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Using atmospheric model output to simulate the meteorological tsunami response to Tropical Storm Helene (2000) (2009)

Mecking, J. V.

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In: Journal of geophysical research. C, Oceans, Hoboken, NJ : Wiley, 1978, 114(2009), 2169-9291

In: volume:114

In: year:2009

In: extent:16

Description / Table of Contents: In the fall of both 1999 and 2000, unexpected rapid tidesʺ occurred along the coast of the Avalon Peninsula of Newfoundland. These rapid tides have been linked to the passing of Tropical Storm Jose (1999) and Tropical Storm Helene (2000) over the Grand Banks. Here we examine the dynamic ocean response to Tropical Storm Helene (2000) using a barotropic shallow water ocean model forced by atmospheric pressure and surface winds derived from a simulation of Helene using a dynamical model of the atmosphere. The ocean model is able to capture the main features of the observed response at the coast of Newfoundland as seen in the available tide gauge data. Results show that the simulated sea level response at the coast is driven by a combination of wind stress and atmospheric pressure forcing, the former generally dominating. An exception is Conception Bay, Newfoundland, where the response is captured mainly by atmospheric pressure forcing. Offshore near the edge of the Grand Banks, atmospheric pressure and wind stress forcing are equally important. The wind-forced response depends on the divergence of the surface wind stress and hence on the structure of the storm in the atmospheric model simulation. Sensitivity studies show the importance of having a small time interval (on the order of minutes) at which the atmospheric forcing is supplied to the ocean model and show the importance of the location of the storm track.

Type of Medium: Online Resource

Pages: 16 , graph. Darst

ISSN: 2169-9291

DOI: 10.1029/2009JC005290

Language: English

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The possible role in the ocean heat budget of eddy-induced mixing due to air-sea interaction (2007)

Greatbatch, R. J. ; Zhai, X. ; Eden, C. ; [et al.]

In: EPIC3Geophysical Research Letters, 34, L07604

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Publication Date: 2019-07-16

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Problems and Prospects in Large-Scale Ocean Circulation Models (2009)

Griffies, S. M. ; Adcroft, A. J. ; Banks, H. ; [et al.]

In: EPIC3Community White Paper for OceanObs09

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Publication Date: 2019-07-16

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

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Local versus tropical diabatic heating and the winter North Atlantic Oscillation (2007)

Greatbatch, R. J. ; Jung, Thomas

In: EPIC3Journal of Climate, 20, pp. 2058-2075

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Publication Date: 2019-07-17

Repository Name: EPIC Alfred Wegener Institut

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Diagnosing the origin and predictability of extratropical circulation anomalies (2011)

Jung, Thomas ; Ferrant, L. ; Gollan, G. ; [et al.]

In: EPIC3EGU General Assembly, 4.4.2011, Vienna, Austria.

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Publication Date: 2019-07-17

Repository Name: EPIC Alfred Wegener Institut

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An analysis of trends in the boreal winter mean tropospheric circulation during the second half of the 20th century (2012)

Greatbatch, R. J. ; Gollan, G. ; Jung, Thomas

AMER GEOPHYSICAL UNION

In: EPIC3Geophysical Research Letters, AMER GEOPHYSICAL UNION, 39(L13809), ISSN: 0094-8276

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Publication Date: 2019-07-17

Description: A relaxation technique applied to the ECMWF model is used to analyse 11, 21 and 31 year trends in the boreal winter mean 500 hPa North Atlantic Oscillation (NAO), Pacific North America pattern (PNA) and Southern Annular Mode (SAM) indices. For the PNA, the results indicate a strong influence from the tropics on all time scales, whereas for the NAO, the stratosphere is important on time scales of 11 and 21 but with an indication of feedback from extratropical sea surface temperature and sea-ice (SSTSI) anomalies on the 11 year time scale. For the SAM, the tropics emerge as the most important influence. We find an influence from the stratosphere consistent with expectations based on ozone depletion, although no clear role for stratospheric forcing of the SAM is found in these experiments.

Repository Name: EPIC Alfred Wegener Institut

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Interpreting eddy fluxes (2007)

Eden, C. ; Greatbatch, R. J. ; Olbers, Dirk

In: EPIC3Journal of physical oceanography, 37(5), pp. 1282-1296

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Publication Date: 2019-07-16

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Tropical impact on the East-Asian winter monsoon (2012)

Gollan, G. ; Greatbatch, R. J. ; Jung, Thomas

In: EPIC3Geophys. Res. Lett., 39(L17801)

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Publication Date: 2019-07-17

Description: The tropical impact on the East Asian winter monsoon (EAWM) is examined in an ensemble of atmospheric general circulation model runs that use relaxation towards the ERA-40 reanalysis in the tropics for winters between 1960/61 and 2001/02 and performed with a recent version of the European Centre for Medium-Range Weather Forecasts model. 25% of the interannual variance of the EAWM can be reproduced in the ensemble mean by the model experiments with relaxation, even though the influence from ENSO appears to be weak. The implication is that there is the possibility of enhanced predictability for the EAWM resulting from improved forecast skill in the tropics as a whole. Prescribing observed sea surface temperature and sea ice without using relaxation cannot reproduce the interannual variability of the EAWM in our experiments, questioning the usefulness of uncoupled atmosphere models in this region, consistent with previous studies.

Repository Name: EPIC Alfred Wegener Institut

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O2 variance and meridional O2 supply in the Tropical North East Atlantic (2012)

Hahn, Johannes ; Brandt, Peter ; Greatbatch, R. J. ; [et al.]

In: [Talk] In: Tropical Atlantic Variability Meeting, PIRATA-17 Meeting , 10.09.-15.09.2012, Kiel .

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Publication Date: 2019-09-23

Description: The oxygen minimum zone (OMZ) of the tropical North East Atlantic (TNEA) is located in the region between the oxygen-rich equatorial band and the Cape Verde Frontal Zone at about 20°N at a depth of 300 – 600 m. The focus of our study is on the lateral ventilation of the OMZ across its southern boundary. This boundary is characterized by a maximum of the mean meridional oxygen gradient at about 5°N. In this region energetic mesoscale activity with periods from one to two months is present. The interaction of the mesoscale activity with the mean meridional oxygen gradient gives rise to a rich oxygen variance from finescale to mesoscale (O(1km) – O(100km)). An intense measurement program along 23°W cutting through the TNEA OMZ has been executed during recent years. Oxygen variability on time scales of O(1h) to O(1month) was observed with moored optode sensors from PIRATA moorings at 4°N and 11.5°N as well as from moorings located at the equator, 2°N, 5°N and 8°N. High variability of the current field was measured via moored acoustic Doppler current profilers. Additionally, repeat ship sections along the 23°W meridian were performed with standard CTD, oxygen and shipboard current measurements. The observed oxygen variability as a function of depth and latitude shows characteristic patterns consisting of an intermediate maximum at the upper boundary of the OMZ, a decay of oxygen variability with depth in the upper OMZ and a second weaker maximum in the lower OMZ. Comparing latitudes shows, that the oxygen variability at the OMZ core depth is strongest at about 4°N to 5°N and weaker towards the interior OMZ at 8°N and 11.5°N as well as towards the equator. A high-resolution advection-diffusion model was developed to simulate oxygen fluxes as a result of the mesoscale eddy field acting on the mean meridional oxygen gradient. While this model is able to describe the production of oxygen variability on length and time scales as small as O(1km) and O(1h), respectively, it reproduces several characteristics of the observed oxygen variability pattern.

Type: Conference or Workshop Item , NonPeerReviewed

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On the width of the equatorial deep jets and the impact of the barotropic mean flow (2013)

Claus, Martin ; Greatbatch, R. J. ; Brandt, Peter ; [et al.]

In: [Talk] In: Tropical Atlantic Variability Meeting / PIRATA-18 Meeting , 22. - 25.10.2013, Venice, Italy .

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Publication Date: 2013-11-08

Description: The equatorial deep jets (EDJ) are a striking feature of the equatorial ocean circulation. In the Atlantic Ocean, the EDJ are associated with a vertical scale of between 300 and 700 m, a time scale of roughly 4.5 years and upward energy propagation to the surface and thus are contributing to the interannual climate variability in the equatorial Atlantic region. However, it has been found that the meridional width of the EDJ is roughly 1.5 times larger than expected based on their vertical scale. Here a representation of a equatorial basin mode excited in a shallow water model for a single high order baroclinic vertical normal mode is used as a simple model for the EDJ. The model is linearised about both a state of rest and a barotropic mean flow resembling the Atlantic Equatorial Intermediate Current System with eastward flow at roughly 2◦ N and 2◦ S and westward flow in between and poleward of it. We argue that mixing of momentum along isopycnals can explain the enhanced width and a lateral eddy viscosity of 300 m^2 s−1 is found to be sufficient to account for the width implied by observations. The underlying eastward mean flow effectively shields the equator from off-equatorial Rossby waves, blocking the westward propagation of these waves that are generated by the reflection of equatorial Kelvin waves at the eastern boundary.

Type: Conference or Workshop Item , NonPeerReviewed

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