Michal Šprlák scite author profile

Michal Šprlák

5Publications

90Citation Statements Received

31Citation Statements Given

How they've been cited

178

How they cite others

207

Affiliations

University of West Bohemia, University of Newcastle Australia, Norwegian University of Life Sciences

Publications

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The enigmatic Chad lineament revisited with global gravity and gravity-gradient fields

Braitenberg

Mariani

Ebbing

et al. 2011

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The crust structure of northern Africa is puzzling, large areas being of difficult access and concealed by the Sahara. The new global gravity models are of unprecedented precision and spatial resolution and offer a new possibility to reveal the structure of the lithosphere beneath the Sahara. The gravity gradients correlate better than gravity with geological features such as rifts, fold belts and magmatic deposits and intrusions. They are an ideal tool follow geological units (e.g. basement units) below a stratigraphic layer of varying density (e.g. sediments). We focus on the Chad lineament, a 1300 km arcuate feature located between the west and central African rift system. The gravity fields show difference between the lineament and the west and central African rift system. Along the centre of the lineament high-density rocks must be present, which relate to either magmatic or metamorphic rocks. This is very different to the lineaments of the western and central-west African rift system which are filled with sediments. Considering present models of rifting and the absence of topography, the lineament cannot be coeval to the west and central African rift system and is most likely older. We suggest that the lineament is a structural element of the Saharan Metacraton

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Iterative Spherical Downward Continuation Applied to Magnetic and Gravitational Data from Satellite

et al. 2014

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Quantifying water storage change and land subsidence induced by reservoir impoundment using GRACE, Landsat, and GPS data

Tangdamrongsub

Han

Jasinski

et al. 2019

Remote Sensing of Environment

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Validation of GOCE global gravity field models using terrestrial gravity data in Norway

Šprlák

Gerlach²,

Pettersen

2012

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Validation of GOCE global gravity field models using terrestrial gravity data in NorwayThe GOCE (Gravity field and steady-state Ocean Circulation Explorer) satellite gravity gradiometry mission maps the Earth's gravity field. Harmonic analysis of GOCE observations provides a global gravity field model (GGFM). Three theoretical strategies, namely the direct, the space-wise and the time-wise approach, have been proposed for GOCE harmonic analysis. Based on these three methods, several GGFMs have been provided to the user community by ESA. Thereby different releases are derived from different periods of GOCE observations and some of the models are based on combinations with other sources of gravity field information. Due to the multitude of GOCE GGFMs, validation against independent data is a crucial task for the quality description of the different models.In this study, GOCE GGFMs from three releases are validated with respect to terrestrial free-air gravity anomalies in Norway. The spectral enhancement method is applied to avoid spectral inconsistency between the terrestrial and the GOCE free-air gravity anomalies.The results indicate that the time-wise approach is a reliable harmonic analysis procedure in all three releases of GOCE models. The space-wise approach, available in two releases, provides similar results as the time-wise approach. The direct approach seems to be highly affected by a-priori information.

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Improving regional groundwater storage estimates from GRACE and global hydrological models over Tasmania, Australia

Yin

Zheng

et al. 2020

Hydrogeol J

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Michal Šprlák

The enigmatic Chad lineament revisited with global gravity and gravity-gradient fields

Iterative Spherical Downward Continuation Applied to Magnetic and Gravitational Data from Satellite

Quantifying water storage change and land subsidence induced by reservoir impoundment using GRACE, Landsat, and GPS data

Validation of GOCE global gravity field models using terrestrial gravity data in Norway

Improving regional groundwater storage estimates from GRACE and global hydrological models over Tasmania, Australia

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