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Institut for Geoscience

Publikationsoversigt for Institut for Geoscience

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Odgaard, B. V. (1981). Hedebønder. Skalk, (2), 8-11.

Friis, E. M., Crane, P. R. & Pedersen, K. R. (2019). Hedyosmum-like fossils in the early cretaceous diversification of angiosperms. International Journal of Plant Sciences, 180(3), 232-239. https://doi.org/10.1086/701819

Pearce, C., Andrews, J. T., Bouloubassi, I., Hillaire-Marcel, C., Jennings, A. E., Olsen, J., Kuijpers, A. & Seidenkrantz, M. S. (2015). Heinrich 0 on the east Canadian margin: Source, distribution, and timing. Paleoceanography, 30(12), 1613–1624. https://doi.org/10.1002/2015PA002884

Out, W. (2017). Hekelingen III: de ruimtelijke verspreiding van cultuurgewassen en enkele gebruiksplanten. I G. Aalbersberg, S. Boersma & M. Schepers (red.), Paleo-Palfenier. Met Rita van Egypte tot Ezinge (s. 11-21). University of Groningen.

Reninger, P. A., Perrin, J., Lesimple, S., Jeanpert, J., Foged, N. & Auken, E. (2017). Heliborne em and magnetism for hydrogeological characterization in an obduction context - A new-caledonian example. I 2nd European Airborne Electromagnetics Conference 2017, Held at Near Surface Geoscience Conference and Exhibition 2017 (s. 91-95). European Association of Geoscientists and Engineers. https://doi.org/10.3997/2214-4609.201702166

Foley, N., Tulaczyk, S., Auken, E., Schamper, C., Dugan, H., Mikucki, J., Virginia, R. & Doran, P. (2016). Helicopter-borne transient electromagnetics in high-latitude environments: An application in the McMurdo Dry Valleys, Antarctica. Geophysics, 81(1), WA87-WA99. https://doi.org/10.1190/GEO2015-0186.1

Inceoglu, F., Simoniello, R., Knudsen, M. F. & Karoff, C. (2017). Hemispheric progression of solar cycles in solar magnetic field data and its relation to the solar dynamo models. Astronomy & Astrophysics (A&A), 601, Artikel A51. https://doi.org/10.1051/0004-6361/201629871

Jørgensen, F., Johnsen, R., Auken, E. & Sørensen, K. I. (2005). HEM, PACES og SkyTEM - En test og sammenligning af kontinuerte geofysiske metoders anvendelighed i sårbarhedskortlægningen. I ATV - Jord og grundvand., 1-9.

Kjaer, C. R. & Thomsen, E. (1999). Heterochrony in bourgueticrinid sea-lilies at the Cretaceous/Tertiary boundary. Paleobiology, 25(1), 29-40. https://doi.org/10.1666/0094-8373-25.1.29

Fiandaca, G., Olsson, P. I., Maurya, P. K., Kühl, A., Bording, T., Dahlin, T. & Auken, E. (2022). Heterodox transients in time-domain-induced polarization. Geophysics, 87(1), E35-E47. https://doi.org/10.1190/geo2020-0808.1

Olsen, J., Kjær, K., Funder, S., Larsen, N. K. & Ludikova, A. (2012). High-Arctic climate conditions for the last 7000 years inferred from multi-proxy analysis of the Bliss Lake record, North Greenland. Journal of Quaternary Science, 27(3), 318-327. https://doi.org/10.1002/jqs.1548

Schiffer, C., Tegner, C., Schaeffer, A. J., Pease, V. & Nielsen, S. B. (2018). High arctic geopotential stress field and implications for geodynamic evolution. I V. Pease & B. Coakley (red.), Geological Society Special Publication: Circum-Arctic Lithosphere Evolution (1 udg., Bind 460, s. 441-465). Geological Society of London. https://doi.org/10.1144/SP460.6

Bédard, J. H., Troll, V. R., Deegan, F. M., Tegner, C., Saumur, B. M., Evenchick, C. A., Grasby, S. E. & Dewing, K. (2021). High Arctic Large Igneous Province Alkaline Rocks in Canada: Evidence for Multiple Mantle Components. Journal of Petrology, 62(9), Artikel egab042. https://doi.org/10.1093/petrology/egab042

Zabel, M., Glud, R. N., Sanei, H., Elvert, M., Pape, T., Chuang, P. C., Okuma, E., Geprägs, P. & Kölling, M. (2022). High Carbon Mineralization Rates in Subseafloor Hadal Sediments—Result of Frequent Mass Wasting. Geochemistry, Geophysics, Geosystems, 23(9), Artikel e2022GC010502. https://doi.org/10.1029/2022GC010502

Bartels-Jónsdóttir, H. B., Voelker, A. H. L., Abrantes, F. G., Salgueiro, E., Rodrigues, T. & Knudsen, K. L. (2015). High-frequency surface water changes in the Tagus prodelta off Lisbon, eastern North Atlantic, during the last two millennia. Marine Micropaleontology, 117, 13-24. https://doi.org/10.1016/j.marmicro.2015.03.001

Mitsunaga, B., Lupien, R., Ouertani, S., Stubbs, B., Deino, A., Kingston, J., Stockhecke, M., Brown, E. & Russell, J. (2023). High-Latitude, Indian Ocean, and Orbital Influences on Eastern African Hydroclimate Across the Plio-Pleistocene Boundary. Paleoceanography and Paleoclimatology, 38(12), Artikel e2023PA004671. https://doi.org/10.1029/2023PA004671

Sanei, H., Outridge, P. M., Oguri, K., Stern, G. A., Thamdrup, B., Wenzhöfer, F., Wang, F. & Glud, R. N. (2021). High mercury accumulation in deep-ocean hadal sediments. Scientific Reports, 11(1), Artikel 10970. https://doi.org/10.1038/s41598-021-90459-1

Bian, L., chappaz, A., Schovsbo, N., Nielsen, A. & Sanei, H. (2022). High mercury enrichments in sediments from the Baltic continent across the late Cambrian: Controls and implications. Chemical Geology, 599, Artikel 120846. https://doi.org/10.1016/j.chemgeo.2022.120846

Cunningham, A. C., Murray, A. S., Armitage, S. J. & Autzen, M. (2018). High-precision natural dose rate estimates through beta counting. Radiation Measurements, 120, 209-214. https://doi.org/10.1016/j.radmeas.2018.04.008

Fassmer, K., Obermüller, G., Nagel, T., Kirst, F., Froitzheim, N., Sandmann, S., Miladinova, I., Fonseca, R. OC. & Münker, C. (2016). High-pressure metamorphic age and significance of eclogite-facies continental fragments associated with oceanic lithosphere in the Western Alps (etirol-levaz slice, valtournenche, Italy). Lithos, 252-253, 145–159. https://doi.org/10.1016/j.lithos.2016.02.019

Wang, Y., Gélinas, Y., de Vernal, A., Mucci, A. O., Allan, E., Seidenkrantz, M. S. & Douglas, P. M. J. (2024). High rates of marine organic carbon burial on the southwest Greenland margin induced by Neoglacial advances. Communications Earth and Environment, 5(1), Artikel 335. https://doi.org/10.1038/s43247-024-01508-2

Knudsen, K. L., Eiríksson, J., Bartels-Jónsdóttir, H. B., Jiang, H., Heinemeier, J. & Larsen, G. (2009). High-resolution 1000-year sediment records from the North Iceland shelf: temperature reconstructions and marine reservoir ages. Geophysical Research Abstracts.

Pedersen, J., Maurya, P., Christiansen, A. V. & Auken, E. (2019). High resolution 3D imaging of subsurface using towed transient electromagnetic system - TTEM: Case studies. I 1st Indian Near Surface Geophysics Conference and Exhibition (s. 245-250). European Association of Geoscientists and Engineers, EAGE. https://doi.org/10.3997/2214-4609.201979040

Maurya, P. K., Christiansen, A. V., Pedersen, J. & Auken, E. (2020). High resolution 3D subsurface mapping using a towed transient electromagnetic system - tTEM: case studies. Near Surface Geophysics, 18(3), 249-259. https://doi.org/10.1002/nsg.12094

Knudsen, M. F., Mac Niocaill, C. & Henderson, G. (2006). High-resolution data of the Iceland Basin geomagnetic excursionfrom ODP sites 1063 and 983: Existence of intense fluxpatches during the excursion? Earth and Planetary Science Letters, 251(1-2), 18-32. https://doi.org/10.1016/j.epsl.2006.08.016

Van Simaeys, S., Heilmann-Clausen, C. & Steurbaut, E. (2001). High resolution dinocyst sequence biostratigraphy and palynofacies investigation of some late Ypresian type-localities in the Belgian Basin. (s. 0-0).

Trant, P. L. K., Kristiansen, S. M., Wouters, B. & Sindbæk, S. M. (2019). High-resolution geochemical evidence for the use of indoor space in Viking-age Ribe, Denmark, using a handheld XRF.. Abstract fra European Association of Archaeologists Annual Meeting 2019, Bern, Schweiz.

Jensen, B. B., Rosenberg, L., Tsitonaki, A., Tuxen, N., Bjerg, P. L., Nielsen, L., Hansen, T. M. & Looms, M. C. (2023). High-Resolution Geological Information from Crosshole Ground Penetrating Radar in Clayey Tills. Groundwater Monitoring and Remediation, 43(4), 55-66. https://doi.org/10.1111/gwmr.12588

Mansoor, N., Slater, L., Artigas, F. & Auken, E. (2006). High-resolution geophysical characterization of shallow-water wetlands. Geophysics, 71(4), B101-B109.

Jørgensen, K. W. & Michelsen, O. (2001). High-resolution log-sequence stratigraphy of the Upper Paleocene Deposits in the Eastern North Sea Basin. (s. 0-0).

Sechi, D., Stevens, T., Hällberg, P., Smittenberg, R. H., Molnár, M., Kertész, G. T., Buylaert, J. P., Schneider, R., Edward, C., Rasmussen, K. R., Knudsen, N. A. T., Andreucci, S. & Pascucci, V. (2024). High resolution luminescence and radiocarbon dating of Holocene Aeolian silt (loess) in west Greenland. Quaternary Geochronology, 84, Artikel 101579. https://doi.org/10.1016/j.quageo.2024.101579

Sugisaki, S., Buylaert, J.-P., Murray, A. S., Harada, N., Kimoto, K., Okazaki, Y., Sakamoto, T., Iijima, K., Tsukamoto, S., Miura, H. & Nogi, Y. (2012). High resolution optically stimulated luminescence dating of a sediment core from the southwestern Sea of Okhotsk. Geochemistry, Geophysics, Geosystems, 13(5, Q0AA22). https://doi.org/10.1029/2011GC004029

Yi, S., Buylaert, J.-P., Murray, A., Thiel, C., Zeng, L. & Lu, H. (2015). High resolution OSL and post-IR IRSL dating of the last interglaciale-glacial cycle at the Sanbahuo loess site (northeastern China). Quaternary Geochronology, 30(B), 200-206. https://doi.org/10.1016/j.quageo.2015.02.013

Sugisaki, S., Buylaert, J.-P., Murray, A. S., Tsukamoto, S., Nogi, Y., Miura, H., Sakai, S., Iijima, K. & Sakamoto, T. (2010). High resolution OSL dating back to MIS 5e in the central Sea of Okhotsk. Quaternary Geochronology, 5(2-3, special issue), 293-298. https://doi.org/10.1016/j.quageo.2009.01.008

Rasmussen, C. F., Christiansen, H. H., Buylaert, J. P., Cunningham, A., Schneider, R., Knudsen, M. F. & Stevens, T. (2023). High-resolution OSL dating of loess in Adventdalen, Svalbard: Late Holocene dust activity and permafrost development. Quaternary Science Reviews, 310, Artikel 108137. https://doi.org/10.1016/j.quascirev.2023.108137

Knudsen, M. F., Henderson, G., Frank, M., MacNiocaill, C. & Kubik, P. (2006). High-resolution records of 10Be production rates during the Iceland Basin excursion. Geochimica et Cosmochimica Acta, (18, Suppl. 1), A326. https://doi.org/10.1016/j.gca.2006.06.659

E. M., F. & Pedersen, K. R. (2014). High resolution synchroton based X-ray tomographic microscopy (SRXTM) in the study of fossil megaspores. Abstract fra 9th European Paleobotany-Palynology Conference, Padova, Italien.

Voutchkova, D., Hansen, B., Ernstsen, V., Esbensen, K., Sørensen, B. L. & Kristiansen, S. M. (2014). High spatial variability of iodine in Danish groundwater and drinking water: geochemical factors and human health implications. Abstract fra 30th International Conference of the Society of Environmental Geochemistry and Health , Newcastle upon Tyne, Storbritannien.

Thy, P., Jenkins, B. M., Grundvig, S., Shiraki, R. & Lesher, C. E. (2005). High temperature elemental losses and mineralogical changes in common biomass ashes. Fuel, 85, 783-795.

Kröner, A., Nagel, T. J., Hoffmann, J. E., Liu, X., Wong, J., Hegner, E., Xie, H., Kasper, U., Hofmann, A. & Liu, D. (2018). High-temperature metamorphism and crustal melting at ca. 3.2 Ga in the eastern Kaapvaal craton, southern Africa. Precambrian Research, 317, 101-116. https://doi.org/10.1016/j.precamres.2018.08.007

Wysota, W., Molewski, P., Piotrowski, J. A., Murray, A. S. & Bateman, M. D. (2011). Historia i dynamika nasunięć ostatniego lądolodu w centralnej Polsce w świetle danych geologicznych i datowania bezwzględnego osadów. I I X Zjazd Geomorfologow Polskich, Georoznorodnosc rzezby Polski http://Historia i dynamika nasunięć ostatniego lądolodu w centralnej Polsce

Hasholt, B., van As, D. & Knudsen, N. A. T. (2016). Historical ablation rates on south-east Greenland glaciers measured in the 1933 warm summer. Polar Research, 35(2016), Artikel 28858. https://doi.org/10.3402/polar.v35.28858

Jensen, T. C., Zawiska, I., Oksman, M., Słowiński, M., Woszczyk, M., Luoto, T. P., Tylmann, W., Nevalainen, L., Obremska, M., Schartau, A. K. & Walseng, B. (2020). Historical human impact on productivity and biodiversity in a subalpine oligotrophic lake in Scandinavia. Journal of Paleolimnology, 63(1), 1-20. https://doi.org/10.1007/s10933-019-00100-5

Andresen, J.-B. R. & Kristiansen, S. M. (2023). Historic maps as source for hydrological reconstruction of pre-industrial landscape wetness in Denmark: a methodological study. Aarhus Universitet. Report from the Department of Geoscience https://doi.org/10.7146/aul.491

Duque, C., Russoniello, C. J. & Rosenberry, D. O. (2020). History and evolution of seepage meters for quantifying flow between groundwater and surface water: Part 2 – Marine settings and submarine groundwater discharge. Earth-Science Reviews, 204, Artikel 103168. https://doi.org/10.1016/j.earscirev.2020.103168

Rosenberry, D. O., Duque, C. & Lee, D. R. (2020). History and evolution of seepage meters for quantifying flow between groundwater and surface water: Part 1 – Freshwater settings. Earth-Science Reviews, 204, Artikel 103167. https://doi.org/10.1016/j.earscirev.2020.103167

Danielsen, J. E., Auken, E. & Sørensen, K. I. (2002). HMTEM - a high moment / high production TEM system. (s. 0-0).

Foged, N., Auken, E. & Sørensen, K. I. (2002). HMTEM kortlægning Rårup: Dataafrapportering. Geofysisk afdeling, Geologisk Institut, Aarhus Universitet.

Danielsen, J. E., Sørensen, K. I. & Auken, E. (2002). HMTEM kortlægning ved Tinglev: Dataafrapportering. Geofysisk afdeling, Geologisk Institut, Aarhus Universitet.

Foged, N., Auken, E. & Sørensen, K. I. (2002). HMTEM kortlægning, Voldum: Dataafrapportering. Geofysisk afdeling, Geologisk Institut, Aarhus Universitet.

Viser resultater 1901 til 1950 ud af 5032

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Revideret 20.08.2021