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1.
樟子松人工林一级枝条基径和枝长模型的研究   总被引:4,自引:0,他引:4  
刘兆刚  舒扬  李凤日 《植物研究》2008,28(2):244-248
以东北林业大学帽儿山实验林场樟子松人工林为研究对象,采用枝解析的方法,于2002年、2003年测定了53株林木(年龄17~38 a,直径8.61~21.5 cm,树高7.48~18.24 m)的树冠变量,建立了基于总着枝深度(DINC)和树冠内一级枝条基径(BD)、枝长(BL)的预估模型。对于大小相同树木的一级枝条, 这些树冠变量随着DINC的增加而增大,而林木的胸径(DBH)、树高(HT)变量又很好地反映了不同大小树木的基径和枝长的变化。采用独立检验样本对构建的树冠内一级枝条基径和枝长模型进行了拟合统计量和精度检验,结果表明:模型预测效果良好,精度均达到95%以上。构建的一级枝条基径和枝长模型为进一步合理地描述樟子松人工林树冠的形状及其变化以及三维可视化经营提供依据。  相似文献   

2.
以东北林业大学帽儿山实验林场樟子松人工林为研究对象,采用枝解析的方法,于2002年、2003年测定了53株林木(年龄17~38a,直径8.61~21.5cm,树高7.48~18.24m)的树冠变量,建立了基于总着枝深度(DINC)和树冠内一级枝条基径(BD)、枝长(BL)的预估模型。对于大小相同树木的一级枝条,这些树冠变量随着DINC的增加而增大,而林木的胸径(DBH)、树高(HT)变量又很好地反映了不同大小树木的基径和枝长的变化。采用独立检验样本对构建的树冠内一级枝条基径和枝长模型进行了拟合统计量和精度检验,结果表明:模型预测效果良好,精度均达到95%以上。构建的一级枝条基径和枝长模型为进一步合理地描述樟子松人工林树冠的形状及其变化以及三维可视化经营提供依据。  相似文献   

3.
基于地基激光雷达的落叶松人工林枝条因子提取和建模   总被引:1,自引:0,他引:1  
张颖  贾炜玮 《应用生态学报》2021,32(7):2505-2513
地基激光雷达(TLS)可以实现从森林中无破坏收集数据。本文基于地基激光雷达数据通过点云处理软件以人机交互的方式获取了26株落叶松样木的1266组枝条信息,包括着枝高度、弦长、枝长、着枝角度、基径和弓高。枝条可提取的最大相对着枝高度的平均值为0.83。在所提取的枝条因子中,提取精度依次为着枝高度>弦长>枝长>基径(基径大于20 mm的枝条)>弓高,将树冠分为4部分后分析发现,随着冠层高度的增加,枝条密度呈升高趋势,枝条提取率和提取精度呈下降趋势。此外,由于枝条基径提取精度较低,以弦长、着枝高度、胸径和树高为自变量构建基径预测模型。对不同基径的实测值、提取值与模型预测值对比分析发现,枝条基径的预测精度大于提取精度。对于造材来说,最有价值的部分是树木中下部,本方法能够较准确地提取树木胸径树高和相对着枝高度0.8以下的枝条属性信息,提供构建木材质量模型所需要的参数。  相似文献   

4.
比叶重(LMA)是构建生态系统过程模型的重要参数之一,准确预测树冠比叶重的动态变化对提高模型精度有重要意义。本研究以黑龙江省尚志市帽儿山林场人工长白山落叶松为对象,分别在生长季针叶不同发育时期对树冠内不同垂直位置的针叶比叶重进行测量,分析针叶比叶重在树冠垂直方向及针叶不同发育时期的变化规律,探讨导致其时间和空间差异的主要因子,建立长白落叶松幼龄林比叶重动态预估模型。结果表明: 比叶重在树冠垂直方向表现为随着相对着枝深度(RDINC)的增加而减小,完全展叶后比叶重在垂直方向的变化幅度明显高于展叶初期。比叶重在不同发育时期表现为随发育进程先增大后趋于稳定,该趋势随着树冠深度的增加而逐渐减弱。分别以RDINC和年度积日(DOY)为单一变量预测比叶重时,模型的调整后决定系数(Ra2)低于0.6,当同时以RDINC和DOY为自变量构建比叶重预估模型时,Ra2提高0.19,且模型检验效果良好(ME=0.54 g·m-2, MAE=5.74 g·m-2)。研究表明长白落叶松比叶重在树冠不同轮层和不同针叶发育期间均存在显著差异,以RDINC和DOY为自变量构建的比叶重预测模型可以很好描述长白落叶松比叶重的空间及生长季针叶发育期变化,为阐明树冠发育机理提供理论依据,为提高生态过程模型精度奠定基础。  相似文献   

5.
含度量误差的黑龙江省主要树种生物量相容性模型   总被引:5,自引:0,他引:5  
Dong LH  Li FR  Jia WW  Liu FX  Wang HZ 《应用生态学报》2011,22(10):2653-2661
基于516株样木的生物量数据,采用非线性度量误差模型理论和方法,构建了黑龙江省15个主要树种(组)总生物量与地上、地下、树干、树冠、树枝、树叶6个分项生物量以及分项生物量间的相容性生物量模型,分别选出各树种总生物量和各分项生物量的最优模型,采用比值函数分级联合控制方程组构建了以总生物量为基础的相容性模型,并采用对数变换对总生物量模型消除异方差,采用加权回归对各分项生物量模型消除异方差.结果表明:本文所建的15个树种(组)相容性生物量模型中,总生物量的预估精度最高,达到90%以上;其次是地上部分生物量和树干生物量,预估精度在87.5%以上;地下部分、树冠、树枝和树叶生物量的预估精度相对较低,但绝大多数树种(组)的预估精度在80%以上;所有树种(组)总生物量、地上部分生物量、树干生物量模型的模拟效率(EF)值达0.9以上,绝大多数树种(组)的地下部分、树冠、树枝、树叶生物量模型的EF值在0.8以上.  相似文献   

6.
基于黑龙江省孟家岗林场60株人工红松955个标准枝数据,采用线性混合效应模型理论和方法,考虑树木效应,利用SAS软件中的MIXED模块拟合红松人工林一级枝条各因子(基径、枝长、着枝角度)的预测模型.结果表明: 通过选择合适的随机参数和方差协方差结构能够提高模型的拟合精度;把相关性结构包括复合对称结构CS、一阶自回归结构AR(1)及一阶自回归与滑动平均结构ARMA(1,1)加入到一级枝条大小最优混合模型中,AR(1)可显著提高枝条基径和角度混合模型的拟合精度,但3种结构均不能提高枝条角度混合模型的精度.为了描述混合模型构建过程中产生的异方差现象,把CF1和CF2函数加入到枝条混合模型中,CF1函数显著提高了枝条角度混合模型的拟合效果,CF2函数显著提高了枝条基径和长度混合模型拟合效果.模型检验结果表明:对于红松人工林一级枝条大小预测模型,混合效应模型的估计精度比传统回归模型估计精度明显提高.
  相似文献   

7.
罗丽芬  施佳  叶萤  陈华豪 《植物研究》1988,8(3):183-192
Picea koraiensin Nakai的♀球花(球果)多着生在树冠顶端数轮生枝上, 从稍部往下第3-5(8)轮枝上的♀球花(球果)能给予全树冠结实量的80%以上的信息, 第3-5(8)轮枝称信号枝。查数信号枝上的♀球花(球果)能预报全株产量。 半面树冠和全面树冠上的♀球花(球果)数量紧密相关, 得方程y=0.0275+1.8541 x, 测x值预报y(全树冠结实量)值。 同龄的Picea koraiensis人工林胸径越大, 结实株数%及单株结实量越多。预报林分的结实量以平均标准本法, 简便易行, 较准确。  相似文献   

8.
成方妍  王传宽 《生态学杂志》2015,26(8):2253-2264
以胡桃楸和春榆为例,采用枝解析法测定不同基径枝条的非结构性碳水化合物(NSC)浓度的变异,进而估算并评价不同取样方法对树冠NSC含量估算的误差.结果表明: 器官对两种树种树冠NSC浓度的影响显著,叶、新枝、老枝和死枝的可溶性糖与淀粉的总和(TNC)的平均浓度分别为17.6%、12.6%、5.7%和2.9%.叶和新枝的NSC浓度随枝基径、枝龄、枝长和枝相对高度的变异多不显著,但老枝的NSC浓度随枝基径、枝龄和枝长增大而降低,而随枝相对高度增加而增加,其中枝基径是老枝NSC浓度的最佳预测变量(R2在0.87~0.95).两树种叶、新枝和老枝平均TNC含量分别占其树冠TNC含量的28%、2%和70%.分析树冠枝NSC的空间变异性对树冠NSC含量估算误差的影响发现,采用新枝和直径约3 cm老枝枝段的NSC浓度估算冠层NSC含量是较简易而精确的方法.  相似文献   

9.
樟子松人工林树冠表面积及体积预估模型的研究   总被引:1,自引:1,他引:0  
廖彩霞  李凤日 《植物研究》2007,27(4):478-483
基于樟子松(Pinus sylvestris var. mongolica)人工林6块固定标准地30株枝解析数据,在分析树冠表面积和树冠体积与林分变量和林木变量的基础上,利用幂函数建立了树冠表面积(CSA)和树冠体积(CV)的预估模型,同时还对林木材积生长量与CSA和CV进行了相关分析。研究结果表明:樟子松人工林树冠表面积和树冠体积随着林木胸径、树高和冠长的增大而增大,林木材积生长量与树冠表面积和树冠体积均明显呈线性关系。不同林分条件的樟子松人工林CSA和CV随林分年龄和胸径的增大而增大,CSA随林分密度的增大而减小,而CV与林分密度相关不紧密。林分树冠表面积和树冠体积预估模型的检验结果表明,两个模型的平均相对误差都在±8%之内,预估精度均大于91%,说明所建模型可以很好地预估樟子松人工林不同林分条件下的林木树冠表面积和树冠体积。  相似文献   

10.
臭冷杉生物量分配格局及异速生长模型   总被引:4,自引:0,他引:4  
汪金松  张春雨  范秀华  赵亚洲 《生态学报》2011,31(14):3918-3927
摘 要:臭冷杉是长白山阔叶红松林中重要针叶树种,采用整株收获法分析21株臭冷杉地上地下生物量分配格局。在枝条水平上采用样枝直径(BD)、样枝长度(BL)、样枝所在轮生枝位置(WP)建立活枝、针叶生物量异速生长模型,在植株水平上采用胸径(DBH)、树高(H)、年龄(Age)、树冠长度(CL)、树冠比率(CR)、南北向冠幅(CW1)、东西向冠幅(CW2)等变量建立树干木质、树皮、活枝、针叶、粗根及整株生物量模型。并利用逐步线性回归法获得不同器官生物量最优模型。结果表明:(1)活枝生物量主要集中在树冠中下层,针叶生物量集中在树冠中层。树冠中层和下层枝叶生物量无显著差异(p>0.05);(2)21株臭冷杉地上生物量和地下生物量变动范围分别为1.026–506.047 kg/株和0.241–112.000 kg/株。粗根、活枝、针叶、树干木质、树皮及枯枝生物量占整株生物量的相对比例分别为18.68%、18.39%、12.02%、39.29%、8.70%和2.92%;(3)地上生物量与地下生物量呈显著线性相关(p<0.001),拟合线性方程斜率为0.23;(4)枝条水平上,活枝生物量模型解释量超过95%,平均预测误差小于30%。与单变量(BD)活枝生物量模型相比,2变量(BD、BL)和3变量(BD、BL、WP)模型解释量分别提高1.2%和2.0%,平均预测误差分别下降6.26%和9.27%。针叶生物量相对较难预测,模型解释量仅为82.7%,平均预测误差接近50%,模型中增加BL 和WP变量并未提高针叶生物量的预测精度。活枝生物量与BD、BL、WP正相关,针叶生物量与BD正相关,与BL、WP负相关;(5)植株水平上,基于胸径的单变量模型可解释量大于90%,增加树高变量未能显著提高生物量模型的预测精度。年龄决定了臭冷杉的树干生物量,忽视年龄变量将会产生生物量预测误差。树冠特征是影响枝叶生物量预测精度的重要变量。综合考虑模型的可解释量及回归系数显著性可知,胸径是预测臭冷杉不同器官生物量的可靠变量。  相似文献   

11.
A mathematical model was developed to simulate the growth dynamics of monospecific stands of the marine mangroves (Rhizophora apiculata), based on physiological and morphological processes. Six variables to describe the tree organs and three morphological variables to illustrate the growth pattern were selected and incorporated in the model. The growth pattern was described by using a series of mathematical relationships.Net tree growth was derived from the combined effect of photosynthesis, respiration, and mortality. Net primary production was allocated to the tree organs based on their allometric ratios. Coefficients reported in literature were used to simulate the life history and demographics of R. apiculata. Initial diameter at breast height (DBH), daily global radiation and mean air temperature are some of the inputs that were used to calculate the biomass and demographic parameters, using daily time steps.The model was capable of simulating the growth dynamics of R. apiculata stands at lower latitudes, with reasonable accuracy (R≥ 0.80). However, the predictions at higher latitudes exhibited unsatisfactory model fits. This discrepancy in observations at higher latitudes is probably due to other factors like rainfall distribution, soil structure, which were not incorporated in the model structure.  相似文献   

12.
湘中丘陵区南酸枣阔叶林群落特征及群落更新   总被引:1,自引:0,他引:1  
易好  邓湘雯  项文化  方晰  赵丽娟  李家湘  崔飞 《生态学报》2014,34(12):3463-3471
南酸枣阔叶林群落是湘中丘陵区的重要的森林群落类型之一,在森林演替过程中占有重要的地位。在湘中丘陵区长沙县大山冲林场的代表性群落——南酸枣阔叶林群落(The Choerospondias axillaries broad-leaved community)设立1 hm2固定样地,对其群落学特征进行调查,分析其植物多样性和更新动态。结果表明:群落中胸径≥1cm的乔木树种共有25科42属59种。乔木层中南酸枣(Choerospondias axillaries)的重要值最大(23.57),是群落中的建群种;南酸枣胸径和树高结构均呈正态分布,南酸枣幼苗(1.0cm≤DBH1.5cm)只有6株;群落中四川山矾(Symplocos setchuensis)的重要值(10.46)排第二,但胸径小于1.5 cm的幼树数量较多(占种群数量的22.0%),格药柃(Eurya muricata)、千年桐(Aleurites montana)和毛豹皮樟(Lindera coreana)的重要值分别为7.98(幼树数占种群数量的16.8%),5.39(幼树数占种群数量的11.7%),4.17(幼树数占种群数量的11.0%),这4个乔木树种的径级结构均呈倒J型分布;林分的成层结构中,上层木主要为南酸枣,下层木主要为四川山矾、格药柃、千年桐和毛豹皮樟。林下幼苗主要为常绿阔叶树种,且更新良好,并将成为下一个演替阶段的建群种。南酸枣的幼苗更新不良情况说明其在群落中的优势地位在逐年降低,而四川山矾、格药柃、千年桐、毛豹皮樟等树种的优势地位呈上升趋势,表明湘中丘陵区的南酸枣阔叶林群落正在朝常绿阔叶林的方向演替。灌木、草本层中共有植物37种,重要值前5位的种为檵木(Loropetalum chinensis)、满山红(Rhododendron mariesii)、乌饭(Vaccinium bracteatum)、栀子(Gardenia jasminoides)、映山红(Rhododendron simsii)分别为54.59、21.85、4.98、4.63、4.53,其中,檵木和满山红在灌木层中的优势地位明显。  相似文献   

13.
干旱荒漠区银白杨树干液流动态   总被引:4,自引:3,他引:1  
应用热扩散式树干茎流计(TDP)于2012年7月1日至7月25日,在克拉玛依地区农业开发区对银白杨(Populus alba L.×P.talassica)人工林树干液流速率进行了连续测定,并对气象、土壤水分等指标进行了同步测定。结果表明:7月份的晴天银白杨树干液流速率日变化呈单峰型,阴天呈多峰型,在测量时期液流速率日平均值为0.6059 L/h;银白杨树干单位边材面积的液流速率与太阳总辐射、大气温度、水汽压差呈极显著正相关关系,与相对湿度呈负相关关系。其相关系数绝对值顺序为太阳总辐射>大气温度>水汽压差>相对湿度>风速;银白杨边材面积与胸径之间存在着显著的线性相关关系,相关系数为0.834,单位边材面积的液流速率随树干胸径的增大而减小。  相似文献   

14.
南亚热带米老排人工林碳贮量及其分配特征   总被引:3,自引:0,他引:3  
刘恩  刘世荣 《生态学报》2012,32(16):5103-5109
米老排是我国南方速生用材树种,研究米老排(Mytilaria laosensis)人工林碳贮量与碳分配的规律,可为评价米老排人工林的固碳能力与发展人工林多目标经营提供科学依据。采用样地测定的方法,对南亚热带米老排人工林不同器官碳浓度、碳贮量及分配特征进行了研究。结果表明:不同器官碳浓度均值的变化范围为:51.73%—55.75%,各器官碳浓度大小为:新叶>新枝>老叶>树干>老枝>根桩>粗根>细根;凋落物碳浓度为未分解层>半分解层;0—100 cm土壤碳浓度随深度增加而降低,变化范围为0.62%—4.10%。20年生米老排人工林总碳贮量为331.61 t/hm2,乔木层,凋落物层和土壤层的碳贮量分别为154.07、2.74和174.80 t/hm2。年均总固碳量为14.77 t/hm2,折合CO2量为54.16 t,其中乔木层、凋落物层和土壤层所占比例分别为60.73%,6.16%和33.11%。  相似文献   

15.
Biomass functions applicable to Scots pine   总被引:5,自引:0,他引:5  
This study describes parameterization of biomass functions applicable to Scots pine (Pinus sylvestris, L.) in the conditions of Central Europe. Fifty-two sample trees from seven sites in different regions of the Czech Republic were used for destructive measurements. The observed aboveground biomass (B AB) and its individual components were examined by different types of non-linear regression models using one to five independent variables including stem diameter (D), tree height (H), tree age (A), crown length (C) and altitude (Z). The best single-equation approximation of B AB was a three-parameter model using D, H and Z, which was also best suited for bark. Including altitude into classical multiplicative exponential function with three independent variables (DHZ) and four parameters yielded the best model for stem over or under bark. Age was important for assessment of dead branches within DHA model, whereas living branches were best approximated using four variables including C (DHAC model). The most complex model (DHACZ) worked best for needle biomass. The comparison of B AB assessment by single regression equation and from sum of individual components showed a negligible difference for full-grown trees, whereas the additive assessment yielded considerably higher B AB for small or young trees. This corresponds to the assessed confidence intervals for individual trees that were larger for smaller trees. The paper also discusses the issue of commonly used linearization of biomass equations and application of linear regression, and provides comparative examples with nonlinear approach used here. The paper presents the parameter sets for the tested equations for B AB and individual biomass components.  相似文献   

16.
Water relations and gas exchange were studied in the crowns of small European larch (Larix decidua Mill.) trees with respect to branch position. The upper-crown branches showed significantly higher branch sap flux rate (F la) and branch conductance (g b) compared to the lower crown (P<0.001). Values of leaf conductance (g l), transpiration rate (E) and net photosynthesis (A), averaged for different ranges of atmospheric vapour pressure deficit (VPD), were also higher in the upper crown position. We suppose that the up to 2.6-fold smaller soil-to-leaf hydraulic conductance observed in the lower branches (P<0.001, compared to upper branches) could contribute to the decreased values of F la, g b, g l, and E in the lower crown position. Variation in tracheid lumen diameter with respect to crown position (P<0.001) supported the hypothesis that branches growing at the crown base are hydraulically more constrained than branches located at the top of the tree. Leaf area to sapwood area ratio (A la/A sa) exhibited 1.4 times smaller values in lower crown (P<0.01), however, this could not compensate the effect of decreased hydraulic conductivity of the lower-crown branches.  相似文献   

17.
The production of new leaves of host trees can be affected by the presence of epiphytic species. This experimental study was planned to evaluate the effects on the mean number of new leaves produced by Prosopis alba considering the factors site-disturbance, different epiphytes loads, and the respective zones in the tree crown. The number of new leaves produced was counted manipulating branches with originally low and high loads of epiphytes at different crown zones, in 10 trees per site. The effect of manual removal of epiphytes on the leaf production of the hosts was analyzed by comparing branch responses in short and medium periods of time (i.e., 6 months and 3 years, respectively). There were no significant differences when comparing the number of new leaves produced in the sampled trees at sites with different human disturbance intensities. By contrast, significant differences were observed between both epiphytic loads treatments and when comparing tree crown zones. Experimental results showed a higher subsequent host leaf production (>100%) in branches where epiphytes were experimentally removed, in comparison with branches with high load of epiphytes The number of new leaves produced in branches with naturally low loads of the epiphytes was higher than 1000% compared to branches with high Tillandsia loads. Finally, a higher significant production of new leaves was observed in the bottom crown zone as compared with the middle and upper crown zones. Furthermore, this trend was confirmed considering a longer time-period (3 years) after experimental removal of epiphytes. A significant increase (>100%) was observed when comparing the production of new leaves between different periods after total epiphyte removal. In consequence, Tillandsia species could be considered as “structural parasites” of Prosopis alba.  相似文献   

18.
马泽清 《生态学报》2011,31(6):1525-1537
基于树干解析和树轮分析,结合野外调查,揭示了我国主要外来树种--湿地松(Pinus elliottii)的生长规律,从而为人工林经营管理和生态系统服务功能评估提供了依据。2005年调查了1948年江西吉安青原山引种后存留的564株湿地松(1954 1958年生)。胸径(DBH, diameter at breast height)平均值为34.2 cm(18.4-58cm),树高平均值为19.5 m(9-33m)。青原山湿地松树轮分析结果显示:52年间,年树轮宽度增长量平均值为0.32 cm,最大年增长量不超过1.14 cm。胸径年生长量总体上呈下降趋势,直径生长高峰出现在10a左右;林龄达到20a左右时,直径年生长量开始下降;林龄40a后,生长变得极为缓慢。距青原山西南100km的千烟洲湿地松林(20年生)胸径和树高平均值分别为15.9 cm和11.0 m;20a的胸径生长量平均值为0.86 cm;材积方程为V= 0.0000213 D2.9870924(V为带皮材积,D为胸径)。千烟洲湿地松林生物量低于同期营造的马尾松(Pinus massoniana)林生物量,也明显低于中亚热带地带性植被樟树(Cinnamomum camphora)林的生物量。经比较发现,引种营造的湿地松林,其生长量远不如原产地美国佛罗里达州湿地松林。  相似文献   

19.
Spatial variation in sapwood area to leaf area ratio (Huber value, HV) and specific leaf area (SLA) was examined in branches of closed-canopy trees of silver birch (Betula pendula Roth). HV increased basipetally within a crown and decreased with increasing branch order, but exhibited no significant radial trend along a primary branch. HV was primarily determined by branch position in a crown and branch diameter at the sampling point, being independent of the size of the tree and branch. Greater HV in the lower-crown branches is considered a means to mitigate differences in hydraulic transport capacity between the branches located in different canopy layers. Beside branch position and sampling location on a branch, SLA depended significantly on several other variables characterising tree and branch size. SLA increased basipetally within a crown and along a primary branch, but exhibited no significant trend with branch orders. Because height caused leaf area (AL) to diminish more rapidly than leaf dry weight, AL primarily determined the vertical variation in SLA.  相似文献   

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