Geologijos ir geografijos instituto publikacijos
Formation of fluvial islands and its determining factors, case study of the River Neris, the Baltic Sea basin
Projekto vadovai:
Baubinienė A., Satkūnas J., Taminskas J. 2015. Formation of fluvial islands and its determining factors, case study of the River Neris, the Baltic Sea basin. Geomorphology. 231, 343–352.
Aspects and methods in reconstructing the medieval terrain and deposits in Vilnius
Projekto vadovai:
Baubinienė A., Morkūnaitė R., Bauža D., Vaitkevičius G, Petrošius R. 2015. Aspects and methods in reconstructing the medieval terrain and deposits in Vilnius. Quaternary International. http://dx.doi.org/10.1016/j.quaint.2014.09.068.
rans-Baltic Palaeoproterozoic correlations towards the reconstruction of supercontinent Columbia/Nuna
Projekto vadovai:
Bogdanova S., Gorbatschev R., Skridlaite G., Soesoo A., Taran L., Kurlovich D. 2015. Trans-Baltic Palaeoproterozoic correlations towards the reconstruction of supercontinent Columbia/Nuna. Precambrian Research. 259, 5–33.
ncreased tree establishment in Lithuanian peat bogs — Insights from field and remotely sensed approaches
Projekto vadovai:
Edvardsson J., Šimanauskienė R., Taminskas J., Baužienė I., Stoffel M. 2015. Increased tree establishment in Lithuanian peat bogs — Insights from field and remotely sensed approaches. Science of the Total Environment. 505, 113–120.
Δ14C and δ13C variations in organic fractions of Baltic sea sediments
Projekto vadovai:
Lujanienė G., Mažeika J., Li H.-C., Petrošius R. Barisevičiūtė R., Jokšas K., Remeikaitė-Nikienė N., Malejevas V., Garnaga G., Stankevičius A., Kulakauskaitė I., Povinec P. P. 2015. Δ14C and δ13C variations in organic fractions of Baltic sea sediments. Radiocarbon, Vol 57, Nr 3, p 479–490.
Holocene organic-rich sediments within the Curonian Spit coast, the south-eastern Baltic Sea
Projekto vadovai:
Sergeev, A., Sivkov, V., Zhamoida, V., Ryabchuk, D., Bitinas, A., Mažeika, J., 2015. Holocene organic-rich sediments within the Curonian Spit coast, the south-eastern Baltic Sea. Baltica, 28 (1), 41–50. Vilnius. ISSN 0067-3064.
Lateglacial and early Holocene environmental dynamics in northern Lithuania: A multi-proxy record from Ginkūnai Lake
Projekto vadovai:
Stančikaitė M., Šeirienė V., Kisielienė D., Martma T., Grygu G., Zinkutė R., Mažeika J., Šinkūnas P. 2015. Lateglacial and early Holocene environmental dynamics in northern Lithuania: A multi-proxy record from Ginkūnai Lake. Quaternary International. 357, 44–57.
Modelling of tritium transport in the underground water from hypothetical reactor at the new NPP site in Lithuania
Projekto vadovai:
Jakimavičiūtė-Maselienė V., Cidzikienė V. 2015. Modelling of tritium transport in the underground water from hypothetical reactor at the new NPP site in Lithuania. Progress in Nuclear Energy. 80, 1–6.
Quantitative summer and winter temperature reconstructions from pollen and chironomid data between 15 and 8 ka BP in the BalticeBelarus area
Projekto vadovai:
Veski S., Seppa H., Stančikaitė M., Zernitskaya V., Reitalu T., Gryguc G., Heinsalu A., Stivrins N., Amon L., Vassiljev J., Oliver Heiri O. 2015. Quantitative summer and winter temperature reconstructions from pollen and chironomid data between 15 and 8 ka BP in the BalticeBelarus area. Quaternary International. ttp://dx.doi.org/10.1016/j.quaint.2014.10.059
Vegetation pattern and sedimentation changes in the context of the Lateglacial climatic events: Case study of Staroje Lake (Eastern Belarus)
Projekto vadovai:
Zernitskaya V., Stančkaitė M., Vlasov B., Šeirienė V., Kisielienė D., Gryguc G., Skipitytė R. 2015. Vegetation pattern and sedimentation changes in the context of the Lateglacial climatic events: Case study of Staroje Lake (Eastern Belarus). Quaternary International. 386, 70–82.
Recent Lithuanian peri-urban ombrotrophic bog records: indices derived from the contents of lead, zinc, copper and nickel
Projekto vadovai:
Zinkutė R., Baužienė I., Dilys K., Mažeika J., Taminskas J., Taraškevičius R. 2015. Recent Lithuanian peri-urban ombrotrophic bog records: indices derived from the contents of lead, zinc, copper and nickel. Geochemistry: Exploration, Environment , Analysis. 15 (4): 293-318. doi:10.1144/geochem2013-245.
