CLIMATIC SIGNALS IN WOOD PROPERTY VARIABLES OF PICEA CRASSIFOLIA

Lu Jianxiong; Xu Jinmei; Wu Yiqiang; Li Xianjun; Evans Robert; Downes Geoffrey M.

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CLIMATIC SIGNALS IN WOOD PROPERTY VARIABLES OF PICEA CRASSIFOLIA

机译：青海云杉木材性状中的气候信号

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Little attention has been given to climatic signals in wood properties. In this study, ring width (RW), annual average microfibril angle (MFA), annual average tracheid radial diameter (TRD), and annual average density (DEN), as the annual and intra-annual wood property variables, were measured at high resolution by SilviScan-3 on dated Picea crassifolia trees. Dendroclimatological methods were used to analyze climatic signals registered in wood property variables. RW, MFA, and TRD negatively correlated with temperature and positively correlated with precipitation in the growing season, whereas the reverse was true for DEN. Climatic signals recorded in the earlywood were similar to those measured for the full width of the annual rings. Climatic signals recorded in latewood were very weak except for latewood MFA. This study showed that wood property variables could be extensive resources for learning more about the influences of climate on tree growth and how trees adapt to ongoing climate change.

机译：很少关注木材特性中的气候信号。在这项研究中，作为年度和年度木材特性变量，在较高温度下测量了环宽度（RW），年平均微纤丝角（MFA），年平均气管径向直径（TRD）和年平均密度（DEN）。 SilviScan-3对过时的云杉云杉树的分辨率。树状气候学方法用于分析木材属性变量中记录的气候信号。 RW，MFA和TRD与温度呈负相关，在生长季节与降水呈正相关，而DEN则相反。早材中记录的气候信号类似于对年轮全宽测得的气候信号。除了红木MFA以外，在红木中记录的气候信号非常弱。这项研究表明，木材特性变量可以作为广泛的资源，以更多地了解气候对树木生长的影响以及树木如何适应持续的气候变化。

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《Wood and Fiber Science》 |2015年第2期|共10页
作者
Lu Jianxiong; Xu Jinmei; Wu Yiqiang; Li Xianjun; Evans Robert; Downes Geoffrey M.;
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正文语种 eng
中图分类林业;
关键词
Wood property; cell characteristics; microfibril angle; wood density; treering; dendroclimatology;

机译：木材特性;细胞特性;微原纤维角;木材密度;乔木;树状气候;

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专利

1. CLIMATIC SIGNALS IN WOOD PROPERTY VARIABLES OF PICEA CRASSIFOLIA [J] . Lu Jianxiong, Xu Jinmei, Wu Yiqiang, Wood and Fiber Science . 2015,第2期

机译：青海云杉木材性状中的气候信号
2. Effect of ring width, cambial age, and climatic variables on the within-ring wood density profile of Norway spruce Picea abies (L.) karst. [J] . Franceschini T., Longuetaud F., Bontemps J. D., Trees. Structure and Function . 2013,第4期

机译：圆环宽度，冈比亚年龄和气候变量对挪威云杉云杉岩溶岩溶岩溶环内木材密度剖面的影响。
3. Age and climate sensitivity of radial growth of Picea crassifolia to climate in a transitional climatic zone in Northwest China [J] . Zhang Lingnan, Jiang Yuan, Zhao Shoudong, Polish journal of ecology . 2018,第2期

机译：中国西北地区过渡气候区径向生长的年龄和气候敏感性。
4. Variation of wood properties in stems of Picea abies (L.) Karst [C] . Pekka Saranpaa Wood anatomy research 1995 . 1995

机译：云杉（云杉）岩溶茎中木材特性的变化
5. Quantifying the influence of crown size on mechanical wood properties in white spruce (Picea glauca) [D] . Kuprevicius, Adam Peter 2011

机译：量化树冠尺寸对白云杉（Picea glauca）的机械木材性能的影响
6. Correction: Climatic and topographic variables control soil nitrogen, phosphorus, and nitrogen: Phosphorus ratios in a Picea schrenkiana forest of the Tianshan Mountains [O] . Zhonglin Xu, Yapeng Chang, Lu Li, 2012

机译：校正：气候和地形变量控制天山云杉云杉林中的氮，磷和氮：磷比
7. Correction: Climatic and topographic variables control soil nitrogen, phosphorus, and nitrogen: Phosphorus ratios in a Picea schrenkiana forest of the Tianshan Mountains [O] . Zhonglin Xu, Yapeng Chang, Lu Li, 2019

机译：矫正：气候和地形变量控制土壤氮，磷和氮：天山山区Picea Schrenkiana森林中的磷比
8. Effect of Ecosystem Disturbance on Diversity of Bark and Wood-Boring Beetles (Coleoptera: Scolytidae, Buprestidae, Cerambycidae) in White Spruce (picea glauca (Moench) Voss) Ecosystems of Alaska. [R] . Werner, R. A. 2002

机译：生态系统扰动对阿拉斯加白云杉（picea glauca（moench）Voss）生态系统中树皮和木蛀甲虫（鞘翅目：scolytidae，Buprestidae，Cerambycidae）多样性的影响。

CLIMATIC SIGNALS IN WOOD PROPERTY VARIABLES OF PICEA CRASSIFOLIA

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