水产品副产物蛋白回收和高值化利用研究进展

水产品由于其丰富的营养价值,在世界范围内的需求量持续增加。然而,水产品消费与加工过程中产生的大量副产物,带来了严重的资源浪费和环境污染等问题。鉴于此,水产品加工副产物依据其不同特性已经被开发应用到诸多领域。其中,水产品副产物蛋白因其独特的功能特性与较高的经济附加值,在实际生产中得到了广泛的回收和利用。因此,本文综述了现阶段广泛用于回收水产品副产物蛋白的物理学、化学和生物学方法,同时,介绍了鱼类、甲壳类和贝类副产物蛋白高值化利用的研究进展,并对水产品副产物蛋白未来的发展趋势进行展望,旨在进一步提升水产品副产物资源的综合利用潜力,促进我国水产品加工业高质量发展。     

酶联免疫法快速检测水产品中硝基呋喃类代谢物、氯霉素及氟苯尼考

应用特异性强的间接酶联免疫法,同时检测4种硝基呋喃类代谢物、氯霉素(CAP)和氟苯尼考(FF),建立快速分析水产品中6种药物残留量的方法.样品用盐酸进行消化,再由乙酸乙酯提取,使用酶联免疫试剂盒进行检测.实验结果显示,6种分析物均在其线性范围内,线性系数均大于0.995.在加标浓度为0.1、0.5和1.5μg/kg的加...     

稀土壳聚糖螯合盐对水产颗粒饲料性能的影响

研究了在饲料中添加稀土壳聚糖螯合盐（ＲＥＣＣ）对水产颗粒饲料性能的影响。根据鲫（Ｃａｒａｓｓｉｕｓａｕｒａｔｕｓ）鱼苗的营养需求配制４种类型的ＲＥＣＣ试验日粮,即１号饲料（０．００％）、２号饲料（０．０８％）、３号饲料（０．１６％）和４号饲料（０２４％）。测定４种饲料的粉化率和溶失率。结果显示,添加稀土壳聚糖螯合盐后可以降低饲料的 粉化率,饲料中添加０．１６％的稀土壳聚糖螯合盐效果尤其明显（Ｐ＜０．０１）;在饲料中添加ＲＥＣＣ可以显著降低饲料的溶失率（Ｐ＜０．０５）,并可以提高和改善水产颗粒饲料的性能。     

Effect of dietary components on the gut microbiota of aquatic animals. A never‐ending story?

It is well known that healthy gut microbiota is essential to promote host health and well‐being. The intestinal microbiota of endothermic animals as well as fish are classified as autochthonous or indigenous, when they are able to colonize the host's epithelial surface or are associated with the microvilli, or as allochthonous or transient (associated with digesta or are present in the lumen). Furthermore, the gut microbiota of aquatic animals is more fluidic than that of terrestrial vertebrates and is highly sensitive to dietary changes. In fish, it is demonstrated that [a] dietary form (live feeds or pelleted diets), [b] dietary lipid (lipid levels, lipid sources and polyunsaturated fatty acids), [c] protein sources (soybean meal, krill meal and other meal products), [d] functional glycomic ingredients (chitin and cellulose), [e] nutraceuticals (probiotics, prebiotics, synbiotics and immunostimulants), [f] antibiotics, [g] dietary iron and [h] chromic oxide affect the gut microbiota. Furthermore, some information is available on bacterial colonization of the gut enterocyte surface as a result of dietary manipulation which indicates that changes in indigenous microbial populations may have repercussion on secondary host–microbe interactions. The effect of dietary components on the gut microbiota is important to investigate, as the gastrointestinal tract has been suggested as one of the major routes of infection in fish. Possible interactions between dietary components and the protective microbiota colonizing the digestive tract are discussed.     

Dietary menadione nicotinamide bisulphite (vitamin K3) does not affect growth or bone health in first-feeding fry of Atlantic salmon (Salmo salar L.)

The aim of the present study was to elucidate if increasing levels of added vitamin K in the feed influenced fish growth, health or the incidences of bone deformities in Atlantic salmon ( Salmo salar L.) from onset of start feeding to ∼100 g in freshwater. Duplicate groups of Atlantic salmon fry (∼0.20 g) were fed eight levels (0, 2.5, 5, 7.5, 10, 15, 20 and 50 mg menadione kg⁻¹) of the vitamin K derivate menadione nicotinamide bisulphite (MNB) in a regression design for 28 weeks. All fish maintained high growth rates throughout the experiment, and showed no significant differences in specific growth rate, condition factor, whole body proximate analysis, blood coagulation time, vertebra morphology or mechanical properties of vertebrae. We found a dose-response between whole body vitamin K concentration and the dietary MNB supplementation level. Analysis of liver γ-glutamylcarboxylase activity revealed significant dose-dependent differences between groups given the 0, 10 and 50 mg MNB kg⁻¹ diets. In conclusion, Atlantic salmon seems to require low levels of dietary vitamin K, and the amount of vitamin K found naturally in the presently used feed ingredients may be enough to maintain optimal growth, health and bone strength in Atlantic salmon fry from start feeding.     

禁捕后长江鱼类资源监测的技术指标建议

为了确定监测时长、监测网具、站位布局对禁捕后长江鱼类资源监测评估的有效性,于2021年5—7月在长江中游10个站位开展了鱼类资源捕捞监测,每个站位连续监测15 d,从日捕获量、物种记录数、渔获物群落结构等3方面着手,对监测时长、监测网具、站位布局等的设置进行探讨。结果显示,连续11 d捕捞监测所得累计日均渔获量基本达到稳定,连续15 d捕捞监测可以记录到站位近70%的鱼类种类数,所得累计鱼类群落结构基本达到稳定。网具类型、规格的使用覆盖对监测结果中鱼类种类记录数、鱼类群落结构有明显影响,网具使用量对监测结果中日均渔获量有明显影响。10个监测站位间的鱼类群落结构具有明显差异,结合监测站位间的空间距离来看,鱼类群落结构具有较高的空间异质性。研究表明,为了保障评估结果的准确性,基于原始监测数据进行相关评估之前,有必要对监测数据的充分性、有效性进行检验,网具类型、规格和使用量对监测结果的影响应予以适当考虑,各具体江段的鱼类群落结构评估应由相应具体江段的监测结果来支撑。本研究将为长江流域重点水域全面禁捕后的水生生物资源监测评估提供科学支撑。     

自然水体中超声波标记鱼游动轨迹精密确定算法

针对鱼类关键生境位置确定的应用需求,该文提出了一套适用于自然水体的超声波标记鱼定位算法,解决了标记鱼定位以及存在粗差观测值,即水听器记录的超声波信号接收时间存在错误情况下算法的抗干扰性。宜昌黄柏河的实测结果表明,基于现有1 ms级精度的水听器,可在自然水体中获得2.15 m精度的信号标记鱼三维游动轨迹。如因气泡、遮挡等因素对水听器观测数据引入粗差,当粗差量级在10 m以上,该方法可接近100%探测出是否存在粗差。当粗差观测值在3个以内时,该方法的探测成功率可达84.3%以上,3个以上时粗差探测成功率明显下降,5个及以上,即粗差观测值个数占观测值总数的比例大于31.25%时,基本只能探测出观测数据中存在粗差而无法有效确定粗差。该研究可为渔业增殖、鱼类栖息地保护、鱼类洄游通道等研究提供参考。     

低碳经济引领水产品加工业发展新方向

阐述了目前水产品加工业的现状和存在问题,分别从加工科技含量,生产设备;高附加值产品开发,精深加工能力;产业结构、产品质量标准体系和法律法规等方面展开论述,探讨了制约我国水产品加工业低碳经济发展的因素,提出了水产品加工业向低碳经济发展的思路和相关措施。水产品加工业的低碳经济发展道路需要依靠技术创新,提高水产品副产物的综合应用,发展水产品精深加工。另外,国家政策引导和产业结构调整等措施对水产品加工业低碳经济可持续发展也至关重要。     

3种水生植物对铅污染水体的抗性研究

通过盆栽试验,在静态模拟自然状况下的小型水体中设置3个铅污染水平,研究花叶芦竹、石菖蒲、水生鸢尾对不同浓度铅污染水体的净化能力及其抗性生理特征。结果表明：在不同浓度铅污染水体中,石菖蒲的长势最好,其株长和茎长均达到最高,可达61.17 cm和41.23 cm;花叶芦竹的根长则表现为最好,为21.23 cm。3种水生植物的根系活力表现为花叶芦竹>石菖蒲>水生鸢尾。在低浓度和高浓度铅污染水体中,石菖蒲的叶绿素a含量高于水生鸢尾和花叶芦竹,水生鸢尾的叶绿素b含量高于石菖蒲和花叶芦竹;在CK和低浓度铅污染水体中,3种水生植物的叶绿素a含量、叶绿素b含量和总叶绿素含量均表现为最高。花叶芦竹对铅污染水体的净化能力最强,净化能力随着铅浓度的增加也发生了下降。因此,花叶芦竹、石菖蒲和水生鸢尾3种水生植物对不同浓度铅污染水体均有一定的适应性和净化效果,表现为石菖蒲的适应性较强,花叶芦竹净化效果最好。     

高效液相色谱法检测水产品中的孔雀石绿

采用高效液相色谱法检测水产品中的农药残留孔雀石绿。样品中的孔雀石绿经乙腈与乙酸铵提取,浓缩后固相萃取柱净化、硼氢化钾还原、反向色谱柱分离,再使用荧光检测器检测。应用该方法孔雀石绿的加标回收率在75.1%～95.1%之间,相对标准偏差3.7%～7.1%,检出限均为0.5μg/kg。结果表明:该方法检测孔雀石绿处理简单快捷,灵敏度高,可用于大量样品的快速分析。