4.8 Article

Physical drivers of the summer 2019 North Pacific marine heatwave

Journal

NATURE COMMUNICATIONS
Volume 11, Issue 1, Pages -

Publisher

NATURE PUBLISHING GROUP
DOI: 10.1038/s41467-020-15820-w

Keywords

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Funding

  1. National Science Foundation Graduate Research Fellowship (NSF) [DGE-1144086]
  2. National Oceanic and Atmospheric Administration (NOAAMAPP) [NA17OAR4310106]
  3. NSF [OCE1600283, OCE1637632, 1637450]
  4. Japan Society for the Promotion of Science [18H01278, 19H05703]
  5. Japan Science and Technology Agency through Belmont Forum CRA InterDec
  6. Japan Ministry of Education, Culture, Sports, Science and Technology through the Integrated Research Program for Advancing Climate Models
  7. Grants-in-Aid for Scientific Research [19H05703] Funding Source: KAKEN

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Summer 2019 observations show a rapid resurgence of the Blob-like warm sea surface temperature (SST) anomalies that produced devastating marine impacts in the Northeast Pacific during winter 2013/2014. Unlike the original Blob, Blob 2.0 peaked in the summer, a season when little is known about the physical drivers of such events. We show that Blob 2.0 primarily results from a prolonged weakening of the North Pacific High-Pressure System. This reduces surface winds and decreases evaporative cooling and wind-driven upper ocean mixing. Warmer ocean conditions then reduce low-cloud fraction, reinforcing the marine heatwave through a positive low-cloud feedback. Using an atmospheric model forced with observed SSTs, we also find that remote SST forcing from the central equatorial and, surprisingly, the subtropical North Pacific Ocean contribute to the weakened North Pacific High. Our multi-faceted analysis sheds light on the physical drivers governing the intensity and longevity of summertime North Pacific marine heatwaves. Marine heatwaves are threatening ocean ecosystems with increasing frequency, but their seasonal drivers are unknown. Here, the authors determine that summertime blobs of warm temperature anomalies in the Pacific occur as a result of prolonged weakening in the North Pacific High-Pressure System.

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