Modern Climate Changes in the Selenga Mid-mountain Region and their Reflection in Rivers Runnow and Tree Ring Chronologies

Vahnina L. Vahnina; Вахнина Вахнина Леонидовна; Elena V. Noskova; Носкова Елена Викторовна; Viktor A. Obyazov; Обязов Виктор Афанасьевич; Konstantin A. Kurganovich; Курганович Константин Анатольевич; Vladimir S. Myglan; Мыглан Владимир Станиславович

doi:10.31857/S0869607124020014

Modern Climate Changes in the Selenga Mid-mountain Region and their Reflection in Rivers Runnow and Tree Ring Chronologies

作者: Vahnina V.L.¹, Noskova E.V.¹, Obyazov V.A.², Kurganovich K.A.³, Myglan V.S.⁴
隶属关系:
1. Institute of Natural Resources, Ecology and Cryology, Siberian Branch of the Russian Academy of Sciences
2. LLC NPO Gidrotekhproekt
3. Transbaikal State University
4. Siberian Federal University
期: 卷 156, 编号 2 (2024)
页面: 93-112
栏目: Articles
URL: https://journals.rcsi.science/0869-6071/article/view/270808
DOI: https://doi.org/10.31857/S0869607124020014
EDN: https://elibrary.ru/MPHPBC
ID: 270808

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Based on data from 7 meteorological stations, the main parameters (surface air temperature, precipitation, aridity and humidification indices) characterizing climate trends for 1950–2021 were considered on the territory of the Selenga midlands (The Republic of Buryatia), and their influence on river flow and radial growth of Scots pine. A significant increase in surface air temperature is shown, occurring with a high degree of consistency at different weather stations. The average value of the linear trend for the territory for the general period was 2.1°C. The most intense increase in temperature and increase in the frequency of above-zero anomalies has been observed in the last 11 years (2011–2021). In the precipitation regime during the study period, two complete moistening cycles were identified (1961–1981 and 1982–2018) lasting 21 and 37 years. Currently, there is a humid phase, which began in 2019. An increase in temperature leads to increased aridity of the region, which is especially noticeable during the arid phases. The cyclicity characteristic of the precipitation regime is also manifested in long-term changes in river flow. The river’s water flows are most dependent on precipitation. Selenga. However, the synchronicity of their changes is not observed throughout the entire time series. In the precipitation regime, the phase of reduced moisture at the beginning of the 21st century is not as clearly expressed as in the runoff regime. The same differences were revealed in the flow regime of different rivers, which is due to the location of their catchment areas. The watersheds of only two rivers — Dzhida and Orongoy — are located entirely in the Selenga midlands. Most of the catchments of the Selenga and Chikoy rivers are located outside the study area. This circumstance determines to a large extent the good consistency of long-term changes in the water flows of these rivers and the differences from the river flow regime. Orongoya and especially r. Jids. The dynamics of the width of the annual rings of Scots pine trees growing in the Selenga midlands reflects changes in its hydrothermal regime during the current and previous growing seasons. The influence of atmospheric precipitation is pronounced, so the amount of precipitation for May–June explains about 40% of the increase for the residual (without autocorrelation component) tree-ring chronology.

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climate, hydrology, dendrochronology, river catchment area. Selenga, Baikal region, Southwestern Transbaikalia

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Vahnina Vahnina

Institute of Natural Resources, Ecology and Cryology, Siberian Branch of the Russian Academy of Sciences

编辑信件的主要联系方式.
Email: vahnina_il@mail.ru

PhD in Biology, Senior Researcher of the Laboratory of Geography and Regional Nature Management

俄罗斯联邦, Chita

Elena Noskova

Institute of Natural Resources, Ecology and Cryology, Siberian Branch of the Russian Academy of Sciences

Email: elena-noskova-2011@mail.ru

PhD in Geographical Sciences, Researcher of the Laboratory of Geography and Regional Nature Management

俄罗斯联邦, Chita

Viktor Obyazov

LLC NPO Gidrotekhproekt

Email: obviaf@mail.ru

Doctor of Geographic Sciences, Technical Director

俄罗斯联邦, Valdai

Konstantin Kurganovich

Transbaikal State University

Email: naptheodor@mail.ru

PhD in Technical Sciences, Head of the Department of Water Management, Environmental and Industrial Safety

俄罗斯联邦, Chita

Vladimir Myglan

Siberian Federal University

Email: v.myglan@gmail.com

Doctor of historical sciences, leading Researcher

俄罗斯联邦, Krasnoyarsk

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2. Fig. 1. The study area and the location of meteorological stations and hydrological posts on it (1 — Selenga river– Mostovoy station; 2 — Chikoy river–Povorot village; 3 — Dzhida river–Dzhida village; 4 — Orongoy river– Orongoi Bridge) and dendrochronological sites.

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3. Fig. 2. Average annual anomalies of average monthly air temperature values (histograms) and average annual air temperature (line) in the Selenga midlands for 1950–2021.

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4. Fig. 3. Annual anomalies of monthly values of the amount of atmospheric precipitation (histograms) and long-term changes in the annual amount of atmospheric precipitation (solid line) in the territory of the Selenga midlands for 1950–2021.

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5. Fig. 4. Comparison of long-term changes in annual river flowof Selenga with river flowof Chikoya (a), Jida (b) and Orongoy (c) smoothed using five-year moving averaging (1 — Selenga river—Mostovoy s.; 2 — Chikoy river— Povorot village; 3 — Dzhida river—Dzhida village; 4 — Orongoy river—Orongoi bridge).

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6. Fig. 5. Long-term changes in the annual river flowof Selengi near the rzd. Mostovoy (1) and annual amounts of atmospheric precipitation averaged over the territory of the Selenga midlands (2), smoothed using five-year moving averaging.

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卷 157, 编号 1 (2025)

卷 157, 编号 1 (2025)

Modern Climate Changes in the Selenga Mid-mountain Region and their Reflection in Rivers Runnow and Tree Ring Chronologies

全文:

详细

关键词

全文:

作者简介

Vahnina Vahnina

Elena Noskova

Viktor Obyazov

Konstantin Kurganovich

Vladimir Myglan

参考

补充文件