Improving escape efficiency in selective devices with the use of a dark tunnel

IF 1.9 2区 农林科学 Q2 FISHERIES
Mette Munkholm Svantemann, Esther Savina, L. Krag
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Abstract

Despite management efforts, like the implementation of escape panels and openings, unwanted catch remains a challenge in demersal trawl fisheries. Studies report that selectivity in escape panels and openings can be low. We explore the selective potential of a large escape opening placed in the aft of the trawl. We then examine if adding a dark tunnel behind the escape opening can increase the escape efficiency of fish by triggering a station-holding behavior. Our results showed limited escapement through the large escape opening, however, significant for narrow length ranges of some species. Adding the dark tunnel significantly increased the escapement for all analysed species, with escapement up to 70 (40-83)% and 63 (8-93)% for roundfish and flatfish, respectively. As target species, a loss of crustaceans up to 85 (60-96)% highlighted the importance of optimising the integration of the dark tunnel in demersal trawls. Providing the dark tunnel is integrated correctly, our results suggest that currently implemented escape panels and openings with low selective efficiency could be substantially improved by simple means like the dark tunnel.
利用暗道提高选择性设备的逃逸效率
尽管在管理方面做出了努力,如采用逃生板和开口,但无用渔获物仍是底层拖网渔业面临的挑战。研究报告称,逃生板和开口的选择性可能很低。我们探讨了在拖网尾部设置大型逃生口的选择潜力。然后,我们研究了在逃生口后面增加一个暗道是否能通过触发鱼类的滞留行为来提高鱼类的逃生效率。我们的研究结果表明,通过大逃逸口逃逸的鱼类数量有限,但对于某些长度范围较窄的鱼类来说,逃逸效果显著。加入暗道后,所有分析鱼种的逃逸率都明显提高,圆口鱼和比目鱼的逃逸率分别高达 70 (40-83)% 和 63 (8-93)%。作为目标鱼种,甲壳类的损失率高达 85(60-96)%,这凸显了在底栖拖网中优化暗道集成的重要性。我们的研究结果表明,如果暗道整合得当,目前采用的选择效率较低的逃生板和开口可通过暗道等简单方法得到大幅改善。
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来源期刊
Canadian Journal of Fisheries and Aquatic Sciences
Canadian Journal of Fisheries and Aquatic Sciences 农林科学-海洋与淡水生物学
CiteScore
4.60
自引率
12.50%
发文量
148
审稿时长
6-16 weeks
期刊介绍: The Canadian Journal of Fisheries and Aquatic Sciences is the primary publishing vehicle for the multidisciplinary field of aquatic sciences. It publishes perspectives (syntheses, critiques, and re-evaluations), discussions (comments and replies), articles, and rapid communications, relating to current research on -omics, cells, organisms, populations, ecosystems, or processes that affect aquatic systems. The journal seeks to amplify, modify, question, or redirect accumulated knowledge in the field of fisheries and aquatic science.
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