E. R. Cook, O. Solomina, V. Matskovsky, B. I. Cook, L. Agafonov, A. Berdnikova, E. Dolgova, A. Karpukhin, N. Knysh, M. Kulakova, V. Kuznetsova, T. Kyncl, J. Kyncl, O. Maximova, I. Panyushkina, A. Seim, D. Tishin, T. Ważny, M. Yermokhin. The European Russia Drought Atlas (1400–2016 CE) //Climate Dynamics. – 2020. – С. 1-19
Chernogaeva G. M., Kuznetsova V. V., Kukhta A. E. Precipitation effects on the growth of boreal forest stands in the volga region // Russian Meteorology and Hydrology. — 2020. — Vol. 45, no. 12. — P. 851–857.
U. Gut, M. Arvai, S. Bijak, J. J. Camarero, A. M. Catalin, P. Catalin, A. Cedro, B. Garamszegi, R. C. Garcia, A. Hevia, W. Huang, M. Isaac-Renton, R. Kaczka, M. Kazimirovic, W. Kedziora, Z. Kern, M. Klisz, T. Kolar, M. Körner, V. Kuznetsova, D. Montwe, L. Plavcova, R. Rehschuh, E. Rocha, M. Rybnicek, R. Sanchez-Salguero, J. Schröder, N. Schwab, B. Stajic, R. Tomusiak, M. Wilmking, U. Sass-Klaassen, A. Buras No systematic effects of sampling direction on climate-growth relationships in a large-scale, multi-species tree-ring data set //Dendrochronologia. – 2019. – Т. 57. – С. 125624.
Estimated influence of extreme climate events in the 21st century on the radial growth of pine trees in povolzhie region (european russia) / V. Matskovsky, V. Kuznetsova, P. Morozova et al. // IOP Conference Series: Earth and Environmental Science. — 2020. — Vol. 611. — P. 012047–012047
Kuznetsova V. V., Pozhidaeva D. S. Opportunities and limitations for the reconstruction of river runoff and dryness conditions in the volga region with dendrochronology methods // FUNDAMENTAL AND APPLIED CLIMATOLOGY. — 2017. — Vol. 4. — P. 46–65.
D’Arrigo R.D., R. Wilson, G. Wiles, K.J. Anchukaitis, O. Solomina, N. Davi, C. Deser, E. Dolgova. Tree-ring reconstructed temperature index for coastal northern Japan: implications for western North Pacific variability // International Journal of Climatology.2015. – V.35 (12).p. 3713-3720.
Dolgova E., Matskovsky V., Solomina O., Rototaeva O., Nosenko G., Khmelevskoy I. Garabashi glacier mass-balance reconstruction (1800-2005) based on tree-ring data // Ice and Snow. 2013. – V.1(121), p. 34–42.
Matskovskiy V.V., Dolgova E.A., Solomina O.N. Opportunities of applying tree-ring data to Teberda River runoff reconstruction (AD 1850-2002) // Ice and Snow. 2011. –V.1(113), p. 119-123. (in Russian).
Dolgova E.A., Solomina O.N. First quantitative reconstruction of air temperature for the warm period in the Caucasus based on dendrochronological data Doklady Earth Sciences (Russian Academy of Sciences /DokladyAkademiiNauk). 2010. — p. 371-375.
Grabenko E. A., Solomina O.N. Influence of climate fluctuations on the width of the rings of Caucasian fir (Abies Nordmanniana) in the beech-fir forests of the Western Caucasus. Proceedings of the Caucasian state natural biosphere reserve. Vol. 23. Pp. 34-40.
Solomina O. N. What do we know about the climate of the last Millennium? Age of geography. M, Russian textbook, p. 72-94.
Dolgikh A.B., Matskovsky V.V., Voronin K.V., Solomina O.N. Combined dendrochronological and radiocarbon dating of six icons of XV–XVII centuries. Doklady Akademii Nauk, 2017, v 474, № 6, p. 737–740.
C. Deck, G. Wiles, S. Frederick, V. Matskovsky, T.M. Kuderina, R. D’Arrigo, O. Solomina, and N. Wiesenberg. Climate response of Larch and Birch forests across an elevational transect and hemisphere-wide comparisons, Kamchatka Peninsula, Russian Far East. Forest 2017 v 8 p 2-11 http://dx.doi.org/10.3390/f8090315
Matskovsky, V., Venegas-González, A., Garreaud, R., Roig, F. A., Gutiérrez, A. G., Muñoz, A. A., … & Canales, C. (2021). Tree growth decline as a response to projected climate change in the 21st century in Mediterranean mountain forests of Chile. Global and Planetary Change, 198, 103406. https://doi.org/10.1016/j.gloplacha.2020.103406
Morales, M. S., Cook, E. R., Barichivich, J., Christie, D. A., Villalba, R., LeQuesne, C., … & Boninsegna, J. A. (2020). Six hundred years of South American tree rings reveal an increase in severe hydroclimatic events since mid-20th century. Proceedings of the National Academy of Sciences, 117(29), 16816-16823. https://doi.org/10.1073/pnas.2002411117
Matskovsky, V., Roig, F. A., & Pastur, G. M. (2019). Removal of a non-climatically induced seven-year cycle from Nothofagus pumilio tree-ring width chronologies from Tierra del Fuego, Argentina for their use in climate reconstructions. Dendrochronologia, 57, 125610. https://doi.org/10.1007/10.1016/j.dendro.2019.125610
Matskovsky, V., Gadiev, U., Dolgikh, A., Cherkinsky, A., Polumieva, P., Panov, V., … & Dolgova, E. (2019). Radiocarbon dating of medieval buildings in the mountainous part of Ingushetia (Northern Caucasus, Russia). Radiocarbon, 61(3), 777-797. https://doi.org/10.1017/RDC.2019.33
Matskovsky, V., Dolgova, E., Lomakin, N., & Matveev, S. (2017). Dendroclimatology and historical climatology of Voronezh region, European Russia, since 1790s. International Journal of Climatology, 37(7), 3057-3066. https://doi.org/10.1002/joc.4896
Dolgikh, A. V., Matskovsky, V. V., Voronin, K. V., & Solomina, O. N. (2017, June). Combined dendrochronological and radiocarbon dating of six russian icons from the 15th–17th centuries. In Doklady Earth Sciences (Vol. 474, No. 2, pp. 706-708). Pleiades Publishing. https://doi.org/10.1134/S1028334X17060186
Matskovsky, V. (2016). Climatic signal in tree-ring width chronologies of conifers in European Russia. International journal of climatology, 36(9), 3398-3406. https://doi.org/10.1002/joc.4563
Matskovsky, V., & Helama, S. (2016). Direct transformation of tree-ring measurements into palaeoclimate reconstructions in three-dimensional space. The Holocene, 26(3), 439-449. https://doi.org/10.1177/0959683615609748
Voronin, K., Dolgikh, A., Matskovsky, V., Cherkinsky, A., Skripkin, V., & Alexandrovskiy, A. (2015). Comparative dendrochronological and 14C dating of 15th century Russian icon. Radiocarbon, 57(1), 173-182. https://doi.org/10.2458/azu_rc.57.17467
Matskovsky, V. V., & Helama, S. (2014). Testing long-term summer temperature reconstruction based on maximum density chronologies obtained by reanalysis of tree-ring data sets from northernmost Sweden and Finland. Climate of the Past, 10(4), 1473-1487. https://doi.org/10.5194/cp-10-1473-2014