GLORIA — GEOMAR Library Ocean Research Information Access

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Effects of high resolution and spinup time on modeled North Atlantic circulation (2019)

Danek, Christopher ; Scholz, Patrick ; Lohmann, Gerrit

AMER METEOROLOGICAL SOC

In: EPIC3Journal of Physical Oceanography, AMER METEOROLOGICAL SOC, 49(5), pp. 1159-1181, ISSN: 0022-3670

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Publication Date: 2019-06-11

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Reconciling glacial Antarctic water stable isotopes with ice sheet topography and the isotopic paleothermometer (2018)

Werner, Martin ; Jouzel, Jean ; Masson-Delmotte, Valérie ; [et al.]

Springer Nature

In: EPIC3Nature Communications, Springer Nature, 9(3537), ISSN: 2041-1723

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Publication Date: 2018-09-17

Description: Stable water isotope records from Antarctica are key for our understanding of Quaternary climate variations. However, the exact quantitative interpretation of these important climate proxy records in terms of surface temperature, ice sheet height and other climatic changes is still a matter of debate. Here we report results obtained with an atmospheric general circulation model equipped with water isotopes, run at a high-spatial horizontal resolution of one-by-one degree. Comparing different glacial maximum ice sheet reconstructions, a best model data match is achieved for the PMIP3 reconstruction. Reduced West Antarctic elevation changes between 400 and 800 m lead to further improved agreement with ice core data. Our modern and glacial climate simulations support the validity of the isotopic paleothermometer approach based on the use of present-day observations and reveal that a glacial ocean state as displayed in the GLAMAP reconstruction is suitable for capturing the observed glacial isotope changes in Antarctic ice cores.

Repository Name: EPIC Alfred Wegener Institut

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Predicting the June 2013 European Flooding based on Precipitation, Soil Moisture and Sea Level Pressure (2015)

Ionita, Monica ; Dima, Mihai ; Lohmann, Gerrit ; [et al.]

AMER METEOROLOGICAL SOC

In: EPIC3Journal of Hydrometeorology, AMER METEOROLOGICAL SOC, 16(2), pp. 598-614, ISSN: 1525-755X

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Publication Date: 2015-06-05

Description: Over the past decades Europe has experienced heavy floods with major consequences for thousands of people and billions of Euros worth of damage. In particular, the summer 2013 flood in Central Europe showed how vulnerable modern society is to hydrological extremes and emphasizes once more the need for improved forecast methods of such extreme climatic events. Based on a multiple linear regression model, it is shown here that 55% of the June 2013 Elbe River extreme discharge could have been predicted using May precipitation, soil moisture and sea level pressure. Moreover, our model was able to predict more than 75% of the total Elbe River discharge for June 2013 (in terms of magnitude) by incorporating also the amount of precipitation recorded during the days prior the flood, but the predicted discharge for the June 2013 event was still underestimated by 25%. Given that all predictors used in the model are available at the end of each month, the forecast scheme can be used to predict extreme events and to provide early warnings for upcoming floods. The forecast methodology could be efficient for other rivers also, depending on their location and their climatic background.

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Enhanced North Pacific deep-ocean stratification by stronger intermediate water formation during Heinrich Stadial 1 (2019)

Gong, Xun ; Lembke-Jene, Lester ; Lohmann, Gerrit ; [et al.]

Springer Nature

In: EPIC3Nature Communications, Springer Nature, 10(656), ISSN: 2041-1723

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Publication Date: 2021-02-16

Description: The deglacial history of CO2 release from the deep North Pacific remains unresolved. This is due to conflicting indications about subarctic Pacific ventilation changes based on various marine proxies, especially for Heinrich Stadial 1 (HS-1) when a rapid atmospheric CO2 rise occurs. Here, we use a complex Earth System Model to investigate the deglacial North Pacific overturning and its control on ocean stratification. Our results show an enhanced intermediate-to-deep ocean stratification coeval with intensified North Pacific Intermediate Water (NPIW) formation during HS-1, compared to the Last Glacial Maximum. The stronger NPIW formation causes lower salinities and higher temperatures at intermediate depths. By lowering NPIW densities, this enlarges vertical density gradient and thus enhances intermediate-to-deep ocean stratification during HS-1. Physically, this process prevents the North Pacific deep waters from a better communication with the upper oceans, thus prolongs the existing isolation of glacial Pacific abyssal carbons during HS-1.

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