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Institutionen för geovetenskaper

LUVAL

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Uppsala universitet Institutionen för geovetenskaper Forskning Luft-, vatten- och ... Ämnen Naturgeografi Publikationer
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LUVAL

  • Medarbetare
  • Publikationer
  • Neogene global climate change and East Asian dust sources: Combined rutile geochemistry and zircon U Pb analysis from the northern Chinese Loess Plateau.

    Bohm, K., Kaakinen, A., Stevens, T., Lahaye, Y., O'Brien, H. et al. (2023). Global and Planetary Change, . vol. 221 DOI
  • Revised historical Northern Hemisphere black carbon emissions based on inverse modeling of ice core records.

    Eckhardt, S., Pisso, I., Evangeliou, N., Groot Zwaaftink, C., Plach, A. et al. (2023). Nature Communications, . vol. 14 DOI
  • Status of Earth Observation and Remote Sensing Applications in Svalbard.

    Jawak, S., Pohjola, V., Kääb, A., Andersen, B., Blaszczyk, M. et al. (2023). Remote Sensing, . vol. 15 DOI
  • Selection processes of Arctic seasonal glacier snowpack bacterial communities.

    Keuschnig, C., Vogel, T., Barbaro, E., Spolaor, A., Koziol, K. et al. (2023). Microbiome, . vol. 11 DOI
  • Defining paleoclimatic routes and opportunities for hominin dispersals across Iran.

    Shoaee, M., Breeze, P., Drake, N., Hashemi, S., Vahdati Nasab, H. et al. (2023). PLOS ONE, vol. 18, ss. e0281872-e0281872 DOI
  • Eurasian Ice Sheet derived meltwater pulses and their role in driving atmospheric dust activity: Late Quaternary loess sources in SE England.

    Baykal, Y., Stevens, T., Bateman, M., Pfaff, K., Sechi, D. et al. (2022). Quaternary Science Reviews, vol. 296, ss. 107804-107804 DOI
  • The provenance of late Cenozoic East Asian Red Clay: Tectonic-metamorphic history of potential source regions and a novel combined zircon-rutile approach.

    Bohm, K., Stevens, T., Kaakinen, A., Lahaye, Y., O'Brien, H. et al. (2022). Earth-Science Reviews, . vol. 225 DOI
  • Searching for potential multi-hazard events during the last 1.5 million years of the Pleistocene epoch.

    Bradak, B., Gomez, C., Kereszturi, Á., Stevens, T. (2022). Forum Geografi, . vol. 36, ss. 39-53 DOI
  • Potential drivers of disparity in early Middle Pleistocene interglacial climate response over Eurasia.

    Bradák, B., Újvári, G., Stevens, T., Bógalo, M., González, M. et al. (2022). Palaeogeography, Palaeoclimatology, Palaeoecology, . vol. 585 DOI
  • Loess in Britain and Ireland: Formation, modification and environmental significance, a review in memory of John Catt (1937–2017).

    Bunce, C., Smalley, I., Stevens, T., Assadi-Langroudi, A. (2022). Proceedings of the Geologists' Association DOI
  • Sources of riverine mercury across the Mackenzie River Basin: inferences from a combined Hg C isotopes and optical properties approach.

    Campeau, A., Eklöf, K., Soerensen, A., Åkerblom, S., Yuan, S. et al. (2022). Science of the Total Environment, . vol. 806 DOI
  • Revisiting Late Pleistocene Loess–Paleosol Sequences in the Azov Sea Region of Russia: Chronostratigraphy and Paleoenvironmental Record.

    Chen, J., Stevens, T., Yang, T., Qiang, M., Gennady, M. et al. (2022). Frontiers in Earth Sciences, . vol. 9 DOI
  • Arctic mercury cycling.

    Dastoor, A., Angot, H., Bieser, J., Christensen, J., Douglas, T. et al. (2022). Nature Reviews Earth & Environment, . vol. 3, ss. 270-286 DOI
  • The provenance of Danubian loess.

    Fenn, K., Millar, I., Durcan, J., Thomas, D., Banak, A. et al. (2022). Earth-Science Reviews, . vol. 226, ss. 103920- DOI
  • Historical glacier change on Svalbard predicts doubling of mass loss by 2100.

    Geyman, E., Van Pelt, W., Maloof, A., Faste Aas, H., Kohler, J. (2022). Nature, . vol. 601, ss. 374-379 DOI
  • Dominant precessional forcing of the East Asian summer monsoon since 260 ka.

    Guo, B., Nie, J., Stevens, T., Buylaert, J., Peng, T. et al. (2022). Geology, . vol. 50, ss. 1372-1376 DOI
  • Seasonal glacier and snow loading in Svalbard recovered from geodetic observations.

    Kierulf, H., Van Pelt, W., Petrov, L., Dähnn, M., Kirkvik, A. et al. (2022). Geophysical Journal International, . vol. 229, ss. 408-425 DOI
  • Long-term firn and mass balance modelling for Abramov Glacier in the data-scarce Pamir Alay.

    Kronenberg, M., van Pelt, W., Machguth, H., Fiddes, J., Hoelzle, M. et al. (2022). The Cryosphere, . vol. 16, ss. 5001-5022 DOI
  • LoessFest 2018, Volgograd, Russia.

    Kurbanov, R., Lu, H., Stevens, T., Markovic, S. (2022). Quaternary International, . vol. 620, ss. 1-3 DOI
  • A detailed luminescence chronology of the Lower Volga loess-palaeosol sequence at Leninsk.

    Kurbanov, R., Buylaert, J., Stevens, T., Taratunina, N., Belyaev, V. et al. (2022). Quaternary Geochronology, . ss. 101376-101376 DOI
  • Quaternary sediment sources and loess transport pathways in the Black Sea - Caspian Sea region identified by detrital zircon U-Pb geochronology.

    Költringer, C., Stevens, T., Lindner, M., Baykal, Y., Ghafarpour, A. et al. (2022). Global and Planetary Change, . vol. 209 DOI
  • Chinese loess and the Asian monsoon: What we know and what remains unknown.

    Lu, H., Wang, X., Wang, Y., Zhang, X., Yi, S. et al. (2022). Quaternary International, . vol. 620, ss. 85-97 DOI
  • Direct photogrammetry with multispectral imagery for UAV-based snow depth estimation.

    Maier, K., Nascetti, A., Van Pelt, W., Rosqvist, G. (2022). ISPRS journal of photogrammetry and remote sensing (Print), . vol. 186, ss. 1-18 DOI
  • Decoupled Chinese Loess Plateau dust deposition and Asian aridification at millennial and tens of millennial timescales.

    Peng, F., Nie, J., Stevens, T., Pan, B. (2022). Geophysical Research Letters, . vol. 49 DOI
  • Detailed luminescence dating of dust mass accumulation rates over the last two glacial-interglacial cycles from the Irig loess-palaeosol sequence, Carpathian Basin.

    Peric, Z., Stevens, T., Obreht, I., Hambach, U., Lehmkuhl, F. et al. (2022). Global and Planetary Change, . vol. 215 DOI
  • Dataset of dust mass accumulation rates for the loess-palaeosol sequences from the Carpathian Basin.

    Perić, Z., Stevens, T., Obreht, I., Marković, S. (2022). Data in Brief, . ss. 108555-108555 DOI
  • Geographic object‐based image analysis (GEOBIA) of the distribution and characteristics of aeolian sand dunes in Arctic Sweden.

    Stammler, M., Stevens, T., Hölbling, D. (2022). Permafrost and Periglacial Processes DOI
  • Age, formation and significance of loess deposits in central Sweden.

    Stevens, T., Sechi, D., Tziavaras, C., Schneider, R., Banak, A. et al. (2022). Earth Surface Processes and Landforms, . vol. 47, ss. 3276-3301 DOI
  • Comparison of High-Resolution 14C and Luminescence-Based Chronologies of the MIS 2 Madaras Loess/Paleosol Sequence, Hungary: Implications for Chronological Studies.

    Sümegi, P., Molnár, D., Gulyás, S., Stevens, T., Makó, L. et al. (2022). Quaternary, . vol. 5 DOI
  • First high-resolution luminescence dating of loess in Western Siberia.

    Volvakh, N., Kurbanov, R., Zykina, V., Murray, A., Stevens, T. et al. (2022). Quaternary Geochronology, . vol. 73 DOI
  • Resolving conflicting models of late Miocene East Asian summer monsoon intensity recorded in Red Clay deposits on the Chinese Loess Plateau.

    Wang, X., Nie, J., Stevens, T., Zhang, H., Xiao, W. (2022). Earth-Science Reviews, . vol. 234, ss. 104200-104200 DOI
  • Large-number detrital zircon U-Pb ages reveal global cooling caused the formation of the Chinese Loess Plateau during Late Miocene.

    Zhang, H., Lu, H., He, J., Xie, W., Wang, H. et al. (2022). Science Advances, . vol. 8 DOI
  • Spatial and temporal variations in riverine mercury in the Mackenzie River Basin, Canada, from community-based water quality monitoring data.

    Åkerblom, S., Zdanowicz, C., Campeau, A., Soerensen, A., Hewitt, J. (2022). Science of the Total Environment, . vol. 853 DOI
  • Greenland ice core record of last glacial dust sources and atmospheric circulation.

    Újvári, G., Klötzli, U., Stevens, T., Svensson, A., Ludwig, P. et al. (2022). Journal of Geophysical Research - Atmospheres . DOI
  • Measurement report: Spatial variations in ionic chemistry and water-stable isotopes in the snowpack on glaciers across Svalbard during the 2015-2016 snow accumulation season.

    Barbaro, E., Koziol, K., Björkman, M., Vega, C., Zdanowicz, C. et al. (2021). Atmospheric Chemistry And Physics, vol. 21, ss. 3163-3180 DOI
  • Detrital zircon U–Pb age analysis of last glacial loess sources and proglacial sediment dynamics in the Northern European Plain.

    Baykal, Y., Stevens, T., Engström-Johansson, A., Skurzyński, J., Zhang, H. et al. (2021). Quaternary Science Reviews, vol. 274 DOI
  • Feeding at the front line: interannual variation in the use of glacier fronts by foraging black-legged kittiwakes.

    Bertrand, P., Strøm, H., Bêty, J., Steen, H., Kohler, J. et al. (2021). Marine Ecology Progress Series, vol. 677, ss. 197-208 DOI
  • Magnetic susceptibility in the European Loess Belt: New and existing models of magnetic enhancement in loess.

    Bradák, B., Seto, Y., Stevens, T., Újvári, G., Fehér, K. et al. (2021). Palaeogeography, Palaeoclimatology, Palaeoecology, vol. 569 DOI
  • Results from the Ice Thickness Models Intercomparison eXperiment Phase 2 (ITMIX2).

    Farinotti, D., Brinkerhoff, D., Fuerst, J., Gantayat, P., Gillet-Chaulet, F. et al. (2021). Frontiers in Earth Science, vol. 8 DOI
  • Late Pleistocene Climate and Dust Source From the Mobarakabad Loess–Paleosol Sequence, Northern Foothills of the Alborz Mountains, Northern Iran.

    Ghafarpour, A., Khormali, F., Meng, X., Tazikeh, H., Stevens, T. (2021). Frontiers in Earth Science, vol. 9 DOI
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