稀疏林下种植牧草及其相互影响

林下种植牧草是当前国家大力支持的产业之一。在林下种植牧草可以促进林木生长、增加林地生产力、提高林地土壤肥力。因此林下种植牧草不仅对当地生态环境和经济发展有着重要意义,而且对于我国林业发展和生态文明建设具有重要意义。本文对稀疏林下种植牧草及其相互影响进行了分析。

马尾松稀疏林套种闽粤栲经营效果分析

研究了低质低效马尾松稀疏林套种闽粤栲的经营效果,结果表明：在马尾松林郁闭度0.2~0.5下套种的7年生闽粤栲都可以正常生长,生长量最大的是郁闭度0.3~0.4的处理。套种闽粤栲能够促进马尾松林生长,其平均胸径、树高、林分蓄积量均有不同程度提高,且林分蓄积量间差异均达到极显著水平,林分生产力显著提高。林内生长环境主要因子（土壤容重、土壤含水量、光照强度、气温、地温和空气相对湿度等）也都发生了不同程度的变化,有利于马尾松、闽粤栲生长,而且改善了生态质量,有显著的经营效果。

稀疏林下种植牧草及其相互影响

通过稀疏林下牧草种植试验,对种植牧草出苗生长状况、生物产量、林木米径生长、林分郁闭度和林下地表温度变化等的观测,分析了疏林地种植不同牧草品种林草生态系统中两者相互影响的关系。结果表明:种植的5个牧草品种中多年生高秆禾本科桂牧1号象草生长最好,生物产量最高,能增加载畜量,百喜草能形成致密的草层,对地表覆盖性好;林草生态系统中林草能同时起到保持地表温度稳定的作用,高温季节林内地表温度较林外最高可降低2.4℃;在树木生长盛期的4~9月,试验测定小区桂花林木米茎最高增长达到5.88cm,表明材积量增加明显,各类牧草品种及对照组对桂花林木米茎生长和林分郁闭度的影响变化规律不明显。

宁夏黄土梁状丘陵区6种稀疏人工林的枯落物持水特征

【目的】枯落物层持水性能是林地水文效应评价的重要内容,定量评价黄土梁状丘陵区比较稀疏的典型人工林枯落物层的水文特征指标,可为研究区林草植被的生态重建、结构优化等提供理论依据。【方法】选择山杏、山桃、柠条纯林与山杏-沙棘混交林、山杏-柠条混交林、山桃-山杏-苜蓿混交林6种人工林,分别设置20 m×20 m的标准样地,在四角及中心设5个1 m×1 m的样方收集枯落物样品。采用野外调查和室内浸泡法,分析保存在地表及混入土壤中的所有枯落物的蓄积量、持水性及持水动态变化规律。【结果】研究表明:1)6种林分枯落物总蓄积量范围在1.05~4.01 t·hm^(-2),其中山杏纯林最高,山桃纯林最低。土壤中枯落物蓄积量占枯落物总蓄积量的比例变化范围在11.43%~25.00%。除山杏纯林外,混交林分的总蓄积量均大于纯林。2)综合6种林分地表枯落物和土壤中枯落物的持水能力来看,最大持水量为山杏纯林(15.75 t·hm^(-2)),最大持水率为山杏-柠条混交林(264.65%)。3)6种林分枯落物的持水量和吸水速率的动态变化过程均表现为在浸水初期迅速变化,24 h时达到饱和趋于稳定。持水量和持水速率随浸泡时间的变化分别符合自然对数方程和幂函数方程,均达到极显著水平(P<0.01)。4)综合分析了6种林分枯落物的有效拦蓄量和有效拦蓄率变化,结果显示山杏纯林地表枯落物的拦蓄能力最高,山杏-柠条混交林土壤中枯落物的拦蓄能力最高;山杏纯林的总有效拦蓄量最高(11.08 t·hm^(-2)),山杏-柠条混交林次之(7.67 t·hm^(-2))。【结论】在宁夏黄土梁状丘陵区,6种稀疏人工林的枯落物持水性能综合表现为山杏纯林及山杏-柠条混交林优于其他林分。研究结果可为当地生态恢复中的枯落物水土保持效益科学评价和林草植被结构优化提供理论依据。

极端干旱区荒漠稀疏河岸林遥感分类研究

研究以位于极端干旱区的塔里木河干流中下游地区为例,基于Landsat TM影像,结合决策树分类、几何光学模型与光谱角匹配,解决混合像元信息分解,实现干旱区稀疏荒漠河岸林类别识别。首先从遥感视角的角度,将地物分解为目标和背景,提出塔里木河干流荒漠河岸林植被分类系统;其次以多变量决策树法将非荒漠植被信息剔除,采用几何光学模型模拟各类荒漠植被的像元光谱,最后以光谱角匹配的方法将荒漠植被进一步进行分解,得到塔里木河干流中下游地区典型研究区的植被分类专题图,分类精度结果表明:基于混合像元分解与几何光学模型的分类方法总精度达到了79.43%,Kappa系数为0.718,表明分类质量良好。

Competition-density effect in plant populations

The competition-density effect of plant populations is of significance in theory and practice of forest management and has been studied for long time. The differences between the two reciprocal equations of the competition-density effect in nonself-thinning populations and self-thinning populations were analyzed theoretically. This supplies a theoretical basis for analyzing the dynamics of forest populations and evaluating the effect of forest management.

Self-thinning Rules at Chinese Fir(Cunninghamia lanceolata) Plantations——Based on a Permanent Density Trial in Southern China

Data selection and methods for fitting coefficients were considered to test the self-thinning law. TheChinese fir (Cunninghamia lanceolata) in even-aged pure stands with 26 years of observation data were applied tofit Reineke's (1933) empirically derived stand density rule (No∝d^-1.605, N = numbers of stems, d= mean diameter),Yoda's (1963) self-thinning law based on Euclidian geometry (v ∝ N^-3/2, v= tree volume), and West, Brown andEnquist's (1997, 1999)(WBE) fractal geometry (w ∝ d^-8/3). OLS, RMA and SFF algorithms provided observedself-thinning exponents with the seven mortality rate intervals (2%--80%, 5%--80%, 10%- 80%, 15%--80%,20%- 80%, 25%--80% and 30%- 80%), which were tested against the exponents, and expected by the rules con-sidered. Hope for a consistent allometry law that ignores species-specific morphologic allometric and scale differ-ences faded. Exponents a of N ∝ d^α, were significantly different from -1.605 and -2, not expected by Euclidianfractal geometry;exponents β of w ∝ N^β varied around Yoda's self-thinning slope - 3/2, but was significantly differentfrom - 4/3;exponent Y of w ∝ d^γ tended to neither 8/3 nor 3.