Gravity anomaly map of the CELEBRATION 2000 seismic experiment
region

BIELIK, Miroslav, Karoly KLOSKA, Bruno MEURERS, Jan ŠVANCARA, Stanislav WYBRANIEC, Working Group: CELEBRATION 2000 POTENTIAL FIELD, T. FANCSIK, M. GRAD, T. GRAND, A. GUTERCH, M. KATONA, C. KROLIKOWSKI, J. MIKUŠKA, R. PAŠTEKA, Z. PATECKI, O. POLECHONSKA, D. RUESS, V. SZALAIOVÁ, J. ŠEFARA and J. VOZÁR. Gravity anomaly map of the CELEBRATION 2000 seismic experiment region. Geologica Carpathica. Bratislava, vol. 57, No 3, p. 145-156. ISSN 1335-0552. 2006.

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TY  - JOUR
ID  - 599525
AU  - Bielik, Miroslav - Kloska, Karoly - Meurers, Bruno - Švancara, Jan - Wybraniec, Stanislav - CELEBRATION 2000 Potential Field, Working Group: - Fancsik, T. - Grad, M. - Grand, T. - Guterch, A. - Katona, M. - Krolikowski, C. - Mikuška, J. - Pašteka, R. - Patecki, Z. - Polechonska, O. - Ruess, D. - Szalaiová, V. - Šefara, J. - Vozár, J.
PY  - 2006
TI  - Gravity anomaly map of the CELEBRATION 2000 seismic experiment region
JF  - Geologica Carpathica
VL  - 57
IS  - 3
SP  - 145-156
EP  - 145-156
SN  - 13350552
KW  - Bouguer gravity anomaly map
KW  - Alps
KW  - Bohemian Massif
KW  - Pannonian Basin
KW  - Western Carpathians
N2  - The interpretation of the gravity field in the 2D and 3D space requires an accurate Bouguer gravity anomaly map. This requirement is of particular importance, when different techniques, instrumentation and data processing methods have been used in different parts of the area of interest. This paper presents the Bouguer gravity anomaly map of the CELEBRATION 2000 countries (Austria, Czech Republic, Hungary, Poland and Slovak Republic) and reports on the calculation of Bouguer gravity data. The gravity map will serve as basis for 2D and 3D modeling of the gravity field in the CELEBRATION 2000 region (45-54 deg. latitude and 12-24 deg. longitude). To avoid truncation problems in the following quantitative interpretation, the map area consists of both the CELEBRATION 2000 countries and adjacent areas. Due to different average station density of gravity measurements in the countries (Austria - 1 station/9 km2, Czech Republic - 1 station/2.6 km2, Hungary - 4 stations/km2, Poland - 2.74 stations/km2 and Slovak Republic 5 stations/km2) the gravity data were interpolated to grids by using different spacing and projection in each country. In the entire CELEBRATION area the average station density is approximately 2.4 stations/km2 and the gravity data set contains more than 1 620 000 measurement points. Additionally, the most important regional gravity anomaly patterns of the map are presented.
ER  -

Basic information
Original name	Gravity anomaly map of the CELEBRATION 2000 seismic experiment region
Name in Czech	Tíhová mapa pro oblast seismického experimentu CELEBRATION 2000
Authors	BIELIK, Miroslav (703 Slovakia), Karoly KLOSKA (348 Hungary), Bruno MEURERS (40 Austria), Jan ŠVANCARA (203 Czech Republic, guarantor), Stanislav WYBRANIEC (616 Poland), Working Group: CELEBRATION 2000 POTENTIAL FIELD (616 Poland), T. FANCSIK (348 Hungary), M. GRAD (616 Poland), T. GRAND (703 Slovakia), A. GUTERCH (616 Poland), M. KATONA (703 Slovakia), C. KROLIKOWSKI (616 Poland), J. MIKUŠKA (703 Slovakia), R. PAŠTEKA (703 Slovakia), Z. PATECKI (616 Poland), O. POLECHONSKA (616 Poland), D. RUESS (40 Austria), V. SZALAIOVÁ (703 Slovakia), J. ŠEFARA (703 Slovakia) and J. VOZÁR (703 Slovakia).
Edition	Geologica Carpathica, Bratislava, 2006, 1335-0552.

Other information
Original language	English
Type of outcome	Article in a journal
Field of Study	10507 Volcanology
Country of publisher	Slovakia
Confidentiality degree	is not subject to a state or trade secret
Impact factor	Impact factor: 0.364
RIV identification code	RIV/00216224:14310/06:00016582
Organization unit	Faculty of Science
Keywords in English	Bouguer gravity anomaly map; Alps; Bohemian Massif; Pannonian Basin; Western Carpathians
Tags	Alps, Bohemian massif, Bouguer gravity anomaly map, Pannonian Basin, Western Carpathians
Changed by	Changed by: RNDr. Jan Švancara, CSc., učo 2542. Changed: 13/9/2006 10:34.

Abstract

The interpretation of the gravity field in the 2D and 3D space requires an accurate Bouguer gravity anomaly map. This requirement is of particular importance, when different techniques, instrumentation and data processing methods have been used in different parts of the area of interest. This paper presents the Bouguer gravity anomaly map of the CELEBRATION 2000 countries (Austria, Czech Republic, Hungary, Poland and Slovak Republic) and reports on the calculation of Bouguer gravity data. The gravity map will serve as basis for 2D and 3D modeling of the gravity field in the CELEBRATION 2000 region (45-54 deg. latitude and 12-24 deg. longitude). To avoid truncation problems in the following quantitative interpretation, the map area consists of both the CELEBRATION 2000 countries and adjacent areas. Due to different average station density of gravity measurements in the countries (Austria - 1 station/9 km2, Czech Republic - 1 station/2.6 km2, Hungary - 4 stations/km2, Poland - 2.74 stations/km2 and Slovak Republic 5 stations/km2) the gravity data were interpolated to grids by using different spacing and projection in each country. In the entire CELEBRATION area the average station density is approximately 2.4 stations/km2 and the gravity data set contains more than 1 620 000 measurement points. Additionally, the most important regional gravity anomaly patterns of the map are presented.

Abstract (in Czech)
Práce uvádí mapu úplných Bouguerových anomálií pro středoevropské země zapojené do seismického experimentu CELEBRATION 2000 tj. pro Rakousko, Českou republiku, Maďarsko, Polsko a Slovensko.

Links
MSM0021622412, plan (intention)	Name: Interakce mezi chemickými látkami, prostředím a biologickými systémy a jejich důsledky na globální, regionální a lokální úrovni (INCHEMBIOL) (Acronym: INCHEMBIOL)
MSM0021622412, plan (intention)	Investor: Ministry of Education, Youth and Sports of the CR, Interactions among the chemicals, environment and biological systems and their consequences on the global, regional and local scales (INCHEMBIOL)
SB/630/3/02, research and development project	Name: SLICE
SB/630/3/02, research and development project	Investor: Ministry of the Environment of the CR, SLICE - Seismic Lithospheric Investigation of Central Europe

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Gravity anomaly map of the CELEBRATION 2000 seismic experiment region

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