性的影响。结果表明,红枣果酒的最佳混菌发酵工艺为:非酿酒酵母添加量0.3 g/L,SO2添加量40 mg/L,初始糖度24°Bx。在此工艺条件下得到的红枣果酒感官评分为96.1分,酒精度为13.6%vol,其理化指标符合GB/T 15038—2006《葡萄酒、果酒通用分析方法》要求。添加非酿酒酵母有助于提高红枣果酒的抗氧活性物质含量及抗氧化活性,其总黄酮、总多酚、氨基酸态氮、维生素C(VC)含量分别为3.48 mg/mL、0.21 mg/mL、9.35 mg/mL和2.15 mg/mL;超氧阴离子自由基、1,1-二苯基-2-三硝基苯肼(DPPH)自由基、羟基自由基、2,2'-联氮-二(3-乙基-苯并噻唑-6-磺酸)(ABTS)自由基清除率分别为88.79%、92.30%、77.42%、45.7%。

鲊辣椒生香酵母的分离筛选鉴定及其应用研究

从自然发酵鲊辣椒中以嗅闻法结合总酯含量作为生香酵母的筛选依据分离筛选到1株生香酵母,经鉴定并分类命名为库德里阿兹威氏毕赤酵母菌(Pichia kudriavzevii)Y50,为探究该菌株混菌发酵生产鲊辣椒的品质提升作用,将Y50与植物乳杆菌混合发酵鲊辣椒(C),以自然发酵的鲊辣椒(A)以及接种植物乳杆菌发酵的鲊辣椒(B)为对比研究对象,对3种鲊辣椒的基本理化指标、辣椒碱、有机酸和挥发性成分进行比较分析。结果表明,3种鲊辣椒pH值、总酸、亚硝酸盐、胡萝卜素含量较为接近,但鲊辣椒C中有机酸含量达(25.46±0.32)g/kg,比鲊辣椒A和鲊辣椒B分别高出57.8%和32.2%。鲊辣椒A、B、C中分别检出挥发性风味物质90种、67种和72种,其中鲊辣椒C的挥发性物质含量最高,为(10101.11±99.04)μg/kg,酯类、醇类、醛类、酸类挥发性物质含量均有提高,相比A、B分别提升了75%、358%、106%、23%和102%、59%、68%、51%,赋予鲊辣椒更浓郁的酯香、花香和果香,说明添加生香酵母Y50能提升鲊辣椒整体的风味品质,通过气味活度值(odor activity value,OAV)的计算,共检出22种OAV>1的香气化合物,这些关键香味物质赋予了鲊辣椒特有的香气特征,其中β-紫罗兰酮、2-甲基丁酸乙酯、己酸己酯、正庚醇、(+)-柠檬烯、庚醛、愈创木酚是构成鲊辣椒C风味的关键物质。试验表明Y50具有进一步应用于鲊辣椒生产的潜力。

红色红曲霉与酵母复合菌发酵柿子酒工艺优化及品质分析

以柿子为原料,通过酵母菌与红色红曲霉(Monascus ruber)复合发酵制备柿子酒,采用单因素及正交试验优化其酿造工艺,对其理化、微生物指标进行检测及感官评价,并采用气相色谱-质谱(GC-MS)仪对其挥发性风味成分进行分析。结果表明,柿子酒最佳发酵工艺条件为:初始pH值4.90,接种活性酵母菌(0.2 g/L)与红色红曲霉(9%)于31℃发酵3 d。在此优化条件下,柿子酒酒精度达到12.45%vol,挥发性风味物质共检出41种,其中,醇类13种、酯类10种、酸类7种、醛类6种、烷烃类3种、酮类2种。相比酵母菌单菌发酵柿子酒,丁酸乙酯、丁酸苯乙酯、正庚醇和仲辛醇为复合菌发酵柿子酒中独有;此外,复合菌发酵柿子酒中苯乙醇、丙酮酸乙酯、乙酸乙酯相对含量分别提高了3.17%、0.40%、0.10%。

适宜肉鸭全价料发酵的益生菌体外筛选

本试验利用乳酸杆菌和酵母菌体外发酵肉鸭全价料,通过发酵前后活菌数、pH、粗蛋白质、酸溶蛋白、总酸含量等指标的比较,筛选出适宜肉鸭全价料发酵的乳酸杆菌和酵母菌。结果表明:(1)适宜肉鸭全价料发酵的最适乳酸杆菌为BLCC2-0111和BLCC2-0112,发酵至72 h时,pH达到最低,分别为4.03和4.13,活菌数最高,分别为33.61×10^(8)CFU/g和25.68×10^(8)CFU/g。(2)适宜肉鸭全价料发酵的最适酵母菌为BLCC4-0050和BLCC4-0021,发酵至72 h时,粗蛋白质含量最高,分别为17.78%和17.77%,活菌数最高,分别为30.23×10^(8)CFU/g和35.54×10^(8)CFU/g。(3)适宜肉鸭全价料发酵的最适混菌组合为BLCC2-0111+BLCC4-0021,发酵至72 h时,pH降至最低4.12,乳酸杆菌活菌数38.00×10^(8)CFU/g,总酸含量20.61 mg/g,酸溶蛋白含量13.49%,混菌发酵的饲料营养价值显著优于单菌发酵。