Monitoring bending stress of trees during a snowy period using strain gauges

IF 1 Q4 GEOGRAPHY, PHYSICAL
A. Miyashita, Ryoko Minamino, Koichiro Sawakami, Takafumi Katsushima, M. Tateno
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Abstract

The load created by snow greatly affects forest trees; however, almost no studies have reported on the mechanical stress in tree trunks due to snow under field conditions. In this study, we monitored trunk bending stresses using strain gauges during the snowfall season at two sites, Tadami and Kaneyama, both in a cool-temperate forest in Japan. Measurements were made of the various sizes and trunk shapes of beech trees at Tadami, and of beech trees and Japanese cedars at Kaneyama. Young’s modulus and bending strength were also measured. At Tadami, beech trees with substantially curved trunks often bent down to the ground surface soon after snowfall started. The strain no longer increased once a tree had lodged; however, individuals with larger diameters had stresses exceeding the proportional limit stress. By contrast, among beech trees with erect trunks, those with larger diameters had smaller maximum strain and estimated stress values. These results imply that in areas greatly affected by snow, beech trees struggle both to remain erect and to grow to diameters of 10 cm or more. At Kaneyama, large strain values exceeding 1 % were observed in trees with a diameter at breast height ≤7 cm, all of which were cedars. Among trees of the same diameter, strain values were lower in beech trees than in cedars, and Young’s modulus was three times larger for beech trees. These results indicate that it is more difficult to grow erect cedars compared to erect beech trees in regions with deep snow.
利用应变计监测降雪期间树木的弯曲应力
积雪产生的负荷对森林树木的影响很大;然而,在野外条件下,几乎没有关于积雪对树干机械应力的研究报道。在这项研究中,我们在日本寒温带森林的两个地点,Tadami和Kaneyama,使用应变仪监测了降雪季节树干弯曲应力。测量了忠美山毛榉和金山山毛榉和日本雪松的不同大小和树干形状。测定了杨氏模量和抗弯强度。在忠美,树干弯曲的山毛榉树经常在降雪开始后不久就弯到地面上。一旦一棵树倒下,菌株就不再增加;然而,直径较大的个体应力超过比例极限应力。而树干直立的山毛榉,直径越大,最大应变和估计应力值越小。这些结果表明,在受雪影响很大的地区,山毛榉树既要保持直立,又要长到直径10厘米或更大。在山山,在胸径≤7 cm的树木中观察到大于1%的大应变值,这些树木都是雪松。在相同直径的树木中,山毛榉的应变值低于雪松,杨氏模量是山毛榉的3倍。这些结果表明,在积雪较深的地区,直立的雪松比直立的山毛榉更难生长。
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来源期刊
Bulletin of glaciological research
Bulletin of glaciological research GEOGRAPHY, PHYSICAL-
CiteScore
2.20
自引率
20.00%
发文量
1
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