(vėliausiai pasirodęs, atsigula vėliausiai /Last published on top)



  •  Balakauskas L., Vaikutienė G., Paškevičiūtė M., Valskys V., Spiridonov A.2021. The effects of spatial heterogeneity on the estimation of diatom assemblage composition, an example of the Imbradas lake (NE Lithuania). Baltica, 34(1): 123–134. https://baltica.gamtc.lt/…/202134-110_balakauskas_et_al…
  • Balčiūnaitė, I., Ignatjev, I., Kaminskas, D., Niaura, G., & Norkus, E. 2021. Characterization of natural silicate garnets by means of
  • non-destructive testing methods. Chemija, 32(3-4): 107–126. https://www.lmaleidykla.lt/…/che…/article/view/4549/3740
  • Cichon-Pupienis, A., Littke, R., Lazauskienė, J., Baniasad, A., Pupienis, D., Radzevičius, S., Šliauskas, L. 2021. Geochemical and sedimentary facies study – Implication for driving mechanisms of organic matter enrichment in the lower Silurian fine-grained mudstones in the Baltic Basin (W Lithuania). International Journal of Coal Geology, 244: 103815. https://www.sciencedirect.com/…/pii/S0166516221001427
  • Dankina, D., Spiridonov, A., Raczyński, P., and Radzevičius, S. 2021. Late Permian ichthyofauna from the North-Sudetic Basin, SW Poland. Acta Palaeontologica Polonica 66 (Supplement to 3): S47–S57. https://www.app.pan.pl/…/published/app66/app008392020.pdf
  • Dankina, D., Spiridonov, A., Stinkulis, Ģ., Manzanares, E., & Radzevičius, S. 2021. A late Permian ichthyofauna from the Zechstein Basin, Lithuanian–Latvian Region. Journal of Iberian Geology, 47(3), 461-481. https://link.springer.com/article/10.1007/s41513-020-00135-y
  •  Mouttaki, I., Khomalli, Y., Maanan, M., Bagdanavičiūtė, I., Rhinane, H., Kuriqi, A., Bao Pham, Q. B., Maanan, M. 2021. A new approach to mapping cultural ecosystem services. Environments, 8.6: 56. https://www.mdpi.com/2076-3298/8/6/56/htm
  • Skuodis, Š., Michelevičius, D., Damušytė, A., Valivonis, J., Medzvieckas, J., Šneideris, A., Jokubaitis, A., Mykolas. A. Daugevičius, M. 2021. The engineering geological and geotechnical conditions of Gediminas Hill (Vilnius, Lithuania): an update. Geological Quarterly, 65(3), 42. https://gq.pgi.gov.pl/article/view/32984
  •  Spiridonov, A., Vaikutienė, G., Stankevič, R., Druzhinina O, Šeirienė V, Subetto D, Kublitsky J, Stančikaitė M. 2021. Response of freshwater diatoms to cold events in the latest Pleistocene and early Holocene (SE Baltic Region). Quaternary International, 589: 112-123. https://www.sciencedirect.com/…/pii/S1040618221000768
  • van Bakel, B. W.M., Mychko, E. V., Spiridonov, A, Jagt, J. W.M. Fraaije R. H.B. 2021. New Cretaceous crabs (Crustacea, Brachyura) from Russia (Moscow Oblast and Dagestan): patterns in phylogeny and morphospace of early crabs, and re-consideration of the oldest true crabs (Eubrachyura, Dorippoidea). Cretaceous Research, 19: 104675. https://www.sciencedirect.com/…/pii/S0195667120303621
  • Damušytė A., Stančikaitė M., Girininkas A., Rimkus T., Daugnora L., Skuratovič Ž., Uogintas D., Valūnas D., Vaikutienė G., Žulkus V.
  • 2021. New insight into the palaeoenvironmental dynamics as a background of the human history in the Nemunas River delta region, W Lithuania, throughout the Lateglacial and Early Holocene. Baltica 34 (2). 216-245.
  • Bitinas A., Lazauskienė J., Pisarska-Jamroży M. 2021. Soft-Sediment Deformation Structures in the Eastern Baltic Region: Implication in Seismicity and Glacially-Triggered Faulting. In: Glacially-Triggered Faulting, eds.: Holger Steffen; Odleiv Olesen; Raimo Sutinen. Cambridge University Press. 320-337 pp.
  • Skridlaite, G., Siliauskas, L., Whitehouse, M.J., Johansson, Å. and Rimsa, A., 2021. On the origin and evolution of the 1.86–1.76 Ga Mid-Baltic Belt in the western East European Craton. Precambrian Research, 367, p.106403. https://doi.org/10.1016/j.precamres.2021.10640


  • Ainsaar, L., Tinn, O., Dronov, V. A., Kiipli, E., Radzevičius, S., Meidla, T. 2020. Stratigraphy and facies differences of the Middle Darriwilian Isotopic Carbon Excursion (MDICE) in Baltoscandia. Estonian Journal of Earth Sciences, 69(4): 214–222.
  • Baltrūnas, V., Karmaza, B., Katinas, V., Pukelytė, V., Karmazienė, D., Lozovskis, S. 2020. Till macro- and microfabrics of mega-scale glacial lineations of Mūša–Nemunėlis Lowland, north Lithuania. Baltica, 33(1): 85–96.
  • Benkhattab, F. Z., Hakkou, M., Bagdanavičiūtė, I., El Mrini, A., Zagaoui, H., Rhinane, H., & Maanan, M. 2020. Spatial–temporal analysis of the shoreline change rate using automatic computation and geospatial tools along the Tetouan coast in Morocco. Natural Hazards, 104: 519–536.
  • Cichon-Pupienis, A., Littke, R., Froidl, F., Lazauskienė, J. 2020. Depositional history, source rock quality and thermal maturity of Upper Ordovician – Lower Silurian organic-rich sedimentary rocks in the central part of the Baltic Basin (Lithuania). Marine and Petroleum Geology, 112: 104083.
  • Daumantas, L., Balakauskas, L., Spiridonov, A. 2020. Machine learning reveals the role of the landscape in the dynamics of human settlement rules between the Palaeolithic and Iron Ages in Lithuania. Quaternary International, 565: 109–124.
  • Druzhinina O., Kublitskiy Y., Stančikaitė M., Nazarova L., Syrykh L., Gedminienė L., Uogintas D., Skipitytė R., Arslanov K., Vaikutienė G., Kulkova M., Subetto D. 2020. The Late Pleistocene-Early Holocene palaeoenvironmental evolution in the SE baltic region: a new approach based on chironomid, geochemical and isotopic data from Kamyshovoe Lake, Russia. Boreas, 49: 544-561.
  • Moskalewicz, D., Szczuciński, W., Mroczek, P., & Vaikutienė, G. 2020. Sedimentary record of historical extreme storm surges during in the Gulf of Gdańsk, Baltic Sea. Marine Geology, 420: 106084.
  • Motuza, G., Šliaupa S. 2020. Palaeogene plutonic magmatism in Central Afghanistan, and its relation to the India-Eurasia collision. Baltica, 33(2), 128–145.
  • Radzevičius, S., Raczyński, P., Whittingham, M. 2020. Lower Homerian (Silurian) Pristiograptus from the Zdanów section, Bardo Mountains (Sudetes, Poland) and their palaeobiogeographical implications. Bulletin of Geosciences, 95(2): 231–242.
  • Spiridonov, A.Samsonė, JBrazauskas, A.Stankevič, R., Meidla, T., Ainsaar, L., Radzevičius S. 2020. Quantifying the community turnover of the uppermost Wenlock and Ludlow (Silurian) conodonts in the Baltic Basin. Palaeogeography, Palaeoclimatology, Palaeoecology, Volume 549, 109128 https://www.sciencedirect.com/science/article/pii/S0031018218301755
  • Spiridonov, A., Stankevič, R., Gečas, T., Brazauskas, A., Kaminskas, D., Musteikis, P., Kaveckas, T., Meidla, T., Bičkauskas, G., Ainsaar, L., Radzevičius, S. 2020. Ultra-high resolution multivariate record and multiscale causal analysis of Pridoli (late Silurian): Implications for global stratigraphy, turnover events, and climate-biota interactions. Gondwana Research, 86: 222–249.
  • Šliaupa, S., Lozovskis, S., Lazauskienė, J., Šiaupienė, R. 2020. Petrophysical and mechanical properties of the lower Silurian perspective oil/gas shales of Lithuania. Journal of Natural Gas Science and Engineering, 79: 103336.
  • Šliaupa S., Lazauskienė J., Lozovskis S., Šliaupienė R. 2020. Distribution of organic matter and evaluation of brittleness index of the Lower Silurian shales of west Lithuania based on interpretation of well logs. Baltica, 33(2), 146–165
  • Whittingham M.Radzevičius SSpiridonov A. 2020. Moving towards a better understanding of iterative evolution: an example from the late Silurian Monograptidae (Graptolithina) of the Baltic Basin. Palaeontology, Vol. 63 (4), pp. 629–649 https://onlinelibrary.wiley.com/doi/full/10.1111/pala.12477
  • Spiridonov, A. , Stankevič, R.Gečas, T., Brazauskas, A., Kaminskas, D., Musteikis, P., Kaveckas, T., Meidla, T., Bičkauskas, G., Ainsaar, L., Radzevičius, S.. 2020. Ultra-high resolution multivariate record and multiscale causal analysis of Pridoli (late Silurian): implications for global stratigraphy, turnover events, and climate-biota interactions. Gondwana Research,Volume 86, 222-249  https://www.sciencedirect.com/science/article/pii/S1342937X20301805


  • Indriulionis, A., Šinkūnas, P., Mokrik, R. 2019. Estimation of the vertical borehole thermal parameters based on the evolution algorithm using temperature response functions. Estonian Journal of Earth Sciences, 68(1): 15‒25.
  • Kaminskas, D., Rudnickaitė, E., Vaikutienė, G., Bitinas, B., Grigienė, A., Buynevich, V. I., Damušytė, A., Pupienis, D., Šinkūnas, P. 2019. Middle and Late Holocene paleoenvironmental developement of the Curonian Lagoon, Lithuania. Quaternary International, 501: 240‒249.
  • Kozłowska, A., Bates D. E. B., Zalasiewicz, J., Radzevičius, S. 2019. Evolutionary significance of the retiolitine Gothograptus (Graptolithina) with four new species from the Silurian of the East European Platform (Baltica), Poland and Lithuania. Zootaxa, 4568: 435-469.
  • Radzevičius, S., Raczyński, P., Užomeckas, M., Norkus, A., Spiridonov, A. 2019. Graptolite turnover and δ13Corg excursion in the upper Wenlock shales (Silurian) of the Holy Cross Mountains (Poland). Geologica Carpathica, 70(3): 209–221.
  • Šeirienė, V., Šinkūnas, P., Stančikaitėa, M., Kisielienėa, D., Gedminienėa, L. 2019. Late Middle Pleistocene interglacial sediments from Buivydžiai site, eastern Lithuania: A problem of chronostratigraphic correlation. Quaternary International, 534: 18–29.
  • Spiridonov, A., Balakauskas, L., Stankevič, R., Kluczynska, G., Gedminienė, L., Stančikaitė, M. 2019. Holocene vegetation patterns in southern Lithuania indicate astronomical forcing on the millennial and centennial time scales. Scientific Reports, 9, 14711.
  • Stach, P., Martinkutė, G., Šinkūnas, P., Natkaniec-Nowak, L., Drzewicz, P., Naglik, B., Bogdasarov, M. 2019. An attempt to correlate the physical properties of fossil and subfossil resins with their age and geographic location. Journal of Polymer Engineering, 39(8): 716–728.
  • 2018
  • Andronikov V. A., Andronikova E. A., Subetto and. I. D., Rudnickaitė E. 2018. Geochemical records of paleocontamination in late pleistocene lake sediments in West Flanders (Belgium). Geografiska Annaler: Series A, Physical Geography, 100(2): 202 – 220.
  • Bagdanavičiūtė I., Umgiesser G., Vaičiūtė D., Bresciani M., Kozlov I., Zaikod A. 2018. GIS-based multi-criteria site selection for zebra mussel cultivation: Addressing end-of-pipe remediation of a eutrophic coastal lagoon ecosystem. Science of the Total Environment, 634: 990–1003.
  • Bitinas, A., Dobrotin, N., Buynevich, I. V., Molodkov, A., Damušytė, A., & Pupienis, D. 2018. Coastal dune dynamics along the northern Curonian Spit, Lithuania: toward an integrated database. Geological Quarterly, 62(3), 553–562.
  • Hints L., Harper T. A. D. Paškevičius J. 2018. Diversity and biostratigraphic utility of Ordovician brachiopods in the East Baltic. Estonian Journal of Earth Sciences, 67(3): 176–191
  • Indriulionis, A. Palaitis, Ž., Šinkūnas, P., Mokrik, R. 2018. Numerical modelling of vertical borehole heat exchangers performance under Lithuanian quaternary conditions. Baltica, 31(2): 146–153.
  • Kelpšaitė-Rimkienė L., Soomere T., Bagdanavičiūtė I., Nesteckitė L., Žalys M. 2018. Measurements of Long Waves in Port of Klaipėda, Lithuania. Journal of Coastal Research, 85: 761–765.
  • Taraškevičius R., Zinkutė R., Gedminienė L., Stankūnavičius Ž. 2018. Hair geochemical composition of children from Vilnius kindergartens as an indicator of environmental conditions. Environ Geochem Health, 40:1817–1840.
  • Spiridonov A. 2018. Prum’s Aesthetic Theory of Evolution: Beauty Happens and it can Change a Great Many Things. Biosemiotics, 11(3), 455–462
  • Venckutė-Aleksienė, A., Spiridonov, A., Garbaras, A. and Radzevičius, S., 2018. Integrated foraminifera and δ 13 C stratigraphy across the Cenomanian–Turonian event interval in the eastern Baltic (Lithuania). Swiss Journal of Geosciences111(1-2), pp.341-352. https://link.springer.com/article/10.1007/s00015-017-0296-x


  • Vaikutienė G., Skipitytė R., Mažeika J., Martma T., Garbaras A., Barisevičiūtė R., Remeikis V. 2017. Environmental changes induced by human activities in the Northern Curonian Lagoon (Eastern Baltic): diatoms and stable isotope data. Estonian Journal of Earth Sciences, 66(2): 93–108.
  • Buynevich I.V., Savarese M., Curran H.A., Bitinas A., Glumac B., Pupienis D., Kopcznski K.A., Dobrotin N., Gnivecki P.L., Park Boush L.E., Damušytė A. 2017. Sand incursion into temperate (Lithuania) and tropical (the Bahamas) maritime vegetation: georadar visualization of target-rich aeolian lithosomes. Estuarine, Coastal, and Shelf Science. http://dx.doi.org/10.1016/j.ecss.2017.02.011.
  • Motuza G., Šliaupa S. 2017. Supracrustal suite of the Precambrian crystalline crust in the Ghor Province of Central Afghanistan. Geoscience Frontiers, 8(1): 125–135.
  • Gerok, D., Kaminskas, D., Gibbard, Ph. 2017. Seismic velocity anomalies in the infilling of tunnel valleys: influence on the interpretation of seismic data. An example from western Lithuania. GFF, 139(4): 276–288.
  • Motuza G., Šliaupa S. 2017. Paleogene volcanism in Central Afghanistan: Possible far-field effect of the India-Eurasia collision. Journal of Asian Earth Sciences, 147: 502–515
  • Zinkutė R., Taraškevičius R., Jankauskaitė M., Stankevičius Ž. 2017. Methodological alternatives for calculation of enrichment factors used for assessment of topsoil contamination. Journal of Soils and Sediments, 17(2): 440–452.
  • Spiridonov A., Venckutė-Aleksienė A., Radzevičius S. 2017. Cyst size trends in the genus Leiosphaeridia across the Mulde (Lower Silurian) biogeochemical event. Bulletin of Geosciences,92(3), 391 – 404 http://www.geology.cz/bulletin/fulltext/1679_Spiridonov_170930.pdf
  • Dankina D, Chahud A, Radzevičius S and Spiridonov A. 2017. The first microfossil record of ichthyofauna from the Naujoji Akmenė Formation (Lopingian), the Karpėnai quarry, northern Lithuania. Geological Quarterly, 61 (3): 602-610  https://gq.pgi.gov.pl/article/view/25629/pdf
  • Radzevičius S., Tumakovaitė B ,  Spiridonov A. 2017. Upper Homerian (Silurian) high-resolution correlation using cyclostratigraphy: an example from Western Lithuania. Acta Geologica Polonica, 67(2), 307–322.
  • Radzevičius S, Spiridonov A., Brazauskas A, Dankina D, Rimkus A, Bičkauskas G, Kaminskas D, Meidla T, Ainsaar L. 2016. Integrated stratigraphy, conodont turnover and paleoenvironments of the Upper Wenlock and Ludlow of the Vilkaviškis-134 core (Lithuania). Newsletters on Stratigraphy, 49(2): 321-336 pp. http://www.ingentaconnect.com/content/schweiz/nis/2016/00000049/00000002/art00002
  • Pupienis D., Buynevich I., Ryabchuk D., Jarmalavičius D., Žilinskas G., Fedorovič J., Kovaleva O., Sergeev A., Cichoń-Pupienis A. 2017. Spatial patterns in heavy-mineral concentrations along the Curonian Spit coast, southeastern Baltic Sea. Estuarine, Coastal and Shelf Science, 195(5): 41-50.
  • Šliaupa S., Satkūnas J., Motuza G., Šliaupienė R. 2017. Morphotectonic implication of the Paleoproterozoic Mid-Lithuanian Suture Zone. Geological Quarterly, 61(3): 590–601.
  • Spiridonov A, Kaminskas D, Brazauskas A, Radzevičius S. 2017 . Time hierarchical analysis of the conodont paleocommunities and environmental change before and during the onset of the lower Silurian Mulde bioevent – a preliminary report. Global and Planetary Change, 157, 153-164  http://www.sciencedirect.com/science/article/pii/S0921818116300273
  • Spiridonov A, Stankevič R, Gečas T, Šilinskas T, Brazauskas A, Meidla T, Ainsaar L, Musteikis M, Radzevičius S. 2017 . Integrated record of Ludlow (Upper Silurian) oceanic geobioevents – coordination of changes in conodont, and brachiopod faunas, and stable isotopes. Gondwana Research, 51, 272–288  http://www.sciencedirect.com/science/article/pii/S1342937X17302915 
  • Taraškevičius R., Motiejūnaitė J., Zinkutė R., Eigminienė A., Gedminienė L., Stankevičius Ž. 2017. Similarities and differences in geochemical distribution patterns in epiphytic lichens and topsoils from kindergarten grounds in Vilnius. Journal of Geochemical Exploration, 183(Part B): 152–165.
  • Spiridonov A. 2017. Recurrence and cross recurrence plots reveal the onset of the Mulde event (Silurian) in the abundance data for Baltic conodonts. The Journal of Geology, 125(3), 381 – 398 http://www.journals.uchicago.edu/doi/abs/10.1086/691184?mobileUi=0&journalCode=jg


  • Andreev P., Coates M., I., Karatajute-Talimaa V., Shelton R., M., Cooper P., R., Wang N., Z., Sansom I., J. 2016. The systematics of the Mongolepidida (Chondrichthyes) and the Ordovician origins of the Glade. PeerJ. 4: e1850, DOI: 10.7717/peerj.1850.
  • Hints L., Paskevičius J., Martma T., Mannik P., Nolvak J. 2016. Upper Sandbian-lower Katian bio- and chemostratigraphy in the Pajevonys-13 core section, Lithuania. Estonian Journal of Earth Sciences. 65(2): 85–97.
  • Kleišmantas A., Daukšytė A. 2016. The influence of Vietnam and Sri Lanka spinel mineral chemical elements on colour. Chemija. 27(1): 45–51.
  • Motuza G., Kirkliauskaitė V. 2016. Ultramafic Varena Suite in the Precambrian crystalline basement of the Southern Lithuania -implications for the origin. Baltica. 29(2): 93–106.
  • Paskevičius J., Hints L. 2016. New Early Katian species of Leptestiidae and Hesperorthidae (Brachiopoda) from Lithuania. Estonian Journal of Earth Sciences. 65(2): 75–84.
  • Radzevičius S., Spiridonov A., Brazauskas A., Dankina D., Rimkus A., Kaminskas D., Meidla T., Ainsaar L. 2016. Integrated stratigraphy, conodont turnover and palaeoenvironments of the upper Wenlock and Ludlow in the shallow marine succession of the Vilkaviškis – 134 core (Lithuania). Newsletters on Stratigraphy. 49(2): 321–336.
  • Sarala P., Väliranta M., Eskola T., Vaikutienė G. 2016. First physical evidence for forested environment in the Arktic during MIS3. Scientific Reports. 6: 29054.
  • Spiridonov A., Brazauskas A., Radzevičius S. 2016. Dynamics of abundance of the mid- to late Pridoli conodonts from the eastern part of the Silurian Baltic Basin: multifractals, state shifts, and oscillations. American Journal of Science, 316(4): 363–400 pp. http://www.ajsonline.org/content/316/4/363.short
  • Venckutė-Aleksienė A., Radzevičius S., Spiridonov A. 2016. Dynamics of phytoplankton in relation to the upper Homerian (Lower Silurian) lundgreni event – An example from the Eastern Baltic Basin (Western Lithuania). Marine Micropaleontology. 126: 31–41.


  • Andronikov A.V., Rudnickaitė E., Lauretta D.S., Andronikova I.E., Kaminskas D., Šinkūnas P., Melešytė M. 2015. Geochemical evidence of the presence of volcanic and meteoritic materials in Late Pleistocene lake sediments of Lithuania. Quaternary International, 386: 18–29.
  • Balčiunaitė I., Kleismantas A., Norkus E. 2015. Chemical composition of rare garnets, their colours and gemmological characteristics. Chemija. 26(1): 18–24.
  • Bitinas A., Katinas V., Gibbard P., L., Saarmann S., Damusyte A., Rudnickaite E., Baltrunas V., Satkunas J. 2015. The problem of the lower boundary of the Pleistocene in Eastern Lithuania.
  • Quaternary International. 386: 89–101.
  • Druzhinina O., Subetto D., Stančikaitė M., Vaikutienė G., Kublitsky J., Arslanov Kh. 2015. Sediment record from the Kamyshovoe Lake: history of vegetation during late Pleistocene and and early Holocene (Kaliningrad District, Russia). Baltica. 28(2). 121–123.
  • Janutytė I., Majdanski M., Voss P., H., Kozlovskaya E. 2015. Upper mantle structure around the Trans-European Suture Zone obtained by teleseismic tomography. Solid Earth. 6(1): 73–91.
  • Kabailienė M., Vaikutienė G., Macijauskaitė L., Rudnickaitė E., Guobytė R., Kisielienė D., Gryguc G., Mažeika J., Motuza G., Šinkūnas P. 2015. Lateglacial and Holocene environmental history in the area of Samogitian Upland (NW Lithuania). Baltica. 28(2): 163–178.
  • Molenaar N., Feldert M., Bar K., Gotz A., E. 2015. What classic greywacke (litharenite) can reveal about feldspar diagenesis: An example from Permian Rotliegend sandstone in Hessen, Germany. Sedimentary Geology. 326: 79-93.
  • Motuza G., Šliaupa S., Timmerman M., J. 2015. Geochemistry and Ar-40/Ar-39 age of Early Carboniferous dolerite sills in the southern Baltic Sea. Estonian Journal of Earth Sciences. 64(2): 233-248.
  • Spiridonov A., Brazauskas A, Radzevičius S. 2015. The role of temporal abundance structure, and habitat preferences in the survival of conodonts during the Mid- Early Silurian Ireviken mass extinction event. PLoS ONE, 10(4): e0124146 http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0124146
  • Sun T., T., Kleišmantas A., Nyunt T., T., Zheng M., R., Krishnaswamy M., Ying L., H. 2015. Burmese Amber from Hti Lin. Journal of Gemmology. 34(7): 606–615.


  • Bičkauskas G., Radzevičius S. 2014. The Stipinai Regional stage (Upper Devonian) in Petrašiūnai quarry. Geologija. Vilnius.56 No.2 (86). P. 53-56.
  • Radzevičius, S., Spiridonov, A., & Brazauskas, A. 2014. Application of Wavelets to the Cyclostratigraphy of the Upper Homerian (Silurian) Gėluva Regional Stage in the Viduklė-61 Deep Well (Western Lithuania). In: Rocha, R., Pais, J., Kullberg, J.C., Finney, S. (Eds.). STRATI 2013: First International Congress on Stratigraphy. At the cutting edge of Stratigraphy. Heidelberg, Springer International Publishing. 437-440 pp. http://link.springer.com/chapter/10.1007/978-3-319-04364-7_84
  • Kaminskas D., Michelevicius D., Blazauskas N. 2014. New evidence of an early Pridoli barrier reef in the southern part of the Baltic Silurian basin based on three-dimensional seismic survey, Lithuania. Estonian Journal of Earth Sciences. 64(1): 47–55.
  • Radzevičius, S., Spiridonov, A., & Brazauskas, A. 2014. Integrated middle–upper Homerian (Silurian) stratigraphy of the Viduklė-61 well, Lithuania. GFF, 136(1): 218-222 pp. http://www.tandfonline.com/doi/abs/10.1080/11035897.2013.866976
  • Radzevičius S., Spiridonov A., Brazauskas A., Norkus A., Meidla T., Ainsaar L. 2014. Upper Wenlock δ13C chemostratigraphy, conodont biostratigraphy and palaeoecological dynamics in the Ledai-179 drill core (Eastern Lithuania). Estonian Journal of Earth Sciences, 63(4): 293–299 pp. http://search.proquest.com/docview/1638915511?pq-origsite=gscholar
  • Spiridonov A., A. Brazauskas. 2014. Comparative analysis of ontogenies and ecomorphology of the “Ozarkodina remscheidensis” (Conodonta:Ozarkodinida) species group in upper Ludlow and Pridoli of Lithuania. Paleontological Journal, 48(10): 1104–1114 pp. http://link.springer.com/article/10.1134/S0031030114100086
  • Venckutė-Aleksienė A, Radzevičius S, Spiridonov A. 2016. Dynamics of phytoplankton in relation to the upper Homerian (Lower Silurian) lundgreni event – an example from the Eastern Baltic Basin (Western Lithuania). Marine Micropaleontology, 126, 31-41 http://www.sciencedirect.com/science/article/pii/S0377839816300408


  • Kamiskas D., Bičkauskas G., Brazauskas A. 2010. Silurian dolostones of earstern Lithuania. Estonian Journal of Earth Science. Tallinn. 59. No.2. P. 180-186.
  • 2008
  • Bičkauskas G., Molenaar N. 2008. Nature of the so-called ‘reefs’ in the Pridolian carbonate system of the Silurian Basin. Geologija. Vilnius. 50 No.2 (62). P. 94-104.
  • Bičkauskas G., Molenaar N. 2008. Facies and depositional environment of the Pridoli carbonate ramp in the Silurian Baltic Basin, Lithuania. Geologija. Vilnius.50 No.4 (64). P. 264-274.

Knygos ir vadovėliai/Books and textbooks

  • Bičkauskas G., Brazauskas A., Kleišmantas A., Motuza G. 2011. Bendrosios geologijos pratybos. Vilniaus universiteto leidykla.