Размер шрифта

Обычная версия сайта

Khakass Tree Ring Research Laboratory

Novikova S.V., Oreshkova N.V., Sharov V.V., Kuzmin D.A., Demidko D.A., Bisirova E.M., Zhirnova D.F., Belokopytova L.V., Babushkina E.A., Krutovsky K.V. (2024) Study of the genetic mechanisms of Siberian stone pine (Pinus sibirica Du Tour) adaptation to the climatic and pest outbreak stresses using dendrogenomic approach. International Journal of Molecular Sciences, 25(21):11767. https://doi.org/10.3390/ijms252111767
Gavrikov V.L., Sharafutdinov R.A., Fertikov A.I., Vaganov E.A. (2024) Properties of ions may explain elemental stoichiometry in late- and early-wood: a case study in Scots pine tree rings. Journal of Forestry Research, 35:126. https://doi.org/10.1007/s11676-024-01779-7
Belokopytova L.V., Zhirnova D.F., Mehrotra, N., Shah S.K., Babushkina E.A., Vaganov E.A. (2024) Improving the equation of nonlinear relationships between cell anatomical parameters of conifer wood. Trees, online first https://doi.org/10.1007/s00468-024-02559-w
Makhnykina A., Vaganov E., Panov A., Polosukhina D., Prokushkin A. (2024) An Interseasonal Comparison of Soil Respiration in Xeric and Mesic Pine Forest Ecosystems in Central Siberia. Atmosphere, 15:988. https://doi.org/10.3390/atmos15080988
Zhirnova D.F., Belokopytova L.V., Upadhyay K.K., Koshurnikova N.N., Mapitov N.B., Kholdaenko Y.A., Vaganov E.A., Babushkina E.A. (2024) Climatic reactions in the radial growth of Pinus sibirica Du Tour fr om the lower to the upper lim it along the Western Sayan Mountains, Siberia. Forest Ecology and Management, 563:121995. https://doi.org/10.1016/j.foreco.2024.121995.

Khudykh T.A., Belokopytova L.V.,
Yang B., Kholdaenko Y.A., Babushkina E.A., Vaganov E.A. (2024) New Methods in Digital Wood Anatomy: The Use of Pixel-Contrast Densitometry with Example of Angiosperm Shrubs in Southern Siberia. Biology, 13(4):223. https://doi.org/10.3390/biology13040223

Makhnykina A.V., Vaganov E.A., Panov A.V., Koshurnikova N.N., Prokushkin A.S. (2024) The Pulses of Soil CO2 Emission in Response to Rainfall Events in Central Siberia: Revisiting the Overall Frost-Free Season CO2 Flux. Forests, 15:355. https://doi.org/10.3390/f15020355
Gavrikov V.L., Fertikov A.I., Sharafutdinov R.A., Tang Z., Vaganov E.A. (2024) Early-Wood vs. Late-Wood in Scots Pine: Finding Stable Relationships in Elemental Distribution. Sci, 6:4. https://doi.org/10.3390/sci6010004

Babushkina E.A., Dergunov D.R., Zharkov M.S., Belokopytova L.V., Zhirnova D.F., Yang B., Liu J., Peng X., Vaganov E.A. (2024) Wood anatomy chronologies of Scots pine in the foothills of the Western Sayan (Siberia). Journal of Forestry Research, 35:45. https://doi.org/10.3390/f15020249
Zharkov M.S., Yang B., Babushkina E.A., Zhirnova D.F., Vaganov E.A., Shishov V.V. (2024) Tracheids vs. Tree Rings as Proxies for Dendroclimatic Reconstruction at High Altitude: The Case of Pinus sibirica Du Tour. Forests 2024, 15:167. https://doi.org/10.3390/f15010167

Novikova S.V., Oreshkova N.V., Sharov V.V., Zhirnova D.F., Belokopytova L.V., Babushkina E.A., Krutovsky K.V. (2023) Study of the Genetic Adaptation Mechanisms of Siberian Larch (Larix sibirica Ledeb.) Regarding Climatic Stresses Based on Dendrogenomic Analysis. Forests, 14(12):2358. https://doi.org/10.3390/f14122358
Belousova D.A., Shishov V.V., Arzac A., Popkova M.I., Babushkina E.A., Huang J.-G., Yang B., Vaganov E.A. (2023) VS-Cambium-Developer: A New Predictive Model of Cambium Functioning under the Influence of Environmental Factors. Plants, 12(20): 3594. https://doi.org/10.3390/plants12203594

Belokopytova L.V., Zhirnova D.F., Yang B., Babushkina E.A., Vaganov E.A. (2023) Modeling of the statistical distribution of tracheids in conifer rings: finding universal criterion for earlywood–latewood distinction. Plants, 12(19): 3454. https://doi.org/10.3390/plants12193454

Makhnykina A.V., Tychkov I.I., Prokushkin A.S., Pyzhev A.I., Vaganov E.A. (2023) Factors of soil CO2 emission in boreal forests: evidence from Central Siberia. iForest, 16: 86-94. https://doi.org/10.3832/ifor4097-016

Shishov V.V., Arzac A., Popkova M.I., Yang B., He M., Vaganov E.A. (2023) Experimental and theoretical analysis of tree-ring growth in cold climates. In: Girona M.M., Morin H., Gauthier S., Bergeron Y. (eds) Boreal Forests in the Face of Climate Change. Springer, Cham, pp. 295-321. https://doi.org/10.1007/978-3-031-15988-6_11

Gavrikov V.L., Fertikov A.I., Vidus V.E., Sharafutdinov R.A., Vaganov E.A. (2023) Elemental variability in stems of Pinus sylvestris L.: Whether a single core can represent all the stem. Diversity, 15(2):281. https://doi.org/10.3390/d15020281

Churakova (Sidorova) O.V., Porter T.J., Zharkov M.S., Fonti M.V., Barinov V.V., Taynik A.V., Kirdyanov A.V., Knorre A.A., Wegmann M., Trushkina T.V., Koshurnikova N.N., Vaganov E.A., Myglan V.S., Siegwolf R.T.W., Saurer M. (2023) Climate impacts on tree-ring stable isotopes across the Northern Hemispheric boreal zone. Science of Total Environment, 161644. https://doi.org/10.1016/j.scitotenv.2023.161644

Babushkina E.A., Zhirnova D.F., Belokopytova L.V., Mehrotra N., Dergunov D.R., Shah S.K., Vaganov E.A. (2024) Conifer quantitative wood anatomy as proxy data: application in agricultural yield reconstruction. Trees, 38:573-589. https://doi.org/10.1007/s00468-023-02437-x

Kholdaenko Y.A., Babushkina E.A., Belokopytova L.V., Zhirnova D.F., Koshurnikova N.N., Yang B., Vaganov E.A. (2023) The more the merrier or the fewer the better fare? Effects of stand density on tree growth and climatic response in a Scots pine plantation. Forests, 14(5):915. https://doi.org/10.3390/f14050915

Mapitov N.B., Belokopytova L.V., Zhirnova D.F., Abilova S.B., Ualiyeva R.M., Bitkeyeva A.A., Babushkina E.A., Vaganov E.A. (2023) Factors limiting radial growth of conifers on their semiarid borders across Kazakhstan. Biology, 12(4):604. https://doi.org/10.3390/biology12040604

Vaganov E.A., Pyzhev A.I., Kurbatova M.V. [et al.] Prospects for the implementation of forest-climatic projects: the potential of the regions of the Yenisei Siberia. SibFU: Krasnoyarsk, 2023. 160 p. (In Russian)

Gavrikov V., Fertikov A., Sharafutdinov R., Pyzhev A., Vaganov E. (2022) Dendrochemical challenge in climate science: whether chemical elements in wood reflect the fluctuations in weather parameters. Plants, 11(23):3240. https://doi.org/10.3390/plants11233240

Zhirnova D.F., Belokopytova L.V., Krutovsky K.V., Kholdaenko Y.A., Babushkina E.A., Vaganov E.A. (2022) Spatial-coherent dynamics and climatic signals in the radial growth of Siberian stone pine (Pinus sibirica Du Tour) in subalpine stands along the Western Sayan Mountains. Forests, 13(12):1994. https://doi.org/10.3390/f13121994

Babushkina E.A., Sitnikov G.A., Upadhyay K.K., Zhirnova D.F., Zelenov G.K., Vaganov E.A., Belokopytova L.V. (2022) Seasonal growth of pine tree rings: Comparison of direct observations and simulation. Forests, 13(12):1978. https://doi.org/10.3390/f13121978
Demina A.V., Zhirnova D.F., Belokopytova L.V.,
Upadhyay K.K., Babushkina E.A. (2022) Detailing the climatic response of wood anatomical traits and xylogenesis phenology of Scots pine in the forest-steppes of Southern Siberia. Journal of Siberian Federal University. Biology, 15(2):183–201. https://doi.org/10.17516/1997-1389-0382

ntgen U., Arseneault D., Boucher É., Churakova (Sidorova) O.V., Gennaretti F., Crivellaro A., Hughes M.K., Kirdyanov A.V., Klippel L., Krusic P.J., Linderholm H.W., Ljungqvist F.C., Ludescher J., McCormick M., Myglan V.S., Nicolussi K., Piermattei A., Oppenheimer C., Reinig F., Sigl M., Vaganov E.A., Esper J. (2022) Recognising bias in Common Era temperature reconstructions. Dendrochronologia, 74: 125982. https://doi.org/10.1016/j.dendro.2022.125982

Belokopytova L.V., Zhirnova D.F., Krutovsky K.V., Mapitov N.B., Vaganov E.A., Babushkina E.A. (2022) Species- and age-specific growth reactions to extreme droughts of the keystone tree species across forest-steppe and sub-taiga habitats of South Siberia. Forests, 13(7):1027. https://doi.org/10.3390/f13071027
 Zharkov M.S., Huang J.-G., Yang B., Babushkina E.A., Belokopytova L.V., Vaganov E.A., Zhirnova D.F., Ilyin V.A., Popkova M.I.,  Shishov V.V. (2022) Tracheidogram’s classification as a new potential proxy in high-resolution dendroclimatic reconstructions. Forests, 13(7):970. https://doi.org/10.3390/f13070970

Kholdaenko Y.A., Belokopytova L.V., Zhirnova D.F., Upadhyay K.K. Tripathi S.K., Koshurnikova N.N., Sobachkin R.S., Babushkina E.A., Vaganov E.A. (2022) Stand density effects on tree growth and climatic response in Picea obovata Ledeb. plantations. Forest Ecology and Management, 519:120349. https://doi.org/10.1016/j.foreco.2022.120349

Zhirnova D.F., Belokopytova L.V., Upadhyay K.K., Tripathi S.K., Babushkina E.A., Vaganov E.A. (2022) 495-year wood anatomical record of Siberian stone pine (Pinus sibirica Du Tour) as climatic proxy on the timberline. Forests, 13(2):247. https://doi.org/10.3390/f13020247

Belokopytova L.V., Zhirnova D.F., Meko D.M., Babushkina E.A., Vaganov E.A., Krutovsky K.V. (2021) Tree rings reveal the impact of soil temperature on larch growth in the forest-steppe of Siberia. Forests. 2021; 12(12):1765. https://doi.org/10.3390/f12121765

Demina A.V., Belokopytova L.V., Zhirnova D.F., Mehrotra N., Shah S.K., Babushkina E.A., Vaganov E.A. (2022) Degree of connectivity in reconstructed precipitation dynamics and extremes for semiarid regions across South Siberia. Dendrochronologia, 71:125903. https://doi.org/10.1016/j.dendro.2021.125903

Babushkina E.A., Dergunov D.R., Belokopytova L.V., Zhirnova D.F., Upadhyay K.K., Tripathi S.K., Zharkov M.S., Vaganov E.A. (2021) Non-linear response to cell number revealed and eliminated from long-term tracheid measurements of Scots pine in Southern Siberia. Frontiers in Plant Science, 12:719796. https://doi.org/10.3389/fpls.2021.719796

Belousova D.A., Shishov V.V., Babushkina E.A., Vaganov E.A. (2021) VS-Cambium-Developer: a new approach to modeling the functioning of the cambial zone of conifers under the influence of environmental factors. Russian Journal of Ecology, 52: 358-367. https://doi.org/10.1134/S1067413621050040

Arzac A., Fonti M.V., Vaganov E.A. (2021) An overview on dendrochronology and quantitative wood anatomy studies of conifers in Southern Siberia (Russia). Progress in Botany [book series], Vol. 83, pp. 161-181. Springer, Berlin, Heidelberg. https://doi.org/10.1007/124_2021_52
Belokopytova, L.V., Meko, D.M., Zhirnova, D.F. Babushkina, E.A., Vaganov, E.A. (2021) Spatial classification of moisture-sensitive pine and larch tree-ring chronologies within Khakass–Minusinsk Depression, South Siberia. Trees, 35(6):2133-2139.. https://doi.org/10.1007/s00468-021-02196-7
Zhirnova D.F., Belokopytova L.V., Meko, D.M., Babushkina E.A., Vaganov E.A(2021) Climate change and tree growth in the Khakass-Minusinsk Depression (South Siberia) impacted by large water reservoirs. Scientific Reports, 11: 14266. https://doi.org/10.1038/s41598-021-93745-0

Zharkov М.S., Belokopytova L.V., Fonti M.V., Babushkina Е.А., Vaganov Е.А. (2021) What quantitative anatomy can provide for kinetics of xylogenesis: analysis of cell radial diameters. Journal of Siberian Federal University. Biology, 14(1): 84–96. https://doi.org/10.17516/1997-1389-0342

Zhirnova D.F., Belokopytova L.V., Babushkina E.A., Crivellaro A., Vaganov E.A. (2021) Earlywood structure of evergreen conifers near forest line is habitat driven but latewood depends on species and seasons. Trees, 35(2): 479–492. https://doi.org/10.1007/s00468-020-02050-2

Kostyakova T.V., Belokopytova L.V., Zhirnova D.F., Babushkina E.A., Vaganov E.A. (2021) Dendrochronological indication of phyllophages’ outbreaks by larch radial growth in the forest-steppe zone of the Republic of Tyva. Contemporary Problems of Ecology, 14(1): 37–48. https://doi.org/10.1134/S1995425521010054

Babushkina E.A., Zhirnova D.F., Belokopytova L.V., Mehrotra N., Shah S.K., Keler V.V., Vaganov E.A. (2021) Prospects of using tree‐ring earlywood and latewood width for reconstruction of crops yield on example of South Siberia. Forests, 12(2):174. https://doi.org/10.3390/f12020174

Popkova M.I., Shishov V.V., Vaganov E.A., Fonti M.V., Kirdyanov A.V., Babushkina E.A., Huang J.-G., Rossi S. (2020) Contribution of xylem anatomy to tree-ring width of two larch species in permafrost and non-permafrost zones of Siberia. Forests, 11(12): 1343https://doi.org/10.3390/f11121343

Belokopytova L.V., Fonti P., Babushkina E.A., Zhirnova D.F., Vaganov E.A. (2020) Evidences of different drought sensitivity in xylem cell developmental processes in South Siberia Scots pinesForests, 11: 294. https://doi.org/10.3390/f11121294

Fonti M.V., Babushkina E.A., Zhirnova D.F., Vaganov E.A. (2020) Xylogenesis of Scots pine in an uneven-aged stand of the Minusinsk Depression (Southern Siberia). Journal of Siberian Federal University. Biology, 13(2): 197-207. https://doi.org/10.17516/1997-1389-0323

Vaganov E.A., Babushkina E.A., Belokopytova L.V., Zhirnova D.F. (2020) Small fluctuations in cell wall thickness in pine and spruce xylem: Signal from cambium?. PLOS ONE 15(5): e0233106. https://doi.org/10.1371/journal.pone.0233106

Dyachuk P., Arzac A., Peresunko P., Videnin S., Ilyin V., Assaulianov R., Babushkina E.A., Zhirnova 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, 60: 125687. https://doi.org/10.1016/j.dendro.2020.125687.

Babushkina E.A., Zhirnova D.F., Belokopytova L.V., Vaganov E.A. (2020) Warming induced changes in wood matter accumulation in tracheid walls of spruce. Journal of Mountain Science, 17(1): 16-30.https://doi.org/10.1007/s11629-019-5516-6

Zhirnova D.F., Babushkina E.A.,  Belokopytova L.V., Vaganov E.A. (2020) To which side are the scales swinging? Growth stability of Siberian larch under permanent moisture deficit with periodic droughts. Forest Ecology and Management, 459: 117841. https://doi.org/10.1016/j.foreco.2019.117841

Zhirnova D.F., Belokopytova L.V., Barabantsova A.E., Babushkina E.A., Vaganov E.A. (2020) What prevails in climatic response of Pinus sylvestris in-between its range limits in mountains: slope aspect or elevation? International Journal of Biometeorology, 64: 333-344. https://doi.org/10.1007/s00484-019-01811-0

Babushkina E.A., Zhirnova D.F., Belokopytova L.V., Tychkov I.I., Vaganov E.A., Krutovsky K.V. (2019) Response of four tree species to changing climate in a moisture-limited area of South Siberia. Forests, 10(11), 999. https://doi.org/10.3390/f10110999

Zhirnova D.F., Babushkina E.A., Belokopytova L.V., Yurin D.O., Vaganov E.A. (2019) Sunshine as culprit: It induces early spring physiological drought in dark coniferous (Pinus sibirica and Abies sibirica) alpine forest. Forest Ecology and Management, 449:117458. (PDF)

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, 33(2):345-357. https://doi.org/10.1007/s00468-018-1780-2

Belokopytova L.V., Babushkina E.A., Zhirnova D.F., Panyushkina I.P., Vaganov E.A. (2019) Pine and larch tracheids capture seasonal variations of climatic signal at moisture-limited sites. Trees, 33(1): 227-242. https://doi.org/10.1007/s00468-018-1772-2

Babushkina E.A., Belokopytova L.V., Zhirnova D.F., Vaganov E.A. (2019) Siberian spruce tree ring anatomy: imprint of development processes and their high-temporal environmental regulation. Dendrochronologia, 53: 114-124. https://doi.org/10.1016/j.dendro.2018.12.003

Babushkina E., Belokopytova L., Zhirnova D., Barabantsova A., Vaganov E. (2018) Divergent growth trends and climatic response of Picea obovata along elevational gradient in Western Sayan mountains, Siberia. Journal of Mountain Science, 15(11): 2378-2397. https://doi.org/10.1007/s11629-018-4974-6

Belousova D., Popkova M., Babushkina E., Shishov V. (2018) Timing of cell production in tree rings: an automatic two-step procedure in R. SGEM2018 Conference Proceedings. Section Forest Ecosystems. pp. 1053-1060. URL: https://sgemworld.at/sgemlib/spip.php?article12045

Belokopytova L., Zhirnova D., Kostyakova T., Babushkina E. (2018) Dynamics of moisture regime and its reconstruction from a tree-ring width chronology of Pinus sylvestris in the downstream basin of the Selenga River, Russia. Journal of Arid Land, 10(6): 877-891. https://doi.org/10.1007/s40333-018-0025-y

Arzac A., López-Cepero J.M., Babushkina E.A., Gomez S. (2018) Applying methods of hard tissues preparation for wood anatomy: Imaging polished samples embedded in polymethylmethacrylate. Dendrochronologia, 51:76-81. (PDF)

Popkova M., Vaganov E.A., Shishov V.V., Babushkina E.A., Rossi S., Bryukhanova M.V., Fonti P. (2018) Modeled tracheidograms disclose drought influence on Pinus sylvestris tree-rings structure from Siberian forest-steppe. Frontiers in Plant Science, 9:1144. (PDF)

Belokopytova L.V., Babushkina E.A., Zhirnova D.F., Panyushkina I.P., Vaganov E.A. (2018) Сlimatic response of conifer radial growth in forest-steppes of South Siberia: comparison of three approaches. Contemporary Problems of Ecology, 11(4):366-376. (PDF)

Babushkina E.A., Belokopytova L.V., Zhirnova D.F., Shah S.K., Kostyakova T.V.  (2018) Climatically driven yield variability of major crops in Khakassia (South Siberia). International Journal of Biometeorology, 62(6): 939–948. (PDF)

Babushkina E.A., Belokopytova L.V., Kostyakova T.V. and Kokova V.I. (2018) Earlywood and latewood features of Pinus sylvestris in Semiarid Natural Zones of South Siberia. Russian Journal of Ecology, 49(3): 209-217. (PDF)

Arzac A., Babushkina E.A., Fonti P., Slobodchikova V., Sviderskaya I.V., Vaganov E.A. (2018) Evidences of wider latewood in Pinus sylvestris from a forest-steppe of Southern Siberia. Dendrochronologia, 49: 1-8. (PDF)

Babushkina E.A., Belokopytova L.V., Shah S.K., Zhirnova D.F. (2018) Past crops yield dynamics reconstruction from tree-ring chronologies in the forest-steppe zone based on low- and high-frequency components. International Journal of Biometeorology, 62(5): 861-871. (PDF)

Kostyakova T.V., Touchan R., Babushkina E.A., Belokopytova L.V. (2018) Precipitation reconstruction for the Khakassia region, Siberia, from tree rings. The Holocene, 28(3):377-385. (PDF)

Belokopytova, L.V. (2017) Contribution of Local Habitat Conditions and Individual Variability to the Climatic Response of Conifers in the South Siberia Forest-Steppes. PhD dissertation. Krasnoyarsk, SibFU. 66 p.

Demina A.V., Belokopytova L.V., Andreev S.G., Kostyakova T.V., Babushkina E.A. (2017) Radial increment dynamics of Scots pine (Pinus sylvestris L.) as an indicator of hydrothermal regime of the Western Transbaikalia forest steppe. Contemporary Problems of Ecology, 10(5): 476–487. (PDF

E. A. Babushkina, L. V. Belokopytova, A. M. Grachev, D. M. Meko, E. A. Vaganov (2017) Variation of the hydrological regime of Bele-Shira closed basin in Southern Siberia and its reflection in the radial growth of Larix sibirica. Regional Environmental Change,17(6): 1725-1737. (PDFSupplementary materials)

T. V. Kostyakova, M V. Bryukhanova (2016) International Summer School “Plant Ecology and Digital Wood Anatomy” in Siberia, Russia. Dendrochronologia, 40: 128–129. (PDF)

E. A. Babushkina, E. A. Vaganov, A. M. Grachev, N. V. Oreshkova, L. V. Belokopytova, T. V. Kostyakova, K. V. Krutovsky (2016) The effect of individual genetic heterozygosity on general homeostasis, heterosis and resilience in Siberian larch (Larix sibirica Ledeb.) using dendrochronology and microsatellite loci genotyping. Dendrochronologia, 38: 26–37. (PDF)

Popkova M., Babushkina E., Tychkov I., Shishov V. (2016) Time identification of tree rings cell production due to climate factors in Siberia. SGEM2016 Conference Proceedings. Section Forest Ecosystems, 3(2). pp. 677-684.

Tychkov I., Popkova M., Shishov V., Babushkina E. (2016) VS-oscilloscope: simulation of tree-ring in Siberia. SGEM2016 Conference Proceedings. Section Forest Ecosystems, 3(2). pp. 623-630.

P. Fonti, E. A Babushkina (2015) Tracheid anatomical responses to climate in a forest-steppe in Southern Siberia. Dendrochronologia, 10.1016/j.dendro.2015.09.002 (PDF)

M. I. Popkova, I. I. Tychkov, E. A. Babushkina and V. V. Shishov (2015) A modified algorithm for estimating  the radial cell size in the Vaganov-Shashkin simulation model. Journal of Siberian Federal University. Biology, 4(8): 495-513.

E. A. Babushkina, L. V. Belokopytova (2015) Cambial zone is the main target of external factors influence on the conifers tree-ring formation.  BHEI “Lesnoy Zhurnal", 6: 35-45. (PDF)

E. A. Babushkina, E. A. Vaganov, L. V. Belokopytova, V. V. Shishov, A. M. Grachev (2015) Competitive strength effect in the climate response of Scots pine radial growth in south-central Siberia forest-steppe. Tree Ring Research, 71(2): p.106-117. (PDF)

Shah S. K., Touchan R., Babushkina E. A., Shishov V. V., Meko D. M., Abramenko O. V., Belokopytova L. V., Hordo M., Jevsenak J., Kędziora W., Kostyakova T. V., Moskwa A., Oleksiak Z., Omurova G., Ovchinnikov S., Sadeghpour M., Saikia A., Sidenko T., Strantsov A., Tamkevičiūtė M., Tomusiak R., Tychkov I., Sewastynowicz L. (2015) August-July precipitation from tree rings in forest-steppe zone of Central Siberia (Russia). Tree Ring Research, 71(1): 37-44. (PDF)

E.A. Babushkina, L.V. Belokopytova (2014) Climatic signal in radial Increment of conifers in forest steppe of Southern Siberia and its dependence on local growing conditions. Russian Journal of Ecology, 5: 323–331. (PDF)

E. A. Babushkina, A. A. Knorre, E. A. Vaganov, and M. V. Bryukhanova (2011) Transformation of climatic response in radial increment of trees depending on topoecological conditions of their occurrence.  Geography and Natural Resources, 1: 159-166. (PDF)

E. A. Babushkina, E. A. Vaganov and P. P. Silkin (2010) Influence of climatic factors on tree-ring cell structure of conifers growing in different topoecological conditions in forest-steppe zone of Khakassia. Journal of Siberian Federal University. Biology, 3(2):159-176. (PDF

Scroll to top