Assessing the influence of abiotic factors on small pelagic fish distribution across diverse water layers in the Northwest Pacific Ocean through acoustic methods

•Estimation of small pelagic fish abundance in different water layers from 0 to 200 m using acoustic techniques.•Significant horizontal and vertical distribution of small pelagic fish, which are concentrated in the 0–50 m layer.•Environmental factors affecting small pelagic fish density vary across...

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Bibliographic Details
Published in:Ecological indicators 2024-01, Vol.158, p.111563, Article 111563
Main Authors: Zhu, Zhenhong, Tong, Jianfeng, Xue, Minghua, Sarr, Ousmane, Gao, Tianji
Format: Article
Language:English
Subjects:
Abiotic factors
Acoustic estimation
Different water layers
GAMs
Small pelagic fish
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Summary:•Estimation of small pelagic fish abundance in different water layers from 0 to 200 m using acoustic techniques.•Significant horizontal and vertical distribution of small pelagic fish, which are concentrated in the 0–50 m layer.•Environmental factors affecting small pelagic fish density vary across different water layers.•More attention needs to be paid to the distribution and environmental impact factors of fish in the vertical direction. The Northwest Pacific Ocean is one of the most productive fisheries in the world, with small pelagic fish constituting a substantial portion of its fishery resources. Changes in abiotic factors can affect the distribution of marine fish, but there are limited studies on the relationship between abiotic factors and fish density in a vertical direction. This study used acoustic measurement data collected by the scientific research vessel “Songhang” equipped with a Simrad EK 80 scientific echosounder from June to July 2022, to estimate the small pelagic fish resource density in different water layers from 0 to 200 m. Furthermore, Generalized Additive Models (GAMs) were established for various water layers, combined with remote sensing data such as temperature (Temp), salinity (Sal), net primary productivity (Nppv), as well as latitude (Lat) and longitude (Lon) data, to analyze the influence of abiotic factors on abundance density of small pelagic fish species. The results showed that mean abundance and biomass densities estimated based on the acoustic method were 3.12×105±1.42×106 ind/n mile2 and 5768.39±26224.76 kg/n mile2, respectively. Small pelagic fish resources exhibited a predominant concentration within the 0–50 m layers and displayed a significant accumulation phenomenon near the Kuroshio Extension area in each water layer. The GAMs results indicated that abiotic factors affecting fish density vary across different water layers. Temp and Lon factors appeared in optimal GAMs for all water layers and significantly contributed to fish density. Variations in temperature lead to differences in the vertical distribution of fishery resources. Our results emphasized the necessity of exploring the relationship between abiotic factors and fish density within different water layers. This research can provide scientific support for developing and managing fishery resources in the Northwest Pacific Ocean.
ISSN:1470-160X
1872-7034
DOI:10.1016/j.ecolind.2024.111563