罗非鱼片贮藏过程中品质变化动力学模型

研究不同温度贮藏条件下罗非鱼片挥发性盐基氮（TVB—N）和菌落总数随时问的变化规律及其动力学特性,建立了TVB-N和菌落总数与贮藏温度和贮藏时间的动力学模型,以预测和控制罗非鱼片在贮藏过程中的品质和货架期。贮藏过程中罗非鱼片的TVB-N和菌落总数增加,随着贮藏温度的升高,鱼片品质劣化速度加快。TVB-N和菌落总数均符合一级化学反应动力学模型,并且与Arrhenius方程有很高的拟合度。罗非鱼片的贮藏期可通过模型进行预测。     

冷藏和微冻条件下长丰鲢鱼片品质变化规律的研究

通过测定长丰鲢（ Changfeng silver carp ）鱼片在冷藏（4℃）和微冻（-3℃）条件下的感官品质、菌落总数（ TAC）、汁液流失率、 pH、电导率（ EC）、挥发性盐基氮（ TVB-N）以及K值等指标的变化,评价两种贮藏条件对长丰鲢鱼片品质的影响。结果表明：长丰鲢鱼片分别在4℃贮藏至第8天和-3℃贮藏至第25天时失去感官食用价值。4℃贮藏第6天菌落总数为6.75 lg cfu/g,-3℃贮藏第20天为5.89 lg cfu/g。 TVB-N值在4℃贮藏至第8天为29.1 mg/100 g,-3℃贮藏至第25天为21.1 mg/100 g。与冷藏相比,微冻贮藏下长丰鲢有较高的汁液流失率。综合各项指标变化,冷藏和微冻贮藏条件下长丰鲢鱼片的货架期分别为6 d和20 d,微冻贮藏较冷藏长丰鲢鱼片贮藏期延长了2.3倍。     

不同冻结工艺条件对蓝点马鲛品质的影响

冷冻贮藏是蓝点马鲛(Scomberomorus niphoniu)最常用的贮藏方式之一,不同冻结方式将直接影响冷冻蓝点马鲛的品质。本研究考察了蓝点马鲛在不同冻结方式(-90℃液氮速冻、-50℃冰箱冻结、-30℃平板速冻、-30℃冰箱冻结和-18℃冷库冻结)下的冻结速率,以保水性能、挥发性盐基氮(total volatile basic nitrogen, TVB-N)含量、硫代巴比妥酸(thiobarbituric acid, TBA)含量、巯基含量和色差值等为品质评价指标,探究5种冻结工艺条件对其品质的影响。结果显示,冻结工艺对蓝点马鲛的各理化指标均可产生显著影响(P0.05)。液氮速冻的蓝点马鲛各指标值最好,冻结后的蓝点马鲛品质最优。-50℃冰箱冻结组和-30℃平板速冻组的蓝点马鲛品质稍差于液氮速冻,但明显好于-30℃冰箱冻结组和-18℃冷库冻结组。在保水性能和白度值方面,-50℃冰箱冻结和-30℃平板速冻无显著性差异(P0.05);在脂肪氧化和巯基含量方面,-30℃平板速冻显著优于-50℃冰箱冻结(P0.05),且与液氮速冻的各值无显著性差异(P0.05)。上述结果表明,平板速冻和液氮速冻均能较好地保持蓝点马鲛的品质,可以选用作为实际生产方法。[中国渔业质量与标准,2019,9(2):09-15]     

宰前预冷处理对大口黑鲈冰藏品质的影响

为探讨活鱼宰前预冷对后期鱼片冷藏保鲜品质的影响,将鲜活大口黑鲈(Micropterus salmoides)置于不同温度(15℃、10℃、5℃)的水槽中暂养0.5 h后,宰杀并取鱼片冰藏,分析第0、第3、第6、第9、第12、第15、第18和第21天时的鱼肉感官、理化指标[pH、挥发性盐基氮(TVB-N)、鲜度指标(K值)、硫代巴比妥酸(TBA值)]及微生物[菌落总数(TVC)]变化情况,综合评价宰前预冷处理对大口黑鲈冰藏品质的影响。结果表明,15℃预冷处理可较好地保持大口黑鲈冰藏期间的品质,维持鱼肉感官品质,降低细菌的生长繁殖速度,延缓pH、TVB-N、K值、TBA值及菌落总数的上升,货架期较对照组延长约3 d。     

不同冷冻温度对藏獒冷冻精液品质的影响

为探讨藏獒细管冻精最佳冷冻曲线,利用全自动细管精液程控冷冻仪控制冷冻温度变化,测定藏獒精液在不同冷冻曲线下冻精品质。结果表明:冷冻曲线4~-10℃(降温速率3℃/min)、-10~-100℃(降温速率40℃/min)、-100~-140℃(降温速率20℃/min),冻精解冻后精子活力最高,冻精精子顶体完整率最高,冻精品质最好。     

南极磷虾冻藏温度下的品质变化及其货架期分析

以出肉率及化学变化(pH、TVB-N、TBARS、Ca² -ATPase活性)为指标,结合感官评价,探讨了南极磷虾冻藏温度下(-8、-18和-28 ℃)的品质变化及货架期。实验结果显示,南极磷虾感官评分与冻藏时间和冻藏温度均有显著的相关性(r=0.982和0.981),-8 ℃条件下20 d后南极磷虾感官不可接受,-18和-28 ℃条件下南极磷虾分别在75和120 d时感官不可接受;出肉率与冻藏时间有显著的相关性(r=0.953),在-8、-18和-28 ℃条件下南极磷虾出肉率在货架期终点分别达到31.62%、31.21%、34.52%;pH与冻藏时间和冻藏温度相关性不明显,不适宜用作反映南极磷虾冻藏条件下的品质指标,但随时间的延长pH仍呈增长趋势,在货架期终点3种冻藏温度下南极磷虾pH分别达到7.94、7.99、7.84;TVB-N和TBARS分别与冻藏时间有显著相关性(r=0.944和0.935),但TVB-N只与-8 ℃条件下的温度有显著相关性,TBARS只与-18和-28 ℃冻藏温度有显著相关性,在货架期终点时(感官不能接受)3种冻藏温度下南极磷虾TVB-N和TBARS分别为21.43、20.49、19.74 mg/100 g和0.88、0.78、0.66 mg MA/kg,均低于腐败水平阈值;Ca² -ATPase活性下降显著,与冻藏时间呈显著相关性(r=-0.929)。南极磷虾感官指标、出肉率、TVB-N、TBARS、Ca² -ATPase活性均在冻藏期间有明显变化,且与冻藏时间有明显的相关性,可以考虑用作反映冻藏条件下南极磷虾品质变化指标。因此,综合各项指标并结合感官评价,可以判断实验过程中3种冻藏温度下南极磷虾货架期终点分别为20、75、120 d。     

罗非鱼的微冻保鲜

本文以养殖的罗非鱼为对象,在-3℃±0.5℃空气微冻条件下,通过对鱼肉鲜度指标K值、细菌数及pH值的测定,探讨微冻鱼的质量的变化情况,并与冰藏鱼作比较。同时还对微冻鱼肌肉作组织切片,观察其冰结晶,并与-18℃冻结鱼及新鲜鱼作对照。实验结果表明,-3℃微冻法比冰藏法温度仅低3℃,但鱼肉鲜度指标K值上升缓慢,细菌繁殖受到抑制,大大延长了罗非鱼的保藏时间,贮藏期可达一个月左右。鱼肉pH值与鱼的鲜度之间无明确的相关关系。-3℃微冻鱼肌肉中的冰结晶是慢冻型的,对肌肉组织有损伤,但其冻结率比-18℃冻鱼低,未冻结部分的肌肉组织与新鲜鱼的肌肉组织相接近。     

冻罗非鱼片的复配冰衣护色效果研究

针对冷冻罗非鱼片在贮运过程中色泽品质退化的问题开展试验,寻求一种防止冻鱼片贮藏期间变色的新方法。采用响应面试验设计,在发色罗非鱼片和不发色罗非鱼片的冰衣中加入不同添加剂,测定鱼片中高铁肌红蛋白含量,比较组氨酸、抗坏血酸钠、异抗坏血酸钠、山梨酸钾及烟酰胺对鱼片的冰衣护色效果。结果显示,山梨酸钾与异抗坏血酸钠为较优的添加剂组合。以高铁肌红蛋白含量拟合公式中变色系数为试验指标,得到未发色鱼片护色的优化配方为:异抗坏血酸钠0.32‰,山梨酸钾0.68‰,此时变色系数为13.79;发色罗非鱼片的最适护色组合为:异抗坏血酸钠0.32‰,山梨酸钾0.68‰,变色系数为10.42。研究表明,冰衣护色法对防止冷冻罗非鱼片的褪色及褐变是有效果的,可作为罗非鱼片出口加工和贮运的实用技术,能有效减缓冷冻罗非鱼片的褐变速度,延长其鲜红色或原色的保持时间。     

日本枪乌贼(Loligo japonica)不同温度冻藏过程中的品质变化

选取-20℃、-30℃和-50℃3个冻藏温度,以TVB-N值、肌原纤维蛋白含量、Ca~(2+)-ATPase活性、巯基含量、TBARS值及肌肉组织微观结构为指标,结合感官评分,对比分析90 d内日本枪乌贼(Loligo japonica)的品质变化规律。结果显示,在不同冻藏温度下,随着时间的延长,Ca~(2+)-ATPase活性和感官评分不断下降;肌原纤维蛋白和巯基含量,则先略微上升而后快速下降;TVB-N值和TBARS值呈不断上升的趋势,且温度越高上升速率越快;肌肉组织微观结构分析表明,枪乌贼肌纤维结构在冻藏过程中逐渐变得松散。相比-20℃,-30℃和-50℃冻藏温度条件下更能长久地保持枪乌贼品质,且品质无显著差异。综合分析认为,冻藏温度低于-30℃时,可较好地保持枪乌贼品质。     

日本枪乌贼(Loligo japonica)不同温度冻藏过程中的品质变化

选取-20℃、-30℃和-50℃3个冻藏温度,以TVB-N值、肌原纤维蛋白含量、Ca2+-ATPase活性、巯基含量、TBARS值及肌肉组织微观结构为指标,结合感官评分,对比分析90 d内日本枪乌贼(Loligo japonica)的品质变化规律。结果显示,在不同冻藏温度下,随着时间的延长,Ca2+-ATPase活性和感官评分不断下降;肌原纤维蛋白和巯基含量,则先略微上升而后快速下降;TVB-N值和TBARS值呈不断上升的趋势,且温度越高上升速率越快;肌肉组织微观结构分析表明,枪乌贼肌纤维结构在冻藏过程中逐渐变得松散。相比-20℃,-30℃和-50℃冻藏温度条件下更能长久地保持枪乌贼品质,且品质无显著差异。综合分析认为,冻藏温度低于-30℃时,可较好地保持枪乌贼品质。     

凡纳滨对虾虾仁在冻藏过程中品质变化研究

以凡纳滨对虾（Penaeus vannamei）为研究对象,经过去头和去壳处理后,于-35℃冷冻过夜,然后置于-18℃条件下进行保藏试验。通过测定解冻损失率和肉色变化,明确冻藏期间虾肉的质量变化规律,结合腺苷三磷酸（ATP）及其降解产物、总挥发性盐基氮（TVB-N）和酸碱度（pH）等鲜度指标的测定结果,分析对虾在冻藏条件下鲜度的变化规律,旨在为其生产加工提供理论依据。研究结果表明,冷冻保藏至第18天时解冻损失率达到最大,同时表面色差（L^＊）也达到最大值41.56。而虾肌肉中的ATP质量摩尔浓度冻藏第1天就降低了71.78%,次黄嘌呤（Hx）和次黄嘌呤核苷（HxR）则一直维持在较低水平。第10天鲜度指标（K值）达到最大值7.18%,并能比较稳定地保持这一水平,结合TVB-N测定结果,发现冻藏至第30天时,虾肌肉中的TVB-N仍未超过腐败临界值。因此,冻藏处理可以保持凡纳滨对虾的鲜度,使各项理化指标维持在较低水平,但会加重解冻损失现象。     

充气比率对罗非鱼片冰温气调贮藏期间品质的影响

采用不同的充气体积（V）与鱼片质量（m）比率包装鲜罗非鱼片,在冰温下贮藏,通过微生物、挥发性盐基氮（TVB—N）和脂质氧化（TBA）等指标考察充气比率对鱼片品质的影响。结果表明,充气比率≥3：1能抑制产品微生物的增长（P〈0．05）,贮藏第25天微生物数量仍小于可接受的限（10^6cfu·g^-1）;气调包装样品的肉汁渗出率均高于对照产品,充气比率越大对肉汁渗出率影响越明显;贮藏期间,对照组的TVB—N第4天开始明显高于充气比率≥3：1的样品,第19天时充气比率≥3：1的TVB—N仍在安全限内,约19．30mg·100g^-1;充气比率对产品pH的影响不明显;贮藏期间TBA缓慢上升,气调包装样品之间差异不明显,但与对照组差异显著（P〈0．05）。总而言之,充气比率为3：1～4：1的气调包装样品在贮藏期间品质差异不明显,能明显延长鲜罗非鱼片的货架期。     

Preservation of Tilapia (Oreochromis aureus) Fillet by Isochoric (Constant Volume) Freezing

ABSTRACT

The aim of this work was to evaluate the effects of isochoric freezing on the quality of tilapia fillet. Isochoric freezing was compared to chilling, super-chilling, and freezing. Isochoric freezing showed muscle color alterations similar to the other preservation methods. All preservation methods resulted in softer fillets, with the isochoric frozen fillet having the most similar texture to that of the fresh sample. Thiobarbituric acid reactive substances (TBARS) for isochoric samples were similar to those of fresh samples. However, there was a 53%, 55%, and 34% increase in TBARS for chilled, super-chilled, and frozen samples, respectively. Total volatile basic nitrogen (TVB-N) content was 1.4 times higher for isochoric samples than for fresh samples. For chilled, super-chilled, and frozen samples, TVB-N content was 3.0, 1.9, and 1.3, respectively, times higher than for fresh samples. Microstructural analysis indicated that isochoric samples showed less cell damage compared to those using other methods. Subfreezing temperatures in conjunction with no ice formation during isochoric freezing contributed to improved quality of tilapia fillet. This study may find application in the commercial preservation of fish to increase shelf life and allow for expanded distribution of raw fish. This study might also be a potential solution to “food desert” areas, where residents have low access to fresh healthy foods.     

Total Volatile Basic Nitrogen in Meat and Brine During Marinating of Herring

ABSTRACT

The content of total volatile basic nitrogen (TVB-N) is highly determined by the variety of raw material, freezing, salt, and acetic acid concentrations, and therefore the effect of these factors on marinated herring quality was determined in this study. A higher TVB-N content was determined in marinades from fillets than from carcasses and from frozen than fresh herrings. An increase in salt concentration from 5 to 15% reduced the content of TVB-N to a greater extent than the increase in acid concentration from 3 to 8%. However, the increase in salt concentration above 11–13% or of acid above 5% in brine did not result in any significant decrease of meat TVB-N value. The brine TVB-N content was significantly correlated with meat TVB-N and was higher than in meat. The best freshness indicators were NH₃-N and tyrosine in brine, which can be deemed more universal indicators of the freshness of marinated herring meat. The diffusion from meat to brine was found to significantly decrease the meat TVB-N value and potentially increase marinated meat quality. Therefore, the removal of TVB-N from fish, via changing the brine several times, may be a better option than increasing the concentration of salt/acetic acid in marinating brine.     

冷藏和冰藏条件下虹鳟鱼鱼片品质变化研究

为了科学地了解虹鳟鱼(Oncorhynchus mykiss)鱼片贮藏过程中的品质变化规律,以建立高效的品质控制技术,研究了虹鳟鱼鱼片在冷藏(3±1)℃和冰藏(0±1)℃条件下挥发性盐基氮(TVB-N)、色泽、腺苷三磷酸(ATP)关联物、K值及菌落总数(TAC)等指标的变化,评价不同温度对虹鳟鱼片品质的影响。结果显示:虹鳟鱼片TVB-N的增长速度在冷藏条件下显著高于冰藏条件,冷藏至第9天为20.72 mg/100g,冰藏至第15天为25.76 mg/100g;冷藏至第6天TAC为7.40 lg cfu/g,冰藏至第12天TAC为8.27 lg cfu/g;与冰藏相比,冷藏条件下虹鳟鱼片K值较高;肌苷酸(IMP)含量分别在冷藏8 h(8.36μmol/g)和冰藏24 h(8.70μmol/g)达到最大值,即冷藏和冰藏虹鳟鱼片的最佳食用时间分别是宰杀后的8 h和24 h。结合各项指标变化,冷藏和冰藏虹鳟鱼片的货架期分别为6 d和12 d。     

Changes During Chilled Storage of Whole Tilapia and Short-Term Frozen Storage of Tilapia Fillets

This study evaluated the physicochemical changes in Nile tilapia (n = 82, 373.71 ± 61.91 g) refrigerated for up to 92 h and in the frozen fillets. The tilapias were captured with nets, slaughtered by ice and water shock (1:1) in a temperature of approximately 2°C for 30 min, and stored refrigerated at 4°C in polystyrene boxes containing ice. The fish were filleted, and filets were weighed and frozen. The drip loss and protein were determined after 23 days of frozen storage. After 4 h of storage, all fish were in full rigor mortis. The pH of the muscles decreased for up to 45 h of the storage period. The fillets obtained from tilapia stored for more than 72 h lost more weight and protein. Thus, the filleting or processing of tilapia should be done before 72 h of cold storage, since deterioration of the fish starts to occur after this period.     

Detection of Frozen-Thawed Cycles for Frozen Tilapia (Oreochromis) Fillets Using Near Infrared Spectroscopy

Due to the ambient temperature fluctuation during the process of storage, transportation, and sale, frozen fillets may go through frozen-thawed cycles that result in quality changes. In order to detect the frozen-thawed cycles in frozen tilapia fillets, near infrared spectroscopy was applied. The thawing loss, cooking loss, moisture content, total volatile basic nitrogen, and texture profile of fillets in seven frozen-thawed cycles were analyzed to reflect the change of quality. A total of 60 fillets were used to collect the spectra on both dorsal and belly flesh in frozen and thawed state from the first to the seventh cycle. The results showed that there is a better discrimination among the once and the repeated frozen-thawed samples in the frozen state than the thawed state. Frozen samples were still conducive to the differentiation and had higher classification accuracy, ranging from 80% to 93.33%. Dorsal flesh was more beneficial for the differentiation than belly flesh and had the highest accuracy, ranging from 86.67% to 93.33% in the frozen state. These results showed that the nondestructive and fast detection of repeated frozen-thawed cycles in frozen tilapia fillets can be accomplished by near infrared spectroscopy, which has enormous potential for practical application.     

鳙在冷藏和微冻贮藏下品质变化规律的研究

文章研究了鳙（Aristichthys nobilis）在不同贮藏温度下的品质变化规律。将经过前处理的鳙分别贮藏在4℃和-3℃中,通过测定其感官和理化指标,即总挥发性盐基氮（TVB—N）、硫代巴比妥酸（TBA）、鲜度K值、pH、汁液流失率和蒸煮损失率,评价不同温度对鳙品质的影响。结果显示,鳙分别在4℃贮藏至第10天和-3℃贮藏至第30天时失去感官食用品质。但K值在4℃贮藏至第6天和-3℃贮藏至第20天超过临界值。4℃下鳙的TVB—N显著高于-3℃。在整个贮藏过程中TBA均未超过2．00mg·kg-1。的限量值,说明TBA不适合单独用于评价鳙的品质变化。pH分别在4℃贮藏至第4天和-3℃贮藏至第10天达到最低值,分别为6．81和6．76。与4℃相比,-3℃下鳙的汁液流失率和蒸煮损失率较高,这可能与-3℃微冻条件下鳙肉组织冰晶生成导致持水力下降有关。综合K值和感官指标的变化,4℃和-3℃下鳙的货架期分别为6d和20d,且-3℃贮藏能明显延长鳙的货架期。