尾巨桉液流特征分析

目前尾巨桉（Eucalyptus urophylla×E.grandis）在南部大面积种植,尤其是在广西,其水分利用效率对森林可持续发展和水资源管理的影响越来越受到关注,因此了解其水分利用特征具有一定的意义。该文通过Granier热扩散探针法（TDP）对广西黄冕国有林场4-5年生尾巨桉人工林液流密度（SFD）的年变化规律、不同个体变化及其与环境因子的关系进行了研究。结果表明：尾巨桉年平均日液流密度为830.1 L·m-2·d-1;从尾巨桉日液流密度的年变化来看,最大值不超过2 000 L·m-2·d-1,与相似研究比较,该研究得到的结果偏低。不同直径尾巨桉SFD具有相似的变化趋势,胸径相近其液...

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Published in	广西植物 Vol. 36; no. 7; pp. 776 - 782
Main Author	周翠鸣黄玉清顾大形赵平张德楠姚月锋
Format	Journal Article
Language	Chinese
Published	广西喀斯特植物保育与恢复生态学重点实验室，广西壮族自治区中国科学院广西植物研究所，广西桂林541006%中国科学院华南植物园,广州,510650 2016
Subjects	尾巨桉液流密度热扩散技术环境因子 sap flow density environmental factors Eucalyptus urophylla × E. grandis thermal dissipation probe 尾巨桉环境因子液流密度热扩散技术
Online Access	Get full text
ISSN	1000-3142
DOI	10.11931/guihaia.gxzw201411007

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Abstract	目前尾巨桉（Eucalyptus urophylla×E.grandis）在南部大面积种植,尤其是在广西,其水分利用效率对森林可持续发展和水资源管理的影响越来越受到关注,因此了解其水分利用特征具有一定的意义。该文通过Granier热扩散探针法（TDP）对广西黄冕国有林场4-5年生尾巨桉人工林液流密度（SFD）的年变化规律、不同个体变化及其与环境因子的关系进行了研究。结果表明：尾巨桉年平均日液流密度为830.1 L·m-2·d-1;从尾巨桉日液流密度的年变化来看,最大值不超过2 000 L·m-2·d-1,与相似研究比较,该研究得到的结果偏低。不同直径尾巨桉SFD具有相似的变化趋势,胸径相近其液流密度也大致相同,但胸径相差很大时,其液流密度相差也大,相差最大可达1 300 L·m-2·d-1,这主要与不同生长状况的植物根系从土壤吸收水分能力不同有关。相关研究表明光合有效辐射和水汽压亏缺是树木冠层蒸腾的主要动力,该研究也发现树干液流密度与水汽压亏缺（VPD）、光合有效辐射（PAR）在年变化上有很好的同步性,主要表现出夏秋季节较高、春冬季节较低的现象。SFD与PAR的关系比较显著,与VPD、空气温度（AT）、土壤温度（ST）有一定的关系,但与空气相对湿度（RH）和土壤湿度（SM）没有呈现规律。环境因子和植物生物学特征是树干液流密度主要的影响因素,进一步探讨尾巨桉如何响应这些因子的变化显得尤为重要。
AbstractList	Q948; 目前尾巨桉( Eucalyptus urophylla × E. grandis)在南部大面积种植,尤其是在广西,其水分利用效率对森林可持续发展和水资源管理的影响越来越受到关注,因此了解其水分利用特征具有一定的意义。该文通过Granier热扩散探针法(TDP)对广西黄冕国有林场4~5年生尾巨桉人工林液流密度(SFD)的年变化规律、不同个体变化及其与环境因子的关系进行了研究。结果表明：尾巨桉年平均日液流密度为830.1 L.m-2.d-1；从尾巨桉日液流密度的年变化来看,最大值不超过2000 L.m-2.d-1,与相似研究比较,该研究得到的结果偏低。不同直径尾巨桉SFD具有相似的变化趋势,胸径相近其液流密度也大致相同,但胸径相差很大时,其液流密度相差也大,相差最大可达1300 L.m-2.d-1,这主要与不同生长状况的植物根系从土壤吸收水分能力不同有关。相关研究表明光合有效辐射和水汽压亏缺是树木冠层蒸腾的主要动力,该研究也发现树干液流密度与水汽压亏缺( VPD)、光合有效辐射( PAR)在年变化上有很好的同步性,主要表现出夏秋季节较高、春冬季节较低的现象。 SFD与PAR的关系比较显著,与VPD、空气温度( AT)、土壤温度( ST)有一定的关系,但与空气相对湿度( RH)和土壤湿度( SM)没有呈现规律。环境因子和植物生物学特征是树干液流密度主要的影响因素,进一步探讨尾巨桉如何响应这些因子的变化显得尤为重要。目前尾巨桉（Eucalyptus urophylla×E.grandis）在南部大面积种植,尤其是在广西,其水分利用效率对森林可持续发展和水资源管理的影响越来越受到关注,因此了解其水分利用特征具有一定的意义。该文通过Granier热扩散探针法（TDP）对广西黄冕国有林场4-5年生尾巨桉人工林液流密度（SFD）的年变化规律、不同个体变化及其与环境因子的关系进行了研究。结果表明：尾巨桉年平均日液流密度为830.1 L·m-2·d-1;从尾巨桉日液流密度的年变化来看,最大值不超过2 000 L·m-2·d-1,与相似研究比较,该研究得到的结果偏低。不同直径尾巨桉SFD具有相似的变化趋势,胸径相近其液流密度也大致相同,但胸径相差很大时,其液流密度相差也大,相差最大可达1 300 L·m-2·d-1,这主要与不同生长状况的植物根系从土壤吸收水分能力不同有关。相关研究表明光合有效辐射和水汽压亏缺是树木冠层蒸腾的主要动力,该研究也发现树干液流密度与水汽压亏缺（VPD）、光合有效辐射（PAR）在年变化上有很好的同步性,主要表现出夏秋季节较高、春冬季节较低的现象。SFD与PAR的关系比较显著,与VPD、空气温度（AT）、土壤温度（ST）有一定的关系,但与空气相对湿度（RH）和土壤湿度（SM）没有呈现规律。环境因子和植物生物学特征是树干液流密度主要的影响因素,进一步探讨尾巨桉如何响应这些因子的变化显得尤为重要。
Abstract_FL	Large number of Eucalyptus urophylla × E. grandis plantations have been planted in the southern area of Chi-na, especially in Guangxi Zhuang Autonomous Region in the recent years. The influence of water use efficiency in sus-tainable forest development and water resources management has been receiving increasing attention. Therefore, under- standing the water use characteristics is important. The Granier thermal dissipation probe method ( TDP ) is commonly used to monitor tree trunk flow. The sap flow density ( SFD) was monitored in four years E. urophylla × E. grandis plan-tation for one and a half years by Granier TDP at Guangxi Huangmian forest. The change in regularity of SFD, the SFD in trees of different diameters at breast height and the relationship between the SFD and the environmental factors were studied. The results showed that average daily SFD was 830. 1 L . m-2 . d-1 , and the maximum value did not exceed 2 000 L.m-2 .d-1 , when compared with similar studies, these results were relatively low. Because tree trunk was the main part of the plant for water transport, it was necessary to analyze the tree trunk sap flow density( SFD) change at about different diameters at breast height of E. urophylla × E. grandis. There was a positive correlation between SFD and diameter. The SFD was similar when the DBH (diameter at breast height) were in the same diameter class. The SFD varied from tree to tree with different values of maximum and minimum SFD ( 1 300 L . m-2 . d-1 at most ) . This was mainly caused by the different water absorbing capacities of trees. Many studies showed that photosynthetic active radia-tion and vapor pressure deficit( VPD) were the main factors of tree canopy transpiration. The SFD and VPD, photosyn-thetic active radiation ( PAR) displayed similar trend over the study period and exhibited a unimodal curve. The value of SFD was higher in summer and fall, and lower in spring and winter. The relation between SFD and PAR showed signifi-cant difference, and there was relation between SFD and VPD to some extent, SFD and air temperature ( AT) and SFD and soil temperature ( ST) . But the relation between SFD and air relative humidity ( RH) , SFD and soil moisture ( SM) were not clear. These results showed that there were different patterns about the effects of different environmental factors on the sap flow density, but further experimental verification is needed how to further explore the E. urophylla × E. gran-dis respond to the environmental changes.
Author	周翠鸣黄玉清顾大形赵平张德楠姚月锋
AuthorAffiliation	广西喀斯特植物保育与恢复生态学重点实验室、中西壮科自治区广西植物研究所,广西桂林541006 中国科学院华南植物园,广州510650
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Author_FL	ZHOU Cui-Ming ZHANG De-Nan HUANG Yu-Qing GU Da-Xing ZHAO Ping YAO Yue-Feng
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Notes	Large number of Eucalyptus urophylla × E. grandis plantations have been planted in the southern area of China,especially in Guangxi Zhuang Autonomous Region in the recent years. The influence of water use efficiency in sustainable forest development and water resources management has been receiving increasing attention. Therefore,under-standing the water use characteristics is important. The Granier thermal dissipation probe method（ TDP） is commonly used to monitor tree trunk flow. The sap flow density（ SFD） was monitored in four years E. urophylla × E. grandis plantation for one and a half years by Granier TDP at Guangxi Huangmian forest. The change in regularity of SFD,the SFD in trees of different diameters at breast height and the relationship between the SFD and the environmental factors were studied. The results showed that average daily SFD was 830.1 L·m-2·d-1,and the maximum value did not exceed2 000 L·m-2·d-1,when compared with similar studies,these results were relatively low. Because tree trunk was
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Title	尾巨桉液流特征分析
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