Measured and modelled source water δ18O based on tree-ring cellulose of larch and pine trees from the permafrost zone
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DOI:
10.3832/ifor3212-013URI (для ссылок/цитирований):
https://iforest.sisef.org/abstract/?id=ifor3212-013https://elib.sfu-kras.ru/handle/2311/143337
Автор:
Olga V Churakova (Sidorova)
Sebastian, Lienert
Galina, Timofeeva
Rolf, Siegwolf
John, Roden
Fortunat, Joos
Matthias, Saurer
Коллективный автор:
Институт экологии и географии
Лаборатория биогеохимии экосистем
Дата:
2020Журнал:
iForestКвартиль журнала в Scopus:
Q2Квартиль журнала в Web of Science:
Q3Библиографическое описание:
Olga V Churakova (Sidorova). Measured and modelled source water δ18O based on tree-ring cellulose of larch and pine trees from the permafrost zone [Текст] / Olga V Churakova (Sidorova), Lienert Sebastian, Timofeeva Galina, Siegwolf Rolf, Roden John, Joos Fortunat, Saurer Matthias // iForest. — 2020. — Т. 13. — С. 224-229Текст статьи не публикуется в открытом доступе в соответствии с политикой журнала.
Аннотация:
mechanistic models that quantify physical and biochemical fractionation processes,
leading to oxygen isotope variation (δ18O) in plant organic matter.
These models allowed us to investigate the influence of a variety of climatic
factors on tree-ring cellulose from two dominant species: Larix cajanderi
Mayr. from northeastern Yakutia (69° 22′ N, 148° 25′ E, ~ 250 m a.s.l.) and Pinus
sylvestris L. from Central Yakutia (62°14′ N, 129°37′ E, ~ 220 m a.s.l.).
The climate of the region is highly continental with short growing seasons, low
amount of precipitation and these forest ecosystems are growing on permafrost,
which in turn impact the water cycle and climate variation in the δ18O
of source water. We compared outputs of the Land surface Processes and eXchanges
(LPX-Bern v. 1.3), and Roden-Lin-Ehleringer (RLE) models for the common
period from 1945 to 2004. Based on our findings, trees from northeastern
and central Yakutia may have access to additional thawed permafrost water
during dry summer periods. Owing to differences in the soil structure, active
thaw soil depth and root systems of trees at two Siberian sites, Larix cajanderi
Mayr. trees can access water not more than from 50 cm depth, in contrast
to Pinus sylvestris L. in Central Yakutia which can acquire water from up to 80
cm soil depth. The results enhance our understanding of the growth and survival
of the trees in this extreme environment.