Posters for 33rd the Nordic Geological Winter Meeting
All Posters will be present at Glassalen during the entire conference.
All the ones with blue-green mark on the left are in the competition for the Best Student Poster Award. These posters will be presented in the coffee break from 10.00-11.00 on Wednesday and the winner of the Award will be announced at the Ice Breaker event the same night.
All remaining posters will be presented in the coffee break from 10.00-11.00 on Thursday.
| Poster # | Session | Poster Title and Author |
|---|---|---|
| 1 | 1.1. Hotspots and intraplate magmas: Mantle sources, magmatic processes and metasomatism. | ‘Birthing an ocean island rift: mantle fingers or lateral flow?’ by Frances Deegan |
| 2 | 1.1. Hotspots and intraplate magmas: Mantle sources, magmatic processes and metasomatism. | ’Alkaline OIBs derived by pyroxenite-melting of low-T mantle’ by Nina Søager |
| 3 | 1.1. Hotspots and intraplate magmas: Mantle sources, magmatic processes and metasomatism. | ’Tracing pyroxenite in the mantle source at Heard Island in the Indian Ocean’ by Abigail K Barker |
| 4 | 1.1. Hotspots and intraplate magmas: Mantle sources, magmatic processes and metasomatism. | ’Hydrothermal alteration of the ultramafic rocks at the Kemi intrusion’ by Fabian Mauricio Botello |
| 5 | 1.1. Hotspots and intraplate magmas: Mantle sources, magmatic processes and metasomatism. | ’Geochemical characteristics of an enriched Icelandic tholeiitic magma suite: the case of the Kverkfjöll volcanic system’ by Eemu Ranta |
| 6 | 1.3. Understanding Large Igneous Provinces and associated rapid environmental changes: from the North Atlantic Igneous Province and beyond. | ’Lithological and geochemical variations during the PETM and later Eocene hyperthermals: details from a new drill core from Fur, Denmark. ’ by Ella Wulfsberg Stokke |
| 7 | 1.3. Understanding Large Igneous Provinces and associated rapid environmental changes: from the North Atlantic Igneous Province and beyond. | ’Pyroxenes used as probes for assessing gas loads from LIP magmas: a crystal/melt partitioning study for sulfur and halogens’ by Sara Callegaro |
| 8 | 1.3. Understanding Large Igneous Provinces and associated rapid environmental changes: from the North Atlantic Igneous Province and beyond. | ’Glendonite in an early Eocene Konservat-Lagerstätte (Fur Formation of Northern Denmark) and Palaeocene / Eocene formations on Svalbard are good climate and biosphere interpretive indicators. ’ by Bo Pagh Schultz |
| 9 | 1.4. Tephra markers in the circum North Atlantic area | ’Holocene tephra stratigraphy in the Vestfirðir peninsula, NW Iceland’ by Esther Ruth Guðmundsdóttir |
| 10 | 1.4. Tephra markers in the circum North Atlantic area | ’Timing of early Holocene explosive eruptions in Iceland – improved tephrochronology’ by Maarit Kalliokoski |
| 11 | 1.6. Alkaline magmatism, carbonatites and associated mineral resources. | ’Mineralogy and petrology of mafic dikes from the Siilinjärvi carbonatite complex, Finland’ by Matias Carlsson |
| 12 | 1.6. Alkaline magmatism, carbonatites and associated mineral resources. | ’Varena suite in the crystalline crust of the Southern Lithuania: implication to the genesis and mineralization. ’ by Vaida Kirkliauskaite |
| 13 | 1.6. Alkaline magmatism, carbonatites and associated mineral resources. | ’Geochronology of the Särna alkaline complex, Dalarna, Sweden’ by John A. Eliasson |
| 14 | 1.6. Alkaline magmatism, carbonatites and associated mineral resources. | ’Polymetallic, REE and precious elements new results within Suwalki Anorthosite Massif, NE Poland’ by Michał Ruszkowski |
| 15 | 1.6. Alkaline magmatism, carbonatites and associated mineral resources. | ’New Rb-Sr and Zircon U-Pb dating of the Grønnedal-Íka igenous complex, SW Greenland’ by Gabrielle Stockmann |
| 16 | 1.6. Alkaline magmatism, carbonatites and associated mineral resources. | ’Thorium in eudialyte ore deposits from Greenland studied by synchrotron radiation (μ-XRF/-XAFS) and electron microscopic techniques (SEM, TEM) ’ by Platon N. Gamaletsos |
| 17 | 1.6. Alkaline magmatism, carbonatites and associated mineral resources. | ’Experimental simulation and predictive modelling of rare earth element enrichment in carbonatites and alkaline magmas’ by Johann Tuduri |
| 18 | 1.7. Magmatic Plumbing Systems. | ’The Seiland igneous province: Imaging a well preserved ediacaran deep seated magmatic system by 3D gravity and magnetic modelling’ by Zeudia Pastore |
| 19 | 1.7. Magmatic Plumbing Systems. | ’Rock magnetic properties and magnetic carriers of a deep crustal magmatic system, the Reinfjord Ultramafic Complex, Seiland Igneous Province, Northern Norway’ by Geertje W. ter Maat |
| 20 | 1.7. Magmatic Plumbing Systems. | ’Fracture networks in and around igneous intrusions on Svalbard: implications for fluid flow’ by Marte Festøy |
| 21 | 1.7. Magmatic Plumbing Systems. | ’A new model for saucer-shaped intrusions: shear failure versus tensile opening at sill tips’ by Øystein Haug |
| 22 | 1.8. Building Baltica | ’A ca.1.89 Ga magmatic complex in eastern Lithuania: a link connecting with the domains in Estonia and the Bergslagen terrane in Sweden ’ by Laurynas Šiliauskas |
| 23 | 1.8. Building Baltica | ’Mineral shape fabric analysis of the Kynsikangas Shear Zone: Evidence for a transpressive origin? ’ by Johanna Berckhan |
| 24 | 1.8. Building Baltica | ’The Nisser Shear Zone – Discovery of a Sveconorwegian crustal-scale detachment zone in southern Norway’ by Espen Torgersen |
| 25 | 1.8. Building Baltica | ’AMCG Mazury Complex in NE Poland – a time frame of the suite formation’ by Janina Wiszniewska |
| 26 | 1.8. Building Baltica | ’Provenance of Paleoproterozoic clastic metasedimentary rocks in Norrbotten, northern Sweden’ by Anna Ladenberger |
| 27 | 1.8. Building Baltica | ’Petrogenesis of c. 1.9 Ga meta-volcanosedimentary rocks in the Nautanen-Aitik area, northern Sweden: Geological, lithogeochemical and Sm-Nd isotopic constraints. ’ by Edward P. Lynch |
| 28 | 1.8. Building Baltica | ’Deformation history of the Archipelago of Southern Finland ’ by Kaisa Nikkilä |
| 29 | 1.8. Building Baltica | ’A link between Mesoproterozoic basement of Lithuania and NE Poland by inherited metamorphic zircon data’ by Janina Wiszniewska |
| 30 | 1.9. Micro-beam frontiers in magmatic, metamorphic, and hydrothermal systems | ’In situ Rb-Sr dating of snowball Earth tillite clasts for provenance study on the Chuos formation, Namibia. ’ by Martin Thor |
| 31 | 1.9. Micro-beam frontiers in magmatic, metamorphic, and hydrothermal systems | ’New Scanning Electron Microscope for automated mineralogical, crystallographic and chemical analyses’ by Nynke Keulen |
| 32 | 1.10. Geochemistry and modeling of Igneous Systems. | ’Chronology and geochemical and structural evolution of dykes intruding the Reinfjord ultramafic to mafic intrusion in the Seiland Igneous Province’ by Alf Andre Orvik |
| 33 | 1.10. Geochemistry and modeling of Igneous Systems. | ’Platinum Group Minerals in the Reinfjord Ultramafic Complex’ by Even Sunnanå Nikolaisen |
| 34 | 1.11. Open session on petrology and geochemistry | ’Oxidative weathering in the Late Neoproterozoic: Preliminary Cr Isotope results from the Urucum District, Brazil’ by Trygvi Bech Árting |
| 35 | 1.11. Open session on petrology and geochemistry | ’Recycling of continental material through the suprasubduction zone Mawat ophiolite, NE Iraq’ by Heider Al Humadi |
| 36 | 1.11. Open session on petrology and geochemistry | ’Quadlab – A 40Ar/39Ar and noble gas isotope laboratory at the Natural History Museum of Denmark’ by Michael Storey |
| 37 | 2.1. Geodynamic and geological evolution of the Arctic | ’A large Devonian ultra-high-pressure province in northeastern Greenland’ by Thorsten Nagel |
| 38 | 2.1. Geodynamic and geological evolution of the Arctic | ’New heat flow measurements from central Arctic Ocean’ by Grace Shephard |
| 39 | 2.1. Geodynamic and geological evolution of the Arctic | ’Soapstone from Nuuk: fingerprinting the origin and geological history of soapstone (steatite) suitable for carving in the Godthåbsfjord-Ameralik region (southern West-Greenland). ’ by Nynke Keulen |
| 40 | 2.1. Geodynamic and geological evolution of the Arctic | ’Details on the Cretaceous ocean formation in the High Arctic based on satellite gravity data’ by Arne Døssing |
| 41 | 2.2. Deformation and metamorphism of rocks: Microstructures, processes, and physical properties | ’Late magmatic-hydrothermal alteration and deformation of ultramafic rocks and dikes from the Reinfjord Ultramafic Complex’ by Frederik Valentin Reinhard |
| 42 | 3.1. Sedimentology | ’Topographic Development as a result of regional incision, faulting, and deposition at the onset of relative sea-level rise; The upper Entrada Sandstone and the lower Curtis ’Formation, Utah, USA. ’ by Sigrid Østmo da Costa |
| 43 | 3.1. Sedimentology | ’Early mid-Devonian volcanism dates initiation of the Orcadian basin in the Orkney Islands, Scotland’ by Lars Eivind Augland |
| 44 | 3.1. Sedimentology | ’Recognizing sandstone diagenesis from outcrop to microscopic scale’ by Rikke Weibel |
| 45 | 3.3. Composition of siliciclastic rocks | ’Impact of electrostatic forces on sediment porosity ’ by Leonardo Teixeira Pinto Meireles |
| 46 | 4.1. Trans-Atlantic correlation of Proterozoic collisional belts and Paleoproterozoic Metallogeny of the Arctic | ’New U-Pb geochronology for the Archean basement, Karrat Group cover sequence and later intrusions of the Ray Province, West Greenland. ’ by Kristine Thrane |
| 47 | 4.2. Caledonian orogenic cycle: the Greenland-Svalbard-Scandinavia connection | ’Detrital zircon signatures of the metasedimentary rocks of the Lower Seve Nappe in the COSC-1 drillhole, Åre, Sweden. ’ by Yuan Li |
| 48 | 4.2. Caledonian orogenic cycle: the Greenland-Svalbard-Scandinavia connection | ’The age of metagabbro from the Bangenhuk unit, Atomfjella Complex, Ny-Friesland, Svalbard’ by Jakub BAZARNIK |
| 49 | 4.3. Evolution of the North Atlantic margin: from Mesozoic rifting to Cenozoic inversion | ’Pliocene Pockmarks in the eastern Danish Central Graben, North Sea - Formation and Significance’ by Kaziwa Mohammadi |
| 50 | 4.3. Evolution of the North Atlantic margin: from Mesozoic rifting to Cenozoic inversion | ’Origin and sediment budget of an early Neogene - early Quaternary contourite drift system on the SW Barents Sea margin’ by Tom Arne Rydningen |
| 51 | 4.5. Open Session: Structural Geology and Tectonic | ’Modelling the fracture characteristics of crystalline bedrock for the purposes of bedrock surface interpolations’ by Eemi Ruuska |
| 52 | 4.5. Open Session: Structural Geology and Tectonic | ’3D model of the lithotectonic units and regional deformation zones in the bedrock of Sweden’ by Phil Curtis |
| 53 | 4.5. Open Session: Structural Geology and Tectonic | ’East Greenland 72-74° N Inland to Coast Thermo-tectonic Evolution ’ by Peter Klint Jensen |
| 54 | 4.5. Open Session: Structural Geology and Tectonic | ’Mechanical separation of crust from slabs subducted below the transition zone’ by Anders Vesterholt |
| 55 | 5.1. Mineralogy and its applications | ’Prediction of swelling potential using the Atterberg limits’ by Aikaterini Biotaki |
| 56 | 5.1. Mineralogy and its applications | ’A new single-crystal XRD for mineral sciences in Scandinavia’ by Henrik Friis |
| 57 | 6.1. Paleozoic and Mesozoic stratigraphy, paleoceanography and paleoclimate | ’The Silurian Lau event – testing plant weathering as driver for ocean anoxia and animal extinction’ by Julius Havsteen |
| 58 | 6.1. Paleozoic and Mesozoic stratigraphy, paleoceanography and paleoclimate | ’Orbital forcing of organic matter quality and quantity in a source-rock formation: the case of the Vaca Muerta Formation, Tithonian-Valanginian, Neuquén Basin, Argentina’ by Johannes Monkenbusch |
| 59 | 6.1. Paleozoic and Mesozoic stratigraphy, paleoceanography and paleoclimate | ’Chemostratigraphy across the Toarcian Oceanic Anoxic Event in the Aubach section of SW Germany’ by Iben W. Hougaard |
| 60 | 6.1. Paleozoic and Mesozoic stratigraphy, paleoceanography and paleoclimate | ’The giant Lower Triassic sponge-microbial build-ups from Neotethys’ by Sylvain Richoz |
| 61 | 6.1. Paleozoic and Mesozoic stratigraphy, paleoceanography and paleoclimate | ’Seawater temperature change across the Pliensbachian–Toarcian transition – new isotope data from the Aubach section in SW Germany’ by Christoph Korte |
| 62 | 6.2. Open session in Palaeontology, palaeoecology and paleoenvironments | ’Biostratigraphy and palaeoecology of calcareous nannofossils in the Lower Cretaceous Munk Marl Bed, Danish North Sea’ by Sarah D. Møller |
| 63 | 6.2. Open session in Palaeontology, palaeoecology and paleoenvironments | ’The microstructure of Euselachian (Chondrichthyes) tooth and scales from Late Permian of Lithuania-Latvia Region’ by Darja Dankina-Beyer |
| 64 | 6.2. Open session in Palaeontology, palaeoecology and paleoenvironments | ’Surface analyses of fossil leaves’ by Magnus A. R. Harding |
| 65 | 6.2. Open session in Palaeontology, palaeoecology and paleoenvironments | ’Late Toarcian to Early Bajocian climate and environmental changes in Europe and East Greenland – geochemical records from calcite fossils and sediments’ by Jesper Allan Frederiksen |
| 66 | 6.2. Open session in Palaeontology, palaeoecology and paleoenvironments | ’Palynological investigation of the late Pliocene to early Pleistocene proto-Gulf of Corinth, Greece’ by Gauti Trygvason Eliassen |
| 67 | 6.2. Open session in Palaeontology, palaeoecology and paleoenvironments | ’Middle Jurassic palaeoenvironmental events in Europe - evidence from palynology and carbon and oxygen isotopes’ by Suzanne Pultz |
| 68 | 6.2. Open session in Palaeontology, palaeoecology and paleoenvironments | ’Carinodens – a new addition to the Late Cretaceous mosasaur fauna of Denmark’ by Jesper Milàn |
| 69 | 7.1. Climate from the Palaeogene to the Anthropocene - bridging timescales and approaches | ’Holocene oceanographic variability in coastal southeast Greenland’ by Laurence M. Dyke |
| 70 | 7.1. Climate from the Palaeogene to the Anthropocene - bridging timescales and approaches | ’Late Holocene paleoclimatic and palaeoceanographic development of the eastern Baffin Bay area ’ by Katrine Elnegaard Hansen |
| 71 | 7.1. Climate from the Palaeogene to the Anthropocene - bridging timescales and approaches | ’Spatiotemporal differences in varve structure and preservation over the last 200 years in Lake Lehmilampi, Eastern Finland’ by Sarianna Salminen |
| 72 | 8.1. Ice and climate history in the Arctic and subarctic | ’The Weichselian chronostratigraphical framework of the Kongsfjorden Trough Mouth Fan, W-Spitsbergen’ by Daniel Hesjedal Wiberg |
| 73 | 8.1. Ice and climate history in the Arctic and subarctic | ’Paleoceanographic ocean surface conditions in Kongsfjorden, Svalbard over the last 400 years’ by Tiia Luostarinen |
| 74 | 8.1. Ice and climate history in the Arctic and subarctic | ’Sea-ice in the Iceland-Norwegian Sea during the last 50-60000 years: first results from the IS-4C marine core’ by Erna Ósk Arnardóttir |
| 75 | 8.1. Ice and climate history in the Arctic and subarctic | ’A new relative sea level curve from Mestersvig, NE Greenland based on isolation basins’ by Frank Bauer |
| 76 | 8.1. Ice and climate history in the Arctic and subarctic | ’From fjord to land – Holocene climate of the Femmilsjøen area, NE Spitsbergen’ by Lis Allaart |
| 77 | 8.1. Ice and climate history in the Arctic and subarctic | ’Facies model for a rebound cycle based on mid-late Quaternary sediments in the Kongsfjorden area, NW Svalbard’ by Mona Henriksen |
| 78 | 8.1. Ice and climate history in the Arctic and subarctic | ’Putorana ice sheet advance over southern Taimyr, NW Siberia, during the Late Saalian (MIS 6) ’ by Ivar Benediktsson |
| 79 | 8.1. Ice and climate history in the Arctic and subarctic | ’Characteristics of wave-built sedimentary archives in Buor Khaya Bay (71°N/130°E), Siberian Arctic, Russia. ’ by Lasse Sander |
| 80 | 8.1. Ice and climate history in the Arctic and subarctic | ’Evolution of Greenland’s glaciers and ice caps in the 20th century’ by Niels J. Korsgaard |
| 81 | 8.1. Ice and climate history in the Arctic and subarctic | ’Ice marginal fluctuations of local ice caps in McCormick Fjord, NW Greenland’ by Anne Sofie Søndergaard |
| 82 | 8.2. Glacial processes, deposits and landforms | ’Using large-scale patterns and morphology of subglacial meltwater corridors to gain insight into the spatial organisation, formation and evolution of meltwater drainage beneath ice sheets’ by Emma Lewington |
| 83 | 8.2. Glacial processes, deposits and landforms | ’Subglacial or Pro-glacial Deformed Middle-Late Weichselian Ridges in Jyderup Skov, Odsherred, Denmark’ by Cecilie Skovsø Andersen |
| 84 | 8.2. Glacial processes, deposits and landforms | ’Sedimentological and morphological implications for the understanding of murtoo formation in Sweden’ by Gustaf Peterson |
| 85 | 8.2. Glacial processes, deposits and landforms | ’Sedimentology of the new subglacial landforms detected from LiDAR data in SW Finland’ by Joni Mäkinen |
| 86 | 8.2. Glacial processes, deposits and landforms | ’New subglacial landforms detected from LiDAR data’ by Kari Kajuutti |
| 87 | 8.2. Glacial processes, deposits and landforms | ’A new glacial deposits and features database of Finland’ by Niko Putkinen |
| 88 | 8.3. Open session Quarternary geology | ’Weichselian Stratigraphy and Deglacial Deposits from Kuusivaara, Sodankylä, Central Finnish Lapland’ by Markus T.O. Valkama |
| 89 | 8.3. Open session Quarternary geology | ’Lateglacial – early Holocene geomorphology between Lake Vänern and Lake Vättern, southern Sweden’ by Christian Öhrling |
| 90 | 8.3. Open session Quarternary geology | ’Mineralogical analysis of till by the Greenland Ice Sheet, Kangerlussuaq, West Greenland’ by Karin Grodzinsky |
| 91 | 8.3. Open session Quarternary geology | ’Late Glacial and Holocene development within the source depression of the Vejrhøj end-moraine, NW Sjælland, Denmark’ by Peter Roll Jakobsen |
| 92 | 8.3. Open session Quarternary geology | ’Lake sediment analysis of the Nedre Glomsjø outburst flood event, Southeastern Norway’ by Helle Daling Nannestad |
| 93 | 8.3. Open session Quarternary geology | ’Sedimentary characteristics of a possible tsunami deposit in the Leirfjorden area, North Norway’ by Louise Hansen |
| 94 | 9.1. Circular economy | ’Utilization of biochar as a cover material in mine waste areas’ by Pertti Sarala |
| 95 | 9.3. Open Session: Economic Geology | ’REE-enrichment in Palaeoproterozoic banded iron formations, Bergslagen, Sweden: primary precipitation or hydrothermal overprint? ’ by Marcus Brismo-Ploetz |
| 96 | 9.3. Open Session: Economic Geology | ’Platinum Group Element Mineralization of the RF-4 drill core, Reinfjord Ultramafic Complex, Troms, Norway’ by Lars Tollefsrud |
| 97 | 9.3. Open Session: Economic Geology | ’Crustal structure and hosting lithology account for the spatial distribution of gold mineralisation in SW Finland’ by Jaakko Kara |
| 98 | 9.3. Open Session: Economic Geology | ’Characterisation of the Kivilompolo Molybdenum Mineralisation, Peräpohja Belt, Northern Finland’ by Matthew Goode |
| 99 | 9.3. Open Session: Economic Geology | ’Accessory minerals within the SAM – a preliminary case study’ by Michal Ruszkowski |
| 100 | 9.3. Open Session: Economic Geology | ’Au-Ag-(Bi-Te-Se)-enriched polymetallic vein mineralisations in SW Sweden: ore mineralogy and thermal evolution’ by Erik Jonsson |
| 101 | 10.1. Geohazards in the Nordic and Arctic regions | ’Assessment of risk posed by slope failures at a coastal cliff in Hyllestad municipality (Sogn og Fjordane, Norway) ’ by Vegard Nes |
| 102 | 10.1. Geohazards in the Nordic and Arctic regions | ’The Kassen and Håkåneset rock slope instabilities along fjord lakes in Telemark show large postglacial gravitational strain but no present day deformation, Southern NorwayThe Kassen and Håkåneset rock slope instabilities along fjord lakes in Telemark show large postglacial gravitational strain but no present day deformation, Southern Norway’ by Kaja Krogh |
| 103 | 10.1. Geohazards in the Nordic and Arctic regions | ’Stability Analysis of Preikestolen (Rogaland county, Norway) ’ by Katrine Mo |
| 104 | 10.1. Geohazards in the Nordic and Arctic regions | ’A structural and InSAR study of the unstable rock slope in Oksfjellet, Troms’ by Marie Bredal |
| 105 | 10.1. Geohazards in the Nordic and Arctic regions | ’Monitoring of surface processes in Gråfonnfjellet, Rauma municipality, Norway’ by Pierrick Nicolet |
| 106 | 10.2. Open session Engineering and enviromental geology | ’Provenance and Contamination History of the Paraná Delta, Argentina’ by Jane Ihrfors |
| 107 | 10.2. Open session Engineering and enviromental geology | ’Investigations of clay deposits as barrier for a final repository for Denmark's low- and intermediate level radioactive waste in subsurface to 500 m depth. ’ by Bertel Nilsson |
| 108 | 10.2. Open session Engineering and enviromental geology | ’Development of a database for stratigraphic information on Quaternary deposits at the Geological Survey of Norway (NGU) ’ by Louise Hansen |
| 109 | 11.1. Groundwater transport in cold, changing climates: theory, experiments, models | ’Subpermafrost Groundwater and Pingos in Adventdalen - Evaluating the Implication of Holocene Permafrost Formation in Near Coastal Areas -’ by Mikkel Toft Hornum |
| 110 | 11.2. Groundwater – surface water interaction; chemical and quantitative impacts on rivers, lakes, wetlands, fjords and coastal areas. | ’An evaluation of tools to standardise groundwater resource assessment for coastal areas in Sweden’ by Ingmar Geuze |
| 111 | 11.2. Groundwater – surface water interaction; chemical and quantitative impacts on rivers, lakes, wetlands, fjords and coastal areas. | ’Potential for Lake Bank Filtration at Lake Tissoe, Denmark’ by Franciska Amalie Køhn |
| 112 | 11.2. Groundwater – surface water interaction; chemical and quantitative impacts on rivers, lakes, wetlands, fjords and coastal areas. | ’Formation of saltwater intrusions in the low-lying coastal areas during the Holocene in Southern Jutland’ by Rena Meyer |
| 113 | 11.2. Groundwater – surface water interaction; chemical and quantitative impacts on rivers, lakes, wetlands, fjords and coastal areas. | ’Temperature profiles to measure groundwater discharge to Ringkøbing Fjord. ’ by Joel Tirado-Conde |
| 114 | 11.3. Integrated Hydrological Modeling | ’Estimated variation in pesticide leaching through greens and fairways based on detailed fate-descriptions in 12-cm soil profiles’ by Sachin Karan |
| 115 | 11.4. Open session Hydrogeology | ’Sustainable Water Resources in Iranian Qanats’ by Fataneh Hajatpour Birgani |
| 116 | 11.4. Open session Hydrogeology | ’Fracture minerals investigations at Kyläniemi, Southern Finland: Paleohydrogeological implications’ by Minja Seitsamo-Ryynänen |
| 117 | 11.4. Open session Hydrogeology | ’Stable water isotopes in snow: Changes throughout the season in Finse, Norway’ by Evelien van Dijk |
| 118 | 12.1. Open session in Geophysics | ’Geological characterization of clayey till using cross-borehole ground penetrating radar. ’ by Espen Bing Svendsen |
| 119 | 12.1. Open session in Geophysics | ’Geophysical modelling of the Leka Ophiolite Complex’ by Alexander Michels |
| 120 | 12.1. Open session in Geophysics | ’Towards a Finnish Seismic Database – Taming the National Seismological DDSS’ by Tommi Vuorinen |
| 121 | 12.1. Open session in Geophysics | ’The seismic signature of the Mantle Transition Zone in different geodynamic scenarios’ by Christian Schiffer |
| 122 | 12.1. Open session in Geophysics | ’Why the mantle transition zone does not appear to be thinned at plume sites’ by Thorsten Nagel |
| 123 | 13.2. Bio-mineral interactions | ’Quantification of molecular bonding: Implications for origin of life and the iron cycle’ by Stanislav Jelavić |
| 124 | 13.2. Bio-mineral interactions | ’Manganese speciation and distribution in foraminiferal calcite under varying environmental conditions’ by Nadine Quintana Krupinski |
| 125 | 13.2. Bio-mineral interactions | ’Using LA-ICPMS to investigate seasonality in Cod otolith microchemistry’ by Kristian Nielsen |
| 126 | 14.1. Geothermal energy and CO2 storage | ’Mass estimation of CO2 trapping in the Smeaheia reservoir’ by Tatiana Sacco |
| 127 | 14.1. Geothermal energy and CO2 storage | ’Regional evaluation of structural collapse in sandstone reservoirs and impact on reservoir quality, a case study from the Entrada Sandstone, Utah, USA’ by Nikoline Bromander |
| 128 | 14.1. Geothermal energy and CO2 storage | ’Geological constraints on the immobilization potential for CO2 in the Upper Triassic – Lower Jurassic Gassum Formation (Skagerrak, Norway) ’ by Anja Sundal |
| 129 | 15.1. Tectonic, geodynamic, oceanographic, and cryospheric evolution of the Arctic Ocean from Mesozoic to present day | ’The general seafloor morphology of the NE Greenland shelf - Insights from new marine shallow seismic and core data collected during the NorthGreen2017 expedition’ by Lasse Nygaard Eriksen |
| 130 | 15.1. Tectonic, geodynamic, oceanographic, and cryospheric evolution of the Arctic Ocean from Mesozoic to present day | ’Active fault systems and submarine landslides along the Eastern Sakhalin slope, the Okhotsk Sea’ by D.D. Rukavishnikova |
| 131 | 15.1. Tectonic, geodynamic, oceanographic, and cryospheric evolution of the Arctic Ocean from Mesozoic to present day | ’An automated cryogenic magnetometer at the Geological Survey of Norway for natural remanent magnetization and rock magnetism: A case study of North-East Atlantic continental margin sediments’ by Martin Klug |
| 132 | 15.2. Paleo‐landscape analysis based on high‐resolution marine data | ’The Young Sound fjord system, NE Greenland – Insights from new marine shallow seismic and core data collected during the NorthGreen2017 expedition’ by Lasse Nygaard Eriksen |
| 133 | 15.2. Paleo‐landscape analysis based on high‐resolution marine data | ’Paleo-river valleys near the Dogger Bank in the Danish and German sectors of the North Sea – an undiscovered tributary system to the Paleo Elbe Valley ’ by Trine Andreasen |
| 134 | 15.2. Paleo‐landscape analysis based on high‐resolution marine data | ’Deep geology at Vejle Fjord – Paleogene structural control of a Quaternary fjord system’ by Jakob Roued |
| 135 | 15.2. Paleo‐landscape analysis based on high‐resolution marine data | ’Late glacial to Holocene geological development of the western Limfjord – reconstruction of a dynamic paleolandscape’ by Katrine Juul Andresen |
| 136 | 15.3. The Quaternary geology of the North Sea Basin | ’Near-shore seafloor depressions in the Western Limfjord, Denmark – potential geohazards? ’ by Anders Dahlin |
| 137 | 15.3. The Quaternary geology of the North Sea Basin | ’Buried Valleys in the Danish Central Graben’ by Lasse Krogsgaard Prins |
| 138 | 15.3. The Quaternary geology of the North Sea Basin | ’Morphology of the southeast Skagerrak (Denmark) from a new geophysical dataset’ by Matthew Owen |
| 139 | 15.4. Open session Marine Geology | ’EMODnet Geology – a gateway to marine data in Europe’ by Jørgen O. Leth |
| 140 | 16.1. Holocene coastal morpho-sedimentary systems: Archives, processes and forcing mechanisms | ’Stratigraphy and sedimentary architecture of polder fills along the North Frisian Wadden Sea (southern North Sea) – potential archives of sea-level and climate variability (project SEASTORM) ’ by Amalie Cordua |
| 141 | 16.1. Holocene coastal morpho-sedimentary systems: Archives, processes and forcing mechanisms | ’Chronology and late Holocene evolution of Caleta de los Loros, NE Patagonia, Argentina’ by Lasse Sander |
| 142 | 16.2. Lidar in Geomorphology | ’EcoMap Project: Baltic Sea environmental assessments by innovative opto-acoustic remote sensing, mapping, and monitoring. ’ by Zyad Al-Hamdani |
| 143 | 16.3. Remote Sensing - Digital mapping, remote sensing and 3d models in Earth Science | ’UAV topographic survey of a migrating dune – pitfalls and first results (Sylt, southern North Sea) ’ by Benjamin Eberhardt |
| 145 | 16.3. Remote Sensing - Digital mapping, remote sensing and 3d models in Earth Science | ’Classification of block fields in Norway using Machine Learning’ by Mads Nedergaard Paulsen |
| 146 | 16.3. Remote Sensing - Digital mapping, remote sensing and 3d models in Earth Science | ’UAV photogrammetry to monitor stability of rock climbing sites ’ by Axel Hellman |
| 147 | 16.3. Remote Sensing - Digital mapping, remote sensing and 3d models in Earth Science | ’Safeguarding long records of geomorphological measurements using Structure-from-Motion from ground-based images’ by Ivar Berthling |
| 148 | 16.4. Open session in Geomorphology | ’Landslides in northwest Iran: a case study on the landslide hazard zonation in Baleghluchai watershed in Ardabil using AHP Fuzzy method’ by Keristineh Jananeh |
| 149 | 17.1. Education, communication, preservation and Geoheritage | ’Detailed mapping of the polydeformed Gressholmen and Rambergøya islands, Oslo Rift - a capstone course project at Oslo University’ by Monika Oftedal Voll |
| 150 | 17.1. Education, communication, preservation and Geoheritage | ’GIS - an appropriate tool for undergraduate field mapping? ’ by Morten Aanvik |
| 151 | 17.1. Education, communication, preservation and Geoheritage | ’Field-based education in the high Arctic – how digital tools can support active learning in Geology’ by Kim Senger |
| 152 | 17.1. Education, communication, preservation and Geoheritage | ’Stevns Klint, Denmark – UNESCO World Heritage Site and how to conduct geological research at the site in the future’ by Jesper Milàn |
| 153 | 17.1. Education, communication, preservation and Geoheritage | ’Soapstone from Nuuk: Communicating scientific and commercial value of a local resource ’ by Rebekka Knudsen |
| 154 | 17.1. Education, communication, preservation and Geoheritage | ’GEARS: Geological heritage in inner Scandinavia’ by Terje Motrøen |
| 155 | 18.1. Other Sessions | ’Determination of palaeoproductivity using carbon quality in an end member mixing model' by Justin Fadipe |
| 156 | 18.1. Other Sessions | ’Surface kinematics of sorted circles using Structure from Motion photogrammetry in Juvfonne and Juvasshøe’ by Andrea Gaustad |
| 157 | 18.1. Other Sessions | ’Frequency-magnitude analysis for landslides in Sogn og Fjordane’ by Håvard Mongstad |