Environmental Research Letters (Jan 2022)

Wintertime marine extreme temperature events modulate phytoplankton blooms in the North Pacific through subtropical mode water

  • Yong-Jin Tak,
  • Hajoon Song,
  • Jong-Yeon Park

DOI
https://doi.org/10.1088/1748-9326/ac8e8a
Journal volume & issue
Vol. 17, no. 9
p. 094040

Abstract

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Marine extreme temperature events (METs), including marine heatwaves (MHWs) and cold spells, have recently gained much attention owing to their vital influence on the marine ecosystem and social economy. Since METs can alter the upper ocean stratification and wintertime convective mixing in the northwestern North Pacific subtropical gyre (NPSG), their activities may modulate phytoplankton blooms by regulating entrainment of the subtropical mode water (STMW) with high NO $_{3}^{-}$ . Furthermore, because STMW formed in the previous winter reemerges east of its formation site in the following winter, the METs activities imprinted in STMW affect phytoplankton blooms remote from its formation site. Here, we examined the relationship between the MET activities, STMW volume, and phytoplankton blooms using satellite observations and a data-assimilative coupled physical-biogeochemical model dataset. MET activities appearing in the STMW formation region during winter regulate the formation of STMW and the supply of NO $_{3}^{-}$ from the subsurface, with the latter controlling the spring/autumn blooms in that region under NO $_{3}^{-}$ -limited conditions. Subsequently, this water mass is transported eastward in the subsurface within the northern flank of the NPSG before reemerging east of the STMW formation site the following spring. This process results in a negative lag-correlation between MET activities and surface chlorophyll in the reemergence region; for example, MHWs in winter at the STMW formation site tend to lower the surface chlorophyll concentration one year later in the reemergence region. Our study suggests that the oceanic processes allow one year of predictability of the marine ecosystems by monitoring METs in the STMW formation site.

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