长白山阔叶红松林叶片气孔导度与环境因子的关系

通过对阔叶红松林主要树种叶片的野外测定,研究了长白山阔叶红松林叶片气孔导度对环境因子的响应,结果表明,阔叶红松林叶片的气孔导度与瞬时光合有效辐射（PAR）和温度（Ta）呈正相关,而与水汽压亏损（PVD）呈负相关。对气孔导度模型的验证表明：Jarvis的非线性模型比Ball的线性模型更适于阔叶红松林叶片的气孔导度模拟。长白山阔叶红松林叶片的气孔导度对环境因子的响应模型为：gs=PAR（1.606T2a＋118.19Ta-1878.67）/（355.70＋PAR）（-430.433＋VPD）。此模型有助于进一步估算叶片光合作用,通过尺度化模拟阔叶红松林群落生产力以及土壤-植物-大气系统之间的水热交换奠定了基础。     

长白山阔叶红松林退化生态系统的土壤呼吸作用

选择处于全球变化中国东北样带东部典型生态系统的长白山阔叶红松林作为研究区,采用动态气室-CO₂红外分析法测定了森林生态系统不同退化阶段的土壤呼吸作用.结果表明：在生长季,长白山阔叶红松林不同退化阶段的土壤呼吸动态变化呈单峰型曲线,在7-8月达到最大值;不同退化阶段林地土壤呼吸大小顺序为：杨桦林＞蒙古栎林＞阔叶红松林＞硬阔叶林＞裸地.其中,杨桦林和蒙古栎林样地的碳释放量分别为对照阔叶红松林的1.4和1.3倍,硬阔叶林和裸地的碳释放量分别为对照阔叶红松林的88%和78%.     

长白山阔叶红松林夏季温度特征研究

森林是陆地生态系统的重要组成部分 ,而森林生态系统的生产、呼吸等生态过程都受温度的制约。对森林温度特征的研究 ,是揭示森林生态系统功能 ,评估森林对环境综合效益的基础。早在 2 0世纪初 ,德国学者Ｇｅｉｇｅｒ[8] 就作了赤松林气温日变化研究 ,随之 ,后人也作了大量的相关工作 ,对森林温度特征认识逐步深化[1～ 3,5,7] 。长白山阔叶红松林是我国东北东部中温带湿润气候区最重要的森林植被类型 ,是中国东北样带东部最典型的生态系统。它对调节气候 ,稳定生态平衡有着重要作用。此研究通过对长白山阔叶红松林林内空气温度与土壤温度进行…     

长白山红松阔叶林林冠空隙特征的研究

将林冠空隙干扰作为红松阔叶林动态维持的重要因素,对长白山红松阔叶林林 冠空隙的形成方式、出现频度、分布格局、结构及林冠空隙内形成本的数量、年龄分布、种 群特征等进行了系统分析．结果表明．长白山阔叶红松林多数林冠空隙由双形成本形成, 每个林冠空隙拥有的形成木为２．４４株;林冠空隙形成的速率为０．９２个ｈｍ２·ａ－１,林冠空 隙干扰的间隔期（周转期）为７５１ａ;扩展林冠空隙面积大多在１００～６００ ｍ２之间,其中以 ４００～５００ ｍ２所占比例最大．冠空隙在５０～３５０ ｍ２之间,其中以２００～２５０ ｍ２所占比例最 大;每个形成本所形成的扩展林冠空隙平均面积为 １４１ ８２ ｍ２,形成的冠空隙面积平均为 ６７．６３ ｍ２．     

拉格朗日逆分析在森林蒸散模拟中的应用

以长白山阔叶红松林为研究对象,根据Raupach提出的LocalizedNearField(LNF)理论为依据,耦合垂直速度标准差σ_w(z)和拉格朗日时间尺度T_L(z),建立林冠内水汽源汇强度和平均浓度廓线之间的关系;利用拉格朗日逆分析法(inverseLagrangiandispersionanalysis,IL)提出了通过林冠水汽浓度梯度计算林冠内的水汽源汇强度进而推算森林蒸散的方法.最终得到的结果与开路涡动相关系统的观测数据比较显示,对于白天水汽累积通量的模拟精度达到87.3%;IL模拟值高于EC实测值,大约高出15%～25%;林冠白天水汽通量远大于夜间,占日水汽总通量的70%以上.6～8月的水汽白天累积总通量高于5月和9月.     

长白山阔叶红松林生态价位分级与生态系统经营对策

引入生态价位概念,以长白山阔叶红松林为对象,采用层次分析法进行了生态价位划分．长白山阔叶红松林的生态系统价值评价综合指数由物理环境因素、群落结构组成、干扰状况3方面8个指标构成,包括坡度、土层厚度、土壤母质稳定性、结构盖度指数、物种多样性指数、更新力指数、优势种寿命和干扰度．采用层次分析法取得相应指标的系数;根据综合评价指数分布范围划分了3个生态价位类型,即低生态价位,综合指数1～1．874;中生态价位,综合指数1．874～2．749;高生态价位,综合指数2．749～3．623;对典型样地进行了生态价位分级,分析了各个生态价位类型森林的主要特征,据此提出了相应的生态系统管理对策,即高生态价位阔叶红松林采用封禁保护型自然经营,中生态价位阔叶红松林采用生态修复型半自然经营,低生态价位阔叶红松林采用近自然生态重建型经营。     

森林生态系统健康评估Ⅱ.案例实践

结合样地调查和他人对阔叶红松林生态系统相关指标的研究资料数据,利用健康距离(HD)评估法和上文建立的阔叶红松林生态系统健康评估指标体系框架,对不同人为干扰影响的长白山阔叶红松林生态系统进行系统健康的评估实践.结果按顺序依次为20%强度择伐林0.21<50%强度择伐林0.44<白桦中成林0.67<白桦中幼林0.72<红松人工林0.74<人工落叶松林0.77.     

森林生态系统健康评估Ⅱ.案例实践

结合样地调查和他人对阔叶红松林生态系统相关指标的研究资料数据,利用健康距离(HD)评估法和上文建立的阔叶红松林生态系统健康评估指标体系框架,对不同人为干扰影响的长白山阔叶红松林生态系统进行系统健康的评估实践.结果按顺序依次为20%强度择伐林0.21<50%强度择伐林0.44<白桦中成林0.67<白桦中幼林0.72<红松人工林0.74<人工落叶松林0.77.     

长白山阔叶红松林的温度效应

森林温度特征的研究是揭示森林生态系统功能、评估森林环境效益的基础.对2004年长白山阔叶红松林林内外空气温度和土壤温度进行了观测,结果表明:林内外空气温度、土壤温度明显不同.白天林内气温一般低于林外,夜间高于林外.昼间气温差夏季较大,7月平均差值为1.6 ℃;夜间气温差冬季较大,1月平均差值为1.5℃.空气温度和土壤温度的日振幅总是林内小于林外,7月空气温度日振幅林内比林外低1.7℃,4月土壤温度日振幅林内比林外低5.8℃.     

东北阔叶红松林群落类型划分及物种多样性

运用TWINSPAN分类方法,对我国东北阔叶红松林群落类型进行划分,对乔木层树种进行聚类,并对东北地区长白山、大秃顶子山、平顶山和丰林保护区4个样点的物种多样性进行对比研究.结果表明:24个样地中共记录到维管束植物264种,隶属于64科147属.经过聚类,将阔叶红松林划分为3个群落类型组和7个群落类型;同时,将33个乔木树种间的关联性划分为8组.阔叶红松林群落的物种丰富度和多样性为草本层>灌木层>乔木层.在4个样点中,长白山的样地平均物种丰富度最高,为63.长白山和大秃顶子山乔木层和灌木层的物种多样性略高于平顶山和丰林保护区;丰林保护区草本层的物种多样性为2.83,高于其它3个样点.平顶山灌木层和长白山草本层的均匀度最低,分别为0.71和0.80.     

长白山阔叶红松林二氧化碳湍流交换特征

采用开路式涡度相关技术,研究了长白山阔叶红松林森林-大气界面的CO₂湍流交换特征.结果表明,在近中性大气层结条件下,冠层上方垂直风速和CO₂浓度功率谱在惯性子区基本符合-2/3定律,垂直方向主导湍涡尺度约为40 m.湍流通量贡献区主要在0.01～2 Hz频率范围内,冠层上方低频传输的湍涡贡献了更多的CO₂通量.这说明开路式涡度相关仪器系统可以满足冠层上方湍流通量观测的基本要求.但通过涡度相关法实测获得的森林-大气CO₂通量仍存在夜间低估现象,非湍流过程的增加是涡度相关技术应用的主要制约因素.因此,需要对弱湍流条件下的CO₂通量做相应的修订.     

Micrometeorological conditions and canopy energy exchanges of a neotropical rain forest (Surumoni-Crane Project,Venezuela)

Vertical profiles of air temperature, humidity, wind speed and photosynthetically active radiation were examined systematically within and above a primary Amazonian rain forest in Southern Venezuela. During daylight hours the observed gradients of temperature and humidity suggest that turbulent mixing between vegetation and the atmosphere is reasonably efficient in the top two-thirds of the forest, whereas the understorey remains partially isolated. At night, however, the canopy exhibits a significant decoupling from the overlying atmospheric layer due to substantial radiative cooling, causing a stable density stratification above. It is fairly clear that these variations in microclimate produce a spectrum of different living conditions for the flora and fauna.In addition, the collected data provide important information concerning the turbulent exchanges of heat and water vapour. Actual evapotranspiration loss from the forest was estimated using a single-layer version of the Penman-Monteith equation including a submodel of canopy conductance. The values computed for hourly and daily periods were found to agree well with the simultaneously recorded xylem sap flow of several tree species. Thus they prove that this application is suitable to describe the environmental impact of micrometeorological and physiological factors on the complex process of evapotranspiration.     

樟子松固沙林动力效应的研究

在人工林生态系统中,植被与大气之间以湍流的形式不断地进行动量、热量和水分交换,交换过程与下垫面的某些空气动力特征有关。为确定植被与大气之间能量和物质的交换强     

中亚热带森林区通量观测的源面积探讨

利用 2002~2003年典型中亚热带森林地区 (千烟洲站 ) 通量观测资料, 运行FSAM (Flux_source_area_mod el) 解析模型初步确定该站的通量源面积。结果表明 :通量源面积随测量高度、测量时间和大气稳定度变化 ;风向的季节变化, 使得通量源面积分布方向也变化 ;该测站有足够大的风距, 测量结果能代表仪器所在地的现场特征, 即森林下垫面特征。另外, 相同时间的风向和通量数据绘图表明 :在Z/L满足模型运行要求时, 通量数据几乎集中在一个方向上 (随风向变化 ) 。模型结果在水平均匀湍流下得到, 满足模型基本要求。在该测站中, FSAM模型只能模拟昼夜层结稳定, 湍流不活跃时的通量源面积。今后重点是进一步查明森林内、外湍流特点, 改进模型, 使之对该测站的适用性更广。     

A simple tree swaying model for forest motion in windstorm conditions

A simple tree swaying model, valid for windstorm conditions, has been developed for the purpose of simulating the effect of strong wind on the vulnerability of heterogeneous forest canopies. In this model the tree is represented as a flexible cantilever beam whose motion, induced by turbulent winds, is solved through a modal analysis. The geometric nonlinearities related to the tree curvature are accounted for through the formulation of the wind drag force. Furthermore, a breakage condition is considered at very large deflections. A variety of case studies is used to evaluate the present model. As compared to field data collected on three different tree species, and to the outputs of mechanistic models of wind damage, it appears to be able to predict accurately large tree deflections as well as tree breakage, using wind velocity at tree top as a forcing function. The instantaneous response of the modelled tree to a turbulent wind load shows very good agreement with a more complex tree model. The simplicity of the present model and its low computational time make it well adapted to future use in large-eddy simulation airflow models, aimed at simulating the complete interaction between turbulent wind fields and tree motion in fragmented forests.     

科尔沁沙地人工杨树林生态服务效能评价

采用定位观测法,系统评价了杨树(Populus simonii)林的防风、抗蚀和滞尘等生态服务效能及其间接价值,同时定量探讨了风速减弱系数与实测林地叶面积指数的关系。结果表明,在研究区主害风(西北风)天气下,林地迎风区6H(H为平均树高)、3H、林地中央、林地背风区林缘、6和8H处2m高度的日平均风速与对照点(流动沙丘)相比均有不同程度减弱,风速减弱系数在18．3％～66．2％之间。林地背风区6H处0．25、0．5、1和2 m 4个高度的月平均风速减弱系数与林地叶面积指数呈显著非线性相关,其间存在良好的三次曲线关系(P<0．0001,R²=0．43～0．94,n=80)。在主害风天气下,林地各观测点的地表日风蚀量与对照点相比大幅度降低,平均降幅85．2％～99．9％。在观测期内,林地中央的日平均降尘量为13.2 kg·hm^-2,而林地迎风区6H处的日平均降尘量为9．9 kg·hm^-2,林地的日滞尘能力约为3．3kg·hm^-2。       

人工林冠层的湍流微气象特征

利用涡动相关系统测定黄河小浪底森林生态系统定位研究站人工林在萌芽期(2015年3月15日至4月15日,春季)和叶片成型期(2015年7月15日至8月15日,夏季)的微气象数据,分析了冠层湍流微气象特征、湍流强度、湍流风速标准差和总体输送系数,旨在深入了解森林生态系统的微气象特征,为进一步研究能量平衡与物质交换提供工作基础.结果表明: 冠层湍流谱在低频部分具有峰值频率,惯性副区具有明显的耗散趋势,基本符合-5/3规律.冠层结构对湍流强度影响明显,春季湍流旺盛时,风速小于3 m·s^-1,而夏季时风速小于2 m·s^-1.湍流风速标准差符合1/3次幂相似规律,且水平方向比垂直方向的拟合效果好.冠层风速在u、v、w 3个方向分量的风速标准差与摩擦风速比值在春季为2.55、2.06和1.30,在夏季为2.61、2.45和1.21.总体输送系数随稳定度的增加而逐渐减小,在不稳定层结和稳定层结条件下可相差1～2个量级,冠层结构对各方向的湍流风速具有直接影响,从而改变物质能量在冠层的扩散方向.     

Pedoecological effects of a sand-fixing poplar (Populus simonii Carr.) forest in a desertified sandy land of Inner Mongolia, China

To assess the pedoecological effects of a 23-year old poplar ( Populus simonii Carr.) forest on soil amelioration and vegetation restoration via soil erosion reduction and atmospheric dust retention in a desertified sandy land ecosystem, daily dynamics of wind speed, sand transport and dust deposition rates were monitored over an erosive period from April through June in 2001, using fixed observation sites located at different positions within and around the forest. Soil and vegetation characteristics at these sites were also measured. The observation sites were placed at distances of 15H (as control), 6H and 3H (H is mean tree height) from the forest edge of the windward side (abbreviated CK, 6H-W and 3H-W respectively), forest center (FC), and at distances of 0H, 6H and 8H from the forest edge of the leeward side (FE-L, 6H-L and 8H-L respectively). Daily mean wind speed was significantly lower in different observation sites than CK, with FC having the greatest reduction of wind speed and 6H-W the least reduction. Daily transport rate of sand by wind was also significantly lower in different observation sites than CK, with FE-L having the greatest reduction of wind erosion and 6H-W the least reduction. The fact that the poplar forest will lose its functions against wind at a distance of about 12-fold tree height from the forest edge of the leeward side suggests that the effective wind-preventing range of the poplar forest is about 150 m. There was marked spatial and seasonal distribution of dust-fall rate. Over space, the rate of dust-fall was much greater within the forest than outside the forest. Over time, the daily dust deposition rate was greatest in April, followed in decreasing order by May, June, July, September and August, closely linked to the seasonal distribution pattern of dust storm. Significant positive changes in soil and vegetation parameters of the different observation sites during the 23 years that the poplar forest was established suggest the perceptible pedoecological effects of the poplar forest on soil development and restorative succession of plant community within its immediate vicinity through windbreak, soil erosion reduction and atmospheric dust retention. Understanding these pedoecological effects may aid in the design of protective forest systems in arid and semi-arid areas.     

沿海地区森林风害研究综述

从导致森林风害的因素、风害对沿海森林生态系统的影响、风害评估方法、降低森林风害的经营管理措施等方面,综述了风害与沿海森林生态系统关系的研究成果和不足。我国未来应加强在不同尺度下沿海森林结构与功能关系、局域和区域尺度下各类生物/非生物因素与森林风害的关系以及森林风害预测评估模型的构建等3方面的研究。