Modeling the Oceanographic Impacts on the Spatial Distribution of Common Cephalopods During Autumn in the Yellow Sea

The importance of the role of cephalopods in marine ecosystems and commercial fisheries has increased over recent years. There is now evidence that the distribution of cephalopods is expanding latitudinally. Nevertheless, information about the spatial distribution of cephalopods and its implications...

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Bibliographic Details
Published in:Frontiers in Marine Science 2020-07, Vol.7
Main Authors: Jin, Yue, Jin, Xianshi, Gorfine, Harry, Wu, Qiang, Shan, Xiujuan
Format: Article
Language:English
Subjects:
arithmetic mean method
Autumn
bobtail squid
Cephalopod fisheries
Chlorophyll
Chlorophyll a
Climate change
Coasts
Commercial fishing
Distribution
Fish
Fisheries management
Fishing
Fishing effort
generalized additive model
habitat suitability index
Habitats
Marine ecosystems
Marine fisheries
Marine molluscs
octopus
Polls & surveys
Sea surface
Sea surface temperature
Spatial distribution
squid
Surveying
Surveys
Winter
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Summary:The importance of the role of cephalopods in marine ecosystems and commercial fisheries has increased over recent years. There is now evidence that the distribution of cephalopods is expanding latitudinally. Nevertheless, information about the spatial distribution of cephalopods and its implications in the Yellow Sea (YS) is not well known. In an attempt to redress this deficiency we firstly conducted a simple analysis of geospatial patterns in fishing effort in the YS during 2012–2016 to ascertain if changes in fishing intensity (across all species) might be responsible for creating an apparent latitudinal shift in cephalopod distribution. Although fishing intensity increased in the YS over the five-year period, there are no significant differences among years within each latitude, implying that all latitudes respond in a similar way each year. We then used long-term scientific survey data (2000, 2009, 2014, and 2017) of cephalopods (Todarodes pacificus, Loliolus spp, Octopus variabilis, Octopus ocellatus, Sepiola birostrata, and Euprymna spp) collected each October in the YS, combined with oceanographic variables including sea surface temperature (SST) and chlorophyll-a concentration (CHLA), to model relationships to establish habitat suitability indices (HSI) using both an arithmetic mean method (AMM) and a geometric mean method (GMM). Cross-validation, standard deviation and mean squared error of prediction (MSEP) were used to evaluate the performance of the HSI. Abundance index data from surveys of 2018 were overlaid on maps of predicted HSI for the same year to visualize the correspondence of the modelled HSI. Spatio-temporal mapping of oceanographic variables showed that SST and CHLA change dramatically around 34°N, which may relate to the spatial distribution of cephalopods. CHLA is the most important oceanographic variable for most squid and octopus species while SST is the most important for bobtail squid. The MSEP showed that the AMM-based HSI performed better than the GMM-based HSI. Future studies should take weighting of oceanographic variables into account and ideally integrate them into a more holistic model to obtain increased precision in predictions when establishing HSI.
ISSN:2296-7745
2296-7745
DOI:10.3389/fmars.2020.00432