Conductivity Anomalies in Central Europe

详细信息    查看全文

• 作者：Anne Neska
• 关键词：Carpathian Conductivity Anomaly ; North German ; Polish Conductivity Anomaly ; Trans ; European Suture Zone ; Magnetotellurics ; Orogeny ; Electromagnetic induction studies in Europe
• 刊名：Surveys in Geophysics
• 出版年：2016
• 出版时间：January 2016
• 年：2016
• 卷：37
• 期：1
• 页码：5-26
• 全文大小：1,700 KB
• 参考文献：Ádám A (2001) Relation of the graphite and fluid bearing conducting dikes to the tectonics and seismicity (review on the Transdanubian crustal conductivity anomaly). Earth Planets Space 53:903–918CrossRef
  Ádám A, Wesztergom V (2001) An attempt to map the depth of the electrical asthenosphere by deep magnetotelluric measurements in the Pannonian Basin (Hungary). Acta Geol Hung 44:167–192
  Ádám A, Szarka L, Verö J, Wallner Á, Gutdeutsch R (1986) Magnetotellurics (MT) in mountains—noise, topographic and crustal inhomogeneity effects. Phys Earth Planet Inter 42:165–177CrossRef
  Ádám A, Ernst T, Jankowski J, Jozwiak W, Hvozdara M, Szarka L, Wesztergom V, Logvinov I, Kulik S (1997) Electromagnetic induction profile (PREPAN95) from the East European Platform (EEP) to the Pannonian Basin. Acta Geodaetica et Geophysica Hungarica 32:203–223
  Ádám A, Novák A, Szarka L (2005) Tectonic weak zones determined by magnetotellurics along the CEL-7 deep seismic profile. Acta Geodaetica et Geophysica Hungarica 40:413–430CrossRef
  Ádám A, Kohlbeck F, Novák A, Szarka L (2008) Interpretation of the deep magnetotelluric soundings along the Austrian part of the CELEBRATION-007 profile. Acta Geodaetica et Geophysica Hungarica 43:17–32CrossRef
  Adetunji AQ, Ferguson IJ, Jones AG (2015) Imaging the mantle lithosphere of the Precambrian Grenville Province: large-scale electrical resistivity structures. Geophys J Int 201(2):1040–1061CrossRef
  Alabi AO, Camfield PA, Gough DI (1975) The North American Central Plains Conductivity Anomaly. Geophys J Int 43(3):815–833CrossRef
  Artemieva IM (2003) Lithospheric structure, composition, and thermal regime of the East European Craton: implications for the subsidence of the Russian platform. Earth Planet Sci Lett 213:431–446CrossRef
  Berdichevsky MN, Dmitriev VI (2002) Magnetotellurics in the context of the theory of ill-posed problems (No. 11). SEG Books, TulsaCrossRef
  Berdichevsky MN, Dmitriev VI, Mershchikova NA (2000) On the inverse problem in sounding using MT and MV data. MAX Press, Moscow
  Berthelsen A (1992) From Precambrian to Variscan Europe. In: Blundell D, Freeman R, Mueller S (eds) A continent revealed: The European Geotraverse. Cambridge University Press, Cambridge, pp 153–163
  Bezák V, Pek J, Voźar J, Bielik M, Voźar J (2014) Geoelectrical and geological structure of the crust in Western Slovakia. Studiae Geophysicae et Geodeticae 58:473–488CrossRef
  Blundell DJ, Freeman R, Mueller S (eds) (1992) A continent revealed: The European Geotraverse, structure and dynamic evolution. Cambridge University Press, Cambridge
  Brasse H, Lezaeta P, Rath V, Schwalenberg K, Soyer W, Haak V (2002) The Bolivian Altiplano conductivity anomaly. J Geophys Res 107(B5):EPM-4
  Červ V, Kováčiková S, Menvielle M, Pek J (2010) Thin sheet conductance models from geomagnetic induction data: application to induction anomalies at the transition from the Bohemian Massif to the West Carpathians. In: Ritter O, Weckmann U (eds) Proceedings of the 23rd Schmucker-Weidelt colloquium for electromagnetic depth research. Deutsche Geophysikalische Gesellschaft, Potsdam, pp 232–243
  Csontos L, Vörös A (2004) Mesozoic plate tectonic reconstruction of the Carpathian region. Palaeogeogr Palaeoclimatol Palaeoecol 210:1–56CrossRef
  Eisel M, Haak V (1999) Macro-anisotropy of the electrical conductivity of the crust: a magnetotelluric study of the German Continental Deep Drilling site (KTB). Geophys J Int 136:109–122CrossRef
  ERCEUGT-Group (1992) An electrical resistivity crustal section from the Alps to the Baltic Sea (central segment of the EGT). Tectonophysics 207:123–139CrossRef
  Ernst T, Jankowski J, Semenov VYu, Adam A, Hvozdara M, Jóźwiak W, Lefeld J, Pawliszyn J, Szarka L, Westergom V (1997) Electromagnetic soundings across the Tatra Mountains. Acta Geophysica Polonica 45(1):33–44
  Ernst T, Brasse H, Cerv V, Hoffmann N, Jankowski J, Jozwiak W, Kreutzmann A, Neska A, Palshin N, Pedersen LB, Smirnov M, Sokolova E, Varentsov IM (2008) Electromagnetic images of the deep structure of the Trans-European Suture Zone beneath Polish Pomerania. Geophys Res Lett 35:L15307CrossRef
  Gatzemeier A, Moorkamp M (2005) 3D modeling of electrical anisotropy from electromagnetic array data: hypothesis testing for different upper mantle conduction mechanisms. Phys Earth Planet Inter 149:225–242CrossRef
  Gee DG, Stephenson RA (2006) The European Lithosphere: an introduction. Memoirs-Geological Society of London 32:1CrossRef
  Glover PWJ, Ádám A (2008) Correlation between crustal high conductivity zones and seismic activity and the role of carbon during shear deformation. J Geophys Res 113:B12210CrossRef
  Gordienko VV, Gordienko IV, Zavgorodnyaya OV, Kováčiková S, Logvinov IM, Tarasov VN, Usenko OV (2011) Ukrainskie Karpaty (geofizika, glubinnye processy). National Academy of Sciences of the Ukraine, Subbotin Institute of Geophysics, Logos (in Russian)
  Gregersen S, Voss P, TOR-Working-Group (2002) Summary of project TOR: delineation of stepwise, sharp, deep lithosphere transition across Germany–Denmark–Sweden. Tectonophysics 360:61–73CrossRef
  Gurk M, Schnegg P-A (2001) Anomalous directional behavior of the real parts of the induction arrows in the Eastern Alps: tectonic and palaeogeographic implications. Ann Geofis 44:659–669
  Gusarov AL (1981) On uniqueness of solution to inverse magnetotelluric problem for two-dimensional medium. In: Mathematical models in geophysics. Moscow University Publishers (in Russian)
  Habibian BD, Brasse H, Oskooi B, Ernst T, Sokolova E, Varentsov I, EMTESZ Working Group (2010) The conductivity structure across the Trans-European Suture Zone from magnetotelluric and magnetovariational data modeling. Phys Earth Planet Inter 183:377–386CrossRef
  Hakenberg M, Świdrowska J (1997) Propagation of the south-eastern segment of the Polish Trough connected with bounding fault zones (from the Permian to the Late Jurassic). C R Acad Sci Paris 324(IIa):793–803
  Henningsen D, Katzung G (2002) Einführung in die Geologie Deutschlands, Spektrum Akademischer. Verlag, Heidelberg (in German)
  Hoffmann N, Hengesbach L, Friedrichs B, Brink H-J (2008) The contribution of magnetotellurics to an improved understanding of the North German Basin—review and new results. Zeitschrift der Deutschen Gesellschaft für Geowissenschaften 159(4):591–606CrossRef
  Horejschi L (2002) Magnetotellurik und Erdmagnetische Tiefensondierung in der Ems-Region, diploma thesis. Institut für Geophysik Westfälische Wilhelms-Universität, Münster (in German)
  Hutton VRS, Sik JM, Gough DI (1977) Electrical conductivity and tectonics of Scotland. Nature 266:617–620CrossRef
  Jankowski J, Królikowski C (1962) O zmianach krótkookresowych ziemskiego pola magnetycznego na terenie Polski. Acta Geophysica Polonica 10(3):281–288 (in Polish)
  Jankowski J, Tarłowski Z, Praus O, Pěčová J, Petr V (1985) The results of deep geomagnetic soundings in the West Carpathians. Geophys J R Astron Soc 80:561–574CrossRef
  Jankowski J, Jóźwiak W, Vozár J (2008) Arguments for ionic nature of the Carpathian electric conductivity anomaly. Acta Geophys 56(2):455–465CrossRef
  Ji S, Rondenay S, Mareschal M, Senechal G (1996) Obliquity between seismic and electrical anisotropies as a potential indicator of movement sense for ductile shear zones in the upper mantle. Geology 24:1033–1036CrossRef
  Jones AG, Hutton R (1979) A multi-station magnetotelluric study in southern Scotland-I. Fieldwork, data analysis and results. Geophys J Int 56(2):329–349CrossRef
  Jozwiak W (2012) Large-scale crustal conductivity pattern in Central Europe and its correlation to deep tectonic structures. Pure Appl Geophys 169:1737–1747CrossRef
  Jupp DLB, Vozoff K (1977) Two-dimensional magnetotelluric inversion. Geophys J R Astron Soc 50:333–352CrossRef
  Korja T (2007) How is the European lithosphere imaged by magnetotellurics? Surv Geophys 28:239–272CrossRef
  Kováčiková S, Červ V, Praus O (2005) Modelling of the conductance distribution at the Eastern margin of the European Hercynides. Studiae Geophysicae et Geodeticae 49:403–421CrossRef
  Larsen JC, Mackie RL, Manzella A, Fiordelisi A, Rieven S (1996) Robust smooth magnetotelluric transfer functions. Geophys J Int 124:801–819CrossRef
  Leibecker J, Gatzemeier A, Hönig M, Kuras O, Soyer W (2002) Evidence of electrical anisotropic structures in the lower crust and the upper mantle beneath the Rhenish Shield. Earth Planet Sci Lett 202:289–302CrossRef
  Li S, Unsworth MJ, Booker JR, Wei W, Tan H, Jones AG (2003) Partial melt or aqueous fluid in the mid-crust of Southern Tibet? Constraints from INDEPTH magnetotelluric data. Geophys J Int 153(2):289–304CrossRef
  Löwer A, Junge A, Tietze K (2014) (An)isotropic 3D array magnetotelluric modeling of the south western Vogelsberg area, Abstract, 22nd Electromagnetic Induction Workshop, Weimar, Germany, August 25–30, 2014
  Magri F, Bayer U, Jahnke Ch, Clausnitzer V, Diersch HJ, Fuhrman J, Möller P, Pekdeger A, Tesmer M, Voigt HJ (2005) Fluid-dynamics driving saline water in the North East German Basin. Int J Earth Sci 94(5–6):1056–1069CrossRef
  Magri F, Bayer U, Tesmer M, Möller P, Pekdeger A (2008) Salinization problems in the NEGB: results from thermohaline simulations. Int J Earth Sci 97(5):1075–1085CrossRef
  Mandolesi E, Jones AG (2014) Magnetotelluric inversion based on mutual information. Geophys J Int 199:242–252CrossRef
  Mareschal M, Kellett RL, Kurtz RD, Ludden JA, Ji S, Bailey RC (1995) Archaean cratonic roots, mantle shear zones and deep electrical anisotropy. Nature 375:134–137CrossRef
  Meyer O (1951) Über eine besondere Art der erdmagnetischen Bay-Störungen. Dtsch Hydrogr Z 4(61) (in German)
  Neska A (2010) Subsurface conductivity obtained from DC railway signal propagation with a dipole model. In: Proceedings of 23rd Schmucker–Weidelt–Colloquium for Electromagnetic Depth Research, Dtsch Geophys Ges, Potsdam, pp 244–251
  Neska A, Schäfer A, Houpt L, Brasse H, EMTESZ WG (2008) From Precambrian to Variscan basement: magnetotellurics in the region of NW Poland, NE Germany and south Sweden across the Baltic Sea. In: Ritter O, Brasse H (eds) Protokoll zum 22. Kolloquium ‘‘Elektromagnetische Tiefenforschung’’. Dtsch Geophys Ges, Potsdam, pp 151–163
  Norden B, Förster A, Balling N (2008) Heat Flow and lithospheric thermal regime in the Northeast German Basin. Tectonophysics 460:215–229CrossRef
  Nowożyński K (2012) Splines in the approximation of magnetic fields and their transforms at the Earth’s surface. Geophys J Int 189:1369–1382CrossRef
  Oettinger G (1999) Magnetotellurische Messungen im sächsischen Granulitgebirge: Separation von Nutz- und Störsignal und Verteilung der elektrischen Leitfähigkeit, PhD Thesis, Fachbereich Geowissenschaften der Freien Universität, Berlin (in German)
  Osemeikhian JEA, Everett JE (1968) Anomalous magnetic variations in Southwestern Scotland. Geophys J R Astron Soc 15:361–366CrossRef
  Parkinson WD (1962) The influence of continents and oceans on geomagnetic variations. Geophys J Int 6(4):441–449CrossRef
  Peter C (1994) Elektrische Leitfähigkeitsmodelle der Erdkruste in Südhannover, Nordhessen und im westlichen Thüringen, abgeleitet aus der elektromagnetischen Induktion durch natürliche Felder, PhD Thesis, Universität Göttingen (in German)
  Pham VN, Boyer D, Therme P, Yuan XCh, Li L, Jin GY (1986) Partial melting zones in the crust in southern Tibet from magnetotelluric results. Nature 319(6051):310–314CrossRef
  Posgay K, Bodoky T, Hegedüs E, Kovácsvölgyi S, Lenkey L, Szafián P, Takács E, Tímár Z, Varga G (1995) Asthenospheric structure beneath a Neogene basin in southeast Hungary. Tectonophysics 252:467–484CrossRef
  Pous J, Muñoz JA, Ledo JJ, Liesa M (1995) Partial melting of subducted continental lower crust in the Pyrenees. Journal of the Geological Society 152:217–220CrossRef
  Pożaryski W, Małkowski Z, Jankowski J (1965) Distribution of short-period geomagnetic variations related to tectonics in Central Europe. Rocz Pol Towarz Geol 35(1):97–102
  Pushkarev PYu, Ernst T, Jankowski J, Jozwiak W, Lewandowski M, Nowozynski K, Semenov VYu (2007) Deep resistivity structure of the Trans-European Suture Zone in Central Poland. Geophys J Int 169:926–940CrossRef
  Raikes S, Bonjer KP (1983) Large-scale mantle heterogeneity beneath the Rhenish Massif and its vicinity from teleseismic P-residuals measurements, In: Plateau uplift. Springer, Berlin, pp 315–331
  Rao CK, Jones AG, Moorkamp M, Weckmann U (2014) Implications for the lithospheric geometry of the Iapetus suture beneath Ireland based on electrical resistivity models from deep-probing magnetotellurics. Geophys J Int 198:737–759CrossRef
  Ritter O, Haak V, Rath V, Stein E, Stiller M (1999) Very high electrical conductivity beneath the Münchberg Gneiss area in Southern Germany: implications for horizontal transport along shear planes. Geophys J Int 139(1):161–170CrossRef
  Rokityansky II (1972) Anomaliya elektrovodimosti v zemnoy korye na Karpatakh. Izvestiya Akademii Nauk SSSR, Fizika Zemli 10:97–100 (in Russian)
  Roux E, Moorkamp M, Jones AG, Bischoff M, Endrun B, Lebedev S, Meier T (2011) Joint inversion of long-period magnetotelluric data and surface-wave dispersion curves for anisotropic structure: application to data from Central Germany. Geophys Res Lett 38:L05304CrossRef
  Sass P, Ritter O, Ratschbacher L, Tympel J, Matiukov VE, Rybin AK, Batalev VY (2014) Resistivity structure underneath the Pamir and Southern Tian Shan. Geophys J Int 198:564–579CrossRef
  Schäfer A, Houpt L, Brasse H, Hoffmann N, EMTESZ Working Group (2011) The North German conductivity anomaly revisited. Geophys J Int 187:85–98CrossRef
  Schmucker U (1959) Erdmagnetische Tiefensondierung in Deutschland 1957/59: Magnetogramme und erste Auswertung. In: Abhandlungen der Akademie der Wissenschaften in Göttingen Mathematisch-Physikalische Klasse. Vandenhoeck & Ruprecht, Göttingen (in German)
  Schmucker U (1970a) An introduction to induction anomalies. J Geomagn Geoelectr 22:9–33CrossRef
  Schmucker U (1970b) Anomalies of geomagnetic variations in the Southwestern United States. Univ. of California Press, Berkeley
  Semenov VYu (2014) Results of crust and mantle soundings in central and northern Europe in the 21st century (review). Acta Geophys 62:1–22CrossRef
  Semenov VYu, Jozwiak W (2005) Estimation of the upper mantle electric conductance at the Polish Margin of the East European Platform. Izvestiya Phys Solid Earth 41(4):326–332
  Shankland TJ, Duba AG, Mathez EA, Peach CL (1997) Increase of electrical conductivity with pressure as an indicator of conduction through a solid phase in midcrustal rocks. J Geophys Res 102(B7):14741–14750CrossRef
  Shomali H, Roberts RG, Pedersen LB, TOR-Working-Group (2006) Lithospheric structure of the Tornquist Zone resolved by non-linear P and S teleseismic tomography. Tectonophysics 416:133–149CrossRef
  Ślęzak K, Nowożyński K, Jóźwiak W, Martens D, Brasse H (2014a) Three-dimensional MT modeling for the Pomerania region in NW Poland. In: Proceedings of the 25th Schmucker–Weidelt–Colloquium for Electromagnetic Depth Research, Dtsch. Geophys Ges, Potsdam, Germany
  Ślęzak K, Jóźwiak W, Nowożyński K, Hoffmann N, Brasse H (2014b) 3-D inversion of MT data to image the Variscan and Caledonian Deformation Fronts in NW Poland, Extended Abstract, 22nd Electromagnetic Induction Workshop, Weimar, Germany, August 25–30, 2014
  Smirnov MY, Pedersen LB (2009) Magnetotelluric measurements across the Sorgenfrei-Tornquist Zone in southern Sweden and Denmark. Geophys J Int 176:443–456CrossRef
  Soyer W (2002) Analysis of geomagnetic variations in the Central and Southern Andes, PhD Thesis, Freie Universität Berlin, Germany
  Sperner B, Lorenz F, Bonjer K, Hettel S, Müller B, Wenzel F (2001) Slab break-off—abrupt cut or gradual detachment? New insights from the Vrancea Region (SE Carpathians, Romania). Terra Nova 13:172–179CrossRef
  Stănică M, Stănică D, Marin-Furnică C (1999) The placement of the Trans-European Suture Zone on the Romanian territory by electromagnetic arguments. Earth Planets Space 51:1073–1078CrossRef
  Steveling E (1973) Erdmagnetische Tiefensondierung mit Variationen und Pulsationen im Einflussbereich der Norddeutschen Leitfähigkeitsanomalie, PhD Thesis, Universität Göttingen (in German)
  Tauber S, Banks R, Ritter O, Weckmann U, Junge A (2003) A high-resolution magnetotelluric survey of the Iapetus suture zone in southwest Scotland. Geophys J Int 153:548–568CrossRef
  Van Wees JD, Stephenson RA, Ziegler PA, Bayer U, McCann T, Dadlez R, Gaupp R, Narkiewicz M, Bitzer F, Scheck M (2000) On the origin of the southern Permian Basin, Central Europe. Marine Pet Geol 17(1):43–59CrossRef
  Vozoff K, Swift CM (1968) Magneto-telluric measurements in the North German Basin. Geophys Prospect 16(4):454–473CrossRef
  Weidelt P (1978) Entwicklung und Erprobung eines Verfahrens zur Inversion zweidimensionaler Leitfähigkeits-strukturen in E-Polarisation, Habilitation treatise. Universität Göttingen, Göttingen (in German)
  Wiese H (1962) Geomagnetische Tiefentellurik Teil II: Die Streichrichtung der Untergrundstrukturen des elektrischen Widerstandes, erschlossen aus geomagnetischen Variationen. Pure appl Geophys 52(1):83–103 (in German) CrossRef
  Wybraniec S, Jankowski J, Ernst T, Pecová J, Praus O (1999) A new method for presentation of induction vector distribution in Europe. Acta Geophysica Polonica 47(3):323–343
  Zhamaletdinov A (2005) On electronically conductive nature of the Carpathian anomaly (geoelectric, geothermal, and geodynamic aspects). Publications of the Institute of Geophysics, Polish Academy of Sciences C-95(386):43–58
  Żytko K (1997) Electrical conductivity anomaly of the Northern Carpathians and the deep structure of the orogen. Ann Soc Geol Pol 67:25–43
  
• 作者单位：Anne Neska (1)
  
  1. Institute of Geophysics, Polish Academy of Sciences, ul. Księcia Janusza 64, 01-452, Warsaw, Poland
  
• 刊物类别：Earth and Environmental Science
• 刊物主题：Earth sciences
  Geophysics and Geodesy
  Geosciences
  Astronomy
  
• 出版者：Springer Netherlands
• ISSN：1573-0956

文摘

This paper is a review of studies which, by applying the magnetotelluric, geomagnetic deep sounding, and magnetovariational sounding methods (the latter refers to usage of the horizontal magnetic tensor), investigate Central Europe for zones of enhanced electrical conductivity. The study areas comprise the region of the Trans-European Suture Zone (i.e. the south Baltic region and Poland), the North German Basin, the German and Czech Variscides, the Pannonian Basin (Hungary), and the Polish, Slovakian, Ukrainian, and Romanian Carpathians. This part of the world is well investigated in terms of data coverage and of the density of published studies, whereas the certainty that the results lead to comprehensive interpretations varies within the reviewed literature. A comparison of spatially coincident or adjacent studies reveals the important role that the data coverage of a distinct conductivity anomaly plays for the consistency of results. The encountered conductivity anomalies are understood as linked to basin sediments, asthenospheric upwelling, large differences in lithospheric age, and—this concerns most of them, which all concentrate in the middle crust—tectonic boundaries that developed during all mountain building phases that have taken place on the continent. Keywords Carpathian Conductivity Anomaly North German-Polish Conductivity Anomaly Trans-European Suture Zone Magnetotellurics Orogeny Electromagnetic induction studies in Europe