Global ETD Search

161	Auswirkungen des Klimawandels auf die Bodenerosion Routschek, Anne 12 October 2012 (has links) (PDF) Auf der Grundlage von Szenarien zu künftigen Starkregenereignissen wurde mit dem Modell Erosion-3D die Entwicklung der Bodenerosion durch Wasser berechnet. Eine Analyse der projizierten Starkregenereignisse zeigt, dass durch den Klimawandel die Häufigkeit der sommerlichen Starkregenereignisse abnimmt und die Starkregenintensität zunimmt. Landnutzung und unterschiedliche Bodenbearbeitungsverfahren haben allerdings einen bedeutend größeren Einfluss auf das Ausmaß der Bodenerosion als die künftig zu erwartenden Starkregenereignisse. Klima Bodenerosion Wasser climate soil erosion water ddc:910 rvk:RB 10165
162	GCM simulations of anthropogenic aerosol-induced changes in aerosol extinction, atmospheric heating and precipitation over India Cherian, Ribu, Venkataraman, Chandrasekhar, Quaas, Johannes, Ramachandran, Srinivasan 14 August 2015 (has links) (PDF) The influence of anthropogenic emissions on aerosol distributions and the hydrological cycle are examined with a focus on monsoon precipitation over the Indian subcontinent, during January 2001 to December 2005, using the European Centre for Medium-Range Weather Forecasts-Hamburg (ECHAM5.5) general circulation model extended by the Hamburg Aerosol Module (HAM). The seasonal variability of aerosol optical depth (AOD) retrieved from the MODerate Resolution Imaging Spectroradiometer (MODIS) on board the Terra and Aqua satellite is broadly well simulated (R 0.6–0.85) by the model. The spatial distribution and seasonal cycle of the precipitation observed over the Indian region are reasonably well simulated (R 0.5 to 0.8) by the model, while in terms of absolute magnitude, the model underestimates precipitation, in particular in the south-west (SW) monsoon season. The model simulates significant anthropogenic aerosol-induced changes in clear-sky net surface solar radiation (dimming greater than -7 W m-2), which agrees well with the observed trends over the Indian region. A statistically significant decreasing precipitation trend is simulated only for the SWmonsoon season over the central-north Indian region, which is consistent with the observed seasonal trend over the Indian region. In the model, this decrease results from a reduction in convective precipitation, where there is an increase in stratiform cloud droplet number concentration (CDNC) and solar dimming that resulted from increased stability and reduced evaporation. Similarities in spatial patterns suggest that surface cooling, mainly by the aerosol indirect effect, is responsible for this reduction in convective activity. When changes in large-scale dynamics are allowed by slightly disturbing the initial state of the atmosphere, aerosol absorption in addition leads to a further stabilization of the lower troposphere, further reducing convective precipitation. Meteorologie Aerosol Klima globales Klimamodell meterology aerosol climate general circulation model GCM ddc:551
163	Parameter estimation using data assimilation in an atmospheric general circulation model Schirber, Sebastian, Klocke, Daniel, Pincus, Robert, Quaas, Johannes, Anderson, Jeffrey L. 25 August 2015 (has links) (PDF) This study explores the viability of parameter estimation in the comprehensive general circulation model ECHAM6 using ensemble Kalman filter data assimilation techniques. Four closure parameters of the cumulus-convection scheme are estimated using increasingly less idealized scenarios ranging from perfect-model experiments to the assimilation of conventional observations. Updated parameter values from experiments with real observations are used to assess the error of the model state on short 6 h forecasts and on climatological timescales. All parameters converge to their default values in single parameter perfect-model experiments. Estimating parameters simultaneously has a neutral effect on the success of the parameter estimation, but applying an imperfect model deteriorates the assimilation performance. With real observations, single parameter estimation generates the default parameter value in one case, converges to different parameter values in two cases, and diverges in the fourth case. The implementation of the two converging parameters influences the model state: Although the estimated parameter values lead to an overall error reduction on short timescales, the error of the model state increases on climatological timescales. Allgemeines Klimamodell Atmosphäre Klima General Circulation Model (GCM) atmosphere climate ddc:551
164	Examination of aerosol distributions and radiative effects over the Bay of Bengal and the Arabian Sea region during ICARB using satellite data and a general circulation model Cherian, Ribu, Venkataraman, Chandra, Ramachandran, S., Quaas, Johannes, Kedia, Sumita 26 August 2015 (has links) (PDF) In this paper we analyse aerosol loading and its direct radiative effects over the Bay of Bengal (BoB) and Arabian Sea (AS) regions for the Integrated Campaign on Aerosols, gases and Radiation Budget (ICARB) undertaken during 2006, using satellite data from the MODerate Resolution Imaging Spectroradiometer (MODIS) on board the Terra and Aqua satellites, the Aerosol Index from the Ozone Monitoring Instrument (OMI) on board the Aura satellite, and the European-Community Hamburg (ECHAM5.5) general circulation model extended by Hamburg Aerosol Module (HAM). By statistically comparing with large-scale satellite data sets, we firstly show that the aerosol properties measured during the ship-based ICARB campaign and simulated by the model are representative for the BoB and AS regions and the pre-monsoon season. In a second step, the modelled aerosol distributions were evaluated by a comparison with the measurements from the ship-based sunphotometer, and the satellite retrievals during ICARB. It is found that the model broadly reproduces the observed spatial and temporal variability in aerosol optical depth (AOD) over BoB and AS regions. However, AOD was systematically underestimated during high-pollution episodes, especially in the BoB leg. We show that this underprediction of AOD is mostly because of the deficiencies in the coarse mode, where the model shows that dust is the dominant component. The analysis of dust AOD along with the OMI Aerosol Index indicate that missing dust transport that results from too low dust emission fluxes over the Thar Desert region in the model caused this deficiency. Thirdly, we analysed the spatio-temporal variability of AOD comparing the ship-based observations to the large-scale satellite observations and simulations. It was found that most of the variability along the track was from geographical patterns, with a minor influence by single events. Aerosol fields were homogeneous enough to yield a good statistical agreement between satellite data at a 1° spatial, but only twice-daily temporal resolution, and the shipbased sunphotometer data at a much finer spatial, but dailyaverage temporal resolution. Examination of the satellite data further showed that the year 2006 is representative for the five-year period for which satellite data were available. Finally, we estimated the clear-sky solar direct aerosol radiative forcing (DARF). We found that the cruise represents well the regional-seasonal mean forcings. Constraining simulated forcings using the observed AOD distributions yields a robust estimate of regional-seasonal mean DARF of −8.6, −21.4 and +12.9Wm−2 at the top of the atmosphere (TOA), at the surface (SUR) and in the atmosphere (ATM), respectively, for the BoB region, and over the AS, of, −6.8, −12.8, and +6Wm−2 at TOA, SUR, and ATM, respectively. Allgemeines Zirkulationsmodell Klima Aerosol General Circulation Modell (GCM) climate aerosol ddc:551
165	Evaluation of clouds and precipitation in the ECHAM5 general circulation model using CALIPSO and CloudSat satellite data Nam, Christine C.W., Quaas, Johannes 26 August 2015 (has links) (PDF) Observations from Cloud–Aerosol Lidar and Infrared Pathfinder Satellite Observations (CALIPSO) and CloudSat satellites are used to evaluate clouds and precipitation in the ECHAM5 general circulation model. Active lidar and radar instruments on board CALIPSO and CloudSat allow the vertical distribution of clouds and their optical properties to be studied on a global scale. To evaluate the clouds modeled by ECHAM5 with CALIPSO and CloudSat, the lidar and radar satellite simulators of the Cloud Feedback Model Intercomparison Project’s Observation Simulator Package are used. Comparison of ECHAM5 with CALIPSO and CloudSat found large-scale features resolved by the model, such as the Hadley circulation, are captured well. The lidar simulator demonstrated ECHAM5 overestimates the amount of high-level clouds, particularly optically thin clouds. High-altitude clouds in ECHAM5 consistently produced greater lidar scattering ratios compared with CALIPSO. Consequently, the lidar signal in ECHAM5 frequently attenuated high in the atmosphere. The large scattering ratios were due to an underestimation of effective ice crystal radii in ECHAM5. Doubling the effective ice crystal radii improved the scattering ratios and frequency of attenuation. Additionally, doubling the effective ice crystal radii improved the detection of ECHAM5’s highest-level clouds by the radar simulator, in better agreement with CloudSat. ECHAM5 was also shown to significantly underestimate midlevel clouds and (sub)tropical low-level clouds. The low-level clouds produced were consistently perceived by the lidar simulator as too optically thick. The radar simulator demonstrated ECHAM5 overestimates the frequency of precipitation, yet underestimates its intensity compared with CloudSat observations. These findings imply compensating mechanisms inECHAM5 balance out the radiative imbalance caused by incorrect optical properties of clouds and consistently large hydrometeors in the atmosphere. Wolken Allgemeines Zirkulationsmodell Klima clouds general ciculation model (GCM) climate ddc:551
166	The aerosol indirect effect Quaas, Johannes 15 December 2015 (has links) (PDF) Global climate change is considered to be one of the most serious concerns of humankind (United Nations, 1992; United Nations, 2002). Anthropogenic greenhouse gases and aerosols impact considerably the energy balance of the Earth system, possibly provoking adverse effects on social, ecological, and economical equilibria. This is one of the main reasons why the understanding of the Earth’s climate system is of major importance. If better predictions of the response of the climate system to anthropogenic perturbations were available, political decisions against negative impacts could be taken, and social adaptations to changed climate conditions would be possible. Aerosol Wolken Klima Satellitendaten aerosol clouds climate satellite data ddc:551
167	Schnellwachsende Baumarten im Kurzumtrieb Becker, Reik, Röhricht, Christian, Ruscher, Karin, Jäkel, Kerstin 27 April 2015 (has links) (PDF) Schnellwachsende Baumarten im Kurzumtrieb dienen der Produktion von Holz für eine energetische Nutzung. Weiterer Nutzen liegt in der Erosionsvermeidung, der Verbesserung des Landschaftsbildes, der Erzeugung unabhängiger Wärmeenergie, der Steigerung der Biodiversität sowie in Leistungen für Gesundheitsschutz und Klimaanpassung. Die Broschüre fasst den aktuellen Stand der Forschung zusammen und bietet zahlreiche Praxishinweise und Empfehlungen zur Etablierung von Kurzumtriebsplantagen (KUP), zu Pflege- und Schutzmaßnahmen sowie zur Ernte und der Verwertung des Holzes. Informiert wird auch über die Wirtschaftlichkeit von KUP und die rechtlichen Rahmenbedingungen. nachwachsende Rohstoffe Boden Klima renewable resources ground climate ddc:630 rvk:ZC 81710
168	High-resolution sensitivity studies with the regional climate model COSMO-CLM Meissner, Cathérine January 2008 (has links) Zugl.: Karlsruhe, Univ., Diss., 2008 / Hergestellt on demand
169	Late Pleistocene Alpine deglaciation and post-glacial climatic developments in Switzerland the record from sediments in a peri-alpine lake basin / Lister, Guy, January 1985 (has links) Thesis (doctoral)--Eidgenoessischen Technischen Hochschule Zuerich, 1985. / Abstract also in German. Vita. "Diss. ETH Nr. 7753." Includes bibliographical references (p. 139-150).
170	Stability of the climate system and extreme climates in model experiments = Stabilität des Klimasystems und extreme Klimate in Modellexperimenten / Romanova, Vanya. January 2005 (has links) (PDF) Thesis (doctoral)--Universität Bremen, 2004. / Includes bibliographical references (p. 121-136). Also available online in PDF format.

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