GLORIA — GEOMAR Library Ocean Research Information Access

1

Book

Acoustic detection of greenhouse-induced climate changes in the presence of natural variability (1991)

Mikolajewicz, Uwe

Hamburg : Max-Planck-Institut für Meteorologie

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Type of Medium: Book

Pages: 37, 6 S , zahlr. graphische Darst., Kt

Series Statement: Report / Max-Planck-Institut für Meteorologie 69

Language: English

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GEOMAR CATALOGUE

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2

Book

Modal structure of variations in the tropical climate system (1992)

Latif, Mojib 1954- ; Barnett, Tim P. ; Mizuno, Keisuke

Hamburg : Max-Planck-Inst. für Meteorologie

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Type of Medium: Book

Series Statement: Report / Max-Planck-Institut für Meteorologie ...

Language: Undetermined

Note: Literaturangaben. - Pt. 1 verf. von M. Latif ; T. P. Barnett ; K. Mizuno

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3

Electronic Resource

Interdecadal variability of the Pacific Ocean: model response to observed heat flux and wind stress anomalies (1994)

Miller, Arthur J ; Cayan, Daniel R ; Barnett, Tim P ; [et al.]

Springer

Climate dynamics 9 (1994), S. 287-302

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ISSN: 1432-0894

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract. Variability of the Pacific Ocean is examined in numerical simulations with an ocean general circulation model forced by observed anomalies of surface heat flux, wind stress and turbulent kinetic energy (TKE) over the period 1970–88. The model captures the 1976–77 winter time climate shift in sea surface temperature, as well as its monthly, seasonal and longer term variability as evidenced in regional time series and empirical orthogonal function analyses. Examination of the surface mixed-layer heat budget reveals that the 1976–77 shift was caused by a unique concurrance of sustained heat flux input anomalies and very strong horizontal advection anomalies during a multi-month period preceding the shift in both the central Pacific region (where cooling occurred) and the California coastal region (where warming occurred). In the central Pacific, the warm conditions preceding and the cold conditions following the shift tend to be maintained by anomalous vertical mixing due to increases in the atmospheric momentum flux (TKE input) into the mixed layer (which deepens in the model after the shift) from the early 1970s to the late 1970s and 1980s. Since the ocean model does not contain feedback to the atmosphere and it succeeds in capturing the major features of the 1976–77 shift, it appears that the midlatitude part of the shift was driven by the atmosphere, although effects of midlatitude ocean-atmosphere feedback are still possible. The surface mixed-layer heat budget also reveals that, in the central Pacific, the effects of heat flux input and vertical mixing anomalies are comparable in amplitude while horizontal advection anomalies are roughly half that size. In the California coastal region, in contrast, where wind variability is much weaker than in the central Pacific, horizontal advection and vertical mixing effects on the mixed-layer heat budget are only one-quarter the size of typical heat flux input anomalies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003820050026

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Paper (German National Licenses)

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4

Electronic Resource

Interdecadal variability of the Pacific Ocean: model response to observed heat flux and wind stress anomalies (1994)

Miller, Arthur J ; Cayan, Daniel R ; Barnett, Tim P ; [et al.]

Springer

Climate dynamics 9 (1994), S. 287-302

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Details

ISSN: 1432-0894

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract Variability of the Pacific Ocean is examined in numerical simulations with an ocean general circulation model forced by observed anomalies of surface heat flux, wind stress and turbulent kinetic energy (TKE) over the period 1970-88. The model captures the 1976-77 winter time climate shift in sea surface temperature, as well as its monthly, seasonal and longer term variability as evidenced in regional time series and empirical orthogonal function analyses. Examination of the surface mixed-layer heat budget reveals that the 1976-77 shift was caused by a unique concurrance of sustained heat flux input anomalies and very strong horizontal advection anomalies during a multi-month period preceding the shift in both the central Pacific region (where cooling occurred) and the California coastal region (where warming occurred). In the central Pacific, the warm conditions preceding and the cold conditions following the shift tend to be maintained by anomalous vertical mixing due to increases in the atmospheric momentum flux (TKE input) into the mixed layer (which deepens in the model after the shift) from the early 1970s to the late 1970s and 1980s. Since the ocean model does not contain feedback to the atmosphere and it succeeds in capturing the major features of the 1976-77 shift, it appears that the midlatitude part of the shift was driven by the atmosphere, although effects of midlatitude ocean-atmosphere feedback are still possible. The surface mixed-layer heat budget also reveals that, in the central Pacific, the effects of heat flux input and vertical mixing anomalies are comparable in amplitude while horizontal advection anomalies are roughly half that size. In the California coastal region, in contrast, where wind variability is much weaker than in the central Pacific, horizontal advection and vertical mixing effects on the mixed layer heat budget are only one-quarter the size of typical heat flux input anomalies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00204744

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5

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Decadal climate variability over the North Pacific and North America: dynamics and predictability [abstract] (2021)

Latif, Mojib ; Barnett, Tim P.

In: http://aquaticcommons.org/id/eprint/15773 | 8 | 2014-12-01 20:54:49 | 15773

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Publication Date: 2021-07-10

Description: EXTRACT (SEE PDF FOR FULL ABSTRACT):The dynamics and predictability of decadal climate variability over the North Pacific and North America are investigated by analyzing various observational datasets and the output of a state-of-the-art coupled ocean-atmosphere general circulation model, which was integrated for 120 years.

Keywords: Atmospheric Sciences ; Oceanography ; PACLIM

Repository Name: AquaDocs

Type: conference_item

Format: application/pdf

Format: 51-51

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6

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Interdecadal interactions between the tropics and midlatitudes in the Pacific Basin (1999)

Barnett, Tim P. ; Pierce, David W. ; Latif, Mojib ; [et al.]

AGU (American Geophysical Union)

In: Geophysical Research Letters, 26 (5). p. 615.

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Publication Date: 2018-02-13

Description: Analysis of global climate model simulations and observations suggest decadal, midlatitude changes in and over the North Pacific cause decadal modulation of the El Niño‐Southern Oscillation. This coupling between the two geographic regions is via atmospheric, not oceanographic, teleconnections. In essence, large scale changes in the circulation of the atmosphere over the Pacific Basin, while largest in midlatitudes, have a significant projection onto the wind field overlying the equatorial regions. These low frequency wind changes precondition the mean state of the thermocline in the equatorial ocean to produce prolonged periods of enhanced or reduced ENSO activity. The midlatitude variability that drives equatorial impacts is of stochastic origin and, although the magnitude of the signal is enhanced by ocean processes, likely unpredictable.

Type: Article , PeerReviewed

Format: text

DOI: 10.1029/1999GL900042

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7

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Connections between the Pacific Ocean Tropics and Midlatitudes on Decadal Timescales (2000)

Pierce, David W. ; Barnett, Tim P. ; Latif, Mojib

AMS (American Meteorological Society)

In: Journal of Climate, 13 (6). pp. 1173-1194.

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Publication Date: 2018-07-24

Description: Connections between the tropical and midlatitude Pacific on decadal timescales are examined using a 137-yr run of a fully coupled ocean–atmosphere general circulation model. It is shown that the model does a credible job of simulating both ENSO-scale and decadal-scale variability, and that there are statistically significant correlations between the midlatitudes and Tropics on decadal timescales. Three physical mechanisms linking the regions are examined: 1) Oceanic advection along isopycnal surfaces from the midlatitude subduction regions to the Tropics, 2) coastally trapped or Kelvin wave propagation between the Tropics and midlatitudes, and 3) near-simultaneous communication between the regions affected by changes in the atmosphere. It is found that communication via the atmosphere explains the strongest correlations found in the model. Further evidence is presented that is consistent with the idea that midlatitude sea surface temperature anomalies drive changes in the trade wind system that alter the east–west slope of the tropical thermocline, thereby effecting decadal-timescale changes in ENSO activity.

Type: Article , PeerReviewed

Format: text

DOI: 10.1175/1520-0442(2000)013〈1173:CBTPOT〉2.0.CO;2

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8

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Pacific thermocline bridge revisited (1999)

Schneider, Niklas ; Venzke, Stephan ; Miller, Arthur J. ; [et al.]

AGU (American Geophysical Union)

In: Geophysical Research Letters, 26 (9). p. 1329.

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Publication Date: 2018-02-13

Description: The coupling on decadal time scales of the mid‐latitude and tropical Pacific via an oceanic ‘bridge’ in the thermocline is investigated using ocean general circulation model hindcasts and a coupled ocean atmosphere model. Results indicate that in the tropics decadal anomalies of isopycnal depth are forced by Ekman pumping and are largely independent of the arrival of subducted anomalies in the thermocline that originate in the mid‐latitudes of either hemisphere. In the coupled model, temperature anomalies on isopycnals show little coupling from the tropics to the northern hemisphere, but are lag correlated between southern hemisphere mid‐ and low‐latitudes. However, anomaly magnitudes on the equator are small. These results suggest that the oceanic ‘bridge’ to the northern hemisphere explains only a small part of the observed decadal variance in the equatorial Pacific. Coupling to the southern mid‐latitudes via temperature anomalies on isopycnals remains an intriguing possibility.

Type: Article , PeerReviewed

Format: text

DOI: 10.1029/1999GL900222

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