A study on the effect of feed load on mortality of Pacific white shrimp Litopenaeus vannamei

IF 1.1 Q3 FISHERIES
Fazeel Mohammed, Paul Gabbadon, Tahmina Ajmal, Martin S. Goodchild
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Abstract

In recirculating aquaculture systems (RAS), understanding the relationship between feed load and its impact on water quality and overall shrimp health is important. This study utilised an indoor marine RAS for the intensive culture of Pacific white shrimp Litopenaeus vannamei. The shrimp were stocked into the grow-out system at an average body weight of 0.25 g and a stocking density of 347 shrimp/m3. Water quality parameters of temperature, salinity, total dissolved solids, pH, and dissolved oxygen (DO) were measured twice daily. Total ammonia nitrogen (TAN), nitrite and nitrate were measured once weekly or when needed. Sampling was conducted to calculate the daily feed ratio based on the total estimated biomass. Mortality was recorded as a means of evaluating the overall shrimp health. The data obtained were analysed using Pearson correlation (r) analysis and multi-linear regression with a significant difference accepted p < 0.05. Correlation (r) established relationships among the water quality parameters, feed load and mortality. The TAN level of 24.20 mg/L was recorded when the feed load increased by 81.2% resulting in the mortality of 40% of shrimp. A negative correlation between TAN and DO resulted in a synergistic effect causing a massive consumption of DO in the water, reducing its availability to the shrimp and leading to a drastic change in the shrimp's behaviour. Overfeeding can lead to an accumulation of uneaten feed and waste, causing ammonia spikes and oxygen depletion in the water. Monitoring and adjusting feed rates accordingly can help maintain optimal water conditions for shrimp growth and health. Therefore, it is essential to use appropriate feed rates in recirculating systems because feed load can influence water quality parameters that can be detrimental to shrimp culture.

Abstract Image

饲料负荷对太平洋南美白对虾死亡率影响的研究
在再循环水产养殖系统(RAS)中,了解饲料负荷及其对水质和对虾整体健康的影响之间的关系非常重要。本研究利用室内海水 RAS 集约化养殖太平洋南美白对虾(Litopenaeus vannamei)。虾的平均体重为 0.25 克,放养密度为 347 只/立方米。水质参数包括温度、盐度、溶解固体总量、pH 值和溶解氧(DO),每天测量两次。每周或在需要时测量一次总氨氮(TAN)、亚硝酸盐和硝酸盐。根据估计的总生物量进行采样,以计算每日饲料比率。记录死亡率作为评估对虾总体健康状况的一种手段。利用皮尔逊相关性(r)分析和多线性回归对所获得的数据进行了分析,并接受了 p < 0.05 的显著差异。相关性(r)确定了水质参数、饲料负荷和死亡率之间的关系。当饲料量增加 81.2% 时,TAN 水平为 24.20 mg/L,导致 40% 的对虾死亡。TAN 与溶解氧之间的负相关会产生协同效应,导致大量消耗水中的溶解氧,减少对虾的可用性,并导致对虾的行为发生急剧变化。过度投喂会导致未吃完的饲料和废物堆积,造成氨气飙升和水中氧气耗尽。监测并相应调整喂食量有助于保持对虾生长和健康的最佳水质条件。因此,在循环系统中使用适当的饲料量至关重要,因为饲料量会影响水质参数,从而对对虾养殖不利。
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