[Akres O., Cavallaro I., Cheng C., Dixon M., Hofbauer T., Mahr S. 2016. The Christmas tree project: Comparing the effects of five treatments on the health of cut Christmas trees (Pinus radiata, Pinaceae). Australian Journal of Botany, 64 (1), 15–19.]Search in Google Scholar
[Bezkorovainaya I.N., Ivanova G.A., Bogorodskaya A.V., Krasnoshchekova E.N., Tarasov P.A. 2007. The nitrogen reserves in sandy podzols after controlled fires in pine forests of Central Siberia. Eurasian Soil Science, 40 (6), 700–707.10.1134/S1064229307060129]Open DOISearch in Google Scholar
[Francos M. 2016. The role of forest fire severity on vegetation recovery after 18 years. Implications for forest management of Quercus suber L. in Iberian Peninsula. Global and Planetary Change, 145, 11–16.]Search in Google Scholar
[Certini G. 2005. Effects of fire on properties of forest soils: a review. Oecologia, 143 (1), 1–10.]Search in Google Scholar
[Gavrilenko V.F., Zhigalova T.V. 2003. Large workshop in photosynthesis (in Russian with English summary). Academy, Moscow.]Search in Google Scholar
[Girs G.I. 1982. Physiology weakened tree (in Russian with English summary). Nauka, Novosibirsk.]Search in Google Scholar
[Grigoriev Y.S., Furyaev EA, Andreev A.A. 1996. Method for determination of phytotoxic substances (in Russian with English summary). Patent nr 2069851. Bul. Rec. 33.]Search in Google Scholar
[Grigoriev Y.S., Andreev D.N. 2012. About the technique of registration of the chlorophyll delayed fluorescence of bioindication of the air pollution on coniferous (in Russian with English summary). Estestvennye Nauki, 2, 36–39.]Search in Google Scholar
[Ivanova G.A., Conard S.G., McRae D.D. 2014. The impact of fire on components of the ecosystem of middle of pine forests of Siberia (in Russian with English summary). Nauka, Novosibirsk.]Search in Google Scholar
[Kharuk V.I., Ponomarev E.I. 2016. Boreal forests in a changing climate: the dynamics of forest fires (in Russian with English summary). In.: Proccedings of Regional problems of remote sensing. Proceedings of the III International Scientific Conference, Krasnoyarsk, Russia 1, 38–41.]Search in Google Scholar
[Konovalov V.N. Semenov B.A. 1990. The impact of fire on the physiological condition of the stands Far North. In.: Proccedings of Problems of forest science and forest ecology conference, I, Krasnoyarsk, Russia, 156–158.]Search in Google Scholar
[Kovaleva N.M., Ivanova G.A. 2013. Recovery of ground vegetation at the initial stage of fire succession. Contemporary Problems of Ecology, 6 (2), 162–169.10.1134/S199542551302008X]Open DOISearch in Google Scholar
[Kurbatsky N.P. 1962. Technique and tactics of fighting forest fires (in Russian with English summary). Goslesbumizdadt, Moscow.]Search in Google Scholar
[Lange O.L. 1964. The study of changes of heat-resistance in plants. The cell and the temperature of the medium. Nauka, Moscow.]Search in Google Scholar
[Maxwell K., Johnson Giles N. 2000. Chlorophyll fluorescence – a practical guide. Journal of Experimental Botany, 51 (345), 659–668.]Search in Google Scholar
[McRae D.J., Conard S.G., Ivanova G.A., Sukhinin A.I., Baker S.P., Samsonov Y.N., Blake T.W. 2006. Variability of fire behavior fire effects and emissions in scotch pine forests of сentral Siberia. Mitigation and Adaptation Strategies for Global Change, 11, 45–74.]Search in Google Scholar
[Molchanov A.G. 2012. An estimation of moisture availability influence on daytime variability of photosynthesis-light curves. Mathematical Biology and Bioinformatics, 7 (1), 197–205.]Search in Google Scholar
[Murata N., Takahashi S., Nishiyama Y., Allakhverdiev S.I. 2007. Photoinhibition of photosystem II under environmental stress. Biochimica et Biophysica Acta (BBA) – Bioenergetics, 1767 (6), 414–421.10.1016/j.bbabio.2006.11.019]Open DOISearch in Google Scholar
[Owen K.A., Mark G.T. 2003. Thermal acclimation and the dynamic response of plant respiration to temperature. Trends in Plant Science, 8 (7), 343–351.10.1016/S1360-1385(03)00136-5]Open DOISearch in Google Scholar
[Ponomarev E.I., Valendik E.N., Kisilyakhov Y.K. 2012. Satellite monitoring of large scale wildfires in Siberia. In.: Proccedings of workshop on impact of climate change on forest and agricultural ecosystems and adaptation strategies, Krasnoyarsk, Russia, 1, 24.]Search in Google Scholar
[Sudachkova N.E., Romanova L.I., Astrakhantseva N.V., Novoselova M.V., Kosov I.V. 2016. Stress Reactions of Scots Pine Trees to Injuring by Ground Fire. Contemporary Problems of Ecology, 5, 739–749.]Search in Google Scholar
[Smits K.M. 2016. Experimental and modeling study of forest fire effect on soil thermal conductivity. Pedosphere, 26 (4), 462–473.10.1016/S1002-0160(15)60057-1]Open DOISearch in Google Scholar
[Tarasov P.A., Ivanov V.A., Ivanova G.A. 2008. Temperature regime of soils in Scots pine forests of central taiga burned by surface fires (in Russian with English summary). Conifers of the Boreal Area, 25 (3/4), 300–304.]Search in Google Scholar
[Titov A.F., Talanov V.V. 2011. Local effect of high and low temperatures on plants (in Russian with English summary). Institute of Biology, Karelian Research Centre of Russian Academy of Sciences, Petrozavodsk.]Search in Google Scholar
[Tsibart A.S., Gennadyev A. 2008. The impact of fire on forest soil properties Priamurja (in Russian with English summary). Soil Science, 7, 783–787.]Search in Google Scholar
[Tsvetkov P.A. 2006. Nagar as a diagnostic sign (in Russian with English summary). Conifers of the Boreal Zone, 23 (3), 132–137.]Search in Google Scholar
[Tsvetkov P.A. 2013. The impact of fire on the initial stage of forest recovery in the middle pine forests of Siberia (in Russian with English summary). Conifers of the Boreal Zone, 2, 15–21.]Search in Google Scholar
[Turetsky M.R. Wieder R.K. 2001. A direct approach to quantifying organic matter lost as result of peatland wildfire. Can. J. of Forest Res., 31 (2), 363–366.]Search in Google Scholar
[Valendik E.N, Sukhinin A.I., Kosov I.V. 2006. Influence of surface fires on the stability of coniferous species (in Russian with English summary). VN Sukachev SB RAS, Krasnoyarsk.]Search in Google Scholar
[Valendik E.N., Kisilyakhov Ye. K., Ryzhkova V.A., Ponomarev E.I., Goldammer J.G. 2014. Forest fires under abnormal weather conditions in Central Siberia (in Russian with English summary). Siberian Forest Journal, 3, 43–52.]Search in Google Scholar
[Valendik E.N., Kosov I.V. 2008. Stability of kidney conifer species to the effects of surface fires (in Russian with English summary). Forest Science, 5, 12–17.]Search in Google Scholar
[Valendik E.N., Verkhovets S.V., Kisilyahov E.K., Ivanova G.A., Byuhanov A.V., Kosov I.V., Goldammer I.G. 2010. Technology of controlled burning in the forests of Siberia: the collective monograph (in Russian with English summary). SFU, Krasnoyarsk.]Search in Google Scholar
[Wang R., Hu H.-Q. 2013. Physiological response of Betula platyphylla leaves to fire and the restoration after fire. Journal of Beijing Forestry University, 36 (1), 31–34.]Search in Google Scholar
[Yamori W., Hikosaka K., Way D.A. 2014. Temperature response of photosynthesis in C3, C4, and CAM plants: temperature acclimation and temperature adaptation. Photosynthesis Research, 119 (1/2), 101–117.]Search in Google Scholar
