Ecosphere (Dec 2019)

The hunt for red tides: Deep learning algorithm forecasts shellfish toxicity at site scales in coastal Maine

  • Isabella Grasso,
  • Stephen D. Archer,
  • Craig Burnell,
  • Benjamin Tupper,
  • Carlton Rauschenberg,
  • Kohl Kanwit,
  • Nicholas R. Record

DOI
https://doi.org/10.1002/ecs2.2960
Journal volume & issue
Vol. 10, no. 12
pp. n/a – n/a

Abstract

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Abstract Farmed and wild harvest shellfish industries are increasingly important components of coastal economies globally. Disruptions caused by harmful algal blooms (HABs), colloquially known as red tides, are likely to worsen with increasing aquaculture production, environmental pressures of coastal development, and climate change, necessitating improved HAB forecasts at finer spatial and temporal resolution. We leveraged a dataset of chemical analytical toxin measurements in coastal Maine to demonstrate a new machine learning approach for high‐resolution forecasting of paralytic shellfish toxin accumulation. The forecast used a deep learning neural network to provide weekly site‐specific forecasts of toxicity levels. The algorithm was trained on images constructed from a chemical fingerprint at each site composed of a series of toxic compound measurements. Under various forecasting configurations, the forecast had high accuracy, generally >95%, and successfully predicted the onset and end of nearly all closure‐level toxic events at the site scale at a one‐week forecast time. Tests of forecast range indicated a decline in accuracy at a three‐week forecast time. Results indicate that combining chemical analytical measurements with new machine learning tools is a promising way to provide reliable forecasts at the spatial and temporal scales useful for management and industry.

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