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Neogene global climate change and East Asian dust sources: Combined rutile geochemistry and zircon U Pb analysis from the northern Chinese Loess Plateau.
(2023). Global and Planetary Change, . vol. 221 DOI -
Revised historical Northern Hemisphere black carbon emissions based on inverse modeling of ice core records.
(2023). Nature Communications, . vol. 14 DOI -
Status of Earth Observation and Remote Sensing Applications in Svalbard.
(2023). Remote Sensing, . vol. 15 DOI -
Selection processes of Arctic seasonal glacier snowpack bacterial communities.
(2023). Microbiome, . vol. 11 DOI -
Defining paleoclimatic routes and opportunities for hominin dispersals across Iran.
(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.
(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.
(2022). Earth-Science Reviews, . vol. 225 DOI -
Searching for potential multi-hazard events during the last 1.5 million years of the Pleistocene epoch.
(2022). Forum Geografi, . vol. 36, ss. 39-53 DOI -
Potential drivers of disparity in early Middle Pleistocene interglacial climate response over Eurasia.
(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).
(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.
(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.
(2022). Frontiers in Earth Sciences, . vol. 9 DOI -
Arctic mercury cycling.
(2022). Nature Reviews Earth & Environment, . vol. 3, ss. 270-286 DOI -
The provenance of Danubian loess.
(2022). Earth-Science Reviews, . vol. 226, ss. 103920- DOI -
Historical glacier change on Svalbard predicts doubling of mass loss by 2100.
(2022). Nature, . vol. 601, ss. 374-379 DOI -
Dominant precessional forcing of the East Asian summer monsoon since 260 ka.
(2022). Geology, . vol. 50, ss. 1372-1376 DOI -
Seasonal glacier and snow loading in Svalbard recovered from geodetic observations.
(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.
(2022). The Cryosphere, . vol. 16, ss. 5001-5022 DOI -
LoessFest 2018, Volgograd, Russia.
(2022). Quaternary International, . vol. 620, ss. 1-3 DOI -
A detailed luminescence chronology of the Lower Volga loess-palaeosol sequence at Leninsk.
(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.
(2022). Global and Planetary Change, . vol. 209 DOI -
Chinese loess and the Asian monsoon: What we know and what remains unknown.
(2022). Quaternary International, . vol. 620, ss. 85-97 DOI -
Direct photogrammetry with multispectral imagery for UAV-based snow depth estimation.
(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.
(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.
(2022). Global and Planetary Change, . vol. 215 DOI -
Dataset of dust mass accumulation rates for the loess-palaeosol sequences from the Carpathian Basin.
(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.
(2022). Permafrost and Periglacial Processes DOI -
Age, formation and significance of loess deposits in central Sweden.
(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.
(2022). Quaternary, . vol. 5 DOI -
First high-resolution luminescence dating of loess in Western Siberia.
(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.
(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.
(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.
(2022). Science of the Total Environment, . vol. 853 DOI -
Greenland ice core record of last glacial dust sources and atmospheric circulation.
(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.
(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.
(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.
(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.
(2021). Palaeogeography, Palaeoclimatology, Palaeoecology, vol. 569 DOI -
Results from the Ice Thickness Models Intercomparison eXperiment Phase 2 (ITMIX2).
(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.
(2021). Frontiers in Earth Science, vol. 9 DOI
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