Frontiers in Marine Science (Nov 2021)

A Deep Learning Model to Recognize and Quantitatively Analyze Cold Seep Substrates and the Dominant Associated Species

  • Haining Wang,
  • Haining Wang,
  • Haining Wang,
  • Xiaoxue Fu,
  • Chengqian Zhao,
  • Zhendong Luan,
  • Zhendong Luan,
  • Zhendong Luan,
  • Zhendong Luan,
  • Chaolun Li,
  • Chaolun Li,
  • Chaolun Li,
  • Chaolun Li

DOI
https://doi.org/10.3389/fmars.2021.775433
Journal volume & issue
Vol. 8

Abstract

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Characterizing habitats and species distribution is important to understand the structure and function of cold seep ecosystems. This paper develops a deep learning model for the fast and accurate recognition and classification of substrates and the dominant associated species in cold seeps. Considering the dense distribution of the dominant associated species and small objects caused by overlap in cold seeps, the feature pyramid network (FPN) embed into the faster region-convolutional neural network (R-CNN) was used to detect large-scale changes and small missing objects without increasing the number of calculations. We applied three classifiers (Faster R-CNN + FPN for mussel beds, lobster clusters and biological mixing, CNN for shell debris and exposed authigenic carbonates, and VGG16 for reduced sediments and muddy bottom) to improve the recognition accuracy of substrates. The model’s results were manually verified using images obtained in the Formosa cold seep during a 2016 cruise. The recognition accuracy of the two dominant species, e.g., Gigantidas platifrons and Munidopsidae could be 70.85 and 56.16%, respectively. Seven subcategories of substrates were also classified with a mean accuracy of 74.87%. The developed model is a promising tool for the fast and accurate characterization of substrates and epifauna in cold seeps, which is crucial for large-scale quantitative analyses.

Keywords