Dr. Vladimir V. Shishov

Lead scientist


Published work in the last five years


2 (19). Buttò V., Deslauriers A., Rossi S., Rozenberg P., Shishov V.,  Morin H. 2020. The role of plant hormones in tree‑ring formation. Trees - Structure and Function. V. 34(2), P. 315-335 DOI: 10.1007/s00468-019-01940-4

1 (18). Dyachuk P., Arzac A., Peresunko P., Videnin S., Ilyin V., Assaulianov R., Babushkin E.A., Zhirnov D., Belokopytova L., Vaganov E.A., Shishov V.V. 2020. AutoCellRow (ACR) – A new tool for the automatic quantification of cell radial files in conifer images. Dendrochronologia. V. 60, 125687. DOI: 10.1016/j.dendro.2020.125687


6 (17). Rathgeber C.B.K., Fonti P., Shishov V.V., Rozenberg P. 2019. Wood formation and tree adaptation to climate. Annals of Forest Science V. 76: 109. DOI: 10.1007/s13595-019-0902-3

5 (16). Arzac A., Popkova M., Anarbekova A., Olano J.M., Gutiérrez E., Nikolaev A.,  Shishov V. 2019. Increasing radial and latewood growth rates of Larix cajanderi Mayr. and Pinus sylvestris L. in the continuous permafrost zone in Central Yakutia (Russia). Annals of Forest Science. V. 76(4). DOI: 10.1007/s13595-019-0881-4

4 (15). He M., Yang B., Rossi S., Bräuning A., Shishov V., Kang S. 2019. Simulated and predicted responses of tree stem radial growth to climatechange—A case study in semi-arid north central China. Dendrochronologia. V. 58. DOI: 10.1016/j.dendro.2019.125632

3 (14). He M., Yang B, Bräuning A., Rossi S., Ljungqvist F.C., Shishov V., Grießinger J., Wang J., Liu J,, Qin C. 2019. Recent advances in dendroclimatology in China. Earth-Science Reviews. V.194. P. 521-535. DOI: 10.1016/j.earscirev.2019.02.012

2 (13). Gao J., Yang B., He M., Shishov V. 2019.  Intra-annual stem radial increment patterns of Chinese pine, Helan Mountains, Northern Central China. Trees - Structure and Function. V. 33 (3). P. 751-763. DOI: 10.1007/s00468-019-01813-w

1 (12). Tychkov I.I., · Sviderskaya I.V., · Babushkina E.A., · Popkova M.I., · Vaganov E.A., Shishov V.V. 2019. How can the parameterization of a process-based model help us understand real tree-ring growth? Trees - Structure and Function. V. 33(2). P. 345-357 DOI: 10.1007/s00468-018-1780-2 


4 (11). Popkova M.I., Vaganov E.A., Shishov V.V., Babushkina E.A., Rossi S., Fonti M.V., Fonti P. 2018. Modeled tracheidograms disclose drought influence on Pinus sylvestris tree-rings structure from Siberian forest-steppe. Frontiers in Plant Science. V.9. DOI: 10.3389/fpls.2018.01144

3 (10). He M., Yang B.,  Shishov V., Rossi S., Bräuning A., Ljungqvist F.C., Grießinger J. 2018. Relationships between wood formation and cambium phenology on the Tibetan plateau during 1960-2014. Forests. V.9 (2).

2 (9). He M., Yang B., Shishov V., Rossi S., Brauning A.,  Ljungqvist F. C., Grießinger J. 2018. Projections for the changes in growing season length of tree-ring formation on the Tibetan Plateau based on CMIP5 model simulations. International journal of biometeorology. 62(4), с. 631-641. DOI:10.1007/s00484-017-1472-4

1 (8). Belousova D., Popkova M., Babushkina E., Shishov V. 2018. Timing of cell production in tree rings: An automatic two-step procedure in R. International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management proceedings, SGEM 2018. V3(2), P. 1053-1060. DOI: 10.5593/sgem2018/3.2/S14.134


2 (7). Yang B., He M., Shishov V., Tychkov I., Vaganov E., Rossi S., Ljungqvist F.C., Achim Bräuning A., Grießinger J. 2017. New perspective on spring vegetation phenology and global climate change based on Tibetan Plateau tree-ring data. Proceedings of the National Academy of Sciences of the United States of America - PNAS. V.114 (27). P. 6966–6971. DOI: 10.1073/pnas.1616608114

1 (6). He M., Shishov V., Kaparova N., Yang B., Bräuning A., Grießinger J. 2017. Process-based modeling of tree-ring formation and its relationships with climate on the Tibetan Plateau. Dendrochronologia. DOI: http://dx.doi.org/10.1016/j.dendro.2017.01.0021125-7865


5 (5). Panyushkina I.P., Shishov V.V., Grachev A.M., Knorre A.A., Kirdyanov A.V., Leavitt S.T., Vaganov E.A., Chebykin E.P., Zhuchenko N.A., Hughes M.K. 2016. Trends in elemental concentrations of tree rings from the Siberian Arctic. Tree-ring Research. Vol. 72(2), P. 67–77. DOI: http://dx.doi.org/10.3959/1536-1098-72.02.67

4 (4). Touchan R., Shishov V.V., Tychkov I.I., Sivrikaya F., Attieh J., Ketmen M., Stephan J., Mitsopoulos I., Christou A., Meko D.M. 2016. Elevation-layered dendroclimatic signal in eastern Mediterranean tree rings. Environ. Res. Lett. V.11 (4). 044020. DOI:10.1088/1748-9326/11/4/044020

3 (3). Shishov, V.V., Tychkov, I.I., Popkova, M.I., Ilyin, V.A., Bryukhanova, M.V., Kirdyanov, A.V. 2016. VS-oscilloscope: a new tool to parameterize tree radial growth based on climate conditions. Dendrochronologia. DOI: 10.1016/j.dendro.2015.10.001

2 (2). Tychkov, I. I., Popkova M. I., Shishov V. V., Babushkina E. A. 2016. VS-oscilloscope: Simulation of tree-ring in Siberia. Water resources, forest, marine and ocean ecosystems conference proceedings, SGEM 2016, VOL II. WOS:000391653500082. (Web of Science)

1 (1). Popkova M. I., Babushkina E. A., Tychkov, I. I., Shishov V. V. 2016. Time identification of tree rings cell production due to climate factors in Siberia. Water resources, forest, marine and ocean ecosystems conference proceedings, SGEM 2016, VOL II. WOS:000391653500089 (Web Of Science)

and Mining Ecology Management, SGEM, V.2 (3). ISSN: 1314-2704. P. 537-544


Siberian Federal University

Akademgorodok 50A-K2, room 503, Krasnoyarsk-Russia

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©2020 by Laboratory for Complex Studies of Forest Dynamics in Eurasia. Siberian Federal University.

The laboratory is supported by the Ministry of Science and Education of the Russian Federation (project FSRZ-2020-0014).