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Institut for Geoscience

Publikationsoversigt for Institut for Geoscience

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Kirkbride, M. P., Sherriff, S. C., Rowan, A. V., Egholm, D. L., Quincey, D. J., Miles, E., Hubbard, B. & Miles, K. (2023). Provenance and transport of supraglacial debris revealed by variations in debris geochemistry on Khumbu Glacier, Nepal Himalaya. Earth Surface Processes and Landforms, 48(14), 2737-2753. https://doi.org/10.1002/esp.5657

Thorup Nielsen, M., Weibel, R. & Friis, H. (2015). Provenance of gravity-flow sandstones from the Upper Jurassic-Lower Cretaceous Farsund Formation, Danish Central Graben, North Sea. Marine and Petroleum Geology, 59, 371-389. https://doi.org/10.1016/j.marpetgeo.2014.09.016

Omer, M. F., Friis, H., Kokfelt, T. F. & Thomsen, T. B. (2021). Provenance of northern Gondwana Lower Ordovician sandstones (Khabour Formation, northern Iraq) revealed by detrital zircon using LA-ICP-MS dating. Geological Journal, 56(10), 4905-4922. https://doi.org/10.1002/gj.4210

Olivarius, M., Weibel, R., Friis, H., Boldreel, L. O., Keulen, N. & Thomsen, T. B. (2017). Provenance of the Lower Triassic Bunter Sandstone Formation: implications for distribution and architecture of aeolian vs. fluvial reservoirs in the North German Basin. Basin Research, 29(S1), 113-130. https://doi.org/10.1111/bre.12140

Jafarzadeh, M., Harami, R. M., Friis, H., Amini, A., Mahboubi, A. & Lenaz, D. (2014). Provenance of the Oligocene-Miocene Zivah Formation, NW Iran, assessed using heavy mineral assemblage and detrital clinopyroxene and detrital apatite analyses. Journal of African Earth Sciences, 89, 56-71. https://doi.org/10.1016/j.jafrearsci.2013.10.005

Thorup Nielsen, M., Hansen, R. W. & Friis, H. (2013). Provenance studies of Late Jurassic-Early Cretaceous gravity flows in the Danish Central Graben, North Sea. Abstract fra IAS International Meeting of Sedimentologists, Manchester, Storbritannien.

Hrnjic, M., Birch, T., Andreasen, R., Barfod, G., Sindbæk, S. M., Hårdh, B. & Lesher, C. (2019). Provenance study of Viking Age silver rings. Abstract fra Archaeometallurgy in Europe 2019, Miskolc, Ungarn. http://www.aie2019.argum.hu/images/Program_book_VK_11June2019.pdf

Urhøj Møller, K., Andreasen, R. & Birch, T. (2023). Proveniensbestemmelse af slagge fra Island. Abstract fra Kultur-, naturhistorisk og kunstfagligt orienteringsmøde 2023, Vejle, Danmark.

Tylmann, K., Wysota, W. & Piotrowski, J. A. (2014). Przetrwałe formy morenowe na NW skłonie Garbu Lubawskiego - struktura i mechanizmy formowania (Palimpsest morainic landforms in NW part of Lubawa Upland - structure and mechanisms of formation). Uniwerstytet Slaski w Katowicach. Prace Naukowe. Landform Analysis, 25, 143-157. https://doi.org/10.12657/landfana.025.013

Christensen, N. B. & Sørensen, K. (2001). Pulled array continuous electrical sounding with an additional inductive source: an experimental design study. Geophysical Prospecting, 49, 241-254.

Fruergaard, M., Andersen, T. J., Nielsen, L. H., Madsen, A. T., Johannessen, P. N., Murray, A. S., Kirkegaard, L. & Pejrup, M. (2011). Punctuated sediment record resulting from channel migration in a shallow sand-dominated micro-tidal lagoon, Northern Wadden Sea, Denmark. Marine Geology, 280(1-4), 91-104. https://doi.org/10.1016/j.margeo.2010.12.003

Hejrani, B., Balling, N., Jacobsen, B. H., Kind, R., Tilmann, F., England, R. & Nielsen, S. B. (2014). P-wave and S-wave traveltime residuals in Caledonian and adjacent units of Northern Europe and Greenland. Geophysical Research Abstracts, 16, 10014. Artikel EGU2014-10014. http://meetingorganizer.copernicus.org/EGU2014/EGU2014-10014.pdf

Bondo, A., Balling, N., Weidle, C. & Jacobsen, B. H. (2007). P-wave residuals and preliminary results of P-wave tomography in southern Scandinavia. I Geophysical Research Abstracts (Bind 9, s. 3753). European Geophysical Union.

Petersen, H. I., Deskur, H., Rudra, A., Ørberg, S. B., Krause-Jensen, D. & Sanei, H. (2024). Pyrolysis of macroalgae: Insight into product yields and biochar morphology and stability. International Journal of Coal Geology, 286, Artikel 104498. https://doi.org/10.1016/j.coal.2024.104498

Holland, B., Alsen, P., Nytoft, H. P., Rudra, A., Sanei, H. & Petersen, H. I. (2024). Quality and composition of Lower Cretaceous carbonate source rocks and seepage oils in the Belize Basin, southern Belize, Central America. International Journal of Coal Geology, 285, Artikel 104478. https://doi.org/10.1016/j.coal.2024.104478

Fuchs, S., Norden, B., Neumann, F., Kaul, N., Tanaka, A., Kukkonen, I. T., Pascal, C., Christiansen, R., Gola, G., Šafanda, J., Espinoza-Ojeda, O. M., Marzan, I., Rybach, L., Balkan-Pazvantoğlu, E., Ramalho, E. C., Dědeček, P., Negrete-Aranda, R., Balling, N., Poort, J. ... Verdoya, M. (2023). Quality-assurance of heat-flow data: The new structure and evaluation scheme of the IHFC Global Heat Flow Database. Tectonophysics, 863, Artikel 229976. https://doi.org/10.1016/j.tecto.2023.229976

Langhoff, J. H., Rasmussen, K. R. & Christensen, S. (2006). Quantification and regionalization of groundwater-surface water interaction along an alluvial stream. Journal of Hydrology, 320(3-4), 342-358.

Christiansen, A. V., Auken, E. & Viezzoli, A. (2011). Quantification of modeling errors in airborne TEM caused by inaccurate system description. Geophysics, 76(1), F43-F52. https://doi.org/10.1190/1.3511354

Vilhelmsen, T. N., Auken, E., Christiansen, A. V., Barfod, A., Foged, N., Pedersen, J. B. & Maurya, P. K. (2018). Quantification of subsurface structural uncertainty in groundwater models using 3D geophysical data. Abstract fra Computational Methods in Water Resources 2018, Saint Malo, Frankrig.

Kristensen, J. A., Thomsen, K. J., Murray, A. S., Buylaert, J.-P., Jain, M. & Breuning-Madsen, H. (2015). Quantification of termite bioturbation in a savannah ecosystem: Application of OSL dating. Quaternary Geochronology, 30(B), 334-341. https://doi.org/10.1016/j.quageo.2015.02.026

Merrison, J. P., Gunnlaugsson, H. P., Holstein-Rathlou, C., Jensen, S. K., Nørnberg, P. & Rasmussen, K. R. (2011). Quantification of wind flow in the European Mars Simulation Wind Tunnel Facility. Abstract fra EPSC, DPS2011, Nantes, Frankrig.

Holstein-Rathlou, C., Merrison, J. P., Iversen, J. J. & Nørnberg, P. (2012). Quantification of wind flow in the European Mars Simulation Wind Tunnel Facility. Geophysical Research Abstracts, 14, EGU2012-4819. http://meetingorganizer.copernicus.org/EGU2012/EGU2012-4819.pdf

Frederiksen, R. R., Rasmussen, K. R. & Christensen, S. (2017). Quantifying and understanding runoff to an agricultural stream using geophysical, hydraulic and numerical methods. Abstract fra 11th Annual DWF Meeting, Copenhagen, Danmark.

Vara-Vela, A. L., Rojas Benavente, N., Nielsen, O. K., Nascimento, J. P., Alves, R., Gavidia-Calderon, M. & Karoff, C. (2024). Quantifying Methane Emissions Using Satellite Data: Application of the Integrated Methane Inversion (IMI) Model to Assess Danish Emissions. Remote Sensing, 16(23), Artikel 4554. https://doi.org/10.3390/rs16234554

Braun, J., van der Beek, P., Valla, P., Robert, X., Herman, F., Glotzbach, C., Pedersen, V. K., Perry, C., Simon-Labric, T. & Prigent, C. (2012). Quantifying rates of landscape evolution and tectonic processes by thermochronology and numerical modeling of crustal heat transport using PECUBE. Tectonophysics, 524-525, 1-28. https://doi.org/10.1016/j.tecto.2011.12.035

Lévy, L., Thalund-Hansen, R., Bording, T. S., Fiandaca, G., Christiansen, A. V., Rügge, K., Tuxen, N., Hag, M. P. & Bjerg, P. L. (2022). Quantifying Reagent Spreading by Cross-Borehole Electrical Tomography to Assess Performance of Groundwater Remediation. Water Resources Research, 58(9), Artikel e2022WR032218. https://doi.org/10.1029/2022WR032218

Narloch, W., Piotrowski, J. A. & Wysota, W. (2015). Quantifying subglacial processes and ice sheet dynamics’ variability from micro- and macroscale sedimentological record. Abstract fra XIX INQUA Congress, Nagoya, Japan.

Scheidt, C., Lee, L., Caers, J., Vilhelmsen, T. N., Maher, K., Da Silva, C., Hermans, T., Grujic, O., Park, J. & Yang, G. (2018). Quantifying Uncertainty in Subsurface Systems. I Quantifying Uncertainty in Subsurface Systems (s. 217-262). Wiley. https://doi.org/10.1002/9781119325888.ch8

El Ouali, M., Essafraoui, B., Kabiri, L., Messaoudi, B., Ait Lahssaine, I., Krencker, F. N., Martindale, R. C., Nutz, A. & Bodin, S. (2025). Quantitative Assessment and Enhancement of 12 Sites of Geological Interest South of Midelt City (Tizi N’Talghemt, Central High Atlas, Morocco). Geoheritage, 17(2), Artikel 63. Advance online publication. https://doi.org/10.1007/s12371-025-01105-5

Jeppesen, J. (2010). Quantitative hydrological effects of urbanization and stormwater infiltration in Copenhagen. Aarhus University.

Christiansen, A. V. & Christensen, N. B. (2001). Quantitative interpretation and analysis of airborne transient electromagnetic data in Denmark. (s. 0-0).

Nielsen, A. B. & Odgaard, B. V. (2010). Quantitative landscape dynamics in Denmark through the last three millennia based on the Landscape Reconstruction Algorithm approach. Vegetation History and Archaeobotany, 19(4), 375-387. https://doi.org/10.1007/s00334-010-0249-z

Odgaard, B. V. & Nielsen, A. B. (2008). Quantitative reconstruction of past Danish landscapes: The first results. Poster-session præsenteret på 3rd LaSys Workshop: Land system science - Handling complex series of natural and socio-economic processes, Tune, Roskilde, Danmark.

Nielsen, A. B., Giesecke, T., Teuerkauf, M., Feeser, I., Beug, H.-J., Chen, S.-H., Christiansen, J., Jahns, S., Kühl, N., Latalowa, M., Odgaard, B. V., Rasmussen, P., Stockholm, J. & Wolthers, S. (2012). Quantitative reconstructions of changes in regional openness in north-central Europe reveal new insights into old questions. Quaternary Science Reviews, 47, 131-149. https://doi.org/10.1016/j.quascirev.2012.05.011

Odgaard, B. V., Meistrup-Larsen, L., Rasmussen, P. & Søsted, K. (2004). Quantitative relations between archaeological and palynological data at multiple sites in Denmark. Afhandling præsenteret på Granada, Spain, July 2004.

Lai, Z. P., Murray, A. S., Bailey, R. M. & Huot, S. (2006). Quarts red TL SAAR equivalent dose overestimation for Chinese loess. Radiation Measurements, 41, 114-119.

Zhou, L. & Friis, H. (2013). Quartz cementation mechanisms between adjacent sandstone and shale in Middle Cambrian, West Lithuania. Geophysical Research Abstracts, 15, Artikel EGU2013-8168. http://meetingorganizer.copernicus.org/EGU2013/EGU2013-8168.pdf

Constantin, D., Jain, M., Murray, A. S., Buylaert, J. P. & Timar-Gabor, A. (2015). Quartz luminescence response to a mixed alpha-beta field: Investigations on Romanian loess. Radiation Measurements, 81, 110–115. https://doi.org/10.1016/j.radmeas.2015.01.001

Perić, Z. M., Marković, S. B., Filyó, D., Thiel, C., Murray, A. S., Gavrilov, M. B., Nett, J. J. & Sipos, G. (2021). Quartz OSL and polymineral post IR–IRSL dating of the Požarevac loess–palaeosol sequence in north–eastern Serbia. Quaternary Geochronology, 66, Artikel 101216. https://doi.org/10.1016/j.quageo.2021.101216

Rémillard, A., Buylaert, J.-P., Murray, A., St-Onge, G., Bernatchez, P. & Hetu, B. (2015). Quartz OSL dating of late Holocene beach ridges from the Magdalen Islands (Quebec, Canada). Quaternary Geochronology, 30(B), 264-269. https://doi.org/10.1016/j.quageo.2015.03.013

Perić, Z., Lagerbäck Adolphi, E., Stevens, T., Újvári, G., Zeeden, C., Buylaert, J. P., Marković, S. B., Hambach, U., Fischer, P., Schmidt, C., Schulte, P., Huayu, L., Shuangwen, Y., Lehmkuhl, F., Obreht, I., Veres, D., Thiel, C., Frechen, M., Jain, M. ... Gavrilov, M. B. (2019). Quartz OSL dating of late quaternary Chinese and Serbian loess: A cross Eurasian comparison of dust mass accumulation rates. Quaternary International, 502(Part A), 30-44. https://doi.org/10.1016/j.quaint.2018.01.010

Ballarini, M., Wallinga, J., Murray, A. S., van Heteren, S., Oost, A. P., Bos, A. J. J. & van Eijk, C. W. E. (2003). Quartz OSL dating of young coastal dunes. Quaternary Science Reviews, 22, 1011-1017.

Kristiansen, S. M., Larsen, L. A., Srivastava , A. & C. Kinnaird, T. (2020). Quartz SAR optically stimulated luminescence (OSL) dating of sands from Ulbjerg Klint, Central Jutland, Denmark. Århus Universitet. https://doi.org/10.7146/aul.388

Auken, E., Christiansen, A. V., Viezzoli, A. & Simon, B. (2008). Quasi 3-D inversion of electromagnetic data. I SEG, Las Vegas 2008

Auken, E., Christiansen, A. V., Viezzoli, A. & Simon, B. (2018). Quasi 3-D inversion of electromagnetic data. I 78th Society of Exploration Geophysicists International Exposition and Annual Meeting, SEG 2008 (s. 1193-1197). Society of Exploration Geophysicists.

Auken, E., Fiandaca, G., Kirkegaard, C. & Christiansen, A. V. (2015). Quasi-3D inversion of full size AEM datasets. Abstract fra ASEG-PESA 2015, Perth, Australien. https://doi.org/10.1071/ASEG2015ab106

Viezzoli, A., Christiansen, A. V., Auken, E. & Sørensen, K. I. (2008). Quasi-3D modeling of airborne TEM data by Spatially Constrained Inversion. Geophysics, 73(3), F105-F113.

Piotrowski, J. A. (2007). Quaternary at the top. Review of: Elias, S.A. (ed.) 2007: Encyclopedia of Quaternary Science. Elsevier, Vol. 1-4, 3365 pp. Boreas, 36(2), 222-223. https://doi.org/10.1111/j.1502-3885.2007.tb01194.x

Kubischta, F., Knudsen, K. L., Kaakinen, A. & Salonen, V.-P. (2009). Quaternary foraminiferal stratigraphy of marine deposits in Nordaustlandet, Svalbard. Abstract fra 6 th Annual Conference of SEPM-CES, SEDIMENT, Cracow, Polen.

Owen, L. A., Robinson, R., Benn, D. I., Finkel, R. C., Davis, N. K., Yi, C., Putkonen, J. & Murray, A. S. (2009). Quaternary glaciation of Mount Everest. Quaternary Science Reviews, 28(15-16), 1412-1433. https://doi.org/10.1016/j.quascirev.2009.02.010

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Ann Eg Mølhave