Makarieva


Olga Makarieva, PhD


Senior Research Scientist
Laboratory of Permafrost Groundwater and Geochemistry


ORCID ID: 0000-0002-2532-4306
Web of Science ResearcherID: G-2077-2014
Scopus Author ID: 35115433100


Email: omakarieva@gmail.com


Education

  • M.S. (Geography, Hydrology & Environmental Science), Saint Petersburg State University, 2000
  • Ph.D. (Engineering), Russian State Hydrometeorological University, St. Petersburg, 2008. Dissertation: Analysis and Modeling of Runoff Generation in Poorly Gauged Basins: the Lena River Basin


Research Interests

  • Hydrological modeling
  • Permafrost hydrology
  • Watershed hydrology


Other Affiliations

  • Associate Professor, Department of Land Hydrology, Saint Petersburg State University
  • Senior Research Scientist, NPO Gidrotehproekt Ltd., St. Petersburg


Teaching

Courses taught at the Institute of Earth Sciences, Saint Petersburg State University

  • Mathematical modeling of streamflow
  • Practical training at the Saint Petersburg Hydrological Institute


Selected Publications

  • Makarieva, O.; Nesterova, N.; Post, D. A.; Sherstyukov, A.; Lebedeva, L. (2019). Warming temperatures are impacting the hydrometeorological regime of Russian rivers in the zone of continuous permafrost. Cryosphere, 13 (6), 1635-1659.
  • Makarieva, O.; Shikhov, A.; Nesterova, N.; Ostashov, A. (2019). Historical and recent aufeis in the Indigirka River basin (Russia). Earth System Science Data, 11 (1), 409-420.
  • Bloschl, G., Bierkens, M. F. P., Chambel, A., et al. (2019). Twenty-three unsolved problems in hydrology (UPH) - a community perspective. Hydrological Sciences Journal-Journal Des Sciences Hydrologiques, 64 (10), 1141-1158.
  • Lebedeva L., Makarieva O., Vinogradova T. (2019). Analysis of spatial variability of river streamflow at the catchment area of the Kolyma reservoir. IOP Conf. Ser.: Earth Environ. Sci. 321 012022.
  • Lebedeva L.S., Bazhin K.I., Khristoforov I.I., Abramov A.A., Pavlova N.A., Efremov V.S., Ogonerov V.V., Tarbeeva A.M., Fedorov M.P., Nesterova N.V., Makarieva O.M. (2019). Suprapermafrost subaerial taliks, Central Yakutia, Shestakovka River basin. Kriosfera Zemli, XXIII(1), 35–44 DOI: 10.21782/EC2541-9994-2019-1(35-44) http://www.izdatgeo.ru/pdf/earth_cryo/2019-1/35_eng.pdf
  • Макарьева О.М., Нестерова Н.В., Виноградова Т.А., Бельдиман И.Н., Колупаева А.Д. Расчет характеристик катастрофических паводков неизученной реки Цемес (г. Новороссийск, Черноморское побережье России) на основе гидрологической модели «Гидрограф» . Вестник Санкт-Петербургского университета. Науки о Земле, 64(1), 2019: 24-43 [Makarieva, O. M.; Nesterova, N. V.; Vinogradova, T. A.; Beldiman, I. N.; Kolupaeva, A. D. (2019). Calculation of catastrophic floods characteristics of ungauged Tsemes River (Novorossiysk, the Black sea coast of Russia) on the basis of hydrological model "Hydrograph". Vestnik of Saint Petersburg University Earth Sciences 2019, 64 (1), 24-43 (in Russ.)]
  • Макарьева О.М., Шихов А.Н., Осташов А.А., Нестерова Н.В. Наледи бассейна р. Индигирка по современным снимкам Landsat и историческим данным. Лёд и Снег. 2019; 59(2): 201-212. https://doi.org/10.15356/2076-6734-2019-2-388 [Makarieva О.M., Shikhov A.N., Ostashov A.A., Nesterova N.V. Icings of the Indigirka river basin according to the recent Landsat satellite images and historical data. Ice and Snow. 2019;59(2):201-212. (In Russ.)]
  • Makarieva O., Nesterova, N., Lebedeva, L. and Sushansky, S. (2018). Water balance and hydrology research in a mountainous permafrost watershed in upland streams of the Kolyma River, Russia: a database from the Kolyma Water-Balance Station, 1948-1997. Earth System Science Data, 10(2), pp. 689-710. doi: 10.5194/essd-10-689-2018.
  • Makarieva O., Shikhov A., Ostashov A., Nesterova N.  (2018). Aufeises (naleds) of the North-East of Russia: GIS catalogue for the Indigirka River basin (Russia). PANGAEA, https://doi.pangaea.de/10.1594/PANGAEA.891036
  • Lebedeva L. S., Makarieva O., Gustaffson D., Isberg K. and Arheimer B. (2017). Seemingly similar permafrost river basins: data analysis and evaluation by different modelling approaches. Cold-Region Hydrology in a Non-Stationary World, Proceedings of 21st Northern Research Basins Symposium and Workshop. August 6–12, 2017, Yakutsk, Russia. Yakutsk: Melnikov Permafrost Institute Publ., pp. 172.
  • Lebedeva L., Makarieva O. Abramov A. (2017). Modelling of soil moisture and temperature in different permafrost landscapes. Cryosols in Perspective: A View from the Permafrost Heartland. Proceedings of the VII International Conference on Cryopedology (August 21-28, Yakutsk, Sakha (Yakutia) Republic, Russia). Yakutsk-Moscow, pp. 87-89.
  • Liljedahl A., Baraer M., Chesnokova A., Gaedeke A., Lebedeva L., Makarieva O., O’Neel S and Nesterova N. (2017). Mountain glacier contribution to Arctic and subarctic river discharge. Cold-Region Hydrology in a Non-Stationary World, Proceedings of 21st Northern Research Basins Symposium and Workshop. August 6–12, 2017, Yakutsk, Russia. Yakutsk: Melnikov Permafrost Institute Publ., pp. 174/
  • Makarieva O., Nesterova N., Lebedeva L.,  Sushansky S.  (2017). Water-balance and hydrology database for a mountainous permafrost watershed in the up-streams of the Kolyma River, Russia – the Kolyma Water-Balance Station, 1948-1997. PANGAEA, https://doi.org/10.1594/PANGAEA.881731
  • Makarieva O.M., Nesterova N.V., Lebedeva L.S. (2017). Runoff changes at the Pole of Cold of Northern Hemisphere. Cold-Region Hydrology in a Non-Stationary World, Proceedings of 21st Northern Research Basins Symposium and Workshop. August 6–12, 2017, Yakutsk, Russia. Yakutsk: Melnikov Permafrost Institute Publ., pp. 67-74.
  • Nesterova N.V., Makarieva O.M., Lebedeva L.S., Vinogradova T.A. (2017). Hydrological processes at the Suntar-Hayata ridge (Eastern Siberia). Cold-Region Hydrology in a Non-Stationary World, Proceedings of 21st Northern Research Basins Symposium and Workshop. August 6–12, 2017, Yakutsk, Russia. Yakutsk: Melnikov Permafrost Institute Publ., pp. 91-99.
  • Tananaev N. I., Makarieva O. M., Lebedeva L. S. (2016). Trends in annual and extreme flows in the Lena River basin, Northern Eurasia. Geophysical Research Letters 43(20), 10764-10772.
  • Bring, A., Fedorova, I., Dibike, Y., Hinzman, L., Mård, J., Mernild, S.H., Prowse, T., Semenova, O., Stuefer, S.L., Woo, M.-K. (2016) Arctic terrestrial hydrology: A synthesis of processes, regional effects, and research challenges. J. Geophys. Res. Biogeosci., 121, 621–649: doi:10.1002/2015JG003131
  • Semenova O., Beven K. (2015) Barriers to progress in distributed hydrological modelling. Hydrol. Process., 29: 2074–2078. doi: 10.1002/hyp.10434
  • Lebedeva L., Semenova O. and Vinogradova T. (2014) Simulation of active layer dynamics, Upper Kolyma, Russia, using the Hydrograph hydrological model. Permafrost and Periglac. Process., 25 (4): 270–280. DOI: 10.1002/ppp.1821
  • Semenova O., Vinogradov Y., Vinogradova T., and Lebedeva L. (2014) Simulation of soil profile heat dynamics and integration into hydrologic modelling in the permafrost zone. Permafrost and Periglac. Process., 25 (4): 257–269. DOI: 10.1002/ppp.1820
  • Semenova O., Lebedeva L., Volkova N., Korenev I., Forkel M., Eberle J., Urban M. (2014). Detecting immediate wildfire impact on runoff in a poorly-gauged mountainous permafrost basin. Hydrological Sciences Journal, 60 (7-8): 1225-1241. DOI:10.1080/02626667.2014.959960
  • Semenova O., Lebedeva L., Vinogradov Yu. (2013) Simulation of subsurface heat and water dynamics, and runoff generation in mountainous permafrost conditions, in the Upper Kolyma River basin, Russia. Hydrogeology Journal, 21 (1): 107-119. DOI:10.1007/s10040-012-0936-1
  • Vinogradov, Y. B., Semenova, O. M. and Vinogradova, T. A. (2011) An approach to the scaling problem in hydrological modelling: the deterministic modelling hydrological system. Hydrological Processes, 25: 1055–1073. doi: 10.1002/hyp.7901