Frontiers in Ecology and Evolution (Feb 2023)

Mapping seagrass habitats of potential suitability using a hybrid machine learning model

  • Bohao He,
  • Bohao He,
  • Yanghe Zhao,
  • Yanghe Zhao,
  • Siyu Liu,
  • Siyu Liu,
  • Shahid Ahmad,
  • Shahid Ahmad,
  • Wei Mao,
  • Wei Mao

DOI
https://doi.org/10.3389/fevo.2023.1116083
Journal volume & issue
Vol. 11

Abstract

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Seagrass meadows provide essential ecosystem services globally in the context of climate change. However, seagrass is being degraded at an accelerated rate globally due to ocean warming, ocean acidification, aquaculture, and human activities. The need for more information on seagrasses’ spatial distribution and health status is a serious impediment to their conservation and management. Therefore, we propose a new hybrid machine learning model (RF-SWOA) that integrates the sinusoidal chaos map whale optimization algorithm (SWOA) with a random forest (RF) model to accurately model the suitable habitat of potential seagrasses. This study combines in situ sampling data with multivariate remote sensing data to train and validate hybrid machine learning models. It shows that RF-SWOA can predict potential seagrass habitat suitability more accurately and efficiently than RF. It also shows that the two most important factors affecting the potential seagrass habitat suitability on Hainan Island in China are distance to land (38.2%) and depth to sea (25.9%). This paper not only demonstrates the effectiveness of a hybrid machine learning model but also provides a more accurate machine learning model approach for predicting the potential suitability distribution of seagrasses. This research can help identify seagrass suitability distribution areas and thus develop conservation strategies to restore healthy seagrass ecosystems.

Keywords