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%.     

长白山阔叶红松林主要树种凋落叶分解速率及其与叶性状的关系

阔叶红松林是我国东北地区地带性顶级森林群落,对维持区域生态系统稳定性具有重要作用。对阔叶红松林内主要树种凋落叶分解过程及影响因素进行研究,有助于增加长白山阔叶红松林生态系统的基础数据,为明确阔叶红松林的养分循环和物质流动提供依据。选取了长白山阔叶红松林内30个常见乔灌树种和16个凋落叶性状,采用野外分解袋法和室内样品分析等方法研究了长白山阔叶红松林内主要树种凋落叶分解速率及其与凋落叶性状的关系。1年的野外分解实验表明,30个树种的凋落叶重量损失率表现出较大差异。不同树种凋落叶的重量损失率在20.56%—92.11%之间,以红松(Pinus koraiensis)质量损失率最低,东北山梅花(Philadelphus schrenkii)质量损失率最高。不同生活型树种的凋落叶在质量损失率上存在显著差异,以灌木树种凋落叶的质量损失率最高,小乔木次之,乔木树种质量损失率最低。Olson模型拟合结果表明,不同树种凋落叶的分解速率k以红松最低,瘤枝卫矛(Euonymus verrucosus)最高,分别为0.24和1.64。不同树种分解50%和95%所需的时间分别在0.43—2.86年,1.83—...     

长白山阔叶红松林近22年的气候动态

长白山阔叶红松林作为典型的温带森林生态系统。其长期的气候动态状况对研究全球变化具有重要的意义。本文采用中国科学院长白山森林生态系统定位站气象观测场1982～2003年的地面常规气象观测资料,对长白山阔叶红松林的光能因子（包括年日照时数、年日照百分率）、热量因子（包括年平均气温、1月、7月月平均气温、年极端最高、最低气温、年积温）、水分因子（包括年总降水量、年最大雪深、相对湿度、年总蒸发量）、以及年平均风速与风向等气候因子进行了分析,从而得出这些因子22年的平均值及其动态变化趋势,进而为相关领域的研究提供基础资料。     

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。     

林窗模型的几个基本问题的研究 Ⅰ.模拟样地面积的效应

以中国东北长白山阔叶红松林为例,应用林窗模型NEWCOP探索了不同模拟样地面积对林窗模型输出结果的影响,结果表明,模拟样地面积大小变化可影响模拟出的森林群落的树种组成和模拟样地的林窗出现周期,通过应用这一特点确定了阔叶红松林的林窗面积为400－800m^2。     

林窗模型的几个基本问题的研究:I.模拟样地面积的效应

以中国东北长白山阔叶红松林为例,应用林窗模型NEWCOP探索了不同模拟样地面积对林窗模型输出结果的影响.结果表明,模拟样地面积大小变化可影响模拟出的森林群落的树种组成和模拟样地的林窗出现周期,通过应用这一特点确定了阔叶红松林的林窗面积为400～800m².     

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℃.     

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.     

长白山主要树种耐旱性的研究

研究表明,全球增温可导致干旱趋势的发展,为了解东北主要森林分布区长白山广大低海拔地区阔叶红松林主要组成树种对干旱趋势的反应,通过ＰＶ曲线技术测定不同树种的水分参数值,比较评价其耐旱能力,得到长白山阔叶红松林主要树种耐旱性从高、到低依次为：山杨、蒙古柞、樟子松、红松、长白松、黑桦、春榆、色木、糖椴、紫椴、红皮云杉、白桦、臭松、水曲柳、核桃楸、黄菠萝。     

Influence of vegetation cover on thermal regime of mountainous catchments

Air temperature at heights of 5 and 200 cm above soil surface, as well as soil temperature at depths of 15, 30 and 60 cm were studied in the cold climatic zone at three localities (catchments) under different plant cover during the growing season of 2002. The catchments Kout (dead forest), Doupě (clearing) and Stolec (mature spruce forest) are situated in the National Park of the ?umava Mts. (Czech Republic) in elevation of 1105–1330 m a.s.l., in which Kout and Doupě form some small “islands” inside an extensive spruce forest. Plant transpiration was not limited by water shortage in all the three localities. It was found that both soil and air temperatures were influenced with plant cover. In hot and dry days, the extremes in daily and night air temperatures were a function of transpiring vegetation height, with higher daily maximum and lower night minimum for smaller vegetation. For the whole growing season (from 29 July to 10 October 2002), the mean values of air temperature were independent upon the plant cover, but the magnitude of the dispersion variance followed the sequence in ascending order: mature forest-clearing-dead forest.     

开放式空气CO2浓度增高对水稻冠层微气候的影响

利用位于江苏省无锡市安镇的我国唯一的农田开放式空气CO₂浓度增高(FACE)系统平台,于2001年8月26日至10月13日(水稻抽穗至成熟期)进行水稻作物冠层微气候连续观测,以研究FACE对水稻冠层微气候特征的影响.结果表明,FACE降低了水稻叶片的气孔导度,FACE与对照水稻叶片气孔导度的差异上层叶片大于下层叶片,生长前期大于生长后期.FACE使白天水稻冠层和叶片温度升高,这种差异生长前期大于生长后期;但FACE对夜间水稻冠层温度的影响不明显.在水稻旺盛生长的抽穗开花期,晴天正午前后FACE水稻冠层温度比对照高1.2℃;从开花至成熟期,FACE水稻冠层白天平均温度比对照高0.43℃.FACE对冠层空气温度也有影响,白天水稻冠层空气温度FACE高于对照,这种差异随太阳辐射增强而增大且冠层中部大于冠层顶部;冠层中部空气温度FACE与对照的差异(T_face-T_ambient)日最大值在0.47～1.2℃之间,而冠层顶部的T_face-T_ambient日最大值在0.37～0.8℃之间.夜间水稻冠层空气温度FACE与对照差别不大,变化在±0.3℃之内.而FACE对水稻冠层空气湿度无显著影响,表明FACE使水稻叶片气孔导度降低,从而削弱了植株的蒸腾降温作用,导致水稻冠层温度和冠层空气温度升高,改变了整个水稻冠层的温度环     

开放式空气CO2浓度增高对水稻冠层微气候的影响

利用位于江苏省无锡市安镇的我国唯一的农田开放式空气CO2 浓度增高 (FACE)系统平台 ,于2 0 0 1年 8月 2 6日至 10月 13日 (水稻抽穗至成熟期 )进行水稻作物冠层微气候连续观测 ,以研究FACE对水稻冠层微气候特征的影响 .结果表明 ,FACE降低了水稻叶片的气孔导度 ,FACE与对照水稻叶片气孔导度的差异上层叶片大于下层叶片 ,生长前期大于生长后期 .FACE使白天水稻冠层和叶片温度升高 ,这种差异生长前期大于生长后期 ;但FACE对夜间水稻冠层温度的影响不明显 .在水稻旺盛生长的抽穗开花期 ,晴天正午前后FACE水稻冠层温度比对照高 1.2℃ ;从开花至成熟期 ,FACE水稻冠层白天平均温度比对照高 0 .4 3℃ .FACE对冠层空气温度也有影响 ,白天水稻冠层空气温度FACE高于对照 ,这种差异随太阳辐射增强而增大且冠层中部大于冠层顶部 ;冠层中部空气温度FACE与对照的差异 (Tface-Tambient)日最大值在 0 .4 7～ 1.2℃之间 ,而冠层顶部的Tface-Tambient日最大值在 0 .37～ 0 .8℃之间 .夜间水稻冠层空气温度FACE与对照差别不大 ,变化在± 0 .3℃之内 .而FACE对水稻冠层空气湿度无显著影响 ,表明FACE使水稻叶片气孔导度降低 ,从而削弱了植株的蒸腾降温作用 ,导致水稻冠层温度和冠层空气温度升高 ,改变了整个水稻冠层的温度环     

长白山温带阔叶红松林对温湿环境的调节效应

森林具有改善气候、调节微环境的作用,森林小气候的研究对于揭示森林生态系统功能、评估森林生态环境效益具有重要意义.本研究以长白山阔叶红松林为例,基于2003—2014年林内通量塔气象资料及其附近气象站空旷地的同时段气象资料,对其最高、最低和平均气温、相对湿度和表层土壤温度的日变化和季节变化进行对比分析.结果表明: 林内气温和相对湿度分别呈现单峰型和U型日变化规律,日较差较林外低2.31 ℃和8.3%,表层土壤温度日变化趋于恒定,阔叶红松林减缓了温湿度的日变化.夏季主要为降温效应,冬季表现出显著的增温效应.夏季林内气温和土温比林外低1.30和3.91 ℃;冬季林内气温和土温比林外高2.06和5.44 ℃.森林对最高温和最低温的调节效应显著.在季节尺度上,夏季森林降低最高气温和土温1.80和5.45 ℃,冬季提高最低气温和土温3.69和7.92 ℃.在年尺度上,林内年最高气温和土温分别较林外低1.60和4.99 ℃,年最低气温和土温分别较林外高1.12和8.82 ℃.森林对土温的调节效应强于对气温的调节效应.气温和土温均以对低温的保温作用为主.     

The range of micrometeorological diversity in the biological environment

The range of temperature and humidity conditions that can exist simultaneously at or near the ground surface on a bright summer day in a temperate climate are shown in a diagram. Cool and warm conditions are defined as having respectively a lower and a higher temperature than the air at a height of 1.50 m above the surface of the ground. Similarly, humid and dry conditions are defined by a lower and a higher saturation deficit (S.D.), respectively. Cool, humid conditions are found in the open shade where only diffuse solar radiation is received. In high reed vegetations on wet soil, temperatures can lie 8°C below that of the free atmosphere and humidity is close to the saturation point. Warm and humid conditions are found in thin vegetations on damp soil with a temperature excess of up to 10°C and a strongly reduced S.D. In dry grassland, air temperatures 1 cm above the ground are up to 20°C higher and S.D. up to 40 mm Hg higher than at a height of 1.50 m. On suitably oriented slopes covered with dark organic material, surface temperatures can reach 50°C above the air temperature.Presented at the Eighth International Congress of Biometeorology, 9–14 September 1979, Shefayim, Israel.     

Air temperature and soil phosphorus availability correlate with trait differences between two types of tropical cloud forests

Tropical cloud forests are characterized by lower air temperature and high frequency of fog condensation at canopy level, as compared with forests at lower altitudes. Few studies have been conducted to understand differences of plant functional traits in relation to the environment in this kind of forest. In this paper, we explored the community-level differences of specific leaf area (SLA) and height of plants in relation to major environmental conditions between two adjacent tropical cloud forests on Hainan Island, South China. We measured the two functional traits for all individual plants within twenty-nine and thirty-two 10 m × 10 m plots located in a low altitude tropical montane evergreen forest (TMEF) and a high altitude tropical dwarf forest (TDF), respectively.The results showed that both mean SLA and height decreased from TMEF to TDF, while phenotypic plasticity for the two functional traits increased from TMEF to TDF. Correlation analysis and multiple regression analysis showed that the mean SLA and its plasticity were significantly correlated with both air temperature and soil phosphorus. The mean height was only significantly correlated with air temperature, but its plasticity was significantly correlated with both air temperature and soil phosphorus.Our results suggest that plants in dwarf tropical cloud forests have decreased SLA and height, correlated with less favorable soil and atmospheric conditions, with a higher plasticity of these traits, as compared with the tropical montane evergreen forest. Community-level differences in SLA and plant height thus can be taken as indicators characterizing plant distribution to different types of tropical cloud forests.     

Diel variation in the difference in air temperature between the forest edge and interior in the Usambara Mountains, Tanzania

The difference in air temperature between the forest edge and interior was simultaneously compared at ten sites at 2‐h intervals over a 229‐day period in the East and West Usambara Mountains in Tanzania. Measurements were recorded with data loggers placed 1.5 m above the ground on the shaded side of trees and positioned 1–2 and 100 m from the forest edge. The difference in air temperature between the forest edge and interior varied regularly over a 24‐h period with mean maximum difference in air temperatures of 0.85°C occurring at 15:00 h and mean minimum diel difference in air temperature of 0.02°C occurring at 21:00 h. Diel variation in the difference in air temperature between the forest edge and interior varied little by season and was unrelated to elevation.     

长白山自然保护区道路使用对路域植物和土壤的影响

道路是森林景观内边缘生境的重要成因之一,确定道路对路域植物和土壤的影响范围是整合道路影响和生态过程的核心问题。以长白山自然保护区两条6 m～8 m宽的利用程度不同的公路周围次生白桦林为对象,研究了道路周围108 m内植被的多样性动态,及大气温度和土壤理化性质。结果表明:(1)利用程度不同的道路对其影响域内林内气温、土壤表层温度、土壤含水量、土壤pH等环境因子,都呈现一定的边缘正效应,且利用程度高道路的影响距离较利用程度低的道路远12 m～24 m。(2)道路边缘0 m～20 m内乔木层的Shannon-Wiener多样性指数均明显高于林内。(3)公路利用程度越高,从路旁林缘到林内草本植物的Shannon-Wiener多样性指数的变化幅度越大,草本植物多样性的变化距离为12 m～24 m,路旁草本植物的丰富度比林内大7～11。     

The effect of forest fires and clearing of fire-destroyed stands on pedoecological conditions of natural forest regeneration

The study investigated the effect of forest fires and clearing of fire-destroyed stands on pedoecological conditions of forest regeneration in the Middle Ob pine forests. The study revealed that K content was elevated, pH changed to more neutral, and humus content (detritus) decreased in the upper layer of sod-podzolic soil. After clearing, the temperature of the upper soil layers increased somewhat and that of surface air increased 1.5–2 times. Air temperature was occasionally too high for pine seedlings to survive. The moisture content of the upper soil layer was up to 10% higher than on the control sites. The ecological conditions of the burned sites were generally hospitable for natural forest regeneration.     

MICROCLIMATIC EFFECTS ON WATER RELATIONS,LEAF TEMPERATURES,AND THE DISTRIBUTION OF HERACLEUM LANATUM AT HIGH ELEVATIONS

The small-scale distribution of an understory herb, Heracleum lanatum, was evaluated in terms of leaf temperature and water relations limitations due to a large leaf size (630 cm²). Diurnal variations in transpiration (4 to 60 mg m⁻² s⁻¹) were influenced by fluctuations in solar irradiance, wind speed, leaf temperature and stomatal conductance. Computer simulations indicated that leaf temperatures in a forest clearing would be > 12 C above air temperature, with maximum transpiration rates of 140 mg m⁻² s⁻¹, and daily water loss to be over 200% greater than values at natural understory locations. Simulations of nocturnal temperature relations indicated ~100 W m ⁻² less incident longwave irradiance in the forest clearing as compared to the understory (560 vs. 660 W m⁻² at 400 hr). This difference led to predicted leaf temperatures being as low as 6 C below air temperature in the forest clearing while measured leaf temperatures in the forest understory were within 1.5 C of air temperature throughout the night. Furthermore, minimum air temperatures were at or below 6 C on 36% of the nights during the summer growth period indicating that in open areas leaves of H. lanatum would frequently be below 0 C and subject to possible freeze damage. Heracleum lanatum may be more abundant in the shaded understory of the subalpine forest because exposure in open environments would result in high leaf temperatures and increased transpirational water loss during the day, as well as low leaf temperatures with the possibility of freeze damage at night.