The Impact of Climate Change on Betula tortuosa Ledeb. Radial Increment on the Eastern Macroslope of Kuznetsk Alatau

The Impact of Climate Change on Betula tortuosa Ledeb. Radial Increment on the Eastern Macroslope of Kuznetsk Alatau

The climatic response of birch in eastern Kuznetzky Alatau Mountains (Siberia) were analysed based on dendrochronology data. Studied climate variables included temperature, precipitation and root zone moisture (RZM). Periods with maximal correlations for each variable were found. It was established...

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Main Authors: Petrov Il’ya A., Golyukov Alexey S., Shushpanov Alexandr S., Kharuk Viacheslav
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:BIO Web of Conferences
Online Access:https://www.bio-conferences.org/articles/bioconf/full_html/2019/05/bioconf_rpgrs2019_00025/bioconf_rpgrs2019_00025.html
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spelling doaj-fa4befc3f38c48f7b189934448b8cd712021-04-02T19:08:09ZengEDP SciencesBIO Web of Conferences2117-44582019-01-01160002510.1051/bioconf/20191600025bioconf_rpgrs2019_00025The Impact of Climate Change on Betula tortuosa Ledeb. Radial Increment on the Eastern Macroslope of Kuznetsk AlatauPetrov Il’ya A.Golyukov Alexey S.Shushpanov Alexandr S.Kharuk ViacheslavThe climatic response of birch in eastern Kuznetzky Alatau Mountains (Siberia) were analysed based on dendrochronology data. Studied climate variables included temperature, precipitation and root zone moisture (RZM). Periods with maximal correlations for each variable were found. It was established that radial increment was limited by June temperature and July RZM. Correlations of radial increment and ecoclimatic factors were higher when a negative anomalies of respective factor occurred. To estimate the advancement rate of birch trees along elevation gradient, three elevational transects were laid in mountain forest-tundra ecotone. Estimated advancement rate is about 0.5 m per year. Although temperature have a stimulating effect on birch’s radial increment and advancement on elevation gradient in Kuznetzky Alatau Mountains, some depressions in radial increment corresponds to years with soil moisture decrease.https://www.bio-conferences.org/articles/bioconf/full_html/2019/05/bioconf_rpgrs2019_00025/bioconf_rpgrs2019_00025.html
collection DOAJ
language English
format Article
sources DOAJ
author Petrov Il’ya A.
Golyukov Alexey S.
Shushpanov Alexandr S.
Kharuk Viacheslav
spellingShingle Petrov Il’ya A.
Golyukov Alexey S.
Shushpanov Alexandr S.
Kharuk Viacheslav
The Impact of Climate Change on Betula tortuosa Ledeb. Radial Increment on the Eastern Macroslope of Kuznetsk Alatau
BIO Web of Conferences
author_facet Petrov Il’ya A.
Golyukov Alexey S.
Shushpanov Alexandr S.
Kharuk Viacheslav
author_sort Petrov Il’ya A.
title The Impact of Climate Change on Betula tortuosa Ledeb. Radial Increment on the Eastern Macroslope of Kuznetsk Alatau
title_short The Impact of Climate Change on Betula tortuosa Ledeb. Radial Increment on the Eastern Macroslope of Kuznetsk Alatau
title_full The Impact of Climate Change on Betula tortuosa Ledeb. Radial Increment on the Eastern Macroslope of Kuznetsk Alatau
title_fullStr The Impact of Climate Change on Betula tortuosa Ledeb. Radial Increment on the Eastern Macroslope of Kuznetsk Alatau
title_full_unstemmed The Impact of Climate Change on Betula tortuosa Ledeb. Radial Increment on the Eastern Macroslope of Kuznetsk Alatau
title_sort impact of climate change on betula tortuosa ledeb. radial increment on the eastern macroslope of kuznetsk alatau
publisher EDP Sciences
series BIO Web of Conferences
issn 2117-4458
publishDate 2019-01-01
description The climatic response of birch in eastern Kuznetzky Alatau Mountains (Siberia) were analysed based on dendrochronology data. Studied climate variables included temperature, precipitation and root zone moisture (RZM). Periods with maximal correlations for each variable were found. It was established that radial increment was limited by June temperature and July RZM. Correlations of radial increment and ecoclimatic factors were higher when a negative anomalies of respective factor occurred. To estimate the advancement rate of birch trees along elevation gradient, three elevational transects were laid in mountain forest-tundra ecotone. Estimated advancement rate is about 0.5 m per year. Although temperature have a stimulating effect on birch’s radial increment and advancement on elevation gradient in Kuznetzky Alatau Mountains, some depressions in radial increment corresponds to years with soil moisture decrease.
url https://www.bio-conferences.org/articles/bioconf/full_html/2019/05/bioconf_rpgrs2019_00025/bioconf_rpgrs2019_00025.html
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