放养密度对日本鳗鲡夏秋两季养殖水质及营养品质的影响

STOCKING DENSITY ON WATER QUALITY AND NUTRITIONAL QUALITY OF ANGUILLA JAPONICA IN SUMMER AND AUTUMN

  • 摘要: 研究以日本鳗鲡(Anguilla japonica)为研究对象, 分夏秋两季, 调查并讨论了放养密度对养殖鱼水质和营养品质变化的影响。夏季低密度组放养密度分别为1.51 (1号塘)、1.50 (2号塘)和1.49 kg/m2 (3号塘), 高密度组分别为2.17 (4号塘)、2.14 (5号塘)和2.13 kg/m2 (6号塘)。秋季低密度组放养密度分别为1.74 (Ⅰ号塘)、1.72 (Ⅱ号塘)和1.75 kg/m2 (Ⅲ号塘), 高密度组分别为2.36 (Ⅳ号塘)、2.34(Ⅴ号塘)和2.36 kg/m2 (Ⅵ号塘)。两次分别从每个养殖塘采集5份水样, 每个密度组养殖塘随机采集4尾日本鳗鲡。结果显示: 两季高密度塘水体透明度和溶氧显著低于低密度塘(P<0.05), 总氮、总磷、氨氮、亚硝酸盐、COD、叶绿素a指标显著高于低密度塘(P<0.05), 硅藻门、绿藻门、蓝藻门密度均大于低密度塘一个数量级, 且经统计分析, 夏季高密度组的蓝藻门密度显著高于低密度组(P<0.05)。此外, 高密度塘水体菌群Shannon指数显著低于低密度塘, Simpson指数则相反(P<0.05)。在门水平上, 经统计分析, 夏秋两季高密度组放线菌门均显著低于低密度组(P<0.05); 而夏季高密度组变形菌门极显著高于低密度组(P<0.01); 秋季拟杆菌门显著高于低密度组(P<0.05)。在营养品质方面, 日本鳗鲡肌肉的硬度、剪切力、咀嚼性、回复性参数及粗脂肪和粗蛋白含量均显著小于低密度塘(P<0.05); 水分含量显著高于低密度塘(P<0.05)。综上, 高密度与低密度塘相比, 水质指标、藻类组成、菌群多样性及鱼体质构、营养成分等指标中大部分参数呈现一致性负面影响, 共同构成日本鳗鲡品质与养殖环境的敏感参数。此外, 夏季日本鳗鲡放养密度为2.13—2.17 kg/m2水质呈现富营养化及轻度污染状态。

     

    Abstract: This research aimed to investigate the influence of stocking density on the nutrient and water quality parameters of cultured Anguilla japonica in summer and autumn. The stocking densities of the low-density group in summer were 1.51 (pond 1), 1.50 (pond 2) and 1.49 kg/m2 (pond 3), while those of the high-density group were 2.17 (pond 4), 2.14 (pond 5) and 2.13 kg/m2 (pond 6), respectively. The stocking densities were 1.74 (pond Ⅰ), 1.72 (pond Ⅱ) and 1.75 kg/m2 (pond Ⅲ) for the low-density group and 2.36 (pond Ⅳ), 2.34 (pond Ⅴ) and 2.36 kg/m2 (pond Ⅵ) for the high-density group in autumn. Each time, five water samples and four eels were collected from each pond and each density groups, respectively. The results showed that high-density ponds exhibited lower water transparency and dissolved oxygen levels compared to that of low-density ponds (P<0.05). Moreover, high-density ponds had higher levels of nitrogen, phosphorus, ammonia, nitrite, chemical oxygen demand, and Chlorophyll a than that of their low-density counterparts (P<0.05). Bacillariophyte, Chlorophyll, and Cyanophyte were found to be ten times more abundant in high-density ponds. The Shannon index of bacteria decreased in high-density ponds while the Simpson index was the opposite. Actinobacteria in high-density group was significantly lower than that of low-density group in both seasons (P<0.05). Proteobacteria was significantly higher than that of low-density group in the summer (P<0.01), while Bacteroides was significantly higher than that of low-density group in autumn (P<0.05). In terms of nutritional quality, muscle firmness, shear force, chewiness, reparability parameters and crude fat and crude protein contents of Japanese eels in high-density group were significantly lower than those in low-density ponds (P<0.05), while the moisture content was the opposite (P<0.05). In conclusion, compared to low-density ponds, parameters like water quality index, algal composition, bacterial diversity, fish body composition and nutrient content in high-density group showed negative effects, which together constituted the sensitive parameters of Japanese eel quality and its culture environment. Moreover, 2.13—2.17 kg/m2 in summer seems to be an inappropriate density, which caused eutrophication and mild pollution in this study.

     

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