One of the possible consequences of climate change is a change in the demographic dynamics of phyllophagous insects. For a retrospective analysis of this dynamics, tree rings are used, especially in regions with limited documentary data. Due to the complex nature of the factors determining tree...
Author(s)
Kostyakova, T. V.; Belokopytova, L. V.; Zhirnova, D. F.; Babushkina, E. A.; Vaganov, E. A.
Publisher
Pleiades Publishing, Moscow, Russia
Citation
Contemporary Problems of Ecology, 2021, 14, 1, pp 37-48
Quantitative wood anatomy (QWA) is widely used to resolve a fundamental problem of tree responses to past, ongoing and forecasted climate changes. Potentially, QWA data can be considered as a new proxy source for long-term climate reconstruction with higher temporal resolution than traditional...
Author(s)
Zharkov, M. S.; Huang JianGuo; Yang Bao; Babushkina, E. A.; Belokopytova, L. V.; Vaganov, E. A.; Zhirnova, D. F.; Ilyin, V. A.; Popkova, M. I.; Shishov, V. V.
Publisher
MDPI AG, Basel, Switzerland
Citation
Forests, 2022, 13, 7,
Tree rings from forest-steppes of temperate continental Asia are useful proxies for the moisture regime reconstructions, encompassing environmental variations such as warming climate, changing frequency and intensity of droughts. Heterogeneity of precipitation leaves open the question of the...
Author(s)
Demina, A. V.; Belokopytova, L. V.; Zhirnova, D. F.; Nivedita Mehrotra; Shah, S. K.; Babushkina, E. A.; Vaganov, E. A.
Publisher
Elsevier GmbH, Munich, Germany
Citation
Dendrochronologia, 2022, 71,
Siberian stone pine (Pinus sibirica Du Tour) is one of the keystone conifers in Siberian taiga, but its radial growth is complacent and thus rarely investigated. We studied its growth in subalpine stands near the upper timberline along the Western Sayan Mountains, Southern Siberia, because climatic ...
Author(s)
Zhirnova, D. F.; Belokopytova, L. V.; Krutovsky, K. V.; Kholdaenko, Y. A.; Babushkina, E. A.; Vaganov, E. A.
Publisher
MDPI AG, Basel, Switzerland
Citation
Forests, 2022, 13, 12,
Quantitative wood anatomy (QWA) is a growing field of dendrochronology that allows obtaining a large number of parameters as the number, size and spatial arrangement of cellular elements, elements that highlight the adjustments of trees to their environment. In this work, we presented the...
Author(s)
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.
Publisher
Elsevier GmbH, Munich, Germany
Citation
Dendrochronologia, 2020, 60,
The application of quantitative wood anatomy (QWA) in dendroclimatic analysis offers deep insight into the climatic effect on tree-ring formation, which is crucial in understanding the forests' response to climate change. However, interrelations between tree-ring traits should be accounted to...
Author(s)
Zhirnova, D. F.; Belokopytova, L. V.; Upadhyay, K. K.; Tripathi, S. K.; Babushkina, E. A.; Vaganov, E. A.
Publisher
MDPI AG, Basel, Switzerland
Citation
Forests, 2022, 13, 2,
The wide intermountain Khakass-Minusinsk Depression (KhMD) in southern Siberia presents an ideal setting for studying the potential impacts of a warming climate on forest ecosystems. The Centre of Continental Asia has one of the most intense rates of warming in the Northern Hemisphere, and the KhMD ...
Author(s)
Belokopytova, L. V.; Meko, D. M.; Zhirnova, D. F.; Babushkina, E. A.; Vaganov, E. A.
Publisher
Springer-Verlag GmbH, Berlin, Germany
Citation
Trees: Structure and Function, 2021, 35, 6, pp 2133-2139
The results of dating of extreme climatic events by damage to the anatomical structure and missing tree rings of the Siberian larch in the upper forest boundary of the Altai Republic are given. An analysis of the spatial distribution of the revealed dates over seven plots (Kokcy, Chind, Ak-ha,...
Author(s)
Barinov, V. V.; Myglan, V. S.; Nazarov, A. N.; Vaganov, E. A.; Agatova, A. R.; Nepop, R. K.
Publisher
Pleiades Publishing, Moscow, Russia
Citation
Biology Bulletin, 2016, 43, 2, pp 152-161
Dendroclimatology has focused mainly on the tree growth response to atmospheric variables. However, the roots of trees directly sense the "underground climate," which can be expected to be no less important to tree growth. Data from two meteorological stations approximately 140 km apart in southern ...
Author(s)
Belokopytova, L. V.; Zhirnova, D. F.; Meko, D. M.; Babushkina, E. A.; Vaganov, E. A.; Krutovsky, K. V.
Publisher
MDPI AG, Basel, Switzerland
Citation
Forests, 2021, 12, 12,
Dendroclimatic research offers insight into tree growth-climate response as a solution to the forward problem and provides reconstructions of climatic variables as products of the reverse problem. Methodological developments in dendroclimatology have led to the inclusion of a variety of tree growth ...
Author(s)
Babushkina, E. A.; Dergunov, D. R.; Belokopytova, L. V.; Zhirnova, D. F.; Upadhyay, K. K.; Tripathi, S. K.; Zharkov, M. S.; Vaganov, E. A.
Publisher
Frontiers Media S.A., Lausanne, Switzerland
Citation
Frontiers in Plant Science, 2021, 12, October,