Scientific Reports (Feb 2024)

Widespread and increasing near-bottom hypoxia in the coastal ocean off the United States Pacific Northwest

  • John A. Barth,
  • Stephen D. Pierce,
  • Brendan R. Carter,
  • Francis Chan,
  • Anatoli Y. Erofeev,
  • Jennifer L. Fisher,
  • Richard A. Feely,
  • Kym C. Jacobson,
  • Aimee A. Keller,
  • Cheryl A. Morgan,
  • John E. Pohl,
  • Leif K. Rasmuson,
  • Victor Simon

DOI
https://doi.org/10.1038/s41598-024-54476-0
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 11

Abstract

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Abstract The 2021 summer upwelling season off the United States Pacific Northwest coast was unusually strong leading to widespread near-bottom, low-oxygen waters. During summer 2021, an unprecedented number of ship- and underwater glider-based measurements of dissolved oxygen were made in this region. Near-bottom hypoxia, that is dissolved oxygen less than 61 µmol kg−1 and harmful to marine animals, was observed over nearly half of the continental shelf inshore of the 200-m isobath, covering 15,500 square kilometers. A mid-shelf ribbon with near-bottom, dissolved oxygen less than 50 µmol kg−1 extended for 450 km off north-central Oregon and Washington. Spatial patterns in near-bottom oxygen are related to the continental shelf width and other features of the region. Maps of near-bottom oxygen since 1950 show a consistent trend toward lower oxygen levels over time. The fraction of near-bottom water inshore of the 200-m isobath that is hypoxic on average during the summer upwelling season increases over time from nearly absent (2%) in 1950–1980, to 24% in 2009–2018, compared with 56% during the anomalously strong upwelling conditions in 2021. Widespread and increasing near-bottom hypoxia is consistent with increased upwelling-favorable wind forcing under climate change.