Vladimirova Diana

Scientific Researcher
dv [at] igras.ru
Glaciology Department

Study areas

Greenland, Antarctica, low and mid-latitude glaciers

Research interests

Continuous flow analysis of the ice cores, interpretation of the high-resolution ice core data, methane and stable water isotopic composition of the ice core samples, paleoclimatology and paleoglaciology

List of principal publications

  • Vladimirova D.O., Ekaykin A.A.  Climate variability in Davis Sea sector of East Antarctica over the past 250 years based on the "105 km“ ice core geochemical data // Problemy Arktiki i Antarktiki, 2014, Vol. 1 (99), p. 102-114 (in Russian);
  • Lipenkov V.Y., Ekaykin A.A., Shibaev Y.A., Alekhina I.A., Preobrazhenskaya A.V., Kozachek A.V., Vladimirova D.O. The prospective development of Climate and Environmental Research Laboratory of AARI, Roshydromet, after gaining the grant of Russian Science Foundation. Ice and Snow. 2014;54(4):135-139 (in Russian). https://doi.org/10.15356/2076-6734-2014-4-135-139;
  • Ekaykin A.A., Lipenkov V.Ya., Popov S.V., Turkeev A.V., Kozachek A.V., Vladimirova D.O. Spatial variability of surface snow characteristics in mega-dunes area of subglacial lake Vostok// Problemy Arktiki i Antarktiki, 2014, Vol. 4 (102), p. 78-89 (in Russian);
  • Vladimirova D.O., Ekaykin A.A., Lipenkov V.Ya., Popov S.V., Shibaev Yu.A. Spatial variability of the accumulation rate and isotopic composition of the snow in Indian ocean sector of East Antarctica including the vicinity of subglacial lake Vostok// Problemy Arktiki i Antarktiki, 2015, Vol.1 (103), p. 69-86 (in Russian);
  • Vladimirova D.O., Ekaykin A.A., Lipenkov V.Y. The variability of climate in Indian Ocean sector of East Antarctica over the past 350 years//Ice and Snow. 2015;55(4):5-18. (in Russian) https://doi.org/10.15356/2076-6734-2015-4-5-18;
  • Ekaykin A.A., Lipenkov V.YA., Kozachek A.V., Vladimirova D.O. Stable Water Isotope Content of the Antarctic Subglacial Lake Vostok: Implications for Understanding the Lake’s Hydrology//Isotopes in Environmental and Health Studies, 2016; https://doi.org/10.1080/10256016.2015.1129327;
  • Ekaykin A.A., Vladimirova D.O., Lipenkov V. Ya., Masson-Delmotte V. Climatic variability in Princess Elizabeth Land (East Antarctica) over the last 350 years//Clim. Past, 2017, Vol. 13, p. 61-71; https://doi.org/10.5194/cp-13-61-2017;
  • Ekaykin A.A., Vladimirova D.O., Lipenkov V.Y. Variations of snow accumulation rate in Central Antarctica over the last 250 years//Ice and Snow. 2017;57(1):5-9. (in Russian) https://doi.org/10.15356/2076-6734-2017-1-5-9;
  • Lipenkov V.Y., Ekaykin A.A., Alekhina I.A., Shibaev Y.A., Kozachek A.V., Vladimirova D.O., Vasiliev N.I., Preobrazhenskaya A.V. Evolution of climate, glaciation and subglacial environments of Antarctica from the deep ice core and Lake Vostok water sample studies (Key results of implementation of the Russian Science Foundation project, 2014–2016)//Ice and Snow. 2017;57(1):133-141. (in Russian) https://doi.org/10.15356/2076-6734-2017-1-133-141;
  • PAGES2k (including Vladimirova D.) Consortium A global multiproxy database for temperature reconstructions of the Common Era//Nature Scientific data, Vol. 4:170088. https://doi.org/10.1038/sdata.2017.88;
  • Veres A.N., Ekaykin A.A., Vladimirova  D.O., Kozachek  A.V., Lipenkov  V.Ya., Skakun  A.A. Climatic variability in the era of MIS‑11 (370–440 ka BP) according to isotope composition (δD, δ18O, δ17O) of ice from the Vostok station cores. Led i Sneg. Ice and Snow. 2018. 58 (2): 149–158. https://doi.org/10.15356/2076-6734-2018-2-149-158; (in Russian)
  • Ekaykin A., Vladimirova D., Teben’kova N., Brovkov E., Veres A., Kovyazin A., Kozachek A., Lindren M., Preobrazhenskaya A., Shibaev Yu., Lipenkov V. Spatial variability of the snow properties in the Vostok vicinity//Issues of Arctic and Antarctic. 2019. 65 (1): 46–62. https://doi.org/10.30758/0555-2648-2019-65-1-46-62; (in Russian)
  • Simonsen M., Baccolo G., Blunier T., Borunda A., Delmonte B., Goldstein S., Grinsted A., Kjær H., Sowers T., Svensson A., Vinther B., Vladimirova D., Winckler G., Winstrup M., Vallelonga P. Local ice core dust reveals past glacier extent in East Greenland //Nature Communications (2019) 10:4494 https://doi.org/10.1038/s41467-019-12546-2;
  • Kokhanovsky A. et al. (including Vladimirova D.) Remote sensing of snow using the Ocean and Land Colour Instrument on board the ESA Sentinel-3 mission//Remote Sens. 2019, 11, 2280; https://doi.org/10.3390/rs11192280;
  • Madsen, M. V., Steen‐Larsen, H. C., Hörhold, M., Box, J., Berben, S., Capron, E., Faber, A. K., Hubbard A., Jensen, M. F., Jones, T. R., Kipfstuhl, S., Koldtoft, I., Pillar, H. R., Vaughn, B. H., Vladimirova, D., Dahl‐Jensen, D. Evidence of isotopic fractionation during vapor exchange between the atmosphere and the snow surface in Greenland//Journal of Geophysical Research: Atmospheres, 124, 2932–2945. https://doi.org/10.1029/2018JD029619;
  • Vladimirova D.O. On the high-resolution ice core analysis method under development. Arctic and Antarctic Research. 2019;65(3):300-314. (In Russ.) https://doi.org/10.30758/0555-2648-2019-65-3-300-314;
  • Vladimirova D., Blunier T., Capron E., Dallmayr R., Ekaykin A., Gkinis V., Kjær H., Rasmussen S., Vallelonga T., Vinther B. An additional biogenic methane source from the Northern Hemisphere between 83 and 73 kyr BP//Clim.Past (in prep.)
  • Vladimirova D., Vinther B., Vallelonga P., Sowers T., Gkinis V., Kjaer H., Simonsen M., Dallmayr R., Ekaykin A., Blunier T. The first Northern Hemisphere high-resolution Holocene methane record reveals a centennial variability (in prep.)