Effect of Vacuum Packaging and Sous Vide Processing on the Quality of Indian White Shrimp (Fenneropenaeus indicus) During Chilled Storage

A comparative study was undertaken to assess the effect of sous vide (SV) processing, vacuum, and ordinary air packaging on the quality and shelf life of condiment-incorporated Indian white shrimp (Fenneropenaeus indicus) during chilled storage. The pasteurization value (PV) for SV-processed shrimp was 4.02 min at 90ºC. The initial K value of shrimp (2.17%) increased to 5.26% with SV processing and further increased to a value of 46.9% on the day of sensory rejection, compared with 64.3% and 62.7% for vacuum and air-packed samples, respectively. A nearly 3 log reduction in total mesophilic count was observed for SV-processed shrimp. Formation of volatile bases, indole, and lipid oxidation was significantly (p < 0.05) inhibited in SV-processed shrimp compared to others. SV processing extended the shelf life of condiment-incorporated shrimp up to 28 days, compared to only 15 and 8 days for vacuum and air-packed samples, respectively.     

对虾工厂化养殖与池塘养殖系统结构与效益比较分析

从浮游植物、浮游动物、底栖生物、水质因子4个方面对工厂化对虾养殖和池塘对虾养殖生态系统的差异进行了观察和分析。结果表明,工厂化对虾养殖系统中浮游植物、浮游动物及底栖生物的丰度均低于池塘对虾养殖系统(分别为22815个/ml<31590个/ml,490.5个/L<650.0个/L,4.5个/10cm2<267.5个/10cm2),而溶解氧(DO)含量、氨态氮(NH4-N)和无机磷(PO4-P)浓度均高于池塘养殖。工厂化养殖对虾的生长量、生长速度及存活率均低于池塘养殖,但其养殖密度高,能很好的弥补生长速度之不足,更好的利用水体获得更高的单位生产量。     

对东海区拖虾作业休渔期的商榷

根据对历年来东海虾类资源调查和社会调查资料分析 ,提出实施拖虾作业休渔措施的必要性。分析认为 :虾类资源是多种类组成的捕捞对象 ,不同种类生态属性不同、分布海域不同、繁殖期和幼虾出现高峰期不同、渔场和渔期不同等 ,指出拖虾作业休渔期不宜搞一刀切 ,应实行分区管理。北部 (31°0 0′N以北 )以广温广盐种类为主 ,宜实行伏季休渔 ;而南部 (31°0 0′N以南 )以高温高盐种类为主 ,宜在 4～ 5月份休渔。为有利于管理 ,可把拖虾休渔管理权下放给各省 ,由各省根据本省的实际情况确定具体的休渔时间。     

3种虾类超氧化物歧化酶同工酶比较

[目的]比较日本对虾、克氏原螯虾、凡纳滨对虾不同组织的超氧化物歧化酶(SOD)同工酶差异。[方法]将供试材料进行预处理后,测定各材料SOD活性,并采用聚丙烯酰胶凝胶电泳分析同工酶差异。[结果]SOD活性存在组织差异和种属差异性;电泳谱带在3种虾类中也存在着明显的差异,其中日本对虾和凡纳滨对虾的SOD的电泳谱带和迁移率较为相似,与克氏原螯虾存在明显不同。[结论]SOD同工酶活性比较可揭示虾类的亲缘关系与起源。     

日本刺沙蚕的生物学特性及其在对虾养殖中的作用

简要介绍了日本刺沙蚕的形态、生态、生长和生殖等生物学特性,并总结了其在对虾养殖中的作用。     

Formation of periphyton biofilm and subsequent biofouling on different substrates in nutrient enriched brackishwater shrimp ponds

Periphyton grown on substrates is known to improve water quality in aquaculture ponds. Five different substrates, (i) bamboo pipe (ii) plastic sheet (iii) polyvinylchloride (PVC) pipe (iv) fibrous scrubber, and, (v) ceramic tile were evaluated for the formation of biofilm in this experiment. The substrates were suspended 25 cm below the water surface. Each type of substrate was collected fortnightly to analyze the abundance and biomass of different periphytic algae and of the biofouling organism. The study was terminated after 60 days due to severe fouling by polychaete. Results showed that pond water nutrients were high on day 60 with mean total ammonia-N, nitrite-N and soluble reactive phosphorus concentrations of 309.6 ± 8.6 μg L^− 1, 26.0 ± 2.7 μg L^− 1 and 87.2 ± 7.1 μg L^− 1 respectively. During the first two weeks the substrates were colonized by 19 periphytic algae. The most abundant family was Bacillariophyta (8 genera) followed by Chlorophyta (7 genera) and Cyanophyta (4 genera). Periphyton colonization on bamboo pipe showed the highest (p < 0.05) biomass in terms of chlorophyll a amongst all the substrates used. The biomass varied from 179 to 1137 μg m^− 2 with mean values of 1137.2 ± 0.6, 929.6 ± 0.6, 684.2 ± 1.2, 179.1 ± 0.6 and 657.0 ± 0.6 μg m^− 2 on bamboo pipe, PVC pipe, plastic sheet, fibrous scrubber and ceramic tile respectively for the first 15 days. From 3rd week, polychaetes began to form tubes on the substrate. By day 60, the whole surface of all substrates was covered with tightly packed polychaete tubes with mean densities of 168.0 ± 15.4, 121.0 ± 13.5, 72.8 ± 9.8, 72.4 ± 7.4 and 56.0 ± 6.8 polychaete tubes cm^− 2 for bamboo, PVC, plastic, fibrous scrubber and ceramic tile respectively. This study illustrated the invasive nature of attached polychaete thus hampering the formation of periphyton biofilm on substrates which could have been used for improving water quality in enriched brackishwater shrimp ponds.     

中国对虾糠虾幼体病原菌（非01群霍乱弧菌）的研究

本文对中国对虾糠虾幼体的一种病原菌———非０１群霍乱弧菌作了研究报道。这种病的症状是病虾运动能力差、趋光性弱、镜检发现肠道肿胀。从垂死病虾中分离到５株细菌，经感染健康糠虾幼体得到与病虾相同症状。５株细菌的４７项形态及生理生化特性与霍乱弧菌相同，但不被０１群霍乱弧菌多价血清凝集。血清学分型结果均为不同的ＶＢＯ血清型ＶＢＯ５，１４，２６，４７，５６。用ＤＮＡ霍乱ＣＴ基因探针菌落原位杂交及小鼠肠结扎法测肠毒素，表明菌株有强毒力。分离菌株对小鼠的ＬＤ５０为１５８×１０８个／只。     

The effects of the decomposition of mangrove leaf litter on water quality, growth and survival of black tiger shrimp (Penaeus monodon Fabricius, 1798)

An experiment was conducted for 8 weeks at the Cantho University, Vietnam, to determine the acceptable level of mangrove leaf litter load and its effect on water quality, growth and survival rate of tiger shrimp (Penaeus monodon). Shrimps were cultured in plastic tanks containing 50 L of brackish water (salinity of 15‰). Leaf litter of Rhizophora apiculata, Avicennia officinalis, Excoecaria agallocha and Acacia auriculiformis were loaded to tanks at rates of 0.0 (control), 0.125, 0.25, 0.5, 1.0 and 2.0 g L^− 1 with and without aeration. Tiger shrimp post-larvae (PL; 0.05 ± 0.01 g) obtained from the shrimp hatchery of Cantho University were stocked at a density of 20 PL per tank and fed with pelleted feed containing 38% protein at a rate of 10% body weight (BW) day^− 1.

The high leaf-loading rates significantly reduced dissolved oxygen (DO) and survival rates of shrimp in the non-aerated treatments, and all shrimps died after 2 days in the treatments with loading rates above 0.5 g L^− 1. Leaf litter loads significantly increased tannin content, chemical oxygen demand (COD), H₂S and pH in the aerated treatments. Stepwise regression analysis showed COD, tannin and H₂S concentrations had negative effects on shrimp growth in the aerated treatments. Tannin concentration was found to be highest in the treatments with Excoecaria (32 mg L^− 1) and Avicennia (24 mg L^− 1) leaves. However, there were no significant differences in growth and survival rates of shrimp among the aerobic treatments loaded with different leaf types. The results of this study showed that moderate load of mangrove leaves could play an important role in promoting shrimp growth and survival in aerobic condition. Mangrove leaves at a loading rate of 1 g L^− 1 positively influenced both the survival and growth rate of shrimps.     

Ex-situ bioremediation of shrimp culture effluent using constructed microbial mats

In coastal countries, marine shrimp industry poses a problem with respect to the waste effluent disposal into the ocean as well as the nearby area. Constructed microbial mats offer an interesting alternative for shrimp culture effluents. The treatment concept relies on the immobilization of natural marine microbial consortium on glass wool to mitigate the levels of dissolved nitrogen from a shrimp culture effluent. Our results indicate that average efficiencies of ammonia nitrogen removal from shrimp (Litopenaeus vannamei) effluent was 97% and 95% for nitrate nitrogen, over a 20 days period of treatment. This treatment via constructed microbial mats is a technically feasible method for simultaneously reducing effluent nutrient loading (especially nitrate and ammonia) and for reducing organic loading (especially BOD₅) of shrimp culture effluents.