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Research articles and reports

List of reports and articles published as a result of the work of the Geological Survey of Estonia (EGT) or with the involvement of the EGT’s staff.

Publication Classification,
link to ETIS
2025
Koit, Oliver; Pärn, Joonas; Hunt, Marlen; Tarros, Siim; Lode, Elve; Abreldaal, Pamela (2025). Climate-driven hydrological sensitivity in Estonian catchments: a northern temperate perspective. Estonian Journal of Earth Sciences, 74 (1), 1−21. DOI: 10.3176/earth.2025.01. 1.1.
Osjamets, Madis; Motlep, Riho (2025). Fly ash applications for mine workings backfilling - review of current practices and perspectives for oil shale industry residues. Oil Shale, 42 (1), 1−28. DOI: 10.3176/oil.2025.1.01. 1.1.
2024
Pärn, Joonas; Walraevens, Kristine; Hunt, Marlen; Koit, Oliver; van Camp, Marc; Ivask, Jüri; Raidla, Valle; Iital, Arvo; Kõrgmaa, Vallo; Osjamets, Madis; Babre, Alise; van Reybrouck, Jill; Vaikmäe, Rein (2024). Unveiling the hydrological response of NO3-rich springs to seasonal snowmelt in a karstic carbonate upland. Journal of Hydrology, #131724. DOI: 10.1016/j.jhydrol.2024.131724. 1.1.
Tõnisson, H.; Männikus, R.; Kont, A.; Palginõmm, V.; Alari, V.; Suuroja, S.; Vaasma, T.; Vilumaa, K. (2024). Application of Shore Sediments Accumulated in Navigation Channel for Restoration of Sandy Beaches around Pärnu City, SW Estonia, Baltic Sea. Journal of Marine Science and Engineering, 12 (3), #394. DOI: 10.3390/jmse12030394. 1.1.
Kleber, Gabrielle E.; Magerl, Leonard; Turchyn, Alexandra V.; Redeker, Kelly R.; Thiele, Stefan; Liira, Martin; Herodes, Koit; Øvreås, Lise; Hodson, Andrew J. (2024). Shallow and Deep Groundwater Moderate Methane Dynamics in a High Arctic Glacial Catchment. Frontiers in Earth Sciences, 12, 1340399. DOI: 10.3389/feart.2024.1340399. 1.1.
Tuuling, Igor; Suuroja, Sten; Veski, Anu; Ausmeel, Markus; Liira, Martin; Suuroja, Kalle (2024). The bedrock relief below the Väinameri, in a shallow-marine branch of the central Baltic Sea offshore Estonia. Estonian Journal of Earth Sciences, 73 (2), 112−123. DOI: 10.3176/earth.2024.11. 1.1.
Ausmeel, Markus; Liira, Martin; Paiste, Paarn; Lepland, Aivo; Suuroja, Sten (2024). Phosphorus fractions and their vertical distribution in seabed sediments of the eastern Baltic Sea. Continental Shelf Research, 282, ARTN 105340. DOI: 10.1016/j.csr.2024.105340. 1.1.
Moutbir, Oussama; Aarab, El Mostafa; Youbi, Nasrrddine; Ait Lahna, Abdelhak; Tassinari, Colombo Celso Gaeta; Mata, João; Mitchell, Ross N.; Gärtner, Andreas; Soesoo, Alvar; Bensalah, Mohamed Khalil; Soulaimani, Abderrahmane; Boumehdi, Moulay Ahmed; Linnemann, Ulf (2024). Evidence of a large igneous province at ca. 347–330 Ma along the northern Gondwana margin linked to the assembly of Pangea: Insights from U–Pb zircon geochronology and geochemistry of the South-Western Branch of the Variscan Belt (Morocco). Earth-Science Reviews, 258, 104905. DOI: 10.1016/j.earscirev.2024.104905. 1.1.
Sinisalu, Mari; Järvik, Oliver; Mets, Birgit; Konist, Alar (2024). Co-gasification of biomass and oil shale under CO2 atmosphere: Comparative analysis of fixed-bed reactor, gas chromatography and thermogravimetric analysis coupled with mass spectroscopy (TGA-MS). Bioresource Technology, 393, 130086−130095. DOI: 10.1016/j.biortech.2023.130086. 1.1.
Piipponen, K.; Soesoo, A.; Arola, T.; Bauert, H.; Tarros, S. (2024). Impacts of groundwater flow on borehole heat exchangers: Lessons learned from Estonia. Renewable Energy, 237. DOI: 10.1016/j.renene.2024.121448. 1.1.
Tõnisson, H.; Luik, K.; Suursaar, Ü.; Buynevich, I.; Kont, A.; Männikus, R.; Rivis, R.; Suuroja, S.; Vilumaa, K. (2024). Rapidly transforming Holocene strandplain, affected by port jetty and hydroclimatic shifts – natural laboratory of past and future shoreline behavior. Journal of Coastal Research, 113 (sp1), 715−719. DOI: 10.2112/JCR-SI113-141.1. 1.2.
Buynevich, I.; Tõnisson, H.; Pupienis, D.; Rosentau, A.; Bitinas, A.; Jarmalavičius, D.; Davydov, O.; Kont, A.; Vilumaa, K.; Suursaar, Ü.; Savarese, M.; Luik, K.; Kadurin, S.; Wiest, L.; Suuroja, S. (2024). High-Resolution Sampling and Rapid Image-Based Assessment of Dark Opaque Fractions in Coastal Sands. Journal of Coastal Research, 113 (sp1), 778−782. DOI: 10.2112/JCR-SI113-153.1. 1.2.
Luik, K.; Suursaar, Ü.; Tõnisson, H.; Rivis, R.; Suuroja, S.; Vilumaa, K. (2024). Millennia-long progradation turned into coastal erosion at Järve coast of the Baltic Sea. Journal of Coastal Research, 113 (sp1), 235−239. DOI: 10.2112/JCR-SI113-047.1. 1.2.
Wittenberg, Antje; de Oliveira, Daniel; Bide, Tom; Hollis, Julie; Nirgi, Siim; Žibret, Gorazd; Gautneb, Håvard; Sadeghi, Martiya; Domínguez, Rafael Navarro; Malyuk, Boris (2024). Europe's Raw Materials Supply Chain: Front-End Considerations. In: Ágota Bányai (Ed.). Supply Chain - Perspectives and Applications IntechOpen. DOI: 10.5772/intechopen.11379. 3.2.
Soosalu, H. (2024). Eesti seismoloogia hiilgav minevik. Aaloe, A., Amon, L., Hints, O. (Toim.). Eesti Geoloogia Seltsi Bülletään 10. Kliimast, geoloogiast, ringmajandusest ja ajaloost. (57−94). Eesti Geoloogia Selts. 3.5.
Polikarpus, Maile; Pärn, Joonas; Tarros, Siim; Latsepov, Leonid; Suuroja, Sten (2024). Integrating multiple methods for simulating lake catchment water balance in northern Europe. EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024. Copernicus GmbH. DOI: 10.5194/egusphere-egu24-8822. 5.1.
Hunt, Marlen; Marandi, Andres (2024). Snow Cover Area and Snow Water Equivalent Relation in Estonia to Model Surface Water-Groundwater Interactions. EGU General Assembly 2024, Vienna, Austria, 15–19 April 204. Copernicus GmbH. DOI: 10.5194/egusphere-egu24-11758. 5.1.
Nirgi, Siim; Maala, Lennart; Kont, Rasmus (2024). Mineral Exploration in Estonia's Crystalline Basement: Insights from Reinvestigated Drill Cores in Northeastern Estonia. 5.2.
Graul, Sophie; Monchal, Vincent; Rateau, Rémi; Joosu, Lauri; Moilanen, Marko; Ndiaye, Mawo; Hints, Rutt (2024). LA-ICP-MS imaging technique application on Estonian sedimentary phosphorites: Revealing REE enrichment stages and advanced ore characterisation. LA-ICP-MS imaging technique application on Estonian sedimentary phosphorites: Revealing REE enrichment stages and advanced ore characterisation: EGU General Assembly 2024. Vienna: Copernicus Publications. DOI: 10.5194/egusphere-egu24-7319. 5.2.
Vind, Johannes; Mänd, Kaarel; Kirsimäe, Kalle (2024). Geochemical Conditions During the Deposition of Tremadocian Alum Shale in the Baltic Paleobasin of Northern Estonia. Nordic Geological Winter Meeting. Gothenburg, 10-12 January 2024: Nordic Geological Winter Meeting. 5.2.
Graul,Sophie; Monchal, Vincent; Rateau, Rémi; Joosu, Lauri; Moilanen, Marko; Ndiaye, Mawo; Hints, Rutt (2024). REE potential in sedimentary apatite: Delve deeper with microanalytics. 4th European Mineralogical Conference. Dublin: Trinity College Dublin, 275. 5.2.
Igor, Tuuling; Sten, Suuroja; Anu, Veski (2024). Kas Saaremaa ja Hiiumaa vahel asub ürgne jõeorg? Eesti Loodus, 5, 12−18. 6.3.
Soosalu, H., Sturkell, E. (2024). Pohjoismaisen vulkanologisen instituutin joutsenlaulu. Geologi, 76, 1, 26−33. 6.6.
2023
Rodes, Nil; Betlem, Peter; Senger, Kim; Roemer, Miriam; Hodson, Andy; Liira, Martin; Birchall, Tom; Roy, Srikumar; Noormets, Riko; Smyrak-Sikora, Aleksandra; Olaussen, Snorre; Bohrmann, Gerhard (2023). Active gas seepage in western Spitsbergen fjords, Svalbard archipelago: spatial extent and geological controls. Frontiers in Earth Science, 11, ARTN 1173477. DOI: 10.3389/feart.2023.1173477. 1.1.
Männik, Magdaleena; Karro, Enn (2023). Application of Modified DRASTIC Method for the Assessment and Validation of Confined Aquifer Vulnerability in Areas with Diverse Quaternary Deposits. Water, 15 (20), 3585. DOI: 10.3390/w15203585. 1.1.
Flem, B.; Bukovska, I.; Demidko, J.; Gundersen, P.; Klos, V.; Kolos, H.; Marandi, A.; Raidla, V.; Stalsberg, L.; Wyszomierski, M. (2023). Bridging gaps in groundwater management in International River Basin Districts (IRBDs) – through harmonized monitoring and data sharing. Journal of Hydrology Regional Studies, 50, 101540. DOI: 10.1016/j.ejrh.2023.101540. 1.1.
Hunt, Marlen; Marandi, Andres; Retike, Inga (2023). Water Balance Calculation for a Transboundary Aquifer System between Estonia and Latvia. Water, 15 (19), 3327. DOI: 10.3390/w15193327. 1.1.
Koit, Oliver; Retiķe, Inga; Bikše, Janis; Terasmaa, Jaanus; Tarros, Siim; Abreldaal, Pamela; Babre, Alise; Hunt, Marlen; Pärn, Joonas; Vainu, Marko; Marandi, Andres; Sisask, Karin; Lode, Elve; Männik, Magdaleena (2023). Hydrochemical signatures of springs for conceptual model development to support monitoring of transboundary aquifers. Groundwater for Sustainable Development, 21, 100927. DOI: 10.1016/j.gsd.2023.100927. 1.1.
Buynevich, Ilya V.; Tonisson, Hannes; Rosentau, Alar; Hang, Tiit; Kont, Are; Tamura, Toru; Suuroja, Sten; Palginomm, Valdeko; Doering, Sophia F. S. (2023). Rapid Magnetic Susceptibility Characterization of Coastal Morphosedimentary Units at Two Insular Strandplains in Estonia. Journal of Marine Science and Engineering, 11 (232), 1−10. DOI: 10.3390/jmse11020232. 1.1.
Środoń , J.; Condon, D. J.; Golubkova, E.; Millar, I. L.; Kuzmenkova, O.; Paszkowski, M.; Mazur, S.; Kędzior, A.; Drygant, D.; Ciobotaru, V.; Liivamägi, S. (2023). Ages of the Ediacaran Volyn-Brest trap volcanism, glaciations, paleosols, Podillya Ediacaran soft-bodied organisms, and the Redkino-Kotlin boundary (East European Craton) constrained by zircon single grain U-Pb dating. Precambrian Research, 386, ARTN 106962. DOI: 10.1016/j.precamres.2023.106962. 1.1.
Vind, J.; Ofili, S.; Mänd, K.; Soesoo, A.; Kirsimäe, K. (2023). Redox-sensitive trace metal hyper-enrichment in Tremadocian Alum Shale (graptolite argillite) in northwestern Estonia, Baltic Palaeobasin. Chemical Geology, 640. DOI: 10.1016/j.chemgeo.2023.121746. 1.1.
Polikarpus, M.; Pärn, J.; Latsepov, L.; Tarros, S.; Suuroja, S.; Tuuling, I.; Veski, A.; Liira, M.; Jõeleht, A.; Plado, J. (2023). Uljaste järve ja põhjavee seose uuring. Rakvere: Eesti Geoloogiateenistus. 2.5.
Vind, Johannes; Joosu, Lauri; Lumiste, Kaarel; Nemliher, Jüri (2023). Fosforiidi ja graptoliitargilliidi andmebaasi seletuskiri. Eesti Geoloogiateenistus. 2.5.
Webb, Peter C.; Potts, Philip, J.; Gowing, Charles J. B.; Thompson, Michael; Vind, Johannes (2023). GeoPT52 — An international proficiency test for analytical geochemistry laboratories — Report on round 52 (Metalliferous Shale, EMS-1). 1−43. 2.5.
Joosu, Lauri; Vind, Johannes; Lumiste, Kaarel; Polikarpus, Maile; Tarros, Siim; Pärn, Joonas; Kansi, Kaido; Tamm, Kadriann; Bauert, Heikki; Kaasik, Tiit; Kurvits, Karoliina; Nemliher, Jüri; Kuldkepp, Reedik (2023). Exploration of phosphorite and black shale in NorthEastern Estonia. Eesti Geoloogiateenistus. 2.5.
Veski, A.; Tuuling, I.; Suuroja, S.; Liira, M. (2023). Geofüüsikalised kaugseire meetodid mereala kaardistamisel ja mererannikute seirel. Eesti Geoloogiateenistus. Aastaraamat 2022. (49−51). Eesti Geoloogiateenistus. 3.2.
Tuuling, I., Suuroja, S., Veski, A., Soosalu, H. (2023). Seismoacoustic survey of the area surrounding the wreck of MS Estonia with boomer-type sub-bottom profiler. In: Geological Survey of Estonia, Yearbook 2022. (23−24). Eesti Geoloogiateenistus. 3.2.
Tuuling, I., Suuroja, S., Veski, A., Soosalu, H. (2023). Geological surveys of the planned wind farm area in the eastern part of the Gulf of Riga. In: Geological Survey of Estonia, Yearbook 2022. (20−22). Eesti Geoloogiateenistus. 3.2.
Veski, A., Tuuling, I., Suuroja, S., Liira, M. (2023). Geophysical remote sensing methods for seabed mapping and coastal monitoring. In: Geological Survey of Estonia. Yearbook 2022. (52−54). Rakvere: Eesti Geoloogiateenistus. 3.2.
Tuuling, I., Suuroja, S., Veski, A., Soosalu, H. (2023). MS Estonia vraki ümbritseva ala seismo-akustiline uuring boomer-tüüpi sette profilaatoriga. Eesti Geoloogiateenistus. Aastaraamat 2022. (21−22). Eesti Geoloogiateenistus. 3.2.
Liira, M.; Ausmeel, M.; Suuroja, S.; Veski, A.; Tuuling, I. (2023). The environmental status of bottom sediments in Estonian marine area. In: Geological Survey of Estonia. Yearbook 2022. (48−51). Rakvere: Eesti Geoloogiateenistus. 3.2.
Veski, A., Plado, J., Suuroja, S., Štokalenko, M. (2023). Marine magnetometry fieldwork in the Gulf of Riga. In: Geological Survey of Estonia. Yearbook 2022. (61−62). Rakvere: Eesti Geoloogiateenistus. 3.2.
Soosalu, H. (2023). Kas see oli nüüd maavärin või üks järjekordne lõhkamine? Eesti Geoloogiateenistus. Aastaraamat 2022. (23−27). Rakvere: Eesti Geoloogiateenistus. 3.2.
Tuuling, I., Suuroja, S., Veski, A., Soosalu, H. (2023). Liivi lahe idaossa planeeritava tuulepargi ala geoloogilised uuringud. Eesti Geoloogiateenistus. Aastaraamat 2022. (18−20). Rakvere: Eesti Geoloogiateenistus. 3.2.
Liira, M.; Ausmeel, M.; Suuroja, S.; Veski, A.; Tuuling, I. (2023). Eesti mereala põhjasetete keskkonnaseisundist. Eesti Geoloogiateenistus. Aastaraamat 2022. (46−48). Rakvere: Eesti Geoloogiateenistus. 3.2.
Soosalu, H. (2023). Was it an earthquake or just another mine blast? In: Geological Survey of Estonia, Yearbook 2022. (25−29). Rakvere: Eesti Geoloogiateenistus. 3.2.
Nirgi, Siim (2023). Kriitiliste toormete otsinguks Eesti aluskorrast sündis uuringute teekaart. Eesti Geoloogiateenistus.Aastaraamat 2022. (10−11). Eesti Geoloogiateenistus. 3.2.
Veski, A.; Plado, J.; Suuroja, S.; Štokalenko, M. (2023). Meremagnetomeetrilised välitööd Liivi lahel. Eesti Geoloogiateenistus. Aastaraamat 2022. (57−58). Rakvere: Eesti Geoloogiateenistus. 3.2.
Buynevich, I.V.; Tõnisson, H.; Kont, A.; Suursaar, Ü.; Rosentau, A.; Hang, T.; Suuroja, S.; Davydov, O. (2023). Longshore subsurface anomalies consistent with Mid-Holocene channelized storm erosion: Tihu strandplain, Hiiumaa Island, Estonia. Modern Research in World Science, Proceedings of the 11th International Scientific and Practical Conference: January 29-31, 2023. Lviv, Ukraine: SPC Publishing, 545−550. 3.4.
Hunt, Marlen; Borozdins, Dāvis; Marandi, Andres; Männik, Magdaleena; Demidko, Jekaterina; Valters, Krišjānis; Bikše, Jānis; Popovs, Konrāds; Retiķe, Inga; Hints, Liina (2023). Modeling the water balance of transboundary aquifers for assessing groundwater flow along the Latvia-Estonia national border. EGU General Assembly 2023, Vienna, Austria, 24–28 April 2023. Copernicus GmbH. DOI: 10.5194/egusphere-egu23-7947. 5.1.
Hunt, Marlen; Jõeleht, Argo (2023). Assessing Groundwater-Surface Water Interaction in Nitrate Vulnerability Zone: Insights from the Northeastern Europe. AGU Fall Meeting 2023, San Francisco, USA, 11-15 December 2023. American Geophysical Union. 5.1.
Vind, Johannes; Mänd, Kaarel; Kirsimäe, Kalle (2023). The molybdenum-uranium isotope system at the Cambrian-Ordovician transition in black shales of northern Estonia, Baltic Paleobasin. Goldschmidt2023 abstracts: Goldschmidt2023, Lyon, 9.-14.07. European Association of Geochemistry. DOI: 10.7185/gold2023.17541. 5.1.
Stouge, Svend; Bagnoli, Gabriella; Bauert, Garmen; Bauert, Heikki; Rasmussen, Christian M. O. (2023). The detailed Middle to early Late Ordovician faunal succession and δ13C carbon chemistry of the Kårehamn drill core, offshore eastern Öland, Sweden: implications for stratigraphy and correlation. Estonian Journal of Earth Sciences, 72 (1), 159−159. DOI: 10.3176/earth.2023.38. 5.1.
Retike, Inga; Terasmaa, Jaanus; Koit, Oliver; Bikše, Jānis; Demidko, Jekaterina; Hunt, Marlen; Kukela, Agnese (2023). Voluntary spring monitoring to make invisible groundwater visible. In: EGU General Assembly 2023, Vienna, Austria, 24–28 April 2023. Copernicus GmbH. DOI: 10.5194/egusphere-egu23-6102. 5.2.
Soosalu, H., Greenfield, T., Rawlinson, N., Winder, T., Fone, J., Han, J., White, R.S., Brandsdóttir, B., Steinthórsson, S. (2023). The awakening of central volcano Askja, NE-Iceland. IASPEI/IAVCEI Inter-Association Commission on “Volcano Seismology amp; Acoustics”, annual workshop 2023: IASPEI/IAVCEI Inter-Association Commission on “Volcano Seismology amp; Acoustics”, annual workshop, Ischia, Italy, 1-6 October 2023. Istituto Nazionale di Geofisica e Vulcanologia, Sezione di Napoli. 5.2.
Männik, Magdaleena; Bikše, Jānis (2023). Harmonized groundwater vulnerability and pollution risk assessment in the Estonian-Latvian transboundary area using modified DRASTIC and DRASTIC-L methods. AGU Fall Meeting 2023, San Francisco, USA, 11-15 December 2023. American Geophysical Union. 5.2.
Lepland, Aivo; Szymczycha, Beata; Hong, Wei-Li; Böttcher, Michael E.; Virtasalo, Joonas; Liira, Martin; Mikenberg, Hannah; Karpin, Vladimir; Heinsalu, Atko; Ojap, Johanna Maria; Ausmeel, Markus; Roopõld, Krete; Suuroja, Sten (2023). Seafloor iron-manganese precipitates and pockmarks of the Gulf of Finland: formation controls and possible genetic links. 18−18. 5.2.
Joosu, Lauri (2023). Eesti fosforiidi uuringute ja kasutusvõimaluste hetkeseisust. Kuhu rändab Eesti geoloogia? Aprillikonverents 2023: Aprillikonverents, Tartu, 14.05.2023. Toim. Kairi Põldsaar, Oive Tinn. Eesti Geoloogia Selts, 16−16. 5.2.
Davydov, O.; Buynevich, I.; Tõnisson, H.; Suursaar, Ü.; Suuroja, S.; Pupienis, D. (2023). Investigations of non-tidal coastal barriers using georadar: Imaging longshore heterogeneity. Procesy geologiczne w morzu i strefie brzegowej - książka abstraktów: GEOST IV, Rowy, Poland, 18‒20.09.2023. Ed. Małgorzata Witak. Państwowy Instytut Geologiczny, Gdansk, 26. 5.2.
Koit, Oliver; Pärn, Joonas; Tarros, Siim; Hunt, Marlen; Abreldaal, Pamela (2023). Exploring the hydrological sensitivity of surface water and groundwater resources in the boreal region of Estonia. KARST – APPROACHES AND CONCEPTUAL MODELS, 30: 30th INTERNATIONAL KARSTOLOGICAL SCHOOL “CLASSICAL KARST” 30th ANNIVERSARY. Ed. Švara, Astrid; Zupan Hajna, Nadja; Gabrovšek, Franci. Postojna: Založba ZRC, 130. 5.2.
Piipponen, Kaiu; Soesoo, Alvar; Bauert, Heikki; Arola, Teppo (2023). Modelling Impacts of Groundwater Flow on Borehole Heat Exchangers: Lessons Learned from Estonia. Modelling Impacts of Groundwater Flow on Borehole Heat Exchangers: Lessons Learned from Estonia: EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023. EGU General Assembly 2023, EGU23-12480 . DOI: 10.5194/egusphere-egu23-12480. 5.2.
Soosalu, H. (2023). Estonian input in instrumental seismology. The 54th Nordic Seismology Seminar: The 54th Nordic Seismology Seminar, Herdla, Bergen, Norway, 12-14 June 2023. University of Bergen, 7−8. 5.2.
Pärn, Joonas; Polikarpus, Maile; Latsepov, Leonid; Marandi, Andres; Raidla, Valle; Gibson, John (2023). Using Stable Isotope Mass Balance to Assess the Impact of Future Mining Activities on the Status of Lake Uljaste, Estonia. International Symposium on Isotope Hydrology: Sustainable Water Resources in a Changing World, IAEA Headquarters Vienna, Austria,3–7 July 2023. 5.2.
Marandi, Andres; Hunt, Marlen; Borozdins, Davis (2023). Basin Water Balance modeling with the aim to make transboundary groundwater flow visible. IAH2023: Groundwater: A Matter of Scale.: IAH Worldwide Groundwater Congress, Cape Town, South Africa, 18-22 September 2023. 5.2.
Hunt, Marlen (2023). Lumikatte osakaalu ja lume veemahtuvuse seos, et modelleerida pinnavee-põhjavee vastastikmõju. Kuhu rändab Eesti geoloogia?: Aprillikonverents, Tartu 2023. Toim. Kairi Põldsaar, Oive Tinn. Eesti Geoloogia Selts, 29. 5.2.
Soesoo, Alvar; Bauert Heikki (2023). CRITICAL RESOURCES AND POTENTIAL OF ESTONIAN PRECAMBRIAN AND PALEOZOIC ROCKS. GTK Open File Research Report 55/2023, 55: EU SuperCluster Lapland Geoconference. Ed. Vesa Nykänen, Nick Cook and Juha Kaija. Helsinki: Geological Survey of Finland, 99−103. 5.2.
Auväärt, Aivar (2023). Aluskorra maapõuesoojuse uuringud Eestis. Eesti Geoloog. 6.3.
Koit, Oliver; Pärn, Joonas; Hunt, Marlen; Tarros, Siim; Lode, Elve; Abreldaal, Pamela (2023). Climate-Driven Hydrological Variability in Estonian Catchments: A Northern Temperate Perspective. SSRN Electronic Journal. DOI: 10.2139/ssrn.4671259. 6.6.
Soosalu, H. (2023). Türgi tragöödia on looduslike tingimuste ja inimtegevuse summa. Maaleht, 1845, 23, 16.02.2023. 6.6.
2022
Vallius, H; Alliksaar, T; Suuroja, S (2022). Changes in heavy metal concentrations in the sediments of the Gulf of Finland over two decades. Estonian Journal of Earth Sciences, 71 (4), 177−188. DOI: 10.3176/earth.2022.12. 1.1.
Soosalu, Heidi; Uski, Marja; Komminaho, Kari; Veski, Anu (2022). Recent Intraplate Seismicity in Estonia, East European Platform. Seismological Research Letters, 93 (3), 1800−1811. DOI: 10.1785/0220210277. 1.1.
Jewuła, K.; Środoń, J.; Kuligiewicz, A.; Mikołajczak, M.; Liivamägi, S. (2022). Critical evaluation of geochemical indices of palaeosalinity involving boron. Geochimica et Cosmochimica Acta, 322, 1−23. DOI: 10.1016/j.gca.2022.01.027. 1.1.
Koit, Oliver; Mayaud, Cyril; Kogovšek, Blaž; Vainu, Marko; Terasmaa, Jaanus; Marandi, Andres (2022). Surface water and groundwater hydraulics of lowland karst aquifers of Estonia. Journal of Hydrology, 610, 127908. DOI: 10.1016/j.jhydrol.2022.127908. 1.1.
Tuuling, I; Suuroja, S; Ausmeel, M (2022). The outlines of the bedrock relief and the Quaternary cover between the Estonian mainland and the islands of Muhu and Saaremaa in the West Estonian Archipelago. Estonian Journal of Earth Sciences, 71 (2), 111−126. DOI: 10.3176/earth.2022.08. 1.1.
Alvaro, J. Javier; Holmer, Lars E.; Shen, Yanan; Popov, Leonid E.; Pour, Mansoureh Ghobadi; Zhang, Zhifei; Zhang, Zhiliang; Ahlberg, Per; Bauert, Heikki; Gonzalez-Acebron, Laura (2022). Submarine metalliferous carbonate mounds in the Cambrian of the Baltoscandian Basin induced by vent networks and water column stratification. Scientific Reports, 12 (1), ARTN 8475. DOI: 10.1038/s41598-022-12379-y. 1.1.
Jewuła, K.; Środoń, J.; Kędzior, A.; Paszkowski, M.; Liivamägi, S.; Goryl, M. (2022). Sedimentary, climatic, and provenance controls of mineral and chemical composition of the Ediacaran and Cambrian mudstones from the East European Craton. Precambrian Research, 381, ARTN 106850. DOI: 10.1016/j.precamres.2022.106850. 1.1.
Joosu, Lauri; Kurvits, Karoliina; Kaljuste, Vesta; Polikarpus, Maile; Vind, Johannes; Lumiste, Kaarel; Kaasik, Tiit; Sipp Kulli, Sirli; Jõrgenson, Jaak; Aren, Mariliis; Habicht, Hando-Laur; Kanter, Sander; Strazdin, Aleks; Marandi, Andres; Pärn, Joonas (2022). Fosforiidi perspektiivsete uuringualade määratlemine ja mäenduslik ning hüdrogeoloogiline analüüs. Eesti Geoloogiateenistus. 2.5.
Valters, Krišjānis; Karro, Enn; Bikše, Jānis; Borozdins, Dāvis; Demidko, Jekaterina; Krauze, Aiga; Lode, Elve; Marandi, Andres; Ojamäe, Kristiina; Osjamets, Madis; Pärn, Joonas; Polikarpus, Maile; Retiķe, Inga; Tarros, Siim; Türk, Kersti; Vainu, Marko (2022). Joint report on WP1 “Capacity building through exchange of knowledge and best management practices” activities T1.1-T1.4. Interreg Estonia-Latvia project No. Est-Lat155 “Joint actions for more efficient management of common groundwater resources (WaterAct)”. 1−269. 2.5.
Borozdins, Dāvis; Demidko, Jekaterina; Bikše, Jānis; Babre, Alise; Koit, Oliver; Küttim, Liisa; Ojamäe, Kristiina; Popovs, Konrāds; Strazdiņa, Līga; Tarros, Siim; Vainu, Marko; Valters, Krišjānis (2022). Joint report on WP2 activities AT.2.2 “Assessment of the status of transboundary groundwater bodies according to harmonized principles”, AT.2.3 “Development of transboundary monitoring strategy” and AT.2.4 “Spring monitoring optimization and watershed modeling”. Interreg Estonia-Latvia project No.Est-Lat155 “Joint actions for more efficient management of common groundwater resources (WaterAct)”. 1−173. 2.5.
Kõrgmaa, V.; Pärn, J.; Ruberg, S.; Iital, A. (2022). Taming Nitrate Pollution in Urban Stream. Proceedings of the IAHR 2022 World Congress: 39th IAHR World Congress : From Snow to Sea, 2022, Granada, Spain, June 19 -24 2022. Ed. M. Ortega-Sánchez. International Association for Hydro-Environment Engineering and Research (IAHR), 1145−1152. DOI: 10.3850/IAHR-39WC2521711920221307. 3.1.
Štokalenko, M., Veski, A. (2022). Evaluation of the Kaevatsi Magnetic Anomaly. In: Geological Survey of Estonia. Yearbook 2021. (33−34). Eesti Geoloogiateenistus. 3.2.
Soosalu, H., Veski, A. (2022). Estonian earthquakes reflect the tectonic shift. In: Geological Survey of Estonia, Yearbook 2021. (37−38). Rakvere: Eesti Geoloogiateenistus. 3.2.
Suuroja, S., Veski, A. (2022). Offshore wind turbine farms and the marine geology. In: Geological Survey of Estonia. Yearbook 2021. (31−32). Eesti Geoloogiateenistus. 3.2.
Raidla, V.; Truu, M.; Hunt, M.; Karro, E. (2022). Vasavere groundwater body – the drinking water of Ida-Viru county. In: Geological Survey of Estonia. Yearbook 2021. (44−46). Rakvere: Geological Survey of Estonia. 3.2.
Štokalenko, M.; Veski, A. (2022). Hinnang Kaevatsi magnetanomaaliale. Eesti Geoloogiateenistus. Aastaraamat 2021. (35−36). Eesti Geoloogiateenistus. 3.2.
Nirgi, Siim; Maala, Lennart (2022). Jõhvi magnetanomaalia uuringuprojekt. Eesti Geoloogiateenistus.Aastaraamat 2021. (26−28). Eesti Geoloogiateenistus. 3.2.
Suuroja, S.; Veski, A. (2022). Avamere tuulepargid:meregeoloogiline andmestik meretuuleparkide planeerimiseks. Eesti Geoloogiateenistus. Aastaraamat 2021. (33−34). Eesti Geoloogiateenistus. 3.2.
Soosalu, H., Veski, A. (2022). Eesti maavärinad kajastavad laamade liikumist. Eesti Geoloogiateenistus. Aastaraamat 2021. (37−38). Eesti Geoloogiateenistus. 3.2.
Koit, Oliver; Retike, Inga; Terasmaa, Jaanus; Bikše, Jānis; Lode, Elve; Vainu, Marko; Popovs, Konrāds; Babre, Alise; Abreldaal, Pamela; Sisask, Karin; Tarros, Siim; Marandi, Andres; Hunt, Marlen; Männik, Magdaleena; Polikarpus, Maile (2022). What we can learn about transboundary aquifers from geochemical signatures of springs. What we can learn about transboundary aquifers from geochemical signatures of springs: EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022. Copernicus GmbH. DOI: 10.5194/egusphere-egu22-5008. 5.1.
N Rodes, P Betlem, K Senger, M Römer, A Hodson, M Liira, R Noormets, S Roy, A Smyrak-Sikora, G Bohrmann (2022). From Source Rocks to the Surface: The Fate of Gas Seepage in High Arctic Fjords, Svalbard. 1. European Association of Geoscientists amp; Engineers, 1−5. DOI: 10.3997/2214-4609.202210809. 5.1.
Pärn, J.; Raidla, V.; Truu, M. (2022). Extent of the active water exchange zone in the aquifers of the Viru Sub-basin, NE Estonia. XXXI NORDIC HYDROLOGICAL CONFERENCE 2022, August 15–18, Tallinn, Estonia. 5.2.
Männik, M.; Karro, E.; Marandi, A.; Rosentau, A. (2022). Modification of DRASTIC method according to the geological peculiarities of formerly glaciated areas. In: Hydrology and Water-related Ecosystems. The Nordic Hydrological Conference (NHC2022), August 15–18, Tallinn, Estonia.. 5.2.
Kuligiewicz, A.; Środoń; J.; Liivamägi, S. (2022). Oxygen isotope composition of the Ediacaran weathering crusts from the East European Craton. Book of Abstracts: 10th Jubilee Mid-European Clay Conference, Kliczków Castle, Poland, September 11–15, 2022. Akapit, Krakow, 56. 5.2.
Raidla, V.; Hunt, M.; Karro, E.; Truu, M. (2022). Quality problems of Quaternary Vasavere groundwater body, northeastern Estonia. Hydrology and Water-related Ecosystems. The Nordic Hydrological Conference (NHC2022), August 15–18, Tallinn, Estonia. 5.2.
Pärn, J.; Walraevens, K.; van Camp, M.; Koit, O.; Ivask, J.; Babre, A.; Mažeika, J.; Hunt, M.; Osjamets, M.; Iital, A.; Kõrgmaa, V.; Raidla, V.; Aeschbach, W.; Vaikmäe, R. (2022). Nitrate dynamics and its connection to seasonal groundwater recharge in karst springs of the Sõmeru River catchment, Northern Estonia. XXXI NORDIC HYDROLOGICAL CONFERENCE 2022, August 15–18, Tallinn, Estonia. puudub. 5.2.
Hunt, M.; Marandi, A.; Karro, E.; Jõeleht, A. (2022). Modeling of the water balance in the Selja River basin northern Estonia with the PRMS hydrological model. In: Hydrology and Water-related Ecosystems. The Nordic Hydrological Conference (NHC2022), August 15–18, Tallinn, Estonia. 5.2.
Raidla, V.; Tarros, S.; Hunt, M (2022). Intrusion of saline water into a coastal paleo-groundwater aquifer in Estonia. In: XXXI NORDIC HYDROLOGICAL CONFERENCE 2022, August 15–18, Tallinn, Estonia. 5.2.
Soosalu, H., Uski, M., Komminaho, K., Veski, A. (2022). Geological interpretation of recent Estonian earthquakes. Joint Nordic EPOS and 53rd Nordic Seismology Seminar: Joint Nordic EPOS and 53rd Nordic Seismology Seminar, Helsinki, Finland, 25.–27.10.2022. University of Helsinki, 37. 5.2.
Liivamägi, S., Środoń, J., (2022). Precambrian paleosols of EEC: parent rock control and clay mineral formation. Book of Abstracts: 10th Jubilee Mid-European Clay Conference, Kliczków Castle, Poland, September 11–15, 2022. Akapit, Krakow, 61. 5.2.
Jewuła, K., Środoń, J., Kuligiewicz, A., Mikołajczak, M., Liivamagi, S (2022). Combining mineralogy and chemistry to evaluate palaeosalinity proxies: example from the Ediacaran mudstones of the East European Craton. Book of Abstracts: 10th Jubilee Mid-European Clay Conference, Kliczków Castle, Poland, September 11–15, 2022. Akapit, Krakow, 47. 5.2.
Jewuła, K., Środoń, J., Kędzior, A., Paszkowski, M., Goryl, M., Liivamagi, S., (2022). Impact of provenance, weathering, and sedimentary processes on mineral and chemical composition of the Ediacaran and Cambrian mudstones from East European Craton. Book of Abstracts: 10th Jubilee Mid-European Clay Conference, Kliczków Castle, Poland, September 11–15, 2022. Akapit, Krakow, 46. 5.2.
Soesoo, A.; Bauert, H. (2022). Geothermal Energy Use, Country Update for Estonia. Proceedings of the European Geothermal Congress 2022: European Geothermal Congress 2022 , Berlin, Germany, 17-21 October 2022. EGEC, 1−4. 5.2.
Soosalu, H., Roth, M., Schieschke, M., Voss, P.H., Funck, T., Kortström, J. (2022). Nordic Seismology Hardware Knowledge Sharing. Joint Nordic EPOS and 53rd Nordic Seismology Seminar: Joint Nordic EPOS and 53rd Nordic Seismology Seminar, Helsinki, Finland, 25.–27.10.2022. University of Helsinki, 36. 5.2.
Soosalu, H. (2022). Miks Loode­-Eestis maa väriseb? Eesti Loodus, 7/2022, 12. 6.3.
Andrews, Robin George (2022). Supervulkaanid. Kirjastus Argo. 6.4.
2021
Kuligiewicz, Artur; Środoń, Jan; Liivamägi, Sirle (2021). Oxygen isotopic compositions of end-members in a multicomponent mixture: Ediacaran weathering material from the East European Craton. Geochimica et Cosmochimica Acta, 306, 245−262. DOI: 10.1016/j.gca.2021.04.013. 1.1.
Koit, Oliver; Tarros, Siim; Pärn, Joonas; Küttim, Martin; Abreldaal, Pamela; Sisask, Karin; Vainu, Marko; Terasmaa, Jaanus; Retike, Inga; Polikarpus, Maile (2021). Contribution of local factors to the status of a groundwater dependent terrestrial ecosystem in the transboundary Gauja-Koiva River basin, North-Eastern Europe. Journal of Hydrology, 600, 126656. DOI: 10.1016/j.jhydrol.2021.126656. 1.1.
Vind, J.; Tamm, K. (2021). Review of the extraction of key metallic values from black shales in relation to their geological and mineralogical properties. Minerals Engineering, 174, #107271. DOI: 10.1016/j.mineng.2021.107271. 1.1.
Bojanowski, M. J.; Marciniak-Maliszewska, B.; Środoń, J.; Liivamägi, S. (2021). Extensive non-marine depositional setting evidenced by carbonate minerals in the Ediacaran clastic series of the western East European Craton. Precambrian Research, 365, ARTN 106379. DOI: 10.1016/j.precamres.2021.106379. 1.1.
Leben, Kristjan; Motlep, Riho; Konist, Alar; Pihu, Tonu; Kirsimae, Kalle (2021). Carbon dioxide sequestration in power plant Ca-rich ash waste deposits. Oil Shale, 38 (1), 65−88. DOI: 10.3176/oil.2021.1.04. 1.1.
Paszkowski, M.; Budzyn, B.; Mazur, S.; Sláma, J.; Środoń, J.; Millar, I.L.; Shumlyanskyy, L.; Kędzior, A.; Liivamägi, S. (2021). Detrital zircon U-Pb and Hf constraints on provenance and timing of deposition of the Mesoproterozoic to Cambrian sedimentary cover of the East European Craton, part II: Ukraine. Precambrian Research, 362, ARTN 106282. DOI: 10.1016/j.precamres.2021.106282. 1.1.
Liivamägi, S.; Środoń, J.; Bojanowski, M.J.; Stanek, J.J.; Roberts, N.M.W. (2021). Precambrian paleosols on the Great Unconformity of the East European Craton: An 800 million year record of Baltica's climatic conditions. Precambrian Research, 363, ARTN 106327. DOI: 10.1016/j.precamres.2021.106327. 1.1.
Soesoo, A; Nirgi, S; Urtson, K; Voolma, M (2021). Geochemistry, mineral chemistry and pressure–temperature conditions of the Jõhvi magnetite quartzites and magnetite-rich gneisses, NE Estonia. Estonian Journal of Earth Sciences, 70 (2), 71−93. DOI: 10.3176/earth.2021.05. 1.1.
Vaikmäe, R.; Pärn, J.; Raidla, V.; Ivask, J.; Kaup, E.; Aeschbach, W.; Gerber, C.; Lemieux, J.-M.; Purtchert, R.; Sterckx, A.; Martma, T.;.Vallner, L. (2021). Late Pleistocene and Holocene groundwater flow history in the Baltic Artesian Basin:a synthesis of numerical models and hydrogeochemical data. Estonian Journal of Earth Sciences, 70 (3), 152−164. DOI: 10.3176/earth.2021.11. 1.1.
Paaver, Peeter; Paiste, Paarn; Liira, Martin; Kirsimae, Kalle (2021). Mechanical Activation of the Ca-Rich Circulating Fluidized Bed Combustion Fly Ash: Development of an Alternative Binder System. Minerals, 11 (1), ARTN 3. DOI: 10.3390/min11010003. 1.1.
Tuuling, Igor; Põldsaar, Kairi (2021). The role of the Leba Ridge–Riga–Pskov Fault Zone in the tectonic evolution of the deep-facies Livonian Tongue within the Baltic Ordovician–Silurian sedimentary basin: a review. Estonian Journal of Earth Sciences, 70 (2), 94−106. DOI: 10.3176/earth.2021.07. 1.1.
Ploom, K.; Morgen, E.; Suuroja, K.; Kaljuläte, K.; Shtokalenko, M.; Plado, J. (2021). Eesti geoloogilise baaskaardi Pärnu-Jaagupi (5334), Pärnu (5332), Häädemeeste (5314) ja Ikla (5312) kaardilehtede komplekt. Seletuskiri. Rakvere: Eesti Geoloogiateenistus. 2.5.
Tuuling, I., Suuroja, S., Veski, A. (2021). The strait of Suur väin between the Estonian mainland and the Muhu Island overlies a complex bedrock valley. In: Geological Survey of Estonia. Yearbook 2020. (60−62). Eesti Geoloogiateenistus. 3.2.
Veski, A., Suuroja, S. (2021). Geophysical surveys of fairways. In: Geological Survey of Estonia. Yearbook 2020. (56−57). Eesti Geoloogiateenistus. 3.2.
Marandi, A., Karro, E., Osjamets, M., Polikarpus, M., Hunt, M. (2021). Status of Estonian groundwater bodies in 2014–2019. In: Geological Survey of Estonia. Yearbook 2020. (31−34). Rakvere: Geological Survey of Estonia. 3.2.
Veski, A., Suuroja, S., Liira, M., Tuuling, I. (2021). 2019.-2020. aasta mererannikute seiretööd. Eesti Geoloogiateenistus. Aastaraamat 2020. (53−55). Eesti Geoloogiateenistus. 3.2.
Veski, A., Suuroja, S. (2021). Laevateede geofüüsikalised uuringud. Eesti Geoloogiateenistus. Aastaraamat 2020. (56−57). Eesti Geoloogiateenistus. 3.2.
Tuuling, I., Suuroja, S., Veski, A. (2021). Muhumaad ja Mandri-Eestit lahutav Suur väin lasub komplekssel, keeruka reljeefiga aluspõhja vagumusel. Eesti Geoloogiateenistus. Aastaraamat 2020. (60−62). Eesti Geoloogiateenistus. 3.2.
Veski, A., Suuroja, S., Liira, M., Tuuling, I. (2021). Coastal monitoring in 2019-2020. In: Geological Survey of Estonia. Yearbook 2020. (53−55). Eesti Geoloogiateenistus. 3.2.
Suuroja, K., Veski, A., Štokalenko, M. (2021). Mineral resources, geophysical anomalies, and Kärdla Crater in Hiiumaa. In: Geological Survey of Estonia. Yearbook 2020. (22−25). Eesti Geoloogiateenistus. 3.2.
Ausmeel, Markus; Liira, Martin (2021). Fosfor Läänemere põhjasetetes ja selle mõju keskkonnaseisundile. Oive Tinn, Kairi Põldsaar, Sigrid Soomer (Toim.). Vaatame edasi! XVII Geoloogia sügiskool. (44−46). XVII Geoloogia sügiskool, Tartu, 2021. Tartu: Eesti Looduseuurijate Selts Tartu Ülikooli ökoloogia- ja maateaduste doktorikool Tartu Ülikooli Geoloogia osakond Tallinna Tehnikaülikooli Geoloogia instituut. 5.2.
Soosalu, H. (2021). Future plans for the Estonian seismic network. Nordic Seismology Meeting 2021, on-line, 18-20 October 2021. Icelandic Meteorological Office. 5.2.
Tamm, K. (2021). Beneficiation studies of Estonian phosphate rock. CRU Phosphates 2021 Virtual Conference amp; Exhibition: CRU Phosphates 2021, Virtual, 23-25 March 2021. CRU. 5.2.
Marandi, Andres; Terasmaa, Jaanus (2021). Igaühest võib saada allikauurija! 6.3.
2020
Vallner,L.Ivask,J.Marandi,Vaikmäe,R.Raidla,V.Raukas,A. (2020). Transient 3D simulation of 18O concentration by codes MODFLOW-2005 and MT3DMS in a regional-scale aquifer system: an example from Estonian Artesian Basin. Estonian Journal of Earth Sciences, 69 (3), 154−174. DOI: 10.3176/earth.2020.11. 1.1.
Koit, O.; Barberá, J. A.; Marandi, A.; Terasmaa, J.; Kiivit, I.-K.; Martma, T. (2020). Spatiotemporal assessment of humic substance-rich stream and shallow karst aquifer interactions in a boreal catchment of northern Estonia. Journal of Hydrology, 580, 124238. DOI: 10.1016/j.jhydrol.2019.124238. 1.1.
Nirgi, Triine; Rosentau, Alar; Habicht, Hando-Laur; Hang, Tiit; Jonuks, Tonno; Joeleht, Argo; Kihno, Kersti; Kriiska, Aivar; Mustasaar, Mario; Risberg, Jan; Suuroja, Sten; Talviste, Peeter; Tonisson, Hannes (2020). Holocene relative shore-level changes and Stone Age palaeogeography of the Parnu Bay area, eastern Baltic Sea. The Holocene, 30 (1), 37−52. DOI: 10.1177/0959683619865603. 1.1.
Kivisaar, M.; Menert, A. (2020). RITA MAARE: quot;Bioleostumise kasutusvõimalused metallide eraldamiseks Eesti graptoliitargilliidistquot;. EGF: 9406. 2.5.
Vind, Johannes; Bauert, Heikki (2020). Geochemical Characterisation of the Tremadocian Black Shale in North-Western Estonia. 2.5.
Soesoo, Alvar; Plado, Jüri; Nirgi, Siim (2020). Kirde-Eesti magnetanomaalia metallide geneesi põhijooned. Tartu. 2.5.
Veski, A., Suuroja, S., Suuroja K. (2020). Geological mapping of the strait of Suur väin and the surrounding area. In: Geological Survey of Estonia. Yearbook 2019. (50−52). Eesti Geoloogiateenistus. 3.2.
Veski, A., Suuroja, S., Suuroja, K. (2020). Merepõhja uuringud seoses võimaliku Tallinna–Helsinki tunneli kavandamisega. Eesti Geoloogiateenistus. Aastaraamat 2019. (54−55). Eesti Geoloogiateenistus. 3.2.
Suuroja, K., Veski, A. (2020). Digital medium-scale (1:200 000) bedrock geology map of Estonia. In: Geological Survey of Estonia. Yearbook 2019. (4−6). Eesti Geoloogiateenistus. 3.2.
Suuroja, K., Veski, A. (2020). Eesti aluspõhja geoloogiline keskmisemõõtkavaline (1:200 000) digitaalne kaart. Eesti Geoloogiateenistus. Aastaraamat 2019. (4−6). Eesti Geoloogiateenistus. 3.2.
Vind, Johannes (2020). Vanad graptoliitargilliidi (musta kilda) puursüdamikud — kas piisav materjal uute uuringute tarbeks? 22−23. 3.2.
Veski, A., Suuroja, S. (2020). Preparation of a marine geology dataset and thematic maps. In: Geological Survey of Estonia. Yearbook 2019. (58−58). Eesti Geoloogiateenistus. 3.2.
Veski, A., Suuroja, S. (2020). Meregeoloogilise andmevõrgustiku ja teemakaartide koostamine. Eesti Geoloogiateenistus. Aastaraamat 2019. (56−56). Eesti Geoloogiateenistus. 3.2.
Veski, A., Suuroja, S., Suuroja, K. (2020). Seabed surveys in connection with a possible tunnel route between Tallinn and Helsinki. In: Geological Survey of Estonia. Yearbook 2019. (56−57). Eesti Geoloogiateenistus. 3.2.
Veski, A., Suuroja, S., Suuroja, K. (2020). Survey of seabed surface sediments at the intake of the planned pumped-storage power plant in Paldiski Bay. In: Geological Survey of Estonia. Yearbook 2019. (59−60). Eesti Geoloogiateenistus. 3.2.
Tamm, K. (2020). Is Estonian phosphate rock easy to enrich? In: Geological survey of Estonia yearbook 2019. (29−31). Rakvere: Eesti Geoloogiateenistus. 3.2.
Veski, A., Suuroja, S., Suuroja, K. (2020). Merepõhja pindmiste setete uuring Paldiski lahe pumphüdroakumulatsioonijaama veevõtutoru jaoks. Eesti Geoloogiateenistus. Aastaraamat 2019. (57−58). Eesti Geoloogiateenistus. 3.2.
Veski, A., Suuroja, S., Suuroja, K. (2020). Suure väina ja seda ümbritseva maismaa geoloogilisest kaardistamisest. Eesti Geoloogiateenistus. Aastaraamat 2019. (46−49). Eesti Geoloogiateenistus. 3.2.
Nirgi, Siim; Kaasik, Tiit (2020). Eesti Geoloogiateenistus uurib üle aastakümnete taas kristalset aluskorda. Eesti Geoloogiateenistus.Aastaraamat 2019. (19−21). Rakvere: Eesti Geoloogiateenistus. 3.2.
Tamm, K. (2020). Kas Eesti fosforiiti on lihtne rikastada? Eesti geoloogiateenistus. Aastaraamat 2019. (28−29). Rakvere: Eesti Geoloogiateenistus. 3.2.
Decrée, S.; Batista, M.J.; De Oliveira, D.; Al-Bassam, K.; Coint, N.; Bauert, H. (2020). Assessment of Critical raw Materials Content in Phosphate: an Objective of the Frame Project. Mineral Exploration Symposium, Virtual Event , 17-18 September 2020. EAGE. DOI: 10.3997/2214-4609.202089005. 3.4.
Koit, Oliver; Tarros, Siim; Pärn, Joonas; Polikarpus, Maile; Abreldaal, Pamela; Sisask, Karin; Küttim, Martin; Vainu, Marko; Terasmaa, Jaanus; Tõnisson, Hannes; Raidla, Valle (2020). DEVELOPING A HYDROGEOLOGICAL CONCEPTUAL MODEL FOR A SPRING FEN IN THE TRANSBOUNDARY GAUJA-KOIVA RIVER BASIN, SE ESTONIA. 78th International scientific conference of the University of Latvia Special session “Hydrogeology and groundwater dependent ecosystems”. Riga, Latvia: University of Latvia. 5.2.
Buynevich, I.V., Tõnisson, H., Tamura, T., Döring, S.F.S., Rosentau, A., Kont, A., Hang, T., Suuroja, S., Palginõmm, V., Vilumaa, K. (2020). Contrasting magnetic susceptibility trends in Holocene coastal strandplains of Saaremaa and Hiiumaa Islands, Estonia. GSA Southeastern and Northeastern Sections Abstracts with Programs: GSA Joint 69/55th Annual Meeting of the Southeastern Section/Northeastern Section, 20-22 March 2020, Reston, Virginia. The Geological Society of America (GSA). (52; 2). 5.2.
2019
Raidla, V.; Pärn, J.; Aeschbach, W.; Czuppon, G.; Ivask, J.; Kiisk, M.; Mokrik, R.; Samalaviˇcius, V.; Suursoo, S.; Tarros, S.; Weissbach, T. (2019). Intrusion of Saline Water into a Coastal Aquifer Containing Palaeogroundwater in the Viimsi Peninsula in Estonia. Geosciences, 9 (1), #47. DOI: 10.3390/geosciences9010047. 1.1.
Martins, J. E.; Ruigrok, E.; Draganov, D.; Hooper, A.; Hanssen, R. F.; White, R. S.; Soosalu, H. (2019). Imaging Torfajökull's Magmatic Plumbing System With Seismic Interferometry and Phase Velocity Surface Wave Tomography. Journal of Geophysical Research Solid Earth, 124, 2920−2940. DOI: 10.1029/2018JB016002. 1.1.
Popov, Leonid E.; Álvaro, J. Javier; Holmer, Lars E.; Bauert, Heikki; Pour, Mansoureh Ghobadi; Dronov, Andrei, V; Lehnert, Oliver; Hints, Olle; Mannik, Peep; Zhang, Zhifei; Zhang, Zhiliang (2019). Glendonite occurrences in the Tremadocian of Baltica: first Early Palaeozoic evidence of massive ikaite precipitation at temperate latitudes. Scientific Reports, 9, 7205. DOI: 10.1038/s41598-019-43707-4. 1.1.
Raidla, V.; Kaup, E.; Hade, S.; Ivask, J.; Soesoo, A. (2019). Geochemical Processes Controlling Ionic Composition of Water in the Catchments of Lakes Saana and Saanalampi in the Kilpisjärvi Area of North Scandinavia. Geosciences, 9 (4), #174. DOI: 10.3390/geosciences9040174. 1.1.
Pärn⁠⁠, ⁠J.; Walraevens⁠, K.; van Camp⁠, M.; Raidla⁠, ⁠V.; Aeschbach⁠, W.; Friedrich⁠, R.; Ivask⁠, J.; Kaup⁠, E.; Martma⁠, T.; Mažeika⁠, J.; Mokrik⁠, R.; Weissbach⁠, T.; Vaikmäe, R. (2019). Dating of glacial palaeogroundwater in the Ordovician-Cambrian aquifer system, northern Baltic Artesian Basin. Applied Geochemistry, 102, 64−76. DOI: 10.1016/j.apgeochem.2019.01.004. 1.1.
Tamm, K. (2019). Valorisation Technologies for Estonian Phosphate Rock – A Report on the Current Situation. In: . 2.5.
Tamm, K. (2019). Fosforiidi väärindamisvõimaluste uuringud. Põldvere, A. (Toim.). Eesti geoloogiateenistus. Aastaraamat 2018. (30−33). Rakvere: Eesti geoloogiateenistus 2019. 3.2.
Soosalu, H. E. (2019). Seismic traces of human activities and Earth tremors in 2018. In: Soosalu, H. E. (Ed.). Geological Survey of Estonia, Yearbook 2018. (44−47). Rakvere: Eesti Geoloogiateenistus. 3.2.
Soosalu, H. E. (2019). Inimtegevuse ja maapõuevärinate seismilised jäljed 2018. aastal. Põldvere, A. (Toim.). Eesti Geoloogiateenistus. Aastaraamat 2018. (44−47). Rakvere: Eesti Geoloogiateenistus. 3.2.
Nirgi, Siim; Petersell, Valter (2019). Metallogenees kristalse aluskorra kivimites. Anne Põldvere (Toim.). Eesti Geoloogiateenistus.Aastaraamat 2018. (28−29). Rakvere: Eesti Geoloogiateenistus. 3.2.
Suuroja, S., Veski, A. (2019). Geological mapping of Hiiumaa at the scale of 1:50 000. In: Geological Survey of Estonia. Yearbook 2018. (8−11). Eesti Geoloogiateenistus. 3.2.
Suuroja, K., Veski, A. (2019). Hiiumaa geoloogiline kaardistamine mõõtkavas 1:50 000. Eesti Geoloogiateenistus. Aastaraamat 2018. (8−11). Eesti Geoloogiateenistus. 3.2.
Raidla, V.; Vaikmäe, R.; Martma, T.; Ivask, J.; Kaup, E; Walraevens, K.; van Camp, M.; Aeschbach, A. (2019). Hydrochemical patterns established in the Pleistocene preserved in the Ordovician-Cambrian aquifer system, northern Baltic Artesian Basin. International Symposium on Isotope Hydrology: Advancing the Understanding of Water Cycle Processes CN-271: 20–24 May 2019, Vienna, Austria.. International Atomic Energy Agency (IAEA). 5.2.
Tõnisson, H., Suuroja, S and Veski, A. (2019). Estonian national coastal monitoring programme – a good tool to follow climate change impacts and human impacts on the coasts. Geophysical Research Abstracts, 21: EGU General Assembly 2019, 7-12 April, Vienna. copernicus.org. 5.2.
Tamm, K. (2019). Nüüdisaegsed võimalused fosforiidi töötlemiseks. VIRUMAA MAAPÕUEPÄEV 2019, Rakvere, 24.10.2019. Eesti Geoloogiateenitus. 5.2.
Rosentau, A., Nirgi, T., Hang, T., Jonuks, T., Jõeleht, A., Kriiska, A., Risberg, J., Suuroja, S., Tõnisson, H. (2019). Holocene relative shore level changes in the Gulf of Riga – new data from the Pärnu Bay area. Field Symposium of the INQUA PeriBaltic Working Group quot;From Weichselian ice-sheet dynamics to holocene land use development in Western Pomerania and Mecklenburgquot;: abstract volume: International Field Symposium of the INQUA PeriBaltic Working Group, Greifswald 2019. Ed. Börner, A., Hüneke, H., Lorenz, S. Potsdam: GFZ German Research Centre for Geosciences, 89−90. (Scientific Technical Report ; 19/01). 5.2.
Nirgi, Siim; Soesoo, Alvar (2019). Precambrian iron-sulphide mineralization of NE Estonia. Geophysical Research Abstracts, Vol. 21: EGU, Vienna, 7-12 April 2019. Geophysical Research Abstracts: EGU General Assembly. (EGU2019-12651). 5.2.
Soosalu, H. (2019). 9 aastat tuhapilvest: Eyjafjallajökull muutis teadlikkust tulemägede ohtudest. ERR Novaator, 15.04.2019. 6.6.
2018
Suuroja, M.; Petersell, V.; Meidla, T. (2018). The comparison of Cd, Cu, Fe, Mg, Mn, P, Pb, Zn concentrations in ash of the roots of some herbaceous plant species (Filipendula ulmaria, Carex species, Urtica dioica). Baltica, 31 (2), 125−133. DOI: 10.5200/baltica.2018.31.12. 1.1.
Pärn, J.; Affolter, S.; Ivask, J.; Johnson, S.; Kirsimäe, K.; Leuenberger, M.; Martma, T.; Raidla, V.; Schloemer, S.; Sepp, H.; Vaikmäe, R.; Walraevens, K. (2018). Redox zonation and organic matter oxidation in palaeogroundwater of glacial origin from the Baltic Artesian Basin. Chemical Geology, 488, 149−161. DOI: 10.1016/j.chemgeo.2018.04.027. 1.1.
Vind, Johannes (2018). Review of the Exploration Potential of the Estonian Black Shale (Graptolitic Argillite) Deposit. EGF: 8995. 2.5.
Martins, J.E., Ruigrok, E., Draganov, D., Hooper, A., Hanssen, R., White, R.S., Soosalu, H. (2018). Seismic tomography of the Torfajökull volcano, south Iceland. IASPEI/IAVCEI Inter-Association Commission on “Volcano Seismology amp; Acoustics”, annual workshop 2018: IASPEI/IAVCEI Inter-Association Commission on “Volcano Seismology amp; Acoustics”, annual workshop, La Réunion, France, 29 September - 4 October 2018. Volcanological Observatory of Piton de la Fournaise (OVPF), La Réunion, France. 5.2.
Suuroja, Sten; Suuroja, Kalle; Tarros, Siim, Veski, Anu (2018). lt;pgt;Geological and geotechnical conditions of Cambrian-Ediacaran terrigenous rocks in the Estonian side of Helsinki–Tallinn tunnel routelt;/pgt;. Abstracts: International Scientific Forum quot;Gulf of Finlandquot; – natural dynamics and anthropogenic impactquot;, devoted to 50th anniversary of Trilateral Gulf of Finland Co-operation. 17–18 October 2018, St, Peterburg, Russia. St. Petersburg: VSEGEI, 81. 5.2.
Tamm, K.; Kuusik, R.; Veiderma, M.; Tõnsuaadu, K. (2018). Consumption of Estonian phosphorite. 3rd European Sustainable Phosphorus Conference, Finland, Helsinki, 11-13 June. European Sustainable Phosphorus Platform. 5.2.
Tamm, K.; Piir, I.; Kuusik, R.; Tõnsuaadu, K. (2018). BENEFICIATION OF ESTONIAN PHOSPHATE ORE BY FLOTATION. Beneficiation of Phosphates VIII, Cape Town, South Africa, April 29 – May 4, 2018. Engineering Conferences International (ECI) . 5.2.
Soosalu, H. (2018). Seismoloog Heidi Soosalu: Eesti vajaks maavärinate tuvastamise võrku kasvõi riigikaitseks. Postimees, 25.06.2018. 6.6.

Last updated: 12.03.2025

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