A Comparative Pattern for Populus spp. and Betula spp. Stand Biomass in Eurasian Climate Gradients

IF 2.7 2区 农林科学 Q1 FORESTRY
S. Shobairi, Hui Lin, V. Usoltsev, A. Osmirko, I. S. Tsepordey, Zilin Ye, S. A. Anees
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引用次数: 0

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.
欧亚气候梯度下杨树和桦树林分生物量的比较格局
利用欧亚大陆地区413和490样地杨树和桦树的生物量数据,发现林分生物量结构随1月气温和年平均降水量的变化具有显著的统计学意义。通过对采收数据的分析,得到了两种落叶树种在年平均降水量和1月平均气温梯度上的螺旋桨状生物量分布规律。与之对应的是,杨树林和桦树林的生物量组成呈现出一个共同的规律:寒区降水增加导致生物量增加,暖区降水增加导致生物量减少。在潮湿地区,温度升高导致生物量减少,在干燥地区,温度升高导致生物量增加。根据Liebig-Shelford的限制因子定律,表明干燥条件下温度的降低和温暖气候下降水的增加都会导致树木生物量的减少。
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来源期刊
CiteScore
5.20
自引率
12.50%
发文量
23
审稿时长
>12 weeks
期刊介绍: Croatian Journal of Forest Engineering (CROJFE) is a refereed journal distributed internationally, publishing original research articles concerning forest engineering, both theoretical and empirical. The journal covers all aspects of forest engineering research, ranging from basic to applied subjects. In addition to research articles, preliminary research notes and subject reviews are published. Journal Subjects and Fields: -Harvesting systems and technologies- Forest biomass and carbon sequestration- Forest road network planning, management and construction- System organization and forest operations- IT technologies and remote sensing- Engineering in urban forestry- Vehicle/machine design and evaluation- Modelling and sustainable management- Eco-efficient technologies in forestry- Ergonomics and work safety
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