牦牛干巴和黄牛干巴挥发性风味特征与差异分析

为分析和鉴定牦牛干巴和黄牛干巴中的特征性风味成分,采用电子鼻和固相微萃取(SPME)/气相色谱-嗅闻-质谱联用(GC-O-MS)方法分析了其中的挥发性风味成分。电子鼻检测结果表明,2组样品之间的风味差异显著(p0.05)。2组样品中共鉴定出54种挥发性化合物,其中,牦牛干巴和黄牛干巴中分别鉴定出42种和50种。2组样品中共有成分38种,包括12种烃类、7种醛类、8种醇类、3种酮类、2种呋喃类、1种酯类和5种其他类,其中,13种成分含量差异显著(p0.05)。烃类在牦牛干巴的风味组成中含量最高,而醛类在黄牛干巴的组成中含量最高。二氢化茚、十六烷、乙酸乙酯、乙酸-2-乙基己酯4种成分是牦牛干巴中的特有成分,3-甲基丁醛、反-2-辛烯醛、反式-2-壬烯醛、4-乙基苯甲醛、3-甲基丁醇、反式-2-癸烯醇、反式-2-辛烯醇、1-壬醇、苯乙醇、醋酸乙烯基酯、己酸乙酯、草蒿脑12种成分是黄牛干巴中的特有成分,这些物质是2组产品的主要差异性物质。脂肪氧化、氨基酸的Strecker降解及微生物代谢是牛干巴产品风味形成的主要来源。本研究将为牛干巴风味品质评价、生产工艺的控制、产品的标准化等提供理论依据。     

黄兰叶片和花瓣挥发性成分及其抑菌效果

采用顶空固相微萃取和气象色谱质谱技术研究了黄兰(Michelia champak L.)叶片和花瓣的挥发性成分;并提取叶、花挥发物精油,测定了不同质量分数的精油对大肠杆菌ATCC6739、金黄色葡萄球菌ATCC6538、枯草芽孢杆菌CMCC63501生长的影响。结果表明,黄兰叶片与花瓣的挥发性成分中都含有香叶烯、β-榄香烯、石竹烯等物质,叶片中的挥发性有机成分都是萜烯类物质,而花瓣的挥发性有机成分中除了萜烯类物质外,还含有较多的芳樟醇等醇类物质和安息香酸甲酯等酯类物质;黄兰叶片与花瓣的精油对大肠杆菌没有抑制作用,但质量分数为2.5%的精油对金黄色葡萄球菌、枯草芽孢杆菌具有明显的抑制作用,其中2.5%的叶片精油对枯草芽孢杆菌的抑菌率达到68.20%。     

Parameterization of ruminal fibre degradation in low-quality tropical forage using Michaelis–Menten kinetics

This work aimed to parameterize the ruminal degradation of neutral detergent fibre (NDF) from low-quality tropical forage using Michaelis–Menten kinetics. The intake, rumen outflow (L), fractional degradation rate (kd), discrete lag (LAG) and effective degradability (ED) of NDF, and the microbial flow of nitrogenous compounds into the small intestine (Nmic) were assessed in two 5 ×  5 Latin square experiments by using five Holstein × Zebu heifers cannulated in the rumen. The experiments were carried out sequentially and the treatments were formed by increasing the level of supplementation with nitrogenous compounds. A low-quality signal grass (Brachiaria decumbens) hay was used as roughage. The nitrogen supplement was a mixture of urea, ammonium sulfate and albumin, at the ratios of 4.5:0.5:1.0, respectively. The crude protein contents in the diets ranged from 51.9 to 136.3 g/kg of dry matter. The rumen ammonia nitrogen (RAN) concentration was used as an independent variable. The NDF intake, L and Nmic showed a quadratic pattern (P < 0.05) as a function of RAN concentration, and the critical points (maximum responses) were observed with 15.17, 16.28, and 14.52 mg of RAN/dL of rumen fluid, respectively. On the other hand, ED and LAG presented a linear-response-plateau (P < 0.05) according to the RAN concentration, with break points close to 8 mg/dL for ED (maximum estimate) and LAG (minimum estimate). The RAN concentrations to optimize NDF degradation and intake were defined as 8 and 15 mg/dL, respectively. This difference between estimates appears to be due to a better adequacy of the metabolizable protein:metabolizable energy ratio in the animal metabolism, which increases the animal intake even after the rumen NDF degradation has been optimized. This observation was supported by Nmic pattern. An adapted Michaelis–Menten model was applied to the data, where RAN was the independent variable and kd the dependent variable. The relationship between these variables was found to be significant by using the Hanes–Woolf plot (P < 0.01). Based on this model, the rate of NDF degradation as a function of RAN concentration indicates that fibre degradation in the rumen could be considered a second order process. In this context, the RAN concentration of 8 mg/dL was assumed as the limit where zero order (below limit) and first order (above limit) reactions become predominant for NDF degradation in the rumen.     

室内空气挥发性有机物的吸附/热解吸气相色谱分析方法研究

室内空气挥发性有机物（Volatile Organic Compounds,VOCs）污染问题日益引起关注与重视,选择一种合适的检测方法对于室内空气污染的研究尤为重要。采用Tenax树脂吸附采样、在线式吹脱捕集仪热解吸进样、HP-5毛细管柱分离、氢火焰离子化检测器（hydrogenflame inonization decector,FID）检测的方法建立了室内空气挥发性有机物的快速分析方法：TenaxGC吸附/热解吸毛细管气相色谱法。确定了最佳采样条件和化合物的定性定量方法,分析了采样效率、分离效果。研究结果表明,该方法采样便捷,样品预处理方便,回收率高,样品测定准确,适合环境空气中低浓度VOCs的测定。     

基于酶抑制法的自助式农药残留检测平台建立

以金华火腿骨为研究对象,研究不同提取方法对其呈味物质释放的影响。通过感官评价及可溶性糖、有机酸、5''-核苷酸和游离氨基酸的测定分析不同处理组间样品的差异,同时采用偏最小二乘回归法（partial least squares regression,PLSR）对提取物感官和呈味物质间进行相关性分析。感官评价发现,高压蒸煮的样品的鲜味、咸味和可接受度最高,其协同滋味的综合评分最佳;呈味物质分析发现,原液中所有呈味物质含量都最低,高压-复配酶解处理的样品中可溶性糖总量最高,高达132.68 mg/100 g;经过酶解处理样品有机酸含量显著增加（P<0.05）,达到3 733.32 mg/100 g;样品经不同处理后,5''-核苷酸含量呈现显著性增加（P<0.05）,总含量最高的是经过高压蒸煮处理的样品,质量分数高达1.24 mg/100 g,是原液和其他处理组样品的2.38～12.4倍;与样品原液相比,游离氨基酸总量都显著增加（P<0.05）,高压蒸煮处理的样品中含量最高,总质量分数为642.44 mg/100 g。借助偏最小二乘回归方法对样品的感官属性及呈味成分进行相关性分析,发现样品间具有显著性差异（P<0.05）,不同的处理方式所释放的呈味物质分布规律显著不同,高压蒸煮的样品与咸味和鲜味具有显著相关性（P<0.05）;酶解处理的样品与酸味和甜味有较强相关性,其他组样品与感官与呈味属性相关性不强。结论：不同处理方式的金华火腿骨具有不同的风味,其风味特征与多种物质有关,该研究结果为火腿骨的深度开发提供了理论指导,提高金华火腿骨的附加值。     

Effect of microwave pre-treatment on physical quality,bioactive compounds,safety risk factor,and storage stability of peanut butter

Microwave, as a new heat treatment technology, has the characteristics of uniform and fast heating speed. It is an energy-saving technology known for improving oilseed product quality. Its efficiency mainly depends on the roasting power and time. However, the production of high-quality peanut butter using short-time roasting conditions are limited. Herein, we determined an appropriate microwave roasting power and time for peanuts and evaluated its impacts on the quality of peanut butter. Different roasting powers (400 ​W, 800 ​W and 1200 ​W) and times (4, 4.5, 5, and 5.5 ​min) were preliminarily tested. Among them, 800 ​W at 5 ​min was the most suitable. The roasting efficiency was further evaluated using color, sensory, bioactive compounds, storage stability, and safety risk factors of peanut butter produced from four peanut cultivars (Silihong, Baisha-1016, Yuanza-9102, and Yuhua-9414). The pre-treated butter obtained from three cultivars (Silihong, Yuanza-9102, and Yuhua-9414) with moisture content between 5% and 7.2% had a similar sensory score (6–7) as the commercial on a 9-point hedonic scale compare to the other. The color of the pre-treated peanut butter varies statistically with the commercial but remained in the recommended range of Hunter L1 values of 51–52, respectively, for high initial moisture peanut cultivars. The total polyphenol (35.20-31.59 ​± ​0.59 ​μmol GAE/g) and tocopherol (19.05 ​± ​0.35 ​mg/100 ​g) content in the butter obtained from three cultivars (Yuahua-9102, Yuhua, and Baisha-1016) and Silihong respectively, were significantly (P ​< ​0.05) higher than those in the commercial butter. The induction times of all pre-treated butter (19.80 ​± ​0.99–7.84 ​± ​0.07 ​h) were significantly (P ​< ​0.05) longer during storage at accelerated temperature than commercial samples. In addition, no benzo[a]pyrene was found in the pre-treated samples. Collectively, the microwave pretreated peanut butter was superior to the commercial one. These findings provided data support and a reference basis to promote microwave use for peanut butter production.     

蛋白质着色动力学研究

经过蛋白质着色动力学的研究，发现蛋白质着色的行为遵循数学模型Ｙ＝ａＸ＾ｂ。在ｐＨ２－６范围内，蛋白质上染料随染溶ｐＨ的下降而上升，在１５－３０℃温度范围内，蛋白质上染率随温度上升略有提高，当温度超过３０℃时，蛋白质上染率逐渐下降。染浴中添加稀土对蛋白质有较强的促染效果，其实质是染浴中蛋白质首先对稀土高价阳离子进行结合，再通过高价阳离子对色素进吸附。     

稻株中抗原次生物质含量变化及其对水稻褐飞虱抗性的影响

 对影响水稻对褐飞虱生物型Ⅱ抗性水平的主要抗原次生化合物，即HPLC谱图中的4个谱峰（峰1、峰2、峰8、峰12）对应的次生化合物的含量变化及其对抗性的影响进行了研究。结果表明，某些品种不同苗龄稻株对褐飞虱生物型Ⅱ的抗性差异，极可能就是这4个相关抗原次生化合物在不同生育期的含量变化所致；与水稻植株其他部位相比，这4种抗原次生物质在叶鞘中的含量最低。这也许是褐飞虱喜欢聚集在叶鞘部位取食的化学因素之一。     

Relationships involving several types of extractives of five native argentine wood species of genera Prosopis and Acacia

The relationships existing among the values obtained when extracting the wood of four Argentinean species of Prosopis (P. alba, P. kuntzei, P. nigra, and P. ruscifolia) and one of the Acacia (A. aroma) by several procedures were evaluated and discussed. The used methods were: extraction in toluene/ethanol and hot water; determination of tannic and non-tannic content; measurement of phenolic compounds. Additionally, liquid chromatography (HPLC) was also used in order to quantitatively evaluate the content of (−)-mesquitol, a relatively unusual flavonoid (flavanol type). The total amount of Oxidation Products was also measured. They result from oxidation and polymerization processes of phenolic compounds occurring during heartwood formation, and were not separated during chromatographic analysis. Data evidenced a linear trend (R² = 0.970) between organic and tannic extractives of all species, and a similar one (R² = 0.927) between total phenols and tannic (or organic) extractives in the case of heartwood of Prosopis species. Interestingly, for sapwood very different values of organic extracts, tannic content or Oxidation Products type compounds were measured in spite of a similar amount of phenolic substances. Moreover, the various species presented the same peaks in chromatograms, thus evidencing the chemical similarity of compounds but a different quantity between heartwood and sapwood and also among the various species. The observed similarity implied that the various methods of extraction did not really extract only a single class of substances, and that great care must be adopted when using some specific procedures for extractions.Furthermore, the existing relationships between extractives and selected technological properties, namely specific volumetric shrinkage coefficient (BSvol) and natural durability (evaluated in terms of mass loss after fungal attacks in laboratory conditions), were given. It appeared that in heartwood BSvol was well correlated to organic extractives (R² = 0.984), thus evidencing the microimpregnation of cell walls by extractives, but the fitting quality of the correlation was dependent on the type of extractives used. Analogously, a good relationship between mass loss and phenolic compounds existed (R² = 0.764), and in this case the value of R² was even more dependent on the considered extracts. Moreover, the availability of quantitative data on several Prosopis species allowed to consistently evaluate the bioactivity of (−)-mesquitol on the resistance against fungal attack, and the logarithmic form of the relationship between mass loss and (−)-mesquitol content suggested a direct fungicidal activity of this compound. On the other hand, data also evidenced that neither phenolic compounds nor (−)-mesquitol can be considered as the unique and definite factor able to determine the durability of the considered species.