晋西北旱坡地枣树蒸腾作用与萎蔫现象研究

以木枣为试材进行枣树蒸腾作用与萎蔫现象研究 ,结果表明 :晋西北黄土丘陵旱坡地枣树叶片在正常年份内的蒸腾速率为 0 .93 μg/ (s· cm2 ) ;枣树的蒸腾系数为3 81 .66,即枣树叶片每制造 1 g干物质需要消耗水分 3 81 .66g。枣树的萎蔫现象是指果实的萎蔫和叶片的萎蔫 ,枣树幼树叶片的永久萎蔫系数为 3 .5%,而枣树大树叶片的永久萎蔫系数应低于 3 .3 6%。果实萎蔫分为暂时萎蔫和永久萎蔫。果实萎蔫时期一般是在气温最高的 7月— 8月份 ,特殊年份可持续至 9月上旬 ,枣果实开始萎蔫时的土壤水分含量在 6%左右。     

论农业经济的特点及作用

指出了农业是人类的衣食之源,生存之本,是国民经济其他部门独立和进一步发展的基础。农业问题是当前中国最大的经济问题,因为农业问题解决得好与不好,不仅关系到国民经济的发展,而且关系到我们在2020年能否实现全面建设小康社会的宏伟目标,能否推进社会主义现代化的建设。结合我国的实际情况分析我国农业的特点,利用简单的Excel工具,通过数据剖析我国农业的作用,最后得出结论:在推进工业化进程中,农业对国民经济的贡献虽然有所下降,但是它是发展工业化,走现代化道路的基石,它的基础性地位不可动摇。     

DETERMINATION OF STATIC AND DYNAMIC DIFFUSION COEFFICIENTS OF MOISTURE IN PARTICLEBOARDS

The static and dynamic diffusion coefficients are important coefficients todescribe the moisture transfer processes in particleboard.In this paper,the formula ofculculating the static and dynamic diffusion coefficients were deduced.At first,the staticdiffusion coefficients of four kinds of particleboards were determined by using diffusion cupmethod.The results demonstrated that the static diffusion coefficients parallel to panelsurface were 10-20 times as large as that of perpendicular to panel surface for test boards.To determine both dynamic diffusion coefficients and surface emission coefficients ofmoisture in particleboards in one experimental period,specimens in four different thickness-es of each kind of particleboard were used in the experiment.Then the method ofregression was used and the dynamic diffusion coefficients and surface emission coefficien-ts were determined based on the slope and intercept of the regressive line.     

油桐林生物量和养分循环的研究

对不同生育期的油桐林生物量和大量营养元素(N、P、K、Ca、Mg)的生物循环进行了研究。结果表明,桐林的生物量随树龄的增大逐渐积累,从幼龄期开始到20年生的桐林,其生物量的积累值为79,61t/ha。桐林不同生育期的光合产物在各器官中的分配比例不同。经济产量(果生物量或种仁生物量)随树龄的动态变化服从二次抛物线函数:W_(FR)=-2.11398+0.82471(t-1)-0.03540(t-1)~2W_S=-1.37257+0.38539t-0.01706t~2不同生育期,桐林中大量营养元素的吸收量、存留量、归还量和输出量均不同。     

填料分布对纸的光学性能的影响

讨论了影响填料在纸页中分布的几种因素,提出了纸浆打浆度、助留剂、填料的粒径及填料的加入量与填料光散射效能的关系。     

基于ALOS PALSAR数据的森林蓄积量估测技术研究

以吉林省汪清林业局为研究区,基于ALOS PALSAR和森林资源二类清查固定样地数据,利用非线性回归方法建立了固定样地蓄积量与所对应的PALSAR像元后向散射系数之间的关系,结果表明,除杨树(Populus us-suriensis)等树种组外,PALSAR的HV后向散射系数与蓄积量呈良好的正相关关系,对多数树种而言,交叉极化方式(HV)后向散射系数与蓄积量的决定系数比同极化方式(HH)的略高。若以林场为单位统计,采用回归方法得到的估测结果与直接利用固定样地估测的结果相差很小。     

Wood Moisture Content Measurement by X-Ray Exposure Method

lNTRoDUCTIONTheon-sitcnon-dcstructit'cmcasurcl11cntofu.oodmoisbocontcntattTactsgrcatintcrcsts.Itpla3'simpor-tantpartsinthescicntificrcscarchsucl1asonthchcatandmasstransportproccssesint"ooddri'ing.thcim-pregnationofliquidinxt'ood.thcmoisturccontcntdistri-b…     

火炬松短周期工业材不同高度上干缩性能的研究

对湖南同一立地指数（１８）下，５株１７．５年生的火炬松（ＰｉｎａｓｔａｅｄａＬ．）短周期工业材１．３，３．６，５．６，７．６，９．６ｍ５个高度的木材干缩系数、基本密度、生长轮宽度、晚材率和微纤丝角度，按生长轮取样，进行了测量和统计分析．结果表明，弦向、径向、体积干缩系数和干缩比，在树于５个高度之间的差异，均达到了显著水平；各高度干缩系数与生长轮的年龄（离髓心的距离）以及与上述各主要构造因子之间呈显著的线性相关，且相关度度随树干高度的增加而减弱．     

Using a stand-level model to predict light absorption in stands with vertically and horizontally heterogeneous canopies

Background： Forest ecosystem functioning is strongly influenced by the absorption of photosynthetically active radiation （APAR）, and therefore, accurate predictions of APAR are critical for many process-based forest growth models. The Lambert-Beer law can be applied to estimate APAR for simple homogeneous canopies composed of one layer, one species, and no canopy gaps. However, the vertical and horizontal structure of forest canopies is rarely homogeneous. Detailed tree-level models can account for this heterogeneity but these often have high input and computational demands and work on finer temporal and spatial resolutions than required by stand-level growth models. The aim of this study was to test a stand-level light absorption model that can estimate APAR by individual species in mixed-species and multi-layered stands with any degree of canopy openness including open-grown trees to closed canopies. Methods： The stand-level model was compared with a detailed tree-level model that has already been tested in mixed-species stands using empirical data. Both models were parameterised for five different forests, including a wide range of species compositions, species proportions, stand densities, crown architectures and canopy structures. Results： The stand-level model performed well in all stands except in the stand where extinction coefficients were unusually variable and it appears unlikely that APAR could be predicted in such stands using （tree- or stand-level） models that do not allow individuals of a given species to have different extinction coefficients, leaf-area density or analogous parameters. Conclusion： This model is parameterised with species-specific information about extinction coefficients and mean crown length, diameter, height and leaf area. It could be used to examine light dynamics in complex canopies and in stand-level growth models.     

落叶松干燥过程水分扩散性的研究-Crank方法与Dincer方法的使用

采用两种改进的多孔固体材料水分扩散偏微分方程分析求解方法,即Dincer方法与Crank方法,分析并计算落叶松干燥过程的水分扩散系数(D)与水分传递系数(k)。使用扩散型微分方程对落叶松干燥过程进行数学模拟,木材试件被理想化为无限大平板状材料,假定木材内部水分的扩散过程是一维的。实验测定了不同干燥介质条件下木材干燥动力曲线。基于取得的实验数据,通过Dincer方法计算了木材水分扩散系数(D)与水分传递系数(k);使用传统的Crank方法分析计算了木材动态水分扩散系数(D)。研究表明,使用Dincer方法计算的木材水分扩散系数(D)均大于相应实验条件下Crank方法计算数值,接近1个数量级。这种结论应该是由于两种分析求解方法间的差异以及水分扩散与热量传递数学求解间的差异。因此相关的水分扩散微分方程的分析求解方法有待改进。随干燥介质温度的升高,木材水分扩散系数(D)与水分传递系数k均显著增大,可以采用Arrhenius方程与木材结合水传递理论来分析解释实验条件下的扩散系数(D)与干燥介质温度(T)间的变化趋势。图2表3参6。