Watch the Dallas Symposium LIVE, and fundraiser auction
Ticket proceeds support mindat.org! - click here...
Log InRegister
Quick Links : The Mindat ManualThe Rock H. Currier Digital LibraryMindat Newsletter [Free Download]
Home PageAbout MindatThe Mindat ManualHistory of MindatCopyright StatusWho We AreContact UsAdvertise on Mindat
Donate to MindatCorporate SponsorshipSponsor a PageSponsored PagesMindat AdvertisersAdvertise on Mindat
Learning CenterWhat is a mineral?The most common minerals on earthInformation for EducatorsMindat ArticlesThe ElementsThe Rock H. Currier Digital LibraryGeologic Time
Minerals by PropertiesMinerals by ChemistryAdvanced Locality SearchRandom MineralRandom LocalitySearch by minIDLocalities Near MeSearch ArticlesSearch GlossaryMore Search Options
Search For:
Mineral Name:
Locality Name:
Keyword(s):
 
The Mindat ManualAdd a New PhotoRate PhotosLocality Edit ReportCoordinate Completion ReportAdd Glossary Item
Mining CompaniesStatisticsUsersMineral MuseumsClubs & OrganizationsMineral Shows & EventsThe Mindat DirectoryDevice SettingsThe Mineral Quiz
Photo SearchPhoto GalleriesSearch by ColorNew Photos TodayNew Photos YesterdayMembers' Photo GalleriesPast Photo of the Day GalleryPhotography

Jorgensen, Michael, Zhdanov, Michael S., Gribenko, Alex, Cox, Leif, Sabra, Henrik E., Prikhodko, Alexander (2024) 3D Inversion and Interpretation of Airborne Multiphysics Data for Targeting Porphyry System, Flammefjeld, Greenland. Minerals, 14 (11). doi:10.3390/min14111130

Advanced
   -   Only viewable:
Reference TypeJournal (article/letter/editorial)
Title3D Inversion and Interpretation of Airborne Multiphysics Data for Targeting Porphyry System, Flammefjeld, Greenland
JournalMinerals
AuthorsJorgensen, MichaelAuthor
Zhdanov, Michael S.Author
Gribenko, AlexAuthor
Cox, LeifAuthor
Sabra, Henrik E.Author
Prikhodko, AlexanderAuthor
Year2024Volume<   14   >
Issue<   11   >
URL
DOIdoi:10.3390/min14111130Search in ResearchGate
Generate Citation Formats
Classification
Not set		LoC
Not set
Mindat Ref. ID17684292Long-form Identifiermindat:1:5:17684292:7
GUID0
Full ReferenceJorgensen, Michael, Zhdanov, Michael S., Gribenko, Alex, Cox, Leif, Sabra, Henrik E., Prikhodko, Alexander (2024) 3D Inversion and Interpretation of Airborne Multiphysics Data for Targeting Porphyry System, Flammefjeld, Greenland. Minerals, 14 (11). doi:10.3390/min14111130
Plain TextJorgensen, Michael, Zhdanov, Michael S., Gribenko, Alex, Cox, Leif, Sabra, Henrik E., Prikhodko, Alexander (2024) 3D Inversion and Interpretation of Airborne Multiphysics Data for Targeting Porphyry System, Flammefjeld, Greenland. Minerals, 14 (11). doi:10.3390/min14111130
InLink this record to the correct parent record (if possible)
Abstract/NotesThe exploration of porphyry deposits in Greenland has become increasingly important due to their significant economic potential. We utilized total magnetic intensity (TMI) and mobile magnetotelluric (MobileMT) airborne data to delineate potential porphyry mineralization zones. The TMI method was employed to map variations in the Earth’s magnetic field caused by subsurface geological features, including mineral deposits. By analyzing anomalies in TMI data, potential porphyry targets were identified based on characteristic magnetic signatures associated with mineralized zones. Complementing TMI data, MT airborne surveys provided valuable insights into the electrical conductivity structure of the subsurface. Porphyry deposits exhibited distinct conductivity signatures due to the presence of disseminated sulfide minerals, aiding in their identification and delineation. Integration of the TMI and MobileMT datasets allowed for a comprehensive assessment of porphyry exploration targets in Flammefjeld. The combined approach facilitates the identification of prospective areas with enhanced geological potential, optimizing resource allocation and exploration efforts. Overall, this study demonstrates the efficacy of integrating TMI and MobileMT airborne data for porphyry exploration in Greenland, offering valuable insights for mineral exploration and resource development in the region.

Map of Localities

Locality Pages

LocalityCitation Details
Kangerlussuaq Alkaline Complex, Kangerlussuaq Fjord (Søndre Strømfjord), Sermersooq, Greenland
Flammefjeld prospect, Amdrup Firth, Kangerlussuaq Fjord, Sermersooq, Greenland

Mineral Occurrences

LocalityMineral(s)
Kangerlussuaq Alkaline Complex, Kangerlussuaq Fjord (Søndre Strømfjord), Sermersooq, Greenland Flood basalt, Gneiss, Quartz, Syenite
Flammefjeld prospect, Amdrup Firth, Kangerlussuaq Fjord, Sermersooq, Greenland Argillite, Breccia, Feldspar Group, Molybdenite, Muscovite, Porphyry, Pyrite, Quartz, Sericite

See Also

These are possibly similar items as determined by title/reference text matching only.

Cox, Leif H., Zhdanov, Michael S., Prikhodko, Alexander (2024) Inversion for 3D Conductivity and Chargeability Models Using EM Data Acquired by the New Airborne TargetEM System in Ontario, Canada. Minerals, 14 (3) 237 doi:10.3390/min14030237
Zhdanov, Michael S., Jorgensen, Michael, Cox, Leif (2021) Advanced Methods of Joint Inversion of Multiphysics Data for Mineral Exploration. Geosciences, 11 (6) 262pp. doi:10.3390/geosciences11060262
Pare, Pascal, Gribenko, Alexander V., Cox, Leif H., Čuma, Martin, Wilson, Glenn A., Zhdanov, Michael S., Legault, Jean, Smit, Jaco, Polome, Louis (2012) 3D inversion of SPECTREM and ZTEM airborne electromagnetic data from the Pebble Cu–Au–Mo porphyry deposit, Alaska. Exploration Geophysics, 43 (2) 104-115 doi:10.1071/eg11044
Zhdanov, Michael, Alfouzan, Fouzan, Cox, Leif, Alotaibi, Abdulrahman, Alyousif, Mazen, Sunwall, David, Endo, Masashi (2018) Large-Scale 3D Modeling and Inversion of Multiphysics Airborne Geophysical Data: A Case Study from the Arabian Shield, Saudi Arabia. Minerals, 8 (7) 271 doi:10.3390/min8070271
Cox, Leif H., Wilson, Glenn A., Zhdanov, Michael S. (2012) 3D inversion of airborne electromagnetic data. Geophysics, 77 (4) doi:10.1190/geo2011-0370.1
Zhdanov, Michael S., Jorgensen, Michael, Tao, Mo (2023) Probabilistic approach to Gramian inversion of multiphysics data. Frontiers in Earth Science, 11. doi:10.3389/feart.2023.1127597
Cox, Leif H., Wilson, Glenn A., Zhdanov, Michael S. (2010) 3D inversion of airborne electromagnetic data using a moving footprint. Exploration Geophysics, 41 (4) 250-259 doi:10.1071/eg10003
Jorgensen, Michael, Zhdanov, Michael S., Parsons, Brian (2023) 3D Focusing Inversion of Full Tensor Magnetic Gradiometry Data with Gramian Regularization. Minerals, 13 (7) 851 doi:10.3390/min13070851
Zhdanov, Michael S., Endo, Masashi, Cox, Leif H., Čuma, Martin, Linfoot, Johnathan, Anderson, Chris, Black, Noel, Gribenko, Alexander V. (2014) Three-dimensional inversion of towed streamer electromagnetic data. Geophysical Prospecting, 62 (3) 552-572 doi:10.1111/1365-2478.12097
Cox, Leif H., Zhdanov, Michael S., Pitcher, Douglas H., Niemi, Jeremy (2023) Three-Dimensional Inversion of Induced Polarization Effects in Airborne Time Domain Electromagnetic Data Using the GEMTIP Model. Minerals, 13 (6) 779 doi:10.3390/min13060779
Gribenko, Alexander, Zhdanov, Michael (2007) Rigorous 3D inversion of marine CSEM data based on the integral equation method. Geophysics, 72 (2) doi:10.1190/1.2435712
 
and/or  
Mindat.org is an outreach project of the Hudson Institute of Mineralogy, a 501(c)(3) not-for-profit organization.
Copyright © mindat.org and the Hudson Institute of Mineralogy 1993-2025, except where stated. Most political location boundaries are © OpenStreetMap contributors. Mindat.org relies on the contributions of thousands of members and supporters. Founded in 2000 by Jolyon Ralph.
To cite: Ralph, J., Von Bargen, D., Martynov, P., Zhang, J., Que, X., Prabhu, A., Morrison, S. M., Li, W., Chen, W., & Ma, X. (2025). Mindat.org: The open access mineralogy database to accelerate data-intensive geoscience research. American Mineralogist, 110(6), 833–844. doi:10.2138/am-2024-9486.
Privacy Policy - Terms & Conditions - Contact Us / DMCA issues - Report a bug/vulnerability Current server date and time: August 15, 2025 19:47:25
Go to top of page