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The paleostress history of the Central European Basin System (2010)

Sippel, Judith

GFZ, Helmholtz-Zentrum, Potsdam

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Publication Date: 2021-03-29

Description: The Central European Basin System (CEBS) is a complex intracontinental system of sedimentary basins that have evolved through several geodynamic phases since Late Carboniferous times. The basin system is framed by the Tornquist Zone in the north and the Elbe Fault System in the south. The main structural configuration of the basin system is well established due to decades of scientific research and intense industrial exploration for mineral resources. The scope of this PhD thesis is to assess which paleostress fields controlled the evolution of the basin system. The present thesis introduces the "Stress Inversion via Simulation" (SVS) as a new strategy for estimating paleostress states. For a set of striated fault planes with known sense of slip (fault-slip data), this stepwise technique identifies the corresponding "reduced stress tensor" comprising (1) the directions of the principal stress axes with sigma1?sigma2?sigma3 and (2) the ratio of principal stress differences, R=(sigma2-sigma3)/(sigma1-sigma3). For heterogeneous fault-slip data, SVS separates the different corresponding "reduced stress tensors". Any estimated stress tensor thereby fulfils both the criterion of low misfit angles and the criterion of high shear-to-normal-stress ratios for the associated fault-slip data. The base for the present study is provided by fault-slip data gathered from outcrops in the Elbe Fault System area (906 fault-slip data) and in the Oslo Graben area north of the Tornquist Zone (2191 data). 77 paleostress tensors have been estimated for the Elbe Fault System area and 194 tensors for the Oslo Graben area ...

Description: thesis

Keywords: 551 ; VAE 130 ; TSB 000 ; VAE 820 ; VEB 000 ; Geomechanik ; Mitteleuropa {Geophysik} ; Sedimentationsbecken als Erdkrustentypen {Geologie} ; Mitteleuropa {Geologie}

Language: English

Type: monograph , publishedVersion

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PUBLICATIONS OF THE JET PROPULSION LABORATORY, JULY 1960 THROUGH JUNE 1961 (1961)

Walsh, D. K. ; Sippel, R. J.

In: CASI

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Publication Date: 2008-08-25

Description: Publications of the jet propulsion laboratory

Keywords: AERODYNAMICS

Type: JPL-BIBL-39-2

Format: text

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The Impact of Dry Midlevel Air on Hurricane Intensity in Idealized Simulations with No Mean Flow (2012)

Nolan, David S. ; Sippel, Jason A. ; Braun, Scott A.

In: CASI

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Publication Date: 2019-07-13

Description: This study examines the potential negative influences of dry midlevel air on the development of tropical cyclones (specifically, its role in enhancing cold downdraft activity and suppressing storm development). The Weather Research and Forecasting model is used to construct two sets of idealized simulations of hurricane development in environments with different configurations of dry air. The first set of simulations begins with dry air located north of the vortex center by distances ranging from 0 to 270 km, whereas the second set of simulations begins with dry air completely surrounding the vortex, but with moist envelopes in the vortex core ranging in size from 0 to 150 km in radius. No impact of the dry air is seen for dry layers located more than 270 km north of the initial vortex center (approximately 3 times the initial radius of maximum wind). When the dry air is initially closer to the vortex center, it suppresses convective development where it entrains into the storm circulation, leading to increasingly asymmetric convection and slower storm development. The presence of dry air throughout the domain, including the vortex center, substantially slows storm development. However, the presence of a moist envelope around the vortex center eliminates the deleterious impact on storm intensity. Instead, storm size is significantly reduced. The simulations suggest that dry air slows intensification only when it is located very close to the vortex core at early times. When it does slow storm development, it does so primarily by inducing outward- moving convective asymmetries that temporarily shift latent heating radially outward away from the high-vorticity inner core.

Keywords: Meteorology and Climatology

Type: GSFC-E-DAA-TN9414 , Journal of Atmospheric Sciences; 69; 1; 236-257

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EnKF OSSE Experiments Assessing the Impact of HIRAD Wind Speed and HIWRAP Radial Velocity Data on Analysis of Hurricane Karl (2010) (2012)

Sippel, Jason A. ; Braun, Scott A. ; Miller, Timothy ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Previous studies (e.g., Zhang et al. 2009, Weng et al. 2011) have shown that radial velocity data from airborne and ground-based radars can be assimilated into ensemble Kalman filter (EnKF) systems to produce accurate analyses of tropical cyclone vortices, which can reduce forecast intensity error. Recently, wind speed data from SFMR technology has also been assimilated into the same types of systems and has been shown to improve the forecast intensity of mature tropical cyclones. Two instruments that measure these properties were present during the NASA Genesis and Rapid Intensification Processes (GRIP) field experiment in 2010 which sampled Hurricane Karl, and will next be co-located on the same aircraft for the subsequent NASA HS3 experiment. The High Altitude Wind and Rain Profiling Radar (HIWRAP) is a conically scanning Doppler radar mounted upon NASAs Global Hawk unmanned aerial vehicle, and the usefulness of its radial velocity data for assimilation has not been previously examined. Since the radar scans from above with a fairly large fixed elevation angle, it observes a large component of the vertical wind, which could degrade EnKF analyses compared to analyses with data taken from lesser elevation angles. The NASA Hurricane Imaging Radiometer (HIRAD) is a passive microwave radiometer similar to SFMR, and measures emissivity and retrieves hurricane surface wind speeds and rain rates over a much wider swath. Thus, this study examines the impact of assimilating simulated HIWRAP radial velocity data into an EnKF system, simulated HIRAD wind speed, and HIWRAP+HIRAD with the Weather Research and Forecasting (WRF) model and compares the results to no data assimilation and also to the Truth from which the data was simulated for both instruments.

Keywords: Meteorology and Climatology

Type: M12-1814 , M12-1819 , NASA GRIP Science Team Meeting; May 10, 2012 - May 11, 2012; Norfolk, VA; United States

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Luminescence petrography of the Apollo 12 rocks and comparative features in terrestrial rocks and meteorites Final report (1971)

Sippel, R. F.

In: CASI

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Publication Date: 2019-06-27

Description: Luminescence petrography of Apollo 12 rocks and comparative features in Apollo 11 rocks, terrestrial rocks, and meteorites

Keywords: SPACE SCIENCES

Type: NASA-CR-114842

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Luminescence petrography and properties of lunar crystalline rocks and breccias (1970)

Sippel, R. F. ; Spencer, A. B.

In: Other Sources

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Publication Date: 2019-07-13

Description: Apollo 11 lunar crystalline rock and breccias petrography and luminescent properties, spectral analysis, color, emission bands and shock effects

Keywords: SPACE SCIENCES

Type: APOLLO 11 LUNAR SCIENCE CONFERENCE; Jan 05, 1970 - Jan 08, 1970; HOUSTON, TX

Format: text

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Effects of Moist Convection on Hurricane Predictability (2008)

Zhang, Fuqing ; Sippel, Jason A.

In: Other Sources

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Publication Date: 2019-07-12

Description: This study exemplifies inherent uncertainties in deterministic prediction of hurricane formation and intensity. Such uncertainties could ultimately limit the predictability of hurricanes at all time scales. In particular, this study highlights the predictability limit due to the effects on moist convection of initial-condition errors with amplitudes far smaller than those of any observation or analysis system. Not only can small and arguably unobservable differences in the initial conditions result in different routes to tropical cyclogenesis, but they can also determine whether or not a tropical disturbance will significantly develop. The details of how the initial vortex is built can depend on chaotic interactions of mesoscale features, such as cold pools from moist convection, whose timing and placement may significantly vary with minute initial differences. Inherent uncertainties in hurricane forecasts illustrate the need for developing advanced ensemble prediction systems to provide event-dependent probabilistic forecasts and risk assessment.

Keywords: Meteorology and Climatology

Format: text

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Dynamics and Predictability of Hurricane Humberto (2007) Revealed from Ensemble Analysis and Forecasting (2009)

Zhang, Fuqing ; Sippel, Jason A.

In: CASI

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Publication Date: 2019-07-12

Description: This study uses short-range ensemble forecasts initialized with an Ensemble-Kalman filter to study the dynamics and predictability of Hurricane Humberto, which made landfall along the Texas coast in 2007. Statistical correlation is used to determine why some ensemble members strengthen the incipient low into a hurricane and others do not. It is found that deep moisture and high convective available potential energy (CAPE) are two of the most important factors for the genesis of Humberto. Variations in CAPE result in as much difference (ensemble spread) in the final hurricane intensity as do variations in deep moisture. CAPE differences here are related to the interaction between the cyclone and a nearby front, which tends to stabilize the lower troposphere in the vicinity of the circulation center. This subsequently weakens convection and slows genesis. Eventually the wind-induced surface heat exchange mechanism and differences in landfall time result in even larger ensemble spread. 1

Keywords: Meteorology and Climatology

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9

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Publications of the Jet Propulsion Laboratory, July 1961 through June 1962 (1962)

Sippel, R. J. ; Kresser, S. L.

In: CASI

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Publication Date: 2019-08-14

Description: Jpl bibliography on space science, 1961-1962

Keywords: AERODYNAMICS

Type: JPL-BIBL-39-3

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Further Exploring the Potential for Assimilation of Unmanned Aircraft Observations to Benefit Hurricane Analyses and Forecasts (2015)

Weng, Yonghui ; Braun, Scott A. ; Cecil, Daniel J. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This study explores the potential of assimilating data from multiple instruments onboard high-altitude, long-endurance unmanned aircraft to improve hurricane analyses and forecasts. A recent study found a significant positive impact on analyses and forecasts of Hurricane Karl when an ensemble Kalman filter was used to assimilate data from the High-altitude Imaging Wind and Rain Airborne Profiler (HIWRAP), a new Doppler radar onboard the NASA Global Hawk (GH) unmanned airborne system. The GH can also carry other useful instruments, including dropsondes and the Hurricane Imaging Radiometer (HIRAD), which is a new radiometer that estimates large swaths of wind speeds and rainfall at the ocean surface. The primary finding is that simultaneously assimilating data from HIWRAP and the other GH-compatible instruments results in further analysis and forecast improvement for Karl. The greatest improvement comes when HIWRAP, HIRAD, and dropsonde data are simultaneously assimilated.

Keywords: Meteorology and Climatology; Earth Resources and Remote Sensing

Type: MSFC-E-DAA-TN32613 , GSFC-E-DAA-TN41525 , Tropical Cyclone Research and Review (ISSN 2225-6032); 4; 2; 64-70

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