湖南省张家界马尾松林冠生态水文效应及其影响因素分析

对马尾松林的穿透雨、林冠截留和树干流的水文效应进行监测,并对其影响因素进行初步分析.结果表明:降雨主要集中在5-8月,期间穿透雨量、林冠截留量和树干流量分别占全年分配量的一半以上.穿透雨量、树干流量和林冠截留量与降雨量显著正相关,而穿透雨率和树干流率随着降雨强度的增加而升高,但截留率逐渐降低.马尾松林穿透雨量最大值出现在最大雨量级(≥90.0 mm)和3.0～4.0 mm·h-1雨强范围内; 但是截留率最大值出现在最小的雨量级(＜10.0 mm)和＜1.0 mm·h-1雨强范围内; 树干流率最大值出现在中等雨量(60.0～70.0 mm)和2.0～3.0 mm·h-1雨强范围内,显然降雨特征是影响马尾松林内雨的关键因子.林下穿透雨率存在明显的空间异质性,靠近树干的林冠内部穿透雨率高于林冠外部,而且空间异质性随着降雨量的增加而降低.马尾松树干流与胸径及冠层面积呈极显著正相关.     

紫金山麻栎林降水分配格局研究

对紫金山栎林林冠截留、树干茎流与降水量之间的关系进行了研究。在观测的46场降水中,降水量达823.8 mm,林冠总截留量、树干茎流量和穿透雨量分别为207.95 mm、33.30 mm、582.55 mm,林冠截留率、树干茎流率和穿透率分别为25.24%、4.04%、70.71%。随着降水量的增大,林冠截留量、树干茎流量、穿透雨量及穿透率都有所增加,林冠截留率降低,树干茎流率在2～50 mm降水量级中逐渐增大,在>50 mm降水量级有所降低。林冠截留量与降水量之间呈幂函数关系,而树干茎流量、穿透雨与降水量之间呈线性相关。     

西藏色季拉山高山松林降雨再分配格局研究

对西藏色季拉山高山松林冠截留、树干茎流与大气降雨量之间的关系进行了研究。结果表明:观测期间总降水量达337.90 mm,其中林冠截留量为82.17 mm、截留率为24.32%、变化幅度为13.19%⁶8.72%,穿透雨量为215.76 mm、穿透率63.85%、变化幅度为1.67%68.72%,穿透雨量为215.76 mm、穿透率63.85%、变化幅度为1.67%¹3.57%,树干茎流量39.97 mm、茎流率11.83%、变化幅度为29.70%13.57%,树干茎流量39.97 mm、茎流率11.83%、变化幅度为29.70%⁷3.26%。林冠截留量、穿透降雨量和树干茎流量与林外降雨量之间的关系分别为幂函数、直线性和二次函数关系。降雨的发生与林冠截留的产生是同步的,但是穿透产生和茎流产生与降雨发生并不同步。穿透雨和树干茎流是降雨量达到一定程度才开始出现的,而且刚开始很小,随后逐渐增大。     

闽东北鹫峰山天然黄山松林内降雨分配的研究

通过对闽东北鹫峰山雨期天然黄山松林内降雨分配情况进行观测研究,结果表明:在观测期间,总降雨量1622.12mm,穿透雨量、树干茎流量和林冠截留量分别为1194.19mm、15.16mm和412.77mm,分别占总降雨量的73.62%、0.93%和25.45%.随着降雨量的增大,树干茎流量和茎流率、穿透雨量和穿透率、林冠截留量都增大,而林冠截留率降低.穿透雨量和总降雨量之间的关系为线性相关关系;茎流量和降雨量之间的关系也为线性相关关系;林冠截留量和总降雨量之间的关系为幂函数相关关系.     

内蒙古大青山白茬子沟小流域典型森林植被的冠层降水再分配特征

利用生长季观测的降雨数据,分析了内蒙古大青山白茬子沟小流域白桦次生林和华北落叶松人工林林冠降雨截留、穿透雨及树干径流与降雨量的关系,以及降雨林冠截留过程的特征。结果表明:两种林分林冠截留量与降雨量的关系吻合对数回归模型;穿透雨量、树干径流量与降雨量均呈明显的一元线性关系,穿透雨量和树干径流量均随着降雨量的增加而增加。不同林分的林冠截留量、穿透雨量和树干径流量的月动态变化与总降水量的月变化基本一致;林内穿透雨率超过73%,冠层截留率9.81%~26.22%,树干径流0.72%~9.10%。     

西江中下游生态公益林对降水截留分配效应研究

为了评估生态公益林涵养水源服务功能,选择德庆县三叉顶自然保护区生态公益林,定位观测2006年6月～2007年6月100次大气降水事件的截留分配效应。结果表明,观测期内降水总量为1 317.60mm,林冠截留量、树干茎流量和穿透水量分别是318.37,87.85和911.38 mm,林冠截留率、茎流率和穿透率分别为24.16%,6.67%和69.17%。林外降水量大于1.3 mm时才能观测到穿透雨,林外降水量达到3.0mm时才开始有树干茎流出现。林冠截留量、树干茎流量和穿透量与降水量均呈正相关,相关系数R2分别为0.788 8,0.957 7和0.965 9;林冠截留率与林外降水量呈负相关,而树干茎流率和穿透率呈正相关,相关系数R2分别为0.835 6,0.803 4和0.874 2。     

流溪河小流域针阔混交林林冠降雨截留模型研究

以流溪河流域针阔混交林为研究对象,对林分样地进行降雨截留实测与模拟研究.结果表明:林内穿透雨量与降雨量呈线性相关;穿透系数与降雨量呈对数相关;林冠截留量与降雨量呈幂函数相关;截留率与降雨量呈对数相关.以降雨强度、穿透系数和树干茎流率数据为基础,进行了林冠截留量模型模拟,实测表明该模型能较准确地估算针阔混交林分的林冠截留量.     

云南哀牢山常绿阔叶林林冠对降雨的再分配

在哀牢山国家级自然保护区常绿阔叶林内对降雨、穿透雨、树干茎流进行了观测，发现在１９９１年５月～１９９５年４月间，林冠截留量为２４３９２ｍｍ，截留率为１２９５％，穿透雨占降雨的８１％，树干茎流全年只有３１４ｍｍ，可以忽略不计。     

北京九龙山不同结构侧柏人工纯林降水的再分配

[目的]基于华北石质山区侧柏人工林2014年(3—10月)降水数据进行量化分析,探究其降水的再分配规律。[方法]采用野外定位研究方法,对不同结构(郁闭度、枝下高)侧柏人工林林冠层降水再分配特征进行分析。[结果](1)1/2枝下高0.4、0.6、0.8郁闭度林内穿透雨总量分别为181.1、168.1、147.1 mm,穿透雨率分别为78.8%、73.1%、64.0%;树干径流总量分别为6.0、5.9、3.9 mm;总树干径流率分别为4.2%、2.6%、1.7%;林冠截留总量分别为39.5、56.1、79.1 mm;林冠截留率分别为17.2%、24.4%、34.4%。(2)1/3枝下高0.4、0.6、0.8郁闭度林内穿透雨总量分别为175.6、154.8、136.0 mm,穿透雨率分别为76.4%、67.3%和59.2%,树干径流总量分别为8.3、4.9、3.3 mm,总树干径流率分别为3.6%、2.1%和1.4%,林冠截留总量分别为46.3、70.4、90.7 mm,林冠截留率分别为20.1%、30.6%和39.5%。[结论](1)侧柏人工林同一枝下高不同郁闭度林分林内穿透雨量差异不显著。2种枝下高郁闭度为0.4和0.8之间的树干径流量均存在显著差异,郁闭度0.4和0.6以及0.6和0.8之间差异不显著。(2)郁闭度为0.4、0.6、0.8时,冠厚占树高2/3(即枝下高为1/3)的林分林冠截留量分别是1/2的1.17、1.25和1.14倍。(3)2种枝下高各自不同郁闭度间林冠截留量均存在显著差异。(4)同等降雨量情况下雨强越大,林冠截留量越小;2次降雨间隔时间越长,林冠层越干燥,林冠截留能力越强;枝下高越低(即冠层厚度越大),林冠截留量越大,且随着郁闭度的增加,林冠截留量逐渐增大。     

西江中下游生态公益林对降水的截留分配效应研究

为了评估生态公益林涵养水源服务功能,选择德庆县三叉顶自然保护区生态公益林,定位观测2006年6月～2007年6月100次大气降水事件的截留分配效应。结果表明,观测期内降水总量为1317．60mm,林冠截留量、树干茎流量和穿透水量分别是318．37,87．85和911．38mm,林冠截留率、茎流率和穿透率分别为24．16％,6．67％和69．17％。林外降水量大于1．31mm时才能观测到穿透雨,林外降水量达到3．0mm时才开始有树干茎流出现。林冠截留量、树干茎流量和穿透量与降水量均呈正相关,相关系数序分别为0．7888,0．9577和0．9659;林冠截留率与林外降水量呈负相关,而树干茎流率和穿透率呈正相关,相关系数尺。分别为0．8356,0．8034和0．8742。     

Characteristics of canopy interception and its simulation with a revised Gash model for a larch plantation in the Liupan Mountains,China

Canopy interception is a significant proportion of incident rainfall and evapotranspiration of forest ecosystems. Hence, identifying its magnitude is vital for studies of eco-hydrological processes and hydrological impact evaluation. In this study, throughfall, stemflow and interception were measured in a pure Larix principis-rupprechtii Mayr.(larch) plantation in the Liupan Mountains of northwestern China during the growing season(May–October) of 2015, and simulated using a revised Gash model. During the study period, the total precipitation was499.0 mm; corresponding total throughfall, stemflow and canopy interception were 410.3, 2.0 and 86.7 mm,accounting for 82.2, 0.4 and 17.4% of the total precipitation, respectively. With increasing rainfall, the canopy interception ratio of individual rainfall events decreased initially and then tended to stabilize. Within the study period, the simulated total canopy interception, throughfall and stemflow were 2.2 mm lower, 2.5 mm higher and0.3 mm lower than their measured values, with a relative error of 2.5, 0.6 and 15.0%, respectively. As quantified by the model, canopy interception loss(79%) mainly consisted of interception caused by canopy adsorption, while the proportions of additional interception and trunk interception were small. The revised Gash model was highly sensitive to the parameter of canopy storage capacity,followed by the parameters of canopy density and mean rainfall intensity, but less sensitive to the parameters of mean evaporation rate, trunk storage capacity, and stemflow ratio. The revised Gash model satisfactorily simulated the total canopy interception of the larch plantation within the growing season but was less accurate for some individual rainfall events, indicating that some flaws exist in the model structure. Further measures to improve the model's ability in simulating the interception of individual rainfall events were suggested.     

阔叶树截留降雨试验与模型——以色木槭为例

通过实验室模拟试验,得到不同雨强和叶面积指数组合下的色木槭截留降雨过程,并考虑树冠湿润度的影响.结果表明:单位叶面积次降雨最大截留量随雨强增大而减小,枝叶截留速率随树冠湿润度变化而变化.构建色木槭截留降雨随雨强和叶面积指数变化的模型,对模型模拟验证,模拟精度为92.7%.     

A rainfall interception model for inhomogeneous forest canopy

The process of rainfall interception by an inhomogeneous forest canopy composed of tree crowns with some gaps among them were considered, and the previous theoretical models of rainfall interception were modified to model an inhomogeneous canopy instead of a statistically homogeneous canopy. The paper deals with the following. First, the process of rainfall interception in tree crowns and that of rainfall in the gaps among them are studied respectively to acquire the average rainfall interception of a forest canopy. Based on the model derived by Liu (1987) and setting the canopy density value, both the relevant partial equations and a formula to estimate rainfall interception were derived. Moreover, the new model was solved through a numerical method and was illustrated with typical values of some ecological factors; three groups of curves were acquired by calculation with the VisualBasic program. A model of rainfall interception by an inhomogeneous forest canopy is classified as a multi-layer model, which is different from previous models (models where all the parameters represent the whole canopy). The results from the model in this paper could be used to determine the relationship between interception and each ecological factor in detail. __________ Translated from Scientia Silvae Sinicae, 2007, 43(3): 8–14 [译自: 林业科学]     

非均匀林冠降雨截留模型

考虑由彼此间有间距的树冠组成的非均匀林冠内的降雨截留过程,将以前的林冠截留理论模型从水平均匀随机分布林冠推广到非均匀林冠,导出相应的偏微分方程和截留量的计算公式,并以实例运行该模型,以揭示非均匀林冠在降雨截留过程中的一些细节特征.     

Relationship between annual rainfall and interception ratio for forests across Japan

Several previous studies in Japan have examined differences in rainfall interception amounts induced by differences in forest properties by comparing the annual rainfall interception ratios (annual rainfall interception divided by annual rainfall) from various sites without considering variations in meteorological conditions between sites. Rainfall interception actually depends on meteorological conditions as well as forest properties. This study examined variations in the annual interception ratio relating to the variation in annual rainfall, which would be the primary factor relating to the interception ratio, across Japan with the use of a rainfall interception model assuming the same forest properties (i.e., the canopy storage capacity, canopy closure, leaf area index (LAI), and the bulk coefficient for sensible heat transfer). The ratio ranged between 0.12 and 0.24 across Japan and was highly correlated to annual rainfall. This indicates that considering the variation in annual rainfall is critical for assessing the difference in rainfall interception amounts induced by forest properties. We reconsidered the results of previous studies in Japan that compared annual interception ratios between sites with different forest properties: (i) there is no clear difference in interception amounts between broadleaf and coniferous forests and (ii) there is a positive correlation in stem density and interception amounts for coniferous forests. These results still held when considering differences in annual rainfall between sites.     

林冠截留模型

对林冠截留的研究已有近百年的历史。1971年,Rutter等人就推导出了一个具有清楚物理意义的林冠截留模型,结束了以往的林冠截留模型中只有统计模型的历史。1987年,刘家冈用数理方法,对林冠截留的时空演变过程作了很好的描述。但使用他们的模型对林冠截留进行估计时,需要同时对其它多个气象因子进行测定,而且人们普遍关心的不是林冠对次降雨截留的大小,而是林冠对降水的年截留量大小。 1979年,Gash用分析法代替了Rutter模型中的数值法,建立了截留模型,该模型能在只有降雨数据的情况下,对林冠的季节截留进行估计,结果与实测值接近。该模型将林冠截留分成两部分,即树冠截留和树干截留,因而引进了较多的参数。本文从林冠截留的过程出发,推导出一个有清楚物理意义,且含林冠和降雨参数较少的截留模型。     

森林乔木冠层雨水再分配特征及机制研究综述

森林乔木冠层对降雨的再分配具有重要的水文生态意义,有助于定量评价不同区域、尺度、类型的森林冠层雨水利用效率,可为深入研究森林冠层变化对区域水分循环的调节作用提供科学依据。文中从森林冠层雨水截留、林内穿透雨、树干茎流和林下凋落物截留4个方面评述了近20年来国内外对森林乔木冠层影响雨水再分配的研究最新进展。研究认为,由于森林冠层雨水再分配的生态机理仍未明晰,因此建立精确度高的截留模型仍将作为此类研究的重难点之一;引入激光雷达技术获得森林冠层三维结构,以及多角度、多通道的多种传感器观测垂直空间多层次的森林冠层雨水再利用规律将会成为未来的研究方向之一;目前林冠雨水截留研究缺乏其与区域水文变化之间的关联性研究,将林冠雨水再分配研究的成果转化为区域水文问题的解决方案也将会是未来研究的趋势之一。     

Simulating Spatial Distribution of Canopy Rainfall Interception of Forests in China

The canopy rainfall interception modei linked to environmental conditions and biological features is established on the basis of stationary observation and measurements in China. Upscaling from site observation to regional Ievel estimation of canopy rainfall interception has been made. The potential interception value of forests during the rainfall season in China according to rainfall records of May, July and September in the year 1982, has been simulated and mapped under the GIS software package Idrisi. It coincides well with the spatial and chronological pattern of rainfall in China and can be concluded to reflect the reality. The potential canopy rainfall interception of forests in China based on the potential distribution of forests provides a basis to regional water budget as well as rational use of regional water resources. It is also important to the assessment of forest ecosystem service in China, which is demanded by both scientists and policy makers for the evaluation of afforestation and nat     

林冠对降雨截留的半理论模型

在林冠对降雨截留过程的研究中,将理论模型的考虑方法和经验模型的模拟方法结合起来,提出一种新的半理论模型。这个半理论模型既具有理论模型把过程与机理紧密联系的优点,又具有经验模型计算相对简单的长处,新模型与实验数据很好地符合,也和理论模型的结果一致。