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Monograph available for loan

Intense Atmospheric Vortices : proceedings of the Joint Symposium (IUTAM/IUGG) held at Reading (United Kingdom) July 14-17, 1981 (1982)

Joint Symposium (IUTAM/IUGG) Reading 1981.07.14-17 ; Bengtsson, Lennart [Hrsg.]

Berlin [u.a.] : Springer

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Call number: MOP 45580 / Mitte

Type of Medium: Monograph available for loan

Pages: XII, 326 S. : Ill., graph. Darst.

ISBN: 3540116575 , 0-387-11657-5

Series Statement: Topics in atmospheric and oceanographic sciences

Location: MOP - must be ordered

Branch Library: GFZ Library

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The Early Twentieth-Century Warming in the Arctic—A Possible Mechanism (2004)

Bengtsson, Lennart ; Semenov, Vladimir A. ; Johannessen, Ola M.

American Meteorological Society

In: Journal of Climate. 2004; 17(20): 4045-4057. Published 2004 Oct 01. doi: 10.1175/1520-0442(2004)017〈4045:tetwit〉2.0.co;2.

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Publication Date: 2004-10-01

Print ISSN: 0894-8755

Electronic ISSN: 1520-0442

Topics: Geography , Geosciences , Physics

Published by American Meteorological Society

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Storm Tracks and Climate Change (2006)

Bengtsson, Lennart ; Hodges, Kevin I. ; Roeckner, Erich

American Meteorological Society

In: Journal of Climate. 2006; 19(15): 3518-3543. Published 2006 Aug 01. doi: 10.1175/jcli3815.1.

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Publication Date: 2006-08-01

Description: Extratropical and tropical transient storm tracks are investigated from the perspective of feature tracking in the ECHAM5 coupled climate model for the current and a future climate scenario. The atmosphere-only part of the model, forced by observed boundary conditions, produces results that agree well with analyses from the 40-yr ECMWF Re-Analysis (ERA-40), including the distribution of storms as a function of maximum intensity. This provides the authors with confidence in the use of the model for the climate change experiments. The statistical distribution of storm intensities is virtually preserved under climate change using the Intergovernmental Panel on Climate Change (IPCC) Special Report on Emissions Scenarios (SRES) A1B scenario until the end of this century. There are no indications in this study of more intense storms in the future climate, either in the Tropics or extratropics, but rather a minor reduction in the number of weaker storms. However, significant changes occur on a regional basis in the location and intensity of storm tracks. There is a clear poleward shift in the Southern Hemisphere with consequences of reduced precipitation for several areas, including southern Australia. Changes in the Northern Hemisphere are less distinct, but there are also indications of a poleward shift, a weakening of the Mediterranean storm track, and a strengthening of the storm track north of the British Isles. The tropical storm tracks undergo considerable changes including a weakening in the Atlantic sector and a strengthening and equatorward shift in the eastern Pacific. It is suggested that some of the changes, in particular the tropical ones, are due to an SST warming maximum in the eastern Pacific. The shift in the extratropical storm tracks is shown to be associated with changes in the zonal SST gradient in particular for the Southern Hemisphere.

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Topics: Geography , Geosciences , Physics

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Impact of Duration Thresholds on Atlantic Tropical Cyclone Counts* (2010)

Landsea, Christopher W. ; Vecchi, Gabriel A. ; Bengtsson, Lennart ; [et al.]

American Meteorological Society

In: Journal of Climate. 2010; 23(10): 2508-2519. Published 2010 May 15. doi: 10.1175/2009jcli3034.1.

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Publication Date: 2010-05-15

Description: Records of Atlantic basin tropical cyclones (TCs) since the late nineteenth century indicate a very large upward trend in storm frequency. This increase in documented TCs has been previously interpreted as resulting from anthropogenic climate change. However, improvements in observing and recording practices provide an alternative interpretation for these changes: recent studies suggest that the number of potentially missed TCs is sufficient to explain a large part of the recorded increase in TC counts. This study explores the influence of another factor—TC duration—on observed changes in TC frequency, using a widely used Atlantic hurricane database (HURDAT). It is found that the occurrence of short-lived storms (duration of 2 days or less) in the database has increased dramatically, from less than one per year in the late nineteenth–early twentieth century to about five per year since about 2000, while medium- to long-lived storms have increased little, if at all. Thus, the previously documented increase in total TC frequency since the late nineteenth century in the database is primarily due to an increase in very short-lived TCs. The authors also undertake a sampling study based upon the distribution of ship observations, which provides quantitative estimates of the frequency of missed TCs, focusing just on the moderate to long-lived systems with durations exceeding 2 days in the raw HURDAT. Upon adding the estimated numbers of missed TCs, the time series of moderate to long-lived Atlantic TCs show substantial multidecadal variability, but neither time series exhibits a significant trend since the late nineteenth century, with a nominal decrease in the adjusted time series. Thus, to understand the source of the century-scale increase in Atlantic TC counts in HURDAT, one must explain the relatively monotonic increase in very short-duration storms since the late nineteenth century. While it is possible that the recorded increase in short-duration TCs represents a real climate signal, the authors consider that it is more plausible that the increase arises primarily from improvements in the quantity and quality of observations, along with enhanced interpretation techniques. These have allowed National Hurricane Center forecasters to better monitor and detect initial TC formation, and thus incorporate increasing numbers of very short-lived systems into the TC database.

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Topics: Geography , Geosciences , Physics

Published by American Meteorological Society

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Projection of Global Wave Climate Change toward the End of the Twenty-First Century (2012)

Semedo, Alvaro ; Weisse, Ralf ; Behrens, Arno ; [et al.]

American Meteorological Society

In: Journal of Climate. 2012; 26(21): 8269-8288. Published 2012 Nov 01. doi: 10.1175/jcli-d-12-00658.1.

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Publication Date: 2012-11-01

Description: Wind-generated waves at the sea surface are of outstanding importance for both their practical relevance in many aspects, such as coastal erosion, protection, or safety of navigation, and for their scientific relevance in modifying fluxes at the air–sea interface. So far, long-term changes in ocean wave climate have been studied mostly from a regional perspective with global dynamical studies emerging only recently. Here a global wave climate study is presented, in which a global wave model [Wave Ocean Model (WAM)] is driven by atmospheric forcing from a global climate model (ECHAM5) for present-day and potential future climate conditions represented by the Intergovernmental Panel for Climate Change (IPCC) A1B emission scenario. It is found that changes in mean and extreme wave climate toward the end of the twenty-first century are small to moderate, with the largest signals being a poleward shift in the annual mean and extreme significant wave heights in the midlatitudes of both hemispheres, more pronounced in the Southern Hemisphere and most likely associated with a corresponding shift in midlatitude storm tracks. These changes are broadly consistent with results from the few studies available so far. The projected changes in the mean wave periods, associated with the changes in the wave climate in the middle to high latitudes, are also shown, revealing a moderate increase in the equatorial eastern side of the ocean basins. This study presents a step forward toward a larger ensemble of global wave climate projections required to better assess robustness and uncertainty of potential future wave climate change.

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Will Extratropical Storms Intensify in a Warmer Climate? (2009)

Bengtsson, Lennart ; Hodges, Kevin I. ; Keenlyside, Noel

American Meteorological Society

In: Journal of Climate. 2009; 22(9): 2276-2301. Published 2009 May 01. doi: 10.1175/2008jcli2678.1.

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Publication Date: 2009-05-01

Description: Extratropical cyclones and how they may change in a warmer climate have been investigated in detail with a high-resolution version of the ECHAM5 global climate model. A spectral resolution of T213 (63 km) is used for two 32-yr periods at the end of the twentieth and twenty-first centuries and integrated for the Intergovernmental Panel on Climate Change (IPCC) A1B scenario. Extremes of pressure, vorticity, wind, and precipitation associated with the cyclones are investigated and compared with a lower-resolution simulation. Comparison with observations of extreme wind speeds indicates that the model reproduces realistic values. This study also investigates the ability of the model to simulate extratropical cyclones by computing composites of intense storms and contrasting them with the same composites from the 40-yr ECMWF Re-Analysis (ERA-40). Composites of the time evolution of intense cyclones are reproduced with great fidelity; in particular the evolution of central surface pressure is almost exactly replicated, but vorticity, maximum wind speed, and precipitation are higher in the model. Spatial composites also show that the distributions of pressure, winds, and precipitation at different stages of the cyclone life cycle compare well with those from ERA-40, as does the vertical structure. For the twenty-first century, changes in the distribution of storms are very similar to those of previous study. There is a small reduction in the number of cyclones but no significant changes in the extremes of wind and vorticity in both hemispheres. There are larger regional changes in agreement with previous studies. The largest changes are in the total precipitation, where a significant increase is seen. Cumulative precipitation along the tracks of the cyclones increases by some 11% per track, or about twice the increase in global precipitation, while the extreme precipitation is close to the globally averaged increase in column water vapor (some 27%). Regionally, changes in extreme precipitation are even higher because of changes in the storm tracks.

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The Changing Energy Balance of the Polar Regions in a Warmer Climate (2013)

Bengtsson, Lennart ; Hodges, Kevin I. ; Koumoutsaris, Symeon ; [et al.]

American Meteorological Society

In: Journal of Climate. 2013; 26(10): 3112-3129. Published 2013 May 08. doi: 10.1175/jcli-d-12-00233.1.

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Publication Date: 2013-05-08

Description: Energy fluxes for polar regions are examined for two 30-yr periods, representing the end of the twentieth and twenty-first centuries, using data from high-resolution simulations with the ECHAM5 climate model. The net radiation to space for the present climate agrees well with data from the Clouds and the Earth’s Radiant Energy System (CERES) over the northern polar region but shows an underestimation in planetary albedo for the southern polar region. This suggests there are systematic errors in the atmospheric circulation or in the net surface energy fluxes in the southern polar region. The simulation of the future climate is based on the Intergovernmental Panel on Climate Change (IPCC) A1B scenario. The total energy transport is broadly the same for the two 30-yr periods, but there is an increase in the moist energy transport on the order of 6 W m−2 and a corresponding reduction in the dry static energy. For the southern polar region the proportion of moist energy transport is larger and the dry static energy correspondingly smaller for both periods. The results suggest a possible mechanism for the warming of the Arctic that is discussed. Changes between the twentieth and twenty-first centuries in the northern polar region show the net ocean surface radiation flux in summer increases ~18 W m−2 (24%). For the southern polar region the response is different as there is a decrease in surface solar radiation. It is suggested that this is caused by changes in cloudiness associated with the poleward migration of the storm tracks.

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A Possible Change in Mass Balance of Greenland and Antarctic Ice Sheets in the Coming Century (1996)

Ohmura, Atsumu ; Wild, Martin ; Bengtsson, Lennart

American Meteorological Society

In: Journal of Climate. 1996; 9(9): 2124-2135. Published 1996 Sep 01. doi: 10.1175/1520-0442(1996)009〈2124:apcimb〉2.0.co;2.

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Publication Date: 1996-09-01

Print ISSN: 0894-8755

Electronic ISSN: 1520-0442

Topics: Geography , Geosciences , Physics

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The Predictability of Extratropical Storm Tracks and the Sensitivity of Their Prediction to the Observing System (2007)

Froude, Lizzie S. R. ; Bengtsson, Lennart ; Hodges, Kevin I.

American Meteorological Society

In: Monthly Weather Review. 2007; 135(2): 315-333. Published 2007 Feb 01. doi: 10.1175/mwr3274.1.

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Publication Date: 2007-02-01

Description: A new method for assessing forecast skill and predictability that involves the identification and tracking of extratropical cyclones has been developed and implemented to obtain detailed information about the prediction of cyclones that cannot be obtained from more conventional analysis methodologies. The cyclones were identified and tracked along the forecast trajectories, and statistics were generated to determine the rate at which the position and intensity of the forecasted storms diverge from the analyzed tracks as a function of forecast lead time. The results show a higher level of skill in predicting the position of extratropical cyclones than the intensity. They also show that there is potential to improve the skill in predicting the position by 1–1.5 days and the intensity by 2–3 days, via improvements to the forecast model. Further analysis shows that forecasted storms move at a slower speed than analyzed storms on average and that there is a larger error in the predicted amplitudes of intense storms than the weaker storms. The results also show that some storms can be predicted up to 3 days before they are identified as an 850-hPa vorticity center in the analyses. In general, the results show a higher level of skill in the Northern Hemisphere (NH) than the Southern Hemisphere (SH); however, the rapid growth of NH winter storms is not very well predicted. The impact that observations of different types have on the prediction of the extratropical cyclones has also been explored, using forecasts integrated from analyses that were constructed from reduced observing systems. A terrestrial, satellite, and surface-based system were investigated and the results showed that the predictive skill of the terrestrial system was superior to the satellite system in the NH. Further analysis showed that the satellite system was not very good at predicting the growth of the storms. In the SH the terrestrial system has significantly less skill than the satellite system, highlighting the dominance of satellite observations in this hemisphere. The surface system has very poor predictive skill in both hemispheres.

Print ISSN: 0027-0644

Electronic ISSN: 1520-0493

Topics: Geography , Geosciences , Physics

Published by American Meteorological Society

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