Role of the western tropical Pacific in the North Pacific regime shift in the winter of 1998/1999

AbstractOcean striations are composed of alternating quasi-zonal band-like flows; this kind of organized structure of currents be found in all world’s oceans and seas. Previous studies have mainly been focused on the mechanisms of their generation and propagation. This study uses the spatial high-pass filtering to obtain the three-dimensional structure of ocean striations in the North Pacific in both the z-coordinate and σ-coordinate based on 10-yr averaged SODA3 data. First, we identify an ideal-fluid potential density domain where the striations are undisturbed by the surface forcing and boundary effects. Second, using the isopycnal layer analysis, we show that on isopycnal surfaces the orientations of striations nearly follow the potential vorticity (PV) contours, while in the meridional-vertical plane the central positions of striations are generally aligned with the latitude of zero gradient of the relative PV. Our analysis provides a simple dynamical interpretation and better understanding for the role of ocean striations.

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The North Pacific Pacemaker Effect on Historical ENSO and Its Mechanisms

Journal of Climate ◽

10.1175/jcli-d-19-0040.1 ◽

2019 ◽

Vol 32 (22) ◽

pp. 7643-7661 ◽

Cited By ~ 4

Author(s):

Dillon J. Amaya ◽

Yu Kosaka ◽

Wenyu Zhou ◽

Yu Zhang ◽

Shang-Ping Xie ◽

...

Keyword(s):

El Niño ◽

North Pacific ◽

El Nino ◽

Southern Oscillation ◽

Deep Convection ◽

Boreal Summer ◽

Enso Events ◽

The North ◽

The North Pacific

Abstract Studies have indicated that North Pacific sea surface temperature (SST) variability can significantly modulate El Niño–Southern Oscillation (ENSO), but there has been little effort to put extratropical–tropical interactions into the context of historical events. To quantify the role of the North Pacific in pacing the timing and magnitude of observed ENSO, we use a fully coupled climate model to produce an ensemble of North Pacific Ocean–Global Atmosphere (nPOGA) SST pacemaker simulations. In nPOGA, SST anomalies are restored back to observations in the North Pacific (>15°N) but are free to evolve throughout the rest of the globe. We find that the North Pacific SST has significantly influenced observed ENSO variability, accounting for approximately 15% of the total variance in boreal fall and winter. The connection between the North and tropical Pacific arises from two physical pathways: 1) a wind–evaporation–SST (WES) propagating mechanism, and 2) a Gill-like atmospheric response associated with anomalous deep convection in boreal summer and fall, which we refer to as the summer deep convection (SDC) response. The SDC response accounts for 25% of the observed zonal wind variability around the equatorial date line. On an event-by-event basis, nPOGA most closely reproduces the 2014/15 and the 2015/16 El Niños. In particular, we show that the 2015 Pacific meridional mode event increased wind forcing along the equator by 20%, potentially contributing to the extreme nature of the 2015/16 El Niño. Our results illustrate the significant role of extratropical noise in pacing the initiation and magnitude of ENSO events and may improve the predictability of ENSO on seasonal time scales.

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Role of the ocean mixed layer processes in the response of the North Pacific winter SST and MLD to global warming in CGCMs

Climate Dynamics ◽

10.1007/s00382-011-1120-3 ◽

2011 ◽

Vol 38 (5-6) ◽

pp. 1181-1190 ◽

Cited By ~ 3

Author(s):

Bo Young Yim ◽

Yign Noh ◽

Sang-Wook Yeh

Keyword(s):

Global Warming ◽

Mixed Layer ◽

North Pacific ◽

Ocean Mixed Layer ◽

The North ◽

The North Pacific

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Linkages between the North Pacific Oscillation and central tropical Pacific SSTs at low frequencies

Climate Dynamics ◽

10.1007/s00382-011-1245-4 ◽

2011 ◽

Vol 39 (12) ◽

pp. 2833-2846 ◽

Cited By ~ 57

Author(s):

Jason C. Furtado ◽

Emanuele Di Lorenzo ◽

Bruce T. Anderson ◽

Niklas Schneider

Keyword(s):

North Pacific ◽

Tropical Pacific ◽

North Pacific Oscillation ◽

Low Frequencies ◽

The North ◽

The North Pacific

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Decadal changes in growth and recruitment of Pacific halibut (Hippoglossus stenolepis)

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/f98-163 ◽

1999 ◽

Vol 56 (2) ◽

pp. 242-252 ◽

Cited By ~ 58

Author(s):

William G Clark ◽

Steven R Hare ◽

Ana M Parma ◽

Patrick J Sullivan ◽

Robert J Trumble

Keyword(s):

North Pacific ◽

Regime Shift ◽

Assessment Model ◽

Individual Growth ◽

Climate Regime ◽

Climate Regime Shift ◽

The North ◽

Pacific Halibut ◽

Hippoglossus Stenolepis ◽

The North Pacific

Since the climate regime shift of 1976-1977 in the North Pacific, the individual growth of Pacific halibut (Hippoglossus stenolepis) has decreased dramatically in Alaska but not in British Columbia. Recruitment has increased dramatically in both areas. The decrease in age-specific vulnerability to commercial longline gear resulted in a persistent underestimation of incoming recruitment by the age-structured assessment method (CAGEAN) that was used to assess the stock. This problem has been corrected by adding temporal trends in growth and fishery selectivity to the assessment model. The recent sustained high level of recruitment at high levels of spawning biomass has erased the previous appearance of strong density dependence in the stock-recruitment relationship and prompted a reduction in the target full-recruitment harvest rate from 30-35 to 20-25%. The climate regime shift affected a number of other stocks of vertebrates and invertebrates in the North Pacific. While the general oceanographic changes have now been identified, the specific biological mechanisms responsible for the observed changes have not.

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The Role of Tropical Mean-State Biases in Modeled Winter Northern Hemisphere El Niño Teleconnections

Journal of Climate ◽

10.1175/jcli-d-19-0668.1 ◽

2020 ◽

Vol 33 (11) ◽

pp. 4751-4768 ◽

Cited By ~ 2

Author(s):

Samantha Ferrett ◽

Matthew Collins ◽

Hong-Li Ren ◽

Bo Wu ◽

Tianjun Zhou

Keyword(s):

Northern Hemisphere ◽

El Niño ◽

North Pacific ◽

El Nino ◽

Teleconnection Pattern ◽

The North ◽

Precipitation Response ◽

The North Pacific ◽

Mean State

AbstractThe role of tropical mean-state biases in El Niño–Southern Oscillation teleconnections in the winter Northern Hemisphere is examined in coupled general circulation models from phase 5 of the Coupled Model Intercomparison Project (CMIP5). The main North Pacific teleconnection pattern, defined here by the strengths of the anomalous Kuroshio anticyclone and North Pacific cyclone, is linked to two anomalous Rossby wave sources that occur during El Niño: a negative source over East Asia and a positive source to the west of the North Pacific. Errors in the teleconnection pattern in models are associated with spatial biases in mean atmospheric ascent and descent and the strength of the corresponding forcing of Rossby waves via suppressed or enhanced El Niño precipitation responses in the tropical western North Pacific (WNP) and the equatorial central Pacific (CP). The WNP El Niño precipitation response is most strongly linked to the strength of the Kuroshio anticyclone and the CP El Niño precipitation response is most strongly linked to the strength of the North Pacific cyclone. The mean state and corresponding El Niño precipitation response can have seemingly distinct biases. A bias in the WNP does not necessarily correspond to a bias in the CP, suggesting that improvement of biases in both tropical WNP and equatorial CP regions should be considered for an accurate teleconnection pattern.

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