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Foged, N., Auken, E. & Sørensen, K. I. (2002). HMTEM kortlægning Rårup: Dataafrapportering. Geofysisk afdeling, Geologisk Institut, Aarhus Universitet.
Danielsen, J. E., Auken, E. & Sørensen, K. I. (2002). HMTEM - a high moment / high production TEM system. (pp. 0-0).
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, Article 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, Article 103167. https://doi.org/10.1016/j.earscirev.2020.103167
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. https://doi.org/10.7146/aul.491
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
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), Article 28858. https://doi.org/10.3402/polar.v35.28858
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. In I X Zjazd Geomorfologow Polskich, Georoznorodnosc rzezby Polski http://Historia i dynamika nasunięć ostatniego lądolodu w centralnej Polsce
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
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.
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 from 30th International Conference of the Society of Environmental Geochemistry and Health , Newcastle upon Tyne, United Kingdom.
E. M., F. & Pedersen, K. R. (2014). High resolution synchroton based X-ray tomographic microscopy (SRXTM) in the study of fossil megaspores. Abstract from 9th European Paleobotany-Palynology Conference, Padova, Italy.
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
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, Article 108137. https://doi.org/10.1016/j.quascirev.2023.108137
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
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., 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
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, Article 101579. https://doi.org/10.1016/j.quageo.2024.101579
Jørgensen, K. W. & Michelsen, O. (2001). High-resolution log-sequence stratigraphy of the Upper Paleocene Deposits in the Eastern North Sea Basin. (pp. 0-0).
Mansoor, N., Slater, L., Artigas, F. & Auken, E. (2006). High-resolution geophysical characterization of shallow-water wetlands. Geophysics, 71(4), B101-B109.
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
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 from European Association of Archaeologists Annual Meeting 2019, Bern, Switzerland.
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. (pp. 0-0).
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
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
Pedersen, J., Maurya, P., Christiansen, A. V. & Auken, E. (2019). High resolution 3D imaging of subsurface using towed transient electromagnetic system - TTEM: Case studies. In 1st Indian Near Surface Geophysics Conference and Exhibition (pp. 245-250). European Association of Geoscientists and Engineers, EAGE. https://doi.org/10.3997/2214-4609.201979040
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.
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), Article 335. https://doi.org/10.1038/s43247-024-01508-2
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
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
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, Article 120846. https://doi.org/10.1016/j.chemgeo.2022.120846
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), Article 10970. https://doi.org/10.1038/s41598-021-90459-1
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), Article e2023PA004671. https://doi.org/10.1029/2023PA004671
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
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), Article e2022GC010502. https://doi.org/10.1029/2022GC010502
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), Article egab042. https://doi.org/10.1093/petrology/egab042
Schiffer, C., Tegner, C., Schaeffer, A. J., Pease, V. & Nielsen, S. B. (2018). High arctic geopotential stress field and implications for geodynamic evolution. In V. Pease & B. Coakley (Eds.), Geological Society Special Publication: Circum-Arctic Lithosphere Evolution (1 ed., Vol. 460, pp. 441-465). Geological Society of London. https://doi.org/10.1144/SP460.6
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
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
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
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. In ATV - Jord og grundvand., 1-9.
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, Article A51. https://doi.org/10.1051/0004-6361/201629871
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
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. In 2nd European Airborne Electromagnetics Conference 2017, Held at Near Surface Geoscience Conference and Exhibition 2017 (pp. 91-95). European Association of Geoscientists and Engineers. https://doi.org/10.3997/2214-4609.201702166
Out, W. (2017). Hekelingen III: de ruimtelijke verspreiding van cultuurgewassen en enkele gebruiksplanten. In G. Aalbersberg, S. Boersma & M. Schepers (Eds.), Paleo-Palfenier. Met Rita van Egypte tot Ezinge (pp. 11-21). University of Groningen.
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
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
Odgaard, B. V. (1981). Hedebønder. Skalk, (2), 8-11.
E, C., Sohbati, R., Murray, A. S., Buylaert, J. P., Liu, X., Yang, L., Yuan, J. & Yan, W. (2018). Hebei loess section in the Anyemaqen Mountains, northeast Tibetan Plateau: A high-resolution luminescence chronology. Boreas, 47(4), 1170-1183. https://doi.org/10.1111/bor.12321
Kazerouni, A. M., Friis, H., Svendsen, J. B. & Weibel, R. (2011). Heavy mineral sorting in downwards injected Palaeocene sandstone, Siri Canyon, Danish North Sea. Sedimentary Geology, 236(3-4), 279-285. https://doi.org/10.1016/j.sedgeo.2011.01.013

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