在实验室中评估海鳗幼体 Petromyzon marinus 的生长情况:温度和食物的影响

IF 1.9 4区 农林科学 Q2 FISHERIES
John B. Hume, Skyler Bennis, Tyler Bruning, Margaret F. Docker, Sara Good, Ralph Lampman, Jacques Rinchard, Trisha Searcy, Michael P. Wilkie, Nicholas S. Johnson
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引用次数: 0

摘要

保护性水产养殖为促进环境管理提供了一种手段,在恢复本地物种和限制入侵物种生产方面都很有用。养殖海灯鱼是一项相对较新的工作,其主要目的是生产海灯鱼,以支持恢复不断减少的本地种群。然而,在劳伦森五大湖区,海鳗(Petromyzon marinus)是入侵物种,如果能够获得某些生命阶段的可靠来源,将对控制其种群数量和研究该物种大有裨益。在此,我们采用为恢复太平洋三叉鳗(Entosphenus tridentatus)而开发的方法,研究在实验室条件下饲养海鳗幼体的可行性。在为期 3 个月和 9 个月的两次实验中,我们测试了不同食物来源和水温(环境温度和控制水温)对野生幼体存活和生长的影响。饲养条件对死亡率没有影响,因为两次实验中幼虫的存活率均为 100%。生长受水温的影响很大,22 和 15°C 水温下的平均日生长率最高(0.14 毫米/天-1),8°C 水温下的平均日生长率最低(0.06 毫米/天-1)。每周投喂 3 次酵母饵料(米粉、小麦粉、鱼粉;0.19 和 0.32 克/升-1)时,仅酵母饵料(0.19 和 0.21 克/升-1)的表现优于酵母和其他材料混合物饵料(米粉、小麦粉、鱼粉;0.19 和 0.32 克/升-1)。在三个恒定温度(8、15 和 22°C)下,喂食酵母的幼虫平均日生长量为 0.13 mm-1 和 0.01 g-日-1,而喂食酵母+鱼粉的幼虫平均日生长量为 0.09 mm-1 和 0.01 g-日-1。在环境温度(4-20°C)下,用酵母喂养的幼虫日生长量为 0.15 mm-1,日生长量为 0.01 g-1;用酵母+小麦粉喂养的幼虫日生长量为 0.13 mm-1,日生长量为 0.008 g-1;用酵母+米粉喂养的幼虫日生长量为 0.12 mm-1,日生长量为 0.009 g-1。90 天的实验期足以检测出温度变化对海灯鱼幼体生长的显著影响。总体而言,人工饲养海灯鱼在低密度(31-32 克 m-2 和 17-25 幼体 m-2)条件下似乎是可行的,但在高密度条件下为这些鱼提供充足饲料的最适当方法仍存在不确定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Larval Sea Lamprey Petromyzon marinus Growth in the Laboratory: Influence of Temperature and Diet

Conservation aquaculture provides a means for promoting environmental stewardship, useful both in the context of restoring native species and limiting the production of invasive species. Aquaculture of lampreys is a relatively recent endeavor aimed primarily at producing animals to support the restoration of declining native populations. However, in the Laurentian Great Lakes, where sea lamprey Petromyzon marinus are invasive, the ability to acquire a reliable source of certain life stages would be a significant benefit to those controlling their populations and studying the species. Here, we apply methodologies developed for Pacific lamprey Entosphenus tridentatus restoration to investigate the feasibility of rearing larval sea lamprey under laboratory conditions. In two experiments lasting 3 and 9 months, we tested the effects of different dietary sources and water temperature (ambient and controlled) on the survival and growth of wild-caught larvae. Rearing conditions had no effect on mortality, as larval survival was 100% in both experiments. Growth was significantly affected by water temperature, with the highest average daily growth rates observed at 22 and 15°C (0.14 mm day−1) and lowest at 8°C (0.06 mm day−1). Diets of yeast alone (0.19 and 0.21 g L−1) performed better than those comprising a mixture of yeast and other material when fed 3 times weekly (rice flour, wheat flour, fish meal; 0.19 and 0.32 g L−1). Averaged across the three constant temperatures (8, 15, and 22°C), larvae fed on yeast grew 0.13 mm day−1 and 0.01 g day−1, whereas on yeast + fish meal, they grew 0.09 mm day−1 and 0.01 g day−1. At ambient temperature (4–20°C), larvae fed on yeast grew 0.15 mm day−1 and 0.01 g day−1, whereas those fed on yeast + wheat flour grew 0.13 mm day−1 and 0.008 g day−1 and those fed on yeast + rice flour grew 0.12 mm day−1 and 0.009 g day−1. An experimental duration of 90 days was sufficient to detect significant changes to larval sea lamprey growth stemming from temperature variation. Overall, rearing of sea lamprey in captivity appears feasible at low density (31–32 g m−2 and 17–25 larvae m−2), but uncertainties remain regarding the most appropriate means of providing adequate feed for these fish in high-density conditions.

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来源期刊
Aquaculture Research
Aquaculture Research 农林科学-渔业
CiteScore
4.60
自引率
5.00%
发文量
464
审稿时长
5.3 months
期刊介绍: International in perspective, Aquaculture Research is published 12 times a year and specifically addresses research and reference needs of all working and studying within the many varied areas of aquaculture. The Journal regularly publishes papers on applied or scientific research relevant to freshwater, brackish, and marine aquaculture. It covers all aquatic organisms, floristic and faunistic, related directly or indirectly to human consumption. The journal also includes review articles, short communications and technical papers. Young scientists are particularly encouraged to submit short communications based on their own research.
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