Original scientific paper
https://doi.org/10.5552/crojfe.2022.1340
A Comparative Pattern for Populus spp. and Betula spp. Stand Biomass in Eurasian Climate Gradients
Seyed Omid Reza Shobairi
; Research Center of Forestry Remote Sensing & Information Engineering Central South University of Forestry and Technology Changsha 410004 CHINA
Hui Lin
; Research Center of Forestry Remote Sensing & Information Engineering Central South University of Forestry and Technology Key Laboratory of Forestry Remote Sensing Based Big Data & Ecological Security for Hunan Province Key Laboratory of State Forestry Administration on Forest Resources Management and Monitoring in Southern Area Changsha Changchang Forestry Technology Consulting Co., Ltd. Changsha 410004 CHINA
Vladimir Andreevich Usoltsev
; Ural State Forest Engineering University Faculty of Forestry Sibirskiy Trakt 37 620100 Yekaterinburg and Botanical Garden of Ural Branch of RAS Department of Forest Productivity ul. 8 Marta 202a 620144 Yekaterinburg RUSSIA
Anna Andreevna Osmirko
; Ural State Forest Engineering University Faculty of Forestry Sibirskiy Trakt 37 620100 Yekaterinburg RUSSIA
Ivan Stepanovich Tsepordey
; Botanical Garden of Ural Branch of RAS Department of Forest Productivity ul. 8 Marta 202a 620144 Yekaterinburg RUSSIA
Zilin Ye
; Research Center of Forestry Remote Sensing & Information Engineering Central South University of Forestry and Technology Key Laboratory of Forestry Remote Sensing Based Big Data & Ecological Security for Hunan Province Key Laboratory of State Forestry Administration on Forest Resources Management and Monitoring in Southern Area Changsha Changchang Forestry Technology Consulting Co., Ltd. Changsha 410004 CHINA
Shoaib Ahmad Anees
; Beijing Key Laboratory of Precision Forestry Forestry College, Beijing Forestry University Beijing 100083 CHINA
Abstract
Based on the generated database of 413 and 490 plots of biomass of Populus spp. and Betula
spp. in Eurasia, statistically significant changes in the structure of forest stand biomass were
found with shifts in January temperatures and average annual precipitation. When analyzing
harvest data, the propeller-shaped biomass patterns in the gradients of average annual precipitation
and average January temperatures are obtained, which are common for both deciduous
species. Correspondingly, Populus and Betula forests show a regularity common to
the biomass components: in the cold zones the precipitation increase leads to the increase of
biomass, and in the warm ones to their decrease. In wet areas, the increase of temperature
causes the decrease of biomass, and in dry areas, it causes their increase. In accordance with
the law of the limiting factor by Liebig-Shelford, it is shown that both an decrease in temperature
in dry conditions and a increase in precipitation in a warm climate lead to a decrease in
the biomass of trees.
Keywords
Hrčak ID:
290863
URI
Publication date:
30.6.2022.
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