21st EM Induction Workshop: Thursday 26th July - MTNet
21st EM Induction Workshop: Thursday 26th July - MTNet
21st EM Induction Workshop: Thursday 26th July - MTNet
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21 st <strong>EM</strong> <strong>Induction</strong> <strong>Workshop</strong>: <strong>Thursday</strong> <strong>26th</strong> <strong>July</strong><br />
Welcome Session: Auditorium<br />
8.30 Welcome to the <strong>Workshop</strong> Graham Heinson<br />
8.35 Welcome to Country Bilawara Lee from Larrakia Nation<br />
8.50 The 21 st <strong>EM</strong> <strong>Induction</strong> <strong>Workshop</strong> Yasuo Ogawa, Ian Ferguson, Graham Heinson<br />
Morning: Session 1 – <strong>EM</strong> Data Processing and Analysis<br />
Chairs:Ted Lilley, Christina Walter<br />
S1-rev Review: Phase Tensors John Booker<br />
S1-1 Magnetotelluric transfer functions multivariate estimation Smirnov, M.Yu. , Egbert, G.D.<br />
The influence of seasonally varying geomagnetic source fields on<br />
Dirk Brändlein, Oliver Ritter and Ute Weckmann<br />
S1-2 magnetotelluric monitoring in Northern Chile.<br />
<strong>EM</strong>T - Empirical mode decomposition based Magneto-Telluric processing: Maik Neukirch and Xavier Garcia<br />
S1-3 Using a non stationary method to compute instantaneous spectral data<br />
Morning: Session 2 – Anisotropy<br />
Chairs: Alan Jones and Annika Roedder<br />
S6-rev Review: Anisotropy Anna Marti<br />
S2,6-1 Inversion of 2D magnetotelluric data with anisotropic conductivities Xiaoming Chen and Ute Weckmann<br />
S2,6-2 Superparamagnetic effect, effect provided by “red soil” in Southern Africa Zadorozhnaya, V., Kozhevnikov, N.O., Nyabeze P.<br />
Morning: Session 9 – Innovation<br />
Chairs: Gad El-Qady and Peter Kannberg<br />
Experience of the winter AMT survey with ungrounded electric lines Alexander Saraev, Mikhail Pertel, Ivan Kholodov, Igor<br />
S9-1<br />
Eremin and Kalys Bakirov<br />
S9-2 A new approach for detection of pre-earthquake lithospheric activity V. Korepanov and F. Dudkin<br />
Posters: Session 1 - <strong>EM</strong> Data Processing and Analysis<br />
New Method: Implementation of Planshet CS<strong>EM</strong> Survey to solve several Olga Hachay, Magdy Atya, and Oleg Khachay<br />
SP1-1 complex geophysical near surface problems; Case Studies<br />
Observed out-of-quadrant magnetotelluric phase due to large scale 3-D<br />
John R. Booker, Aurora Burd, Randall Mackie, Alicia<br />
SP1-2 structure<br />
Favetto, Cristina Pomposiello<br />
Application of the interstation horizontal magnetic transfer function to improve Joan Campanyà, Juanjo Ledo, Pilar Queralt, Alex<br />
SP1-3 the processing of long period magnetotelluric data<br />
Marcuello<br />
SP1-4 On the Statistics of the Magnetotelluric Skew Alan D. Chave<br />
SP1-5 Geomagnetic Variations before the 1999 Chi-Chi Earthquake (Mw=7.6) Kuang-Jung Chen<br />
Polarization analysis of magnetotelluric data in the time-frequency domain: a Magdalena Escalas, Pilar Queralt, Juanjo Ledo, Alex<br />
SP1-6 key to identify cultural noise sources<br />
Marcuello<br />
The use of geoelectric fields and auroral electrojet indices to estimate<br />
E.O Falayi and N. Beloff<br />
SP1-7 geomagnetically induced currents during geomagnetic storms<br />
Uncertainty estimation for measures of data misfit Rongwen Guo, Jianxin Liu , Haifei Liu, Xiaozhong<br />
SP1-8<br />
Tong and Chunming Liu<br />
Estimation of induced fields in time series data by using MT frequency<br />
Hideaki Hase and Makoto Uyeshima<br />
SP1-9 response functions<br />
SP1-10 XML Format for Magnetotelluric Transfer Functions A. Kelbert, G.D. Egbert and A. Schultz<br />
SP1-11 The distortion matrix for the student of linear algebra F<strong>EM</strong> (Ted) Lilley<br />
Comparison of MT Apparent Resistivity and Phase Pseudo Depth Sections Ved Prakash Maurya, Bimalendu.B,Bhattacharya<br />
SP1-12<br />
and Shalivahan<br />
Data processing of magnetotelluric survey data in time domain using digital Hikaru Nagata, Hitoshi Mikada, Tada-nori Goto,<br />
SP1-13 filter - An Example of the Nankai trough-<br />
Junichi Takekawa and Takafumi Kasaya<br />
Resistivity structure of Mt.Mihara,Izu Oshima by the System ACTIVE Hiroyuki Nagatake, Makoto Uyeshima and Takao<br />
SP1-14<br />
Koyama<br />
Finite-difference pre-stack migration in space-frequency domain for GPR data Jianxin Pei, Xiuli Zhang and Qi Wang<br />
SP1-15 based on wave-equation<br />
A case study of processing and inverting VT<strong>EM</strong> data from a hydrogeological Joel E. Podgorski, Esben Auken, Cyril Schamper,<br />
SP1-16 survey of the Okavango Delta, Botswana<br />
and Alan G. Green<br />
On time variations of Magnetotelluric transfer functions North of the Polar A. Rödder, A. Junge, M. Smirnov and the MaSca<br />
SP1-17 Circle<br />
Working Group<br />
Electromagnetic field features of the CSAMT with the long-range action of Alexander Saraev and Arseny Shlykov<br />
SP1-18 thousands kilometres<br />
SP1-19 A simple 2D explanation for negative phases in TE magnetotelluric data K. Selway, S. Thiel and K. Key<br />
SP1-20 Investigation of the influence of electric fences on MT measurements Christina Walter and Annie J. Zaino<br />
Exploring for Electrical Conductivity Structure with Application of Geomagnetic Xu Guangjing, Tang Ji And Huang Qinghua<br />
SP1-21 Observatory Data in North China<br />
Robust Principal Components Analysis of Electromagnetic Arrays with Missing G.D. Egbert and M.Yu.Smirnov<br />
SP1-22 Data
Posters: Session 6 – Anisotropy<br />
SP6-1 Magnetotelluric inversion for 2D generally anisotropic conductivities Pek J., Santos F. A. M., Li Y., Kovacikova S.<br />
A 2.5D finite element modelling of marine CS<strong>EM</strong> fields in arbitrarily anisotropic Yuguo Li,Ming Luo and Jianxin Pei<br />
SP6-2 media<br />
SP6-3 Magnetotelluric inversion in 2D anisotropic environment Eric Mandolesi, Alan G. Jones<br />
An application of artificial neural network to estimate macro parameters of Mansoure Montahaei, Behrooz Oskooi and Heinrich<br />
SP6-4 electrically anisotropic structures, case study: South Central Chile<br />
Brasse<br />
Modelling of apparent resistivity tensors and Magnetotelluric phase tensors on A. Rödder and A. Junge<br />
SP6-5 anisotropic structures<br />
Posters: Session 3.1 – Theory<br />
The importance of the loss tangent and wavenumber: Implications for velocity Michael Hatch, Graham Heinson, Tim Munday,<br />
SP3.1-1 and skin depth of low-frequency GPR and high-frequency <strong>EM</strong>I surveys<br />
Stephan Thiel and Ken Lawrie<br />
SP3.1-2 T<strong>EM</strong>, Maxwell’s Equations and Diffusion Eva Papp, Bela Lukacs<br />
Spherical decomposition of electromagnetic fields generated by quasi-static Jin Sun and Gary Egbert<br />
SP3.1-3 currents<br />
Posters: Session 3.5 – DC Geoelectrics<br />
Two-Dimensional Inversion of Surface-to-Hole and Cross-Hole Direct Current Cem Demirel and M. Emin Candansayar<br />
SP3.5-1 Resistivity Data<br />
SP3.5-2 Sensitivity of HVDC Ground Electrode Responses to Sub-surface Resistivity Hayward T., Ferguson I.J.<br />
A new algorithm for three-dimensional regularized inversion of direct current N. Yıldırım Gündoğdu and M. Emin Candansayar<br />
SP3.5-3 resistivity data: DCR3Dinv<br />
Hybrid FD-FE Direct Current Resistivity Inversion Chatchai Vachiratienchai and Weerachai<br />
SP3.5-4<br />
Siripunvaraporn<br />
3D DC resistivity FE modelling and inversion in view of a parallelised Multi-<strong>EM</strong> Julia Weißflog, Felix Eckhofer, Ralph-Uwe Börner,<br />
SP3.5-5 inversion approach<br />
Michael Eiermann, Oliver G. Ernst, Klaus Spitzer<br />
Investigating topographic depression by geoelectrical resistivity: a case study H. Mardomi, R. Alipour-Kafshgar, M. Faridi, A.<br />
SP3.5.6<br />
Moradzadeh<br />
Two-dimensional Inversion of DC Resistivity Data Incorporating Topography: İsmail Demirci, Erhan Erdoğan And M. Emin<br />
SP3.5.7 Effects of Different Modeling Techniques<br />
Candansayar<br />
Posters: Session 9 – Innovation<br />
SP9-1<br />
SP9-2<br />
SP9-3<br />
SP9-4<br />
SP9-5<br />
SP9-6<br />
The day-to-day variability of total electron content in the equatorial ionospheric<br />
anomaly (Eia) region in Nigeria<br />
A. B. Rabiu, T. T. Ayorinde, R. S. Fayose.<br />
Construction and Comparison of Ag/AgCl Electrodes for long-period<br />
Susanne Benz, Prof. Dr. Karsten Bahr, Ulrich<br />
Magnetotellurics<br />
Einecke<br />
Imaging methane hydrate: results from three novel surveys Peter Kannberg, Steven Constable, Karen<br />
Weitemeyer, and Kerry Key<br />
Recent advances in MT instrumentation V. Korepanov, A. Marusenkov, V. Pronenko and A.<br />
Prystai<br />
Electric field variations associated with seismic waves by aftershocks of the M. Matsushima, Y. Ogawa, T. G. Caldwell, E. A.<br />
Canterbury earthquake (Mw 6.2), New Zealand<br />
Bertrand, S. L. Bennie, and Y. Honkura<br />
The National Geoelectromagnetic Facility ‚A New Ultra-Wideband <strong>EM</strong> Receiver<br />
Capabilities<br />
Adam Schultz, Scott Urquhart
21 st <strong>EM</strong> <strong>Induction</strong> <strong>Workshop</strong>: Friday 27th <strong>July</strong><br />
Morning: Session 3 – Theory, Modelling and Inversion<br />
Chairs: Michael Becken and Kristina Tietze<br />
S3-rev1 Review: Joint Inversion Eldad Haber<br />
Project APHID: A Lorenz-gauged A-Phi Decomposition for general-purpose 3D CJ Weiss<br />
S3-1 forward computation<br />
On the efficient formulation of the MT boundary value problem for 3D finite Antje Franke-Boerner, Ralph-Uwe Boerner and Klaus<br />
S3-2 element simulation<br />
Spitzer<br />
S3-3 3D finite-difference time-domain marine magnetotelluric modelling Sebastien de la Kethulle de Ryhove<br />
A generalized gauge potential scheme for 3D frequency-domain geo-<br />
Bing Zhou, Graham Heinson, Aixa Rivera-Rios<br />
S3-4 electromagnetic modeling in anisotropic media<br />
Three-dimensional joint inversion of magnetotelluric impedance tensor data A. Avdeeva, M. Moorkamp and D. Avdeev<br />
S3-5 and full distortion matrix<br />
Morning: Session 3 – Theory, Modelling and Inversion<br />
Chairs: Chet Weiss and Marina Rosas Carbajal<br />
S3-rev2 Review: Parallel Computing Greg Neumann<br />
Massively-parallel 3D integral equation modeling and inversion Michael S. Zhdanov, Masashi Endo, Martin Cuma,<br />
S3-6<br />
Alexander V. Gribenko, Leif H. Cox, Glenn A. Wilson<br />
S3-7 3D magnetotelluric inversion in practice Kristina Tietze, Oliver Ritter<br />
Toward 3D inversion of land-based controlled-source electromagnetic data Alexander Grayver and Rita Streich<br />
S3-8 from the Ketzin CO2 storage formation<br />
S3-9 A multi-grid approach to electromagnetic modeling and inversion using Mod<strong>EM</strong> M. Cherevatova, G. Egbert and M. Smirnov<br />
Posters: Session 3.2 – Modelling<br />
Two Dimensional Magnetotelluric Modeling using Finite Element Method and Erhan Erdoğan, Mehmet Emin Candansayar<br />
SP3.2-1 Parallel Implementation<br />
SP3.2-2 Electromagnetic modelling using a finite-element approach Savitri Galiana and Xavier Garcia<br />
Efficient Computation of 2D MT Response using Exponential Finite Difference Piyoosh Jaysaval, P. K. Gupta and Vishal Khatri<br />
SP3.2-3 Method<br />
Compatible finite element formulation of the equation for electric field in the M. Kordy, P. Wannamaker, E. Cherkaev<br />
SP3.2-4 frequency domain: crucial role of the divergence correction<br />
Multi-order Vector Finite Element Modelling of 3D Magnetotelluric Data<br />
Aixa Rivera-Rios, Bing Zhou, Graham Heinson and<br />
SP3.2-5 including complex geometry and anisotropic earth.<br />
Stephan Thiel<br />
Project G<strong>EM</strong>INI: The Global ElectroMagnetic INtercomparison Investigation CJ Weiss, A Kelbert, A Kuvshinov, J Velimsky, J<br />
Ribaudo, P Tarits, Z Martinec, T Koyama, C<br />
SP3.2-6<br />
Constable, M Uyeshima and J Sun<br />
Posters: Session 3.3 – Inversion: Numerical Methods<br />
SP3.3-1<br />
SP3.3-2<br />
SP3.3-3<br />
SP3.3-4<br />
SP3.3-5<br />
SP3.3-6<br />
SP3.3-7<br />
Efficient Calculation of the Sensitivity for Large Scale Electromagnetic<br />
M. Afanasjew, R.-U. Börner, M. Eiermann, O. G.<br />
Secondary Field Approaches<br />
Ernst, M. Scheunert, K. Spitzer<br />
3-D inversion of helicopter <strong>EM</strong> data Ralph-Uwe Börner, Martin Afanasjew, Michael<br />
Eiermann, Oliver G. Ernst, Mathias Scheunert, Klaus<br />
Spitzer<br />
Three-Dimensional Inversion of Time-Domain Controlled-Source Land-Based Mark S. Hickey, Mark E. Everett<br />
<strong>EM</strong> Data with Extreme Topography<br />
Magnetotelluric 3D inversion - a recapitulation of two successful workshops on Marion P. Miensopust, Pilar Queralt, Alan G. Jones<br />
forward and inversion code testing and comparison<br />
and the 3D MT modellers<br />
Solving the Electromagnetic Inverse Problem Using Krylov Subspace Methods M. Scheunert, M. Afanasjew, R.-U. Börner, M.<br />
Eiermann, O.G. Ernst, K. Spitzer<br />
3-D frequency-domain CS<strong>EM</strong> inversion using a vector finite element forward F. Wang, R.-U. Boerner, and K. Spitzer<br />
operator: concepts and first results<br />
Preparation for 3D magnetotelluric inversion using the all-at-once approach Wenke Wilhelms, Ralph-Uwe Börner and Klaus<br />
Spitzer<br />
Posters: Session 3.4 – Inversion: Novel Approaches<br />
SP3.4-1 Relating Blob Model Complexity to Model Error Brad Alexander, Jared Peacock, Stephan Thiel<br />
SP3.4-2 Towards a new 3-D magnetotellurics (MT) inverse solver Jenneke Bakker, Alexey Kuvshinov<br />
Inversion of magnetotelluric data using a wavelet domain model<br />
Michael Becken<br />
SP3.4-3 parameterization<br />
A concept of MT-data inversion using adaptive master Jacobians for spatially Andreas Junge<br />
SP3.4-4<br />
fixed model conductivity sampling points<br />
SP3.4-5 Inversion of near-field induction measurements with integral equations J. Kamm, M. Becken and L. B. Pedersen<br />
SP3.4-6 Joint inversion of Magnetotelluric, Seismic refraction and reflection data Xu Liu, Graham Heinson and Bing Zhou<br />
SP3.4-7 Limits of 1D Phase Tensor Inversion on 3D Structures Alexander Löwer, Andreas Junge<br />
SP3.4-8<br />
Robust magnetotelluric inversion Tetsuo Matsuno, Alan D. Chave, Alan G. Jones, Mark<br />
R. Muller and Rob. L. Evans
New weighting schemes for joint inversion of Magnetotelluric and Controlled Naser Meqbel and Oliver Ritter<br />
SP3.4-9 Source <strong>EM</strong> data<br />
SP3.4-10 Using non-diagonal covariance matrices in magnetotelluric inversion M. Moorkamp and A. Avdeeva<br />
Focused time-lapse inversion of plane wave electromagnetic data Marina Rosas Carbajal, Niklas Linde and Thomas<br />
SP3.4-11<br />
Kalscheuer<br />
Influence of static effects on 3D magnetotelluric inversion Masanori Tani, Hitoshi Mikada, Tada-Nori Goto,<br />
SP3.4-12<br />
Jyunichi Takekawa and Weerachai Siripunvaraporn<br />
Posters: Session 4.2 – Groundwater, Environment and Hazards<br />
Detecting the location and orientation of concealed faults by square array Rohollah Alipour-Kafshgar, Hanieh Mardomi, Ali<br />
SP4.2-1 resistivity: a case study<br />
Moradzadeh, Mohammad K. Hafizi<br />
CSMT and T<strong>EM</strong> Investigation to evaluate groundwater Potentiality in Qarret Magdy Atya, Gad EL-Qady and Mohamed Abdel<br />
SP4.2-2 Abu Rouh, Minya, Egypt<br />
Zaher<br />
Faulting and Groundwater in Arid Environments: Ground and Airborne<br />
Paul A. Bedrosian, M. K. Burgess, B. Bloss, L. B.<br />
Geophysics for Framework Hydrology<br />
Ball, J. Densmore, P. Martin, V. E. Langenheim, R. C.<br />
SP4.2-3<br />
Jachens<br />
Mapping lacustrine deposits and faults within the east-central San Luis Basin, Paul A. Bedrosian, V.J.S. Grauch, B. R. Bloss, D. V.<br />
SP4.2-4 Rio Grande Rift, using airborne electromagnetic surveys<br />
Fitterman, J. D. Abraham, B. J. Drenth<br />
Multi-frequency multi-spacing <strong>EM</strong> profiling for mining and groundwater<br />
Jean Bernard, Orlando Leite and Fabrice Vermeersch<br />
SP4.2-5 applications<br />
Framework hydrology in the High Plains Aquifer – using geophysics as a virtual Benjamin Bloss, Paul A. Bedrosian, Chris Hobza<br />
SP4.2-6 borehole<br />
Mapping salt-water intrusion in the Magdalen Islands with T<strong>EM</strong> Michel Chouteau, Abdelhamid Madani And<br />
SP4.2-7<br />
Abderrezak Bouchedda<br />
Darwin to Katherine, the Pine Creek regional airborne electromagnetic (A<strong>EM</strong>) Marina Costelloe<br />
SP4.2-8 survey, Northern Territory, Australia<br />
Application of ground penetrating radar and electrical resistivity techniques for Olalekan Fayemi and Abraham Adekunle Adepelumi<br />
SP4.2-9 subsurface stratigraphic mapping in southwestern nigeria<br />
Electromagnetic imaging of the Spiritwood Valley buried aquifer near<br />
Taras Zaporozan and Ian Ferguson<br />
SP4.2-10 Cartwright, Manitoba, Canada<br />
Characterization of artesian springs in the Great Artesian Basin of centraleastern<br />
Australia using magnetotelluric, time-domain electromagnetic, and self-<br />
Kent Inverarity, Michael Hatch and Graham Heinson<br />
SP4.2-11 potential measurements<br />
Airborne Geophysical Surveys in the Weser-Elbe Area, Northern Germany Bernhard Siemon, Annika Steuer, Malte Ibs-von Seht,<br />
Wolfgang Voß, Marion P. Miensopust, Uwe Meyer<br />
SP4.2-12<br />
and Helga Wiederhold<br />
SP4.2-13 Electromagnetic monitoring techniques for CO2 storage Gerard Muñoz, Oliver Ritter<br />
Resistivity structure of Mt.Mihara,Izu Oshima by the System ACTIVE Hiroyuki Nagatake, Makoto Uyeshima and Takao<br />
SP4.2-14<br />
Koyama<br />
2D Model of the Sipoholon Geothermal Field, Indonesia Sintia Windhi Niasari, Gerard Muñoz, Kholid<br />
SP4.2-15<br />
Muhammad, Edi Suhanto and Oliver Ritter<br />
Preliminary results of the 3D magnetotelluric characterization of the Hontomín Xènia Ogaya, Pilar Queralt, Juanjo Ledo, Álex<br />
SP4.2-16 site (Spain) for Geological Storage of CO2<br />
Marcuello and Alan G. Jones<br />
Forward simulation of Self Potential and inversion of water head Yusuke Ozaki, Hitoshi Mikada, Tada-nori Goto and<br />
SP4.2-17<br />
Junichi Takekawa<br />
How helicopter-borne electromagnetic models can help to improve the<br />
Annika Steuer, Bernhard Siemon, Malte Ibs-von Seht,<br />
SP4.2-18 hydrogeological understanding of a saltwater-rising zone<br />
Uwe Meyer and Helga Wiederhold<br />
On the exploration of a marine aquifer offshore Israel by long offset transient B.Tezkan, K. Lippert, R.Bergers, M. Goldman<br />
SP4.2-19 electromagnetic: A 2D conductivity model<br />
Characterisation of municipal landfill contents and preferential flow paths of a J. Triantafilis, J. Ribeiro, D. Page and F.A. Monteiro<br />
SP4.2-20 leachate plume using a DUAL<strong>EM</strong>-421 and a quasi-3 dimensional inversion Santos<br />
Electromagnetic conductivity imaging (<strong>EM</strong>CI) using a DUAL<strong>EM</strong>-421 and<br />
J Triantafilis and F.A. Monteiro Santos<br />
SP4.2-21 inversion modelling software (<strong>EM</strong>-TOMO)<br />
2D MT transect across a shoreline in northern Hokkaido, Japan: discovery of Toshihiro Uchida, Takumi Ueda and Yuji Mitsuhata<br />
SP4.2-22 fresh water aquifer in young sedimentary formation beneath seafloor<br />
On temporal variation of SP spatial distribution on Miyakejima Island before Uyeshima, M., Hase, H., Aizawa, K., Yamaya, Y.,<br />
and after the 2000 summit eruption<br />
Koyama T., Nishida, Y. and Research Group of<br />
SP4.2-23<br />
Geoelectromagnetism on Miyakejima Volcano<br />
<strong>EM</strong> monitoring of the CO2 injection at the Storage Site of Hontomín (Burgos): Eloi Vilamajó, Pilar Queralt, Juanjo Ledo, Álex<br />
SP4.2-24 assessing the detectability of a deep controlled source<br />
Marcuello<br />
Investigation of the Azraq Basin, Jordan using Integrated Geoelectrical<br />
P. Yogeshwar, B. Tezkan, A. Haroon<br />
SP4.2-25 Techniques: 2D Modeling of Transient Electromagnetic Data
Morning: Session 4 – Exploration<br />
Chairs: Paul Bedrosian and Chris Yeomans<br />
21 st <strong>EM</strong> <strong>Induction</strong> <strong>Workshop</strong>: Sunday 29th <strong>July</strong><br />
S4-rev1 Review: Mineral Exploration Richard Smith<br />
S4-1<br />
An assessment of Geotem, Falcon, ZT<strong>EM</strong> surveys over the Nebo Babel<br />
deposit, Western Australia.<br />
Ken Witherly, Daniel Sattel<br />
S4-rev2 Review: Groundwater Esben Auken<br />
S4-2<br />
S4-3<br />
Laterally constrained 1-D inversion modeling of an airborne T<strong>EM</strong> dataset from<br />
the Okavango Delta, Botswana<br />
First Very Low Frequency measurements using an unmanned aircraft system:<br />
A feasibility study<br />
Morning: Session 4 – Exploration<br />
Chairs: Graham Heinson and Michael Hatch<br />
S4-rev3 Review: Geothermal Gerard Munoz<br />
Joel E. Podgorski, Lesego Kgotlhang, Alan G. Green,<br />
Wolfgang K. H. Kinzelbach, Thomas Kalscheuer,<br />
Esben Auken, and Tiyapo Ngwisanyi<br />
B.Tezkan, R. Eröss, R. Bergers, J. Stoll<br />
Water, Ice, and Alteration – Airborne Electromagnetics for Hazard Mapping at Paul A Bedrosian and Carol Finn<br />
S4-4 Mount St. Helens<br />
Magnetotelluric monitoring of a fluid injection: example from enhanced<br />
J. R. Peacock, S. Thiel, P. Reid, and G. S. Heinson<br />
S4-5 geothermal system<br />
Modelling the true electrical conductivity of pedological and hydrogeological J. Triantafilis, V. Wong, F.A. Monteiro Santos, D.<br />
S4-6 strata using DUAL<strong>EM</strong>-421 and <strong>EM</strong>34 data and a joint-inversion algorithm Page and R. Wege<br />
S4-7 geophysical shortcut for acid sulfate soil management K Vozoff, J.W. Tayton, D Cramer, P.B. Hostetler<br />
Posters: Session 4.1 – Geothermal and Unconventional Energy<br />
Imaging upper-crustal convection plumes beneath the Taupo Volcanic Zone, Bertrand E.A., Caldwell T.G., Bannister S.B., Hill G.J.<br />
SP4.1-1 New Zealand<br />
and Bennie S.B.<br />
IRETHERM: Multi-disciplinary investigation of Irish warm springs and their S. Blake, M. R. Muller and A. G. Jones<br />
SP4.1-2 potential for geothermal energy provision.<br />
The IRETHERM project: Assessment of Ireland’s Permo-Triassic sedimentary R Delhaye, MR Muller, M Loewer, AG Jones, D Reay<br />
SP4.1-3 basins as possible geothermal aquifers<br />
and the IRETHERM Team<br />
Magnetotelluric Exploration at Tendaho High Temperature Geothermal Field in Yohannes Lemma, Ulrich Kalberkamp, Fisum Abera,<br />
SP4.1-4 North East Ethiopia<br />
Kassahun Dendere and Yiheyis Kebede<br />
The IRETHERM project: A magnetotelluric assessment of the geothermal T.F. Farrell, A.G. Jones, M.R. Muller & M. Feely<br />
SP4.1-5 energy potential of Irish radiogenic granites<br />
Investigating Geothermal Resources in Utah, USA, using MT and gravity Christian L. Hardwick, David S. Chapman, Richard G.<br />
SP4.1-6<br />
Allis<br />
IRETHERM: Research and Exploration Challenges in Assessing Ireland's Alan G. Jones, Mark R. Muller, Javier Fullea, Jan<br />
Deep Low-Enthalpy Geothermal Energy Potential<br />
Vozar, Sarah Blake, Robert Delhaye, Thomas Farrell,<br />
Chris Yeomans, Markus Loewer, Derek Reay and the<br />
SP4.1-7<br />
IRETHERM Team<br />
Success of Electromagnetic methods in geothermal resource exploration in Samuel Mwangi<br />
SP4.1-8 Kenya<br />
Magnetotelluric exploration of Tenerife (Canary Islands, Spain). Three-<br />
Perla Piña-Varas, Juanjo Ledo, Pilar Queralt, Alex<br />
SP4.1-9 dimensional topographic and bathymetric effects.<br />
Marcuello, Fabián Bellmunt, Raúl Hidalgo<br />
Typical resistivity model of a geothermal zone and the estimation of efficiency Pavel Pushkarev and Katerina Ivanova<br />
SP4.1-10 of magnetotelluric data interpretation methods<br />
Middle Earth Down Under: T<strong>EM</strong> survey of the Okauia Low Temperature<br />
Robert Reeves and Supri Soengkono<br />
SP4.1-11 System<br />
The use of Magnetotelluric and Time domain electromagnetic methods in the Ryan, G. A., S. A. Onacha, E. Shalev and P. E. Malin<br />
SP4.1-12 geothermal survey of Montserrat, W.I.<br />
Magnetotelluric exploration of the geothermal system at Aluto volcano, Ethiopia F. Samrock, and J. Bakker and S. Fisseha and A.<br />
SP4.1-13<br />
Jackson and A. Kuvshinov<br />
Newberry Volcano ‚A novel use of 4D monitoring techniques to improve<br />
Adam Schultz, Paul Vincent, Kelly Rose, Alexandra<br />
reservoir longevity and productivity in Enhanced Geothermal Systems<br />
Hakala, Christina Lopano, Karl Schroeder, Scott<br />
SP4.1-14<br />
Urquhart, Jennifer Hare, Les Beard<br />
Application of CSAMT/AMT method to hydrogeological and hydrothermal Lukasz Sito , Tomasz Czerwinski, Jan Farbisz ,<br />
SP4.1-15 surveys<br />
Michal Stefaniuk, Marek Wojdyla<br />
SP4.1-16 Inversion of Electromagnetic data from Olkaria Geothermal Field in Kenya. Anastasia Wanjohi<br />
The IRETHERM project: Geothermal energy potential of the Greater Dublin C Yeomans, M Muller, JS Daly, AG Jones<br />
SP4.1-17 area, Ireland and the Mourne Mountains Granite Complex, Northern Ireland<br />
Posters: Session 5.5 – Volcano and Geothermal Studies<br />
Magma plumbing systems in the Afar depression – magnetotellurics in an inter- Shimeles Fisseha, Nick Johnson, Kathy Whaler,<br />
disciplinary study<br />
James Lindsey, Sophie Hautot, Mohammednur<br />
Desissa, Graham Dawes and the rest of the Afar<br />
SP5.5-1<br />
Consortium team<br />
SP5.5-2 3D Electrical Resistivity Imaging of Slab-derived Fluids and Partial Melting Maki Hata, Naoto Oshiman, Ryokei Yoshimura,
involving Arc Volcano Formation by the Network-MT Data Yoshikazu Tanaka and Makoto Uyeshima<br />
How Geophysical Images of Magmatic Systems fit within Geological models: A<br />
case study of The Tongariro Volcanic Complex, New Zealand<br />
Graham J. Hill, T. Grant Caldwell, Yasuo Ogawa,<br />
Olivier Bachmann, Hugh M. Bibby, Stewart L. Bennie,<br />
SP5.5-3<br />
Edward A. Bertrand, and Harry Keys<br />
Electromagnetic investigation of the resistivity structures around and beneath Marion P. Miensopust, Alan G. Jones, Gylfi P. Hersir<br />
SP5.5-4 the Eyjafjallajökull volcano, southern Iceland: preliminary results<br />
and Arnar M. Vilhjálmsson<br />
SP5.5-5 3D Electromagnetic Imaging of NE-Japan Forarc Near Zao Volcano S. Bonchaisuk and Y. Ogawa<br />
Imaging of crustal fluids in volcanic regions, NE Japan, by three-dimensional Yasuo Ogawa, Masahiro Ichiki and Wataru Kanda<br />
SP5.5-6 magnetotelluric modeling<br />
Posters: Session 4.3 – Mineral Exploration<br />
Geophysical mapping of clay layers in Numedalen reagion, Norway Vikas C. Baranwal, Alexei Rodionov and Jan S.<br />
SP4.3-1<br />
Rønning<br />
Magnetotelluric Prospecting In The Matagami Camp (Canada) Eric Ting-Kuei Chou, Michel Chouteau, Jim Craven<br />
SP4.3-2<br />
and Michel Allard<br />
Exploration application of Integrated geophysical and geochemical techniques Cao-chuanghua, Liu-jianxin<br />
SP4.3-3 at a polymetallic ore, Qinghai-Tibet Plateau, China<br />
MT and A<strong>EM</strong> as a combined method to explore for unconformity related<br />
Millicent Crowe, Tania Dhu, Jared Peacock, Goran<br />
SP4.3-4 uranium<br />
Boren, Stephan Thiel and Graham Heinson<br />
Application of Controlled Source Audio-frequency Magnetotellurics (CSAMT) G Ashok Babu, B Veeraiah, T Seshunarayana, P<br />
for mapping of Basemetal deposits – an experimental study in Maharashtra, Prabhakara Prasad and B Kishan Kumar<br />
SP4.3-5 India<br />
Electromagnetic survey around the seafloor massive sulfide using autonomous Tada-nori Goto, Takafumi Kasaya, Keizo Sayanagi,<br />
underwater vehicle<br />
Naoto Imamura, Hitoshi Mikada and Junichi<br />
SP4.3-6<br />
Takekawa<br />
Delineation of a quick clay zone at Smorgrav, Norway, with electromagnetic Thomas Kalscheuer, Mehrdad Bastani, Shane<br />
methods<br />
Donohue, Lena Persson, Andreas A. Pfaffhuber,<br />
SP4.3-7<br />
Fabienne Reiser, and Zhengyong Ren<br />
Geologically constrained hybrid 1D/3D inversion of T<strong>EM</strong> – inverting for<br />
Pears, G.A., Fullagar, P.K. and Chalke, T.W.J<br />
SP4.3-8 thickness of conductive cover and paleochannels<br />
SP4.3-9 Fault-controlled uranium emplacement imaged using magnetotellurics S. Thiel, J. Peacock, G. Heinson, P. Soefky<br />
New possibilities of audiomagnetotellurics in mineral exploration Denis Yakovlev, Andrey Yakovlev and Nikolay<br />
SP4.3-10<br />
Palshin<br />
Three-dimensional inversion of audiomagnetotelluric data from the Regis pipe, Emanuele F. La Terra and Paulo L. T. Menezes<br />
SP4.3-11 Brazil<br />
Phase Roll Out of Quadrant effect in MT Data from a Gold Prospect Patricia de Lugão, Berthold Kriegshäuser and<br />
SP4.3_12<br />
Caroline Finateu<br />
Posters: Session 4.4 – Hydrocarbon Exploration<br />
SP4.4-1 Initial results of magnetotellurics survey at Hockley salt dome, Texas Azizuddin Abdul Aziz, Kurt Strack, Tilman Hanstein<br />
Integrated earth model building via the integration of Seismic and<br />
Electromagnetic data for improved subsurface imaging and better exploration<br />
M. Virgilio, E. Tartaras, A. Lovatini, T. Dean<br />
SP4.4-2 and development decisions<br />
3D joint inversion of complex geological structures: Example of a salt dome M. Moorkamp, A. Roberts, M. Jegen, B. Heincke and<br />
SP4.4-3<br />
R. Hobbs<br />
Integrated Geophysical tools for Hydrocarbon exploration in Nile delta area, Younis, A., ElL-Qady, G., Abdalla, M. A., Abdel<br />
SP4.4-4 Egypt<br />
Zaher, M., khalil, A. E. and Al Ibiary, M. G.<br />
Some results of applying CSAMT method to petroleum exploration in the area Michal Stefaniuk, Radoslaw Florek, Marek Sada,<br />
SP4.4-5 of Carpathian Foredeep<br />
Lukasz Sito and Marek Wojdyla<br />
An attempt of recognition of reservoir structure and parameters with use of Michal Stefaniuk, Tomasz Mackowski, Joanna Figula,<br />
SP4.4-6 compelx interpretation of magnetotelluric and seismic data<br />
Elzbieta Maj and Marek Wojdyla<br />
Integrated seismic, magnetotelluric and gravity interpretation of sub-evaporatic Michal Stefaniuk, Wojciech Gorecki, Tomasz<br />
SP4.4-7 and inter-evaporatic structures, an example from Polish Lowland<br />
Mackowski, Pawel Targosz and Marek Wojdyla<br />
AT<strong>EM</strong> method and its application in residual oil detection Tang Xingong, Yan Liangjun, Hu Wenbao and Huang<br />
SP4.4-8<br />
Qinghua<br />
Integrated Geophysical tools for Hydrocarbon exploration in Nile delta area, Younis, A., El-Qady, G., Abdalla, M. A., Abdel Zaher,<br />
SP4.4-9 Egypt<br />
M., khalil, A. E. and Al Ibiary, M. G.
21 st <strong>EM</strong> <strong>Induction</strong> <strong>Workshop</strong>: Monday 30th <strong>July</strong><br />
Morning: Session 4 – Exploration<br />
Chairs: Steven Constable and Andrew Lockwood<br />
S4-rev4 Review: Petroleum Exploration Kurt Strack<br />
S4-8<br />
Marine controlled source electromagnetic methods for gas hydrate<br />
assessment: Latest results from the Black Sea and the Hikurangi Margin, NZ<br />
Katrin Schwalenberg, Martin Engels<br />
S4-9 Efficient marine CS<strong>EM</strong> with a towed acquisition system Folke Engelmark, Johan Mattsson, Johnathan Linfoot<br />
Morning: Session 8 – Marine <strong>EM</strong><br />
Chairs: Nick Palshin and Tadanori Goto<br />
Magnetotelluric results from the Serpentinite, Extension and Regional Porosity Samer Naif, Kerry Key, Steven Constable, and Rob<br />
S8-1 Experiment across the Nicaraguan Trench (SERPENT)<br />
L. Evans<br />
Large-scale 3D inversion of towed streamer <strong>EM</strong> data: A case study from the Masashi Endo, Michael S. Zhdanov, Martin Cuma,<br />
S8-2 Troll field trial<br />
Johnathan Linfoot, Leif H. Cox, Glenn A. Wilson<br />
S8-3 2-D <strong>EM</strong> Simulation of the Oceanic Dynamo Effects due to Tsunamis Takuto MINAMI and Hiroaki TOH<br />
Morning: Session 7 – Global <strong>Induction</strong> and Mantle Conductivity<br />
Chairs: Svetlana Kovacikova, Alexey Kuvshinov and Takuto Minami<br />
S7-1 Probing Mid-mantle Electrical Conductivity Using the Ocean Tides as a Source Alan D. Chave, Gary Egbert and Anna Kelbert<br />
A global 3-D mantle conductivity model inferred from geomagnetic observatory Jakub Velímský<br />
S7-2 data with source field adjustment<br />
Features of secular variations of the Earth’s impedance and their possible Maxim S. Petrishchev and Vladimir Yu. Semenov<br />
S7-3 connection with the geomagnetic jerks<br />
3-D mapping of mantle conductivity from space based on inversion of time Püthe, Christoph and Kuvshinov, Alexey<br />
S7-4 spectra of induced coefficients<br />
Morning: Session 2 – Rock Resistivity<br />
Chairs: Alan Jones and Annika Roedder<br />
S2-rev Review: Rock Resistivity Anne Pommier<br />
Posters: Session 8 – Marine <strong>EM</strong><br />
Practical incorporation of topography in three-dimensional inversion of marine Kiyoshi Baba, Noriko Tada, Hisashi Utada, and<br />
SP8-1 magnetotelluric data<br />
Weerachai Siripunvaraporn<br />
Imaging the Alboran Domain from a marine MT survey X. Garcia, Robert L. Evans, James Elsenbeck, Cesar<br />
SP8-2<br />
Ranero and Marion D. Jegen<br />
Toward full time-domain waveform inversion of controlled-source<br />
Naoto Imamura, Tada-nori Goto, Junichi Takekawa<br />
SP8-3 electromagnetic exploration of submarine massive sulphides<br />
and Hitoshi Mikada<br />
Magnetization structure of thermal vent on island arc from vector magnetic Nobuhiro Isezaki, Jun Matsuo and Keizo Sayanagi<br />
SP8-4 anomalies obtained using AUV<br />
A parallel finite element approach for 2.5D marine controlled source<br />
Ying Liu and Yuguo Li<br />
SP8-5 electromagnetic modeling<br />
3D electrical imaging of westward extension of the North Anatolian Fault Zone T. Kaya, Y. Ogawa, S. B. Tank, T. Kasaya, M.K.<br />
in the Marmara Sea using ocean bottom magnetotellurics<br />
Tunçer, N. Oshiman, M. Matsushima1, and Y.<br />
SP8-6<br />
Honkura<br />
Modeling mCS<strong>EM</strong> data with a finite difference approach and an unstructured Carsten Scholl and Vasiliy A. Sinkevich<br />
SP8-7 model grid in the presence of bathymetry<br />
SP8-8 Minimum anomaly regularization for the inversion of mCS<strong>EM</strong> data Carsten Scholl<br />
Three-dimensional electrical conductivity structure of the Philippine Sea upper Noriko Tada, Kiyoshi Baba, and Hisashi Utada<br />
SP8-9 mantle using marine magnetotelluric data<br />
Posters: Session 2 – Rock Resistivity<br />
SP2-1<br />
SP2-2<br />
SP2-3<br />
SP2-4<br />
SP2-5<br />
Electrical Conductivity Network Model for Hydrous Rock and Mineral Kiyoshi Fuji-ta, Masayuki Seki, Tomoo Katsura, and<br />
Masahiro Ichiki<br />
Water in cratonic lithosphere: Calibrating laboratory-determined models of Alan G. Jones, Javier Fullea, Rob L. Evans and<br />
electrical conductivity of mantle min-erals using geophysical and petrological<br />
observations<br />
Mark R. Muller<br />
Possible influence of magnetic permeability on the results of induction<br />
Maxim S. Petrishchev, Vladimir Yu. Semenov and<br />
soundings<br />
Alevtina A. Petrova<br />
The Impact of CO2 on Electrical Rock Properties - Laboratory Experiments<br />
with Regard to Carbon Capture and Storage<br />
J. Börner, V. Herdegen, J.-U. Repke, K. Spitzer<br />
MT Field Campaign in the Lower Saxony Basin, Germany, and electrical<br />
conductivity measurements on black shale rock samples<br />
Filipe Adao, Oliver Ritter and Erik Spangenberg<br />
Posters: Session 7 – Global <strong>Induction</strong> and Mantle Conductivity<br />
Studying some examples of Ionospheric perturbation recorded through low Shourabh Bhattacharya, Suma Bhattacharya and<br />
SP7-1 earth orbiting D<strong>EM</strong>ETER satellite<br />
Anupma Agarwal<br />
SP7-2 A reference electrical conductivity model of continental upper mantle estimated Masahiro Ichiki, Kiyoshi Fuji-ta, Liejun Wang, James
SP7-3<br />
SP7-4<br />
SP7-5<br />
SP7-6<br />
SP7-7<br />
from MT data in central Australia Whatman and Adrian Hitchman<br />
Global 3D upper to mid-mantle electrical conductivity model based on<br />
A. Kelbert, J. Sun and G. D. Egbert<br />
observatory data with realistic ionospheric sources<br />
Global 3-D <strong>EM</strong> inversion of ground observatory geomagnetic Sq data based on SA Koch, A Kuvshinov<br />
simultaneous source and conductivity determination. A concept and its<br />
validation<br />
Sea bottom <strong>EM</strong> field of tidal origin as a data source to probe upper mantle Alexey Kuvshinov, Yan Xu, Hisashi Utada and Noriko<br />
conductivity. Model studies and comparison with observations<br />
Tada<br />
Deep MT soundings in EEC: Probing upper mantle structure Nikolay Palshin, Waldemar Jóźwiak, Ivan Varentsov,<br />
Katarzyna Ślęzak, Krzysztof Nowożyński and Nikolay<br />
Shustov<br />
Ionosphere current source modeling using Quasi-Dipole coordinates for global Jin Sun and Gary Egbert<br />
induction studies<br />
Posters: Session 5.2 – Earthquake and Fault Zones<br />
Variations of induction vector in relation to geodynamic processes including Babak V.I., Klymkovych T.A. Rokityansky I.I. and<br />
SP5.2-1 recent earthquakes in Japan<br />
Tereshyn A.V.<br />
SP5.2-2 Geomagnetic Variations before the 1999 Chi-Chi Earthquake (Mw=7.6) Kuang-Jung Chen<br />
Variation of the highly conductive zones along the Yamasaki Fault System, Satoru Yamaguchi, Takahiro Kubota, Satoshi Ueda,<br />
southwest Japan<br />
Hideki Murakami, Shigehiro Kato, Kin’ya<br />
SP5.2-3<br />
Nishigami,Takanobu Kamataki, Yutaka Mamada<br />
3-D Resistivity Imaging beneath the Ishikari-Teichi-Toen Fault Zone, Hokkaido, Yusuke Yamaya, Toru Mogi, Ryo Honda, Hideaki<br />
NE Japan<br />
Hase, Atsuo Suzuki, Takeshi Hashimoto, and Makoto<br />
SP5.2-4<br />
Uyeshima<br />
Three-dimensional resistivity structure around the 2007 Noto Earthquake, Ryokei Yoshimura, Naoto Oshiman, Hiroshi Ichihara<br />
SP5.2-5 Japan, and its relations to seismicity and slip distribution<br />
And Makoto Uyeshima<br />
Reinterpretation of Magnetotelluric Data of Dahshur Region Reveals Major Mahmoud Mekkawi<br />
SP5.2-6 Active Faults, SW Cairo, Egypt<br />
Resistivity structure across the focal area of the M5.0 inland earthquake<br />
occurred in Akita prefecture just after taking place of the 2011 off the Pacific<br />
Shin'ya Sakanaka<br />
SP5.2-7 coast of Tohoku Earthquake, Japan<br />
On the Network-MT survey in the vicinity of the 1891 Noubi Earthquake<br />
Uyeshima, M., Yamaguchi, S., Murakami, H., Tanbo,<br />
SP5.2-8 seismic fault<br />
T., Yoshimura, R., Ichihara, H. and Omura, K.<br />
Posters: Session 5.3 – Himalayas and Tibet<br />
SP5.3-1<br />
SP5.3-2<br />
SP5.3-3<br />
SP5.3-4<br />
SP5.3-5<br />
SP5.3-6<br />
SP5.3-7<br />
SP5.3-8<br />
SP5.3-9<br />
SP5.3-10<br />
How does the growth of the Tibetan Plateau affect the tectonics of eastern<br />
China?<br />
High-resolution magnetotelluric study at the eastern margin of Tibetan plateau<br />
along the profile Meigu-Suijiang<br />
Geoelectrical structure estimation along Roorkee-Gangotri profile of Garhwal<br />
Himalayan region, India, using qualitative analysis of MT/MV data<br />
Crustal weakening into northern Tibet and penetration of melt beyond the<br />
Kunlun Fault inferred from INDEPTH Phase III and Phase IV magnetotelluric<br />
data<br />
Geoelectrical section of Garhwal Himalaya along extended Roorkee-Gangotri<br />
profile, Uttarakhand, India<br />
Bai Denghai, Martyn Unsworth, Teng Jiwen, Kong<br />
Xiangru, Wang Lifeng<br />
Cai Juntao, Zhao Guoze, Tang Ji, Chen Xiaobin<br />
Suresh Kannaujiya , M. Israil, S. K. Varshney,<br />
Sokolova Elena, Pravin K. Gupta, Koshurnikov<br />
Andrey, Maxim Smirnov<br />
Florian Le Pape, Alan G. Jones, Jan Vozar, Wenbo<br />
Wei, Hao Dong, Martyn J. Unsworth, Sheng Jin,<br />
Gaofeng Ye, Jianen Jing, Letian Zhang, Chengliang<br />
Xie<br />
Israil Mohammad, Sokolova Elena, Gupta Parvin,<br />
Koshurnikov Andrey, Smirnov Maksim, Cherevatova<br />
Maria, Varentsov Ivan<br />
Tang Ji, Xiao Qibing, Zhan Yan, Li Ruan, Dong Zeyi<br />
and Fan Ye<br />
Jan Vozar, Javier Fullea, Alan G. Jones, Matthew R.<br />
Agius, Sergei Lebedev<br />
Jan Vozar, Alan G. Jones, Florian Le Pape<br />
The primary study on characteristics of electrical conductivity structure and<br />
regional tectonic in Southern Yunnan earthquake areas, Southwest China<br />
Geophysical and petro-physical investigations of the lithosphere–<br />
asthenosphere boundary in central Tibet<br />
Geoelectrical structures and their geometries in central Tibetan Plateau from<br />
INDEPTH magnetotelluric data<br />
Geoelectric structure over Barak Valley, Indo-Myanmar Orogen Devesh Walia, Sanabam S. Singh, Md. Amir Ali and<br />
S. G. Gokarn<br />
New magnetotelluric data indicate weak crustal layer existing beyond the Qibin Xiao, Guoze Zhao, Jijun Wang, Ji Tang, and<br />
Eastern Kunlun Fault at Northern Tibet<br />
Zeyi Dong
21 st <strong>EM</strong> <strong>Induction</strong> <strong>Workshop</strong>: Tuesday 31st <strong>July</strong><br />
Morning: Session 5 – Tectonics<br />
Conveners: Bai Denghai and Graham Hill<br />
S5-rev Review: Tectonics Kate Selway<br />
S5-1<br />
S5-2<br />
S5-3<br />
S5-4<br />
S5-5<br />
A new model of the Earth crust structure from results of soundings with<br />
powerful controlled sources and AMT-MT data.<br />
Large magma reservoirs beneath the Central Andean and the Central<br />
American volcanic arcs revealed by 3-D inversion of magnetotelluric data<br />
Three dimensional electrical conductivity models of the Northwestern US<br />
derived from 3-D inversion of USArray magnetotelluric data<br />
Velocity-conductivity relations for cratonic lithosphere and their application:<br />
Example of Southern Africa<br />
Preliminary Model of Three-dimensional Electrical Structure of Crust and<br />
Upper mantle of North China<br />
Morning: Session 5 – Tectonics<br />
Conveners: Stephan Thiel and Emily Tursack<br />
The upper mantle thermal structure of the Newer Volcanic Province,<br />
S5-6 Western Victoria, Australia from a long period Magnetotelluric (MT) array<br />
Geoelectrical structure estimation along Roorkee-Gangotri profile of<br />
Garhwal Himalayan region, India, using qualitative analysis of MT/MV data<br />
S5-7<br />
Implications of magnetotelluric data for the plate coupling of the Hikurangi<br />
S5-8 subduction interface, New Zealand.<br />
Ocean bottom <strong>EM</strong> observations around the seismo-genic zone of the 2011<br />
S5-9 Tohoku earthquake (M9.0)<br />
Posters: Session 5.1 – Crust and Upper Mantle Studies<br />
Abdulkhay Zhamaletdinov<br />
Heinrich Brasse, Ingmar Budach and Daniel Díaz<br />
Alvarado<br />
Naser Meqbel, Gary D. Egbert, Phil Wannamaker and<br />
Adam Schultz<br />
Alan G. Jones, Stewart Fishwick, Rob L. Evans, Mark R.<br />
Muller, and Javier Fullea<br />
Hao DONG, Wenbo WEI, Gaofeng YE<br />
Sahereh Aivazpourporgou, Stephan Thiel, Patrick<br />
Hayman, Louis Moresi, Graham Heinson<br />
Suresh Kannaujiya , M. Israil, S. K. Varshney, Sokolova<br />
Elena, Pravin K. Gupta, Koshurnikov Andrey, Maxim<br />
Smirnov<br />
Wiebke Heise, T. Grant Caldwell, Graham J. Hill, Edward<br />
A. Bertrand, Stewart L. Bennie<br />
Hiroshi Ichihara, Takafumi Kasaya, Kiyoshi Baba and<br />
Yozo Hamano<br />
Preliminary Results of a 3D Magnetotelluric Inversion of data from the Mauricio S. Bologna, Gary Egbert, Marcelo B. Pádua,<br />
SP5.1-1 Northeastern São Francisco Craton, Brazil<br />
Ícaro Vitorello, Antonio L. Padilha, Edson E. S. Sampaio<br />
Lithospheric-scale geoelectrical characterisation of the Pyrenean range Joan Campanyà, Juanjo Ledo, Pilar Queralt, Alex<br />
from four MT profiles. Constraints from broadband and long period<br />
Marcuello, Montserrat Liesa, Josep A. Muñoz & Alan G.<br />
SP5.1-2 magnetotelluric data<br />
Jones<br />
Deep Crustal Structure of Thrace Region Revealed by 2D Inversion of M.Emin Candansayar, C.Kaya, H.Yilmaz, Ü.Dikmen,<br />
Magnetotelluric Data<br />
N.Konak, A.Gürer, A.R.Kiliç, A.T. Başokur, E.Erdoğan,<br />
İ.Demirci, Ö.Özyildirim, U.Akin, S.Arslan, Y.K. Kadioğlu,<br />
SP5.1-3<br />
E.U. Ulugergerli, H.Okay<br />
SP5.1-4 Structure of the southwestern Fennoscandia from magnetotelluric data M. Cherevatova, M. Smirnov, T. Korja and L.B. Pedersen<br />
Crustal conductivity structure deduced from magnetotelluric studies along C.K. Rao<br />
SP5.1-5 a profile in south western part of Proterozoic (Vindyan) basin, India<br />
An Overview of Downloadable MT data from South Australia Tania Dhu, Graham Heinson, Peter R Milligan, Stephan<br />
Thiel, Kate Selway, Goran Boren, Jingming Duan, Tanya<br />
SP5.1-6<br />
Fomin, Jenny Maher<br />
SP5.1-7 Geoscience Australia’s recent magnetotelluric surveys across Australia Jingming.Duan, Tanya.Fomin and Peter.R.Milligan<br />
SP5.1-8 Results of AMT survey of Patom crater area E. Ermolin, O. Ingerov, А. Saviсhev<br />
The Lithospheric Structure of the Grenville Province as defined by the Ademola Adetunji, Ian Ferguson and Alan Jones<br />
SP5.1-9 Magnetotelluric Method<br />
Structure and Tectonics of the Pacific Northwest from EarthScope<br />
Daniel W Feucht and Paul A Bedrosian<br />
SP5.1-10 Magnetotelluric Data<br />
Crustal evolution and tectonics of the Archean Bundelkhand craton, S. G. Gokarn, C.K.Rao, C. Selvaraj, G.Gupta and<br />
SP5.1-11<br />
B.P.Singh<br />
A three-dimensional model of upper crustal resistivity in the Kristineberg Juliane Hübert, María de los Àngeles Garcìa Juanatey,<br />
SP5.1-12 area, Skellefte district, northern Sweden<br />
Alireza Melehmir, Ari Tryggvason, Laust B. Pedersen<br />
A three-dimensional electrical conductivity distribution model of the upper Masahiro Ichiki, Yasuo Ogawa, Songkhun Boonchaisuk,<br />
mantle beneath Tohoku district, northeastern Japan<br />
Tomotsugu Demachi, Hiromi Fukino, Satoshi Hirahara,<br />
Yoshimori Honkura, Toshiki Kaida, Wataru Kanda, Toshio<br />
Kono, Takao Koyama, Masaki Matsushima, Takashi<br />
Nakayama, Syuichi Suzuki, Hiroaki Toh, Makoto<br />
SP5.1-13<br />
Uyeshima and Weerachai Siripunvaraporn<br />
Crustal and lithospheric structures beneath the Atlas Mountains of<br />
Duygu Kiyan, Alan G. Jones, Javier Fullea, and Anne<br />
SP5.1-14 Morocco: insights from the magnetotelluric experiment<br />
Pommier<br />
Three Dimensional Electrical Resistivity Images of Kutch Rift Basin, India K. Naganjaneyulu, J. J. Ledo, P. Queralt, Anna Marti and<br />
SP5.1-15<br />
Alex Marcuello<br />
Lithosphere-asthenosphere structure of an Archean craton and adjacent<br />
mobile belt revealed from 3D inversion of magnetotelluric data: example<br />
David Khoza, Alan Jones, Mark Muller and Susan Webb<br />
SP5.1-16 from southern Congo craton in northern Namibia<br />
Modelling of the geomagnetic depth sounding data within the Kirovograd Kovacikova S., Logvinov I.M. , Tarasov V.M., Varentsov<br />
SP5.1-17 conductivity anomaly area<br />
Iv.M. and the KIROVOGRAD WG
Quasi-3D inversion of the horizontal MV responses in SW Russia Kovacikova S., Varentsov Iv.M., Logvinov I.M. and the<br />
SP5.1-18<br />
KIROVOGRAD WG<br />
Electrical structure of the Central Lapland Greenstone Belt, northern Ilkka Lahti, Toivo Korja, Maxim Smirnov, Tero Niiranen,<br />
Finland: Interpretation with other geophysical results and geological<br />
Vesa Nykänen and Eero Sandgren<br />
SP5.1-19 implications<br />
SP5.1-20 3D Array Magnetotelluric in the south western Vogelsberg area Alexander Löwer, Andreas Junge<br />
New magnetotelluric data across enigmatic conductivity anomalies that Peter R. Milligan, Tania Dhu, Jingming Duan<br />
SP5.1-21 span Australia north-south<br />
Reconciling Seismic, Electromagnetic and Xenolith Constraints on<br />
Mark R. Muller, Javier Fullea, Alan G. Jones, Joanne<br />
Lithospheric Thickness and Composition of the Kaapvaal Craton, South Adam and Sergei Lebedev<br />
SP5.1-22 Africa<br />
Crustal resistivity structure across the Caledonian Front in Lapland<br />
C. Nittinger, M. Becken, A. Rödder, A. Junge, M. Smirnov<br />
SP5.1-23 (Finland/Norway)<br />
Lithospheric electrical structure of Southern Granulite Terrain, India and its Prasanta K. Patro , S.V.S. Sarma and K. Naganjaneyulu<br />
SP5.1-24 tectonic implications<br />
On the size of the Göttingen dD anomaly: The central German conductivity M. Richter, S. Reich and K. Bahr<br />
SP5.1-25 anomaly<br />
Southern Delamerian AuScope Line: MT Phase 2 Kate Robertson, David Taylor, Jared Peacock, Graham<br />
SP5.1-26<br />
Heinson<br />
Kirovograd electrical conductivity anomaly. Old and new data I.I. Rokityansky, T.S. Savchenko, A.V. Tereshyn, V.I.<br />
SP5.1-27<br />
Tregubenko<br />
Exploration of a Possible Graphite Agglomeration Along Terrane<br />
Sebastian Schnaidt, Benedikt Sommer and Karsten Bahr<br />
SP5.1-28 Boundaries<br />
SP5.1-29 US Array MT Program - the Backbone Array Gary Egbert, Adam Schultz, Anna Kelbert, Tristan Peery<br />
SP5.1-30 Magnetotellurics in Scandes (MASCA) project M.Yu. Smirnov and MASCA WG<br />
Dynamic Model of the Tornquist Zone: Step in Lithosphere Thickness Fits C.F. Hieronymus, M.Yu. Smirnov, L.B. Pedersen, and<br />
SP5.1-31 Both Seismic and Magnetotelluric Data<br />
Z.H. Shomali<br />
Electromagnetic Constraints on the Structure of the Oceanic Upper-<br />
Emily Tursack, Rob. L. Evans, Dan Lizarralde, John<br />
Mantle: Consistencies and Inconsistencies with Other Observations<br />
Collins, Jimmy Elsenbeck, Greg Hirth, Jim Gaherty, Anne<br />
SP5.1-32<br />
Pommier, Kiyoshi Baba, and Tetsuo Matsuno<br />
Magnetotelluric Transect of the Central Transantarctic Mountains Philip E. Wannamaker, Graham J. Hill, Virginie Maris,<br />
Yasuo Ogawa, John A. Stodt, Katherine M. Selway,<br />
Goran Boren, Edward A. Bertrand, Marie Green, Bridget<br />
SP5.1-33<br />
F. Ayling, and Daniel W. Feucht<br />
Electrical conductivity of the Iapetus Suture Zone Scotland, revisited with Ute Weckmann, Danielle Toelg and Oliver Ritter<br />
SP5.1-34 3D inversion<br />
SP5.1-35 Large-Scale Anomalies of Electrical conductivity in the Earth. Abdulkhay Zhamaletdinov & Sergey Kulik<br />
The electrical structure of the crust and upper mantle of China Tien Shan Zhao Guoze, Zhan Yan, Wang Lifeng, Tang Ji, Wang<br />
SP5.1-36 and its tectonic implication<br />
Yanzhao,Wang Jijun, Xiao Qibin, Chen Xiaobin<br />
Posters: Session 5.4 Plate Tectonic Boundaries<br />
SP5.4-1<br />
SP5.4-2<br />
SP5.4-3<br />
SP5.4-4<br />
SP5.4-6<br />
SP5.4-7<br />
SP5.4-8<br />
SP5.4-9<br />
SP5.4-10<br />
SP5.4-11<br />
SP5.4-12<br />
SP5.4-13<br />
Geophysical investigations into the tectonic and magmatic evolution of<br />
southwest Alaska<br />
Evidences for Mesotectonic Dual Subductions beneath the Shan-Thai<br />
Terrane, Western Thailand from Magnetotelluric Data<br />
Electrical conductivity at the Pampean Shallow Subduction Region of<br />
Argentina near 33 S: evidence for slab window<br />
Early Cambrian Suture Zone identified from Magnetotelluric Transects<br />
between Formosa (S23º) and San Luis (S34º) Provinces, Argentina<br />
First amphibian magnetotelluric experiment at the passive continental<br />
margin in northern Namibia<br />
Vintage and retro models of the Bothnian Bay region: implications for the<br />
collision and extension tectonics of the Svecofennian orogeny<br />
Magnetotelluric experiments across the southern Barberton greenstone<br />
belt, South Africa<br />
Electromagnetic constraints on a melt region beneath the central Mariana<br />
back-arc spreading ridge<br />
Geophysical signature of Neoproterozoic continental collisions in Central<br />
and Northeastern Brazil<br />
3D and 2D inversion of MT data from the continental collision zone in the<br />
Pamirs and Tien Shan, Central Asia<br />
Images of ancient and actual lithospheric plate collisions in resistivity<br />
sections of Tien Shan and Western Himalaya<br />
Depth distribution of geological structures in western edge of Santos basin<br />
from integrated broad band magnetotellurics and geological mapping<br />
Paul A. Bedrosian, E. Anderson, A. Shah, K. Kelley<br />
Songkhun Boonchaisuk, Weerachai Siripunvaraporn and<br />
Yasuo Ogawa<br />
Aurora Burd, John Booker, Randall Mackie, Cristina<br />
Pomposiello, and Alicia Favetto<br />
Alicia Favetto, Cristina Pomposiello, Gisel Peri and<br />
Hernán Barcelona<br />
G. Kapinos, O. Ritter, U. Weckmann, M. Jegen-Kulcsar<br />
Katri Vaittinen Toivo Korja, and Maxim Smirnov<br />
Sissy Kuetter and Ute Weckmann<br />
Tetsuo Matsuno, Rob L. Evans, Nobukazu Seama and<br />
Alan D. Chave<br />
Antonio L. Padilha, Icaro Vitorello, Marcelo B. Padua and<br />
Mauricio S. Bologna<br />
P. Sass, O. Ritter, A. Rybin, and V. Batalev<br />
Sokolova Elena, Batalev Vlad, Israil Mohammad, Rybin<br />
Anatoly, Smirnov Maxim, Varentsov Ivan<br />
Emanuele. F. La Terra, L. G. Miquelutti, S. L. Fontes, F.<br />
F. Solon , V. R. Pinto, F. Braga, M. M. Maciel, T. Proença