Effects of Climate Factors on the Tree-ring Structure of Cryptomeria japonica in Central Japan

IF 0.1 4区农林科学 Q4 MATERIALS SCIENCE, PAPER & WOOD Mokuzai Gakkaishi Pub Date : 2020-07-25 DOI:10.2488/jwrs.66.117

Y. Hirano, T. Saitoh, E. Fukatsu, Hajime Kobayashi, H. Muraoka, Yudong Shen, K. Yasue

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引用次数: 2

Abstract

We investigated the effects of climate factors on tree-ring structure of (cid:9479)(cid:9526)(cid:9533)(cid:9524)(cid:9528)(cid:9523)(cid:9521)(cid:9513)(cid:9526)(cid:9517)(cid:9509)(cid:9444)(cid:9518)(cid:9509)(cid:9524)(cid:9523)(cid:9522)(cid:9517)(cid:9511)(cid:9509) in central Japan. We collected cores from 33 plantation trees in the Takayama evergreen coniferous forest site at Gifu University and measured annual ring width （RW）, annual mean density （RD）, earlywood width （EW）, latewood width （LW）, earlywood density （ED） and latewood density （LD） by X-ray densitometry. We also calculated annual ring weight growth （RWG） by multiplying RW and RD. We developed seven residual chronologies of the parameters of tree-ring structure by a dendroecological method. Pearsonʼs correlation analysis was applied to assess relationships among the chronologies, and relationships between the chronologies and climatic factors. EW showed significant positive correlations with RW and RWG. Moreover, EW showed significant positive correlation with the temperature current from March to April. These results indicate that EW is the most dominant factor which regulates RW and RWG of (cid:9479)(cid:9458)(cid:9444)(cid:9518)(cid:9509)(cid:9524)(cid:9523)(cid:9522)(cid:9517)(cid:9511)(cid:9509)(cid:9458) It is suggested that EW increases by the temperature rise of early spring before reactivation of cambium activity, and subsequently RW and RWG will increase.

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气候因子对日本中部柳杉树轮结构的影响

研究了气候因子对日本中部地区(cid:9479)(cid:9526)(cid:9533)(cid:9524)(cid:9528)(cid:9523)(cid:9521)(cid:9513)(cid:9526)(cid:9517)(cid:9509)(cid: 9544)(cid:9518)(cid: 9524)(cid: 9522)(cid:9517)(cid:9511)(cid:9509)树轮结构的影响。在义阜大学高山常绿针叶林样地采集33棵人工林的岩心，采用x射线密度测定法测定了年轮宽度(RW)、年平均密度(RD)、早木宽度(EW)、晚木宽度(LW)、早木密度(ED)和晚木密度(LD)。利用年轮重生长量与年轮重生长量相乘计算年轮重生长量(RWG)，并利用树木生态学方法建立了7种年轮结构参数的残差年表。运用Pearson相关分析评估年表之间的关系，以及年表与气候因子之间的关系。EW与RW、RWG呈显著正相关。3 ~ 4月EW与温度流呈显著正相关。结果表明，EW是(cid:9479)(cid:9458)(cid:9444)(cid:9518)(cid:9509)(cid:9524)(cid: 9522)(cid:9517)(cid:9511)(cid:9509)(cid:9458)的RW和RWG的最主要调控因子，表明在形成层活性恢复之前，EW随着早春升温而增加，随后RW和RWG增加。

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来源期刊

Mokuzai Gakkaishi 工程技术-材料科学：纸与木材

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>12 weeks