Dynamics of nitrogen nutrition of coexisting dominant trees in mixed broad-leaved/Korean pine forest

Chemical analysis of ammonium, nitrate and total nitrogen in tree leaves and roots and anin-vivo bioassay for nitrate reductase activity (NRA) were used to monitor the seasonal variations in nitrogen assimilation among four coexisting dominant tree species, includingPinus koraiensis, Tilia amurensis, Fraxinus mandshurica andAcer mono, in a virgin mixed broad-leaved/Korean pine (Pinus koraiensis) forest. The soil study included individual horizons of L+F (0–5 cm), Ah (5–11 cm) and Aw (11–25 cm). All four species had nitrate and ammonium in their roots and leaves, and also NRA in leaves. This indicated that these coexisting species were adapted to ammonium + nitrate nutrition. A negative correlation existed between nitrate use and ammonium use. Ammonium concentration was higher than that of nitrate in tree leaves and roots, and also in soils, which indicated climax woody species had a relative preference for ammonium nutrition. There was a positive relationship between tree nitrogen nutrition use and soil nitrogen nutrient supply. Utilization of ammonium and nitrate as well as the seasonal patterns differed significantly between the species. Peaks of ammonium, nitrate, NRA and total nitrogen in one species were therefore not necessarily synchronous with peaks in other species, and which indicated a species-specific seasonal use of nitrogen. The species-specific temporal differentiation in nitrogen use might reduce the competition between co-existing species and may be an important mechanism promoting stability of virgin mixed broad-leaved//Korean pine forest.

NITROGEN NUTRIENT MECHANISM IN SECONDARY SUCCESSION PROCESS OF THE MIXED BROAD-LEAVED/ KOREAN PINE (PINUS KORAIENSIS) FOREST

Chemical and biochemical analysis methods were used to monitor the vedations of nitrogen nutrient among the dominance trees species in secondary succession process of the mixed broad - leaved/Korean pine forest on Changbai Mountains, Northeast China. Amounts of total nitrogen, anunonium and NRA in soils of virgin broad-leaved/Korean pine forest which is in climax were higher than those of secondary birch forests those are in succession Stage. The amount of nitrate was in the other hand. In climax, dominance trees species are tolerant mesophytic trees such as Pinus Koraiensis, Tilia amurensis, Acer mono and also Fraxinus mandshurica, they are all ammonium + nitrate adapted species, but they show a preference for the anunonium rather than those of the pioneer trees species in secondary birch forest, such as Populus davidiava and Betula platyphylla. Because they have more ammonium in their leaves and roots, especially Pinus koraiensis. Populus davidvana and Betula plaaphlla are intolerant trees, amounts of nitrate and total nitrogen is higher in their leaves and roots and also NRA in their leaves, so they preference for the nitrate rather than the others.In secondary birch forest, the regeneration trees species adapt their nitroggn nutrient to the variation of nitrogen nutrient situation in soil, finally they could survival well and the secondary birch forest would succession to climax. In climax, dominance trees species adapt their Nitrogen nutrient to the situation in soil and there are not strong competition in nitrogen nutrient among them, so they can coexist well and keep the climax as stable vegetation.

Recovery of species diversity after disturbance of broad-leaved Korean pine mixed forest in Changbai Mountain

Recovery of species diversity after catastrophic disturbance was influenced by a few factors, such as intensity of disturbance, availability of propagules, and the environmental conditions, In this paper, we examined pattems of species development after nearly 60a succession in bumed broad-leaved Korean pine mixed forest on northem slope of ChangbaiMountain. We aasessed the recovery of plant species diversity in 3 types of forests under the contition with gradient of soil moisture. Results revealed that recovery of plant species (liversity varied greatly under different environmental conditions.Species richness of secondary forests greatly related to the site condition. Secondary birch forest on mesic site had the greatest number of plant species and the following was poplar-birch forest and larch-birch forest.Most of characteristic taxa couldbe found in birch forest after 60a succession. For larch-birch forest on hydra site, most of climax species were still not able to invade, so it had the lowest species diversity.

Meteorological control on CO_2 flux above broad-leaved Korean pine mixed forest in Changbai Mountains

The impacts of temperature, photosynthetic active radiation (PAR) and vapor pressure deficit (VPD) on CO2 flux above broad-leaved Korean pine mixed forest in the Changbai Mountains were studied based on eddy covariance and meteorological factors measurements.The results showed that, daytime CO2 flux was mainly controlled by PAR and they fit Michaelis-Menten equation. Meanwhile VPD also had an influence on the daytime flux. Drier air reduced the CO2 assimilation of the ecosystem, the drier the air, the more the reduction of the assimilation. And the forest was more sensitive to VPD in June than that in July and August. The respiration of the ecosystem was mainly controlled by soil temperature and they fit exponential equation. It was found that this relationship was also correlated with seasons; respiration from April to July was higher than that from August to November under the same temperature. Daily net carbon exchange of the ecosystem and the daily mean air temperature fit exponential equation. It was also found that seasonal trend of net carbon exchange was the result of comprehensive impacts of temperature and PAR and so on. These resulted in the biggest CO2 uptake in June and those in July and August were next. Annual carbon uptake of the forest ecosystem in 2003 was -184 gC. m-2.

长白山阔叶红松林样地(CBS)：群落组成与结构

阔叶红松(Pinus koraiensis)林是中国东北地区的地带性植被,长白山区是阔叶红松林的核心分布区。参照巴拿马Barro Colorado Island (BCI) 50hm2热带雨林样地的技术规范,于2004年在长白山自然保护区的阔叶红松林内建立了一块25hm2的固定样地(简称CBS),这是目前中国科学院生物多样性委员会中国森林多样性动态研究网络中最北端的一块,也是全球温带地区最大的一块森林样地。2004年夏的第一次调查结果表明,样地内胸径≥1cm的木本植物有52种,隶属于18科32属。总的独立个体数为38902,包括分枝的总个体数为59121。植物组成上属典型的长白山植物区系,同时混有一些亚热带和亚寒带成分。群落优势种明显,个体数最多的前3个种的个体数占到总个体数的60%,前14个种占到95%,而其余38个种只占到5%。从物种多度、胸高断面积、平均胸径和重要值来看,群落成层现象显著,具有比较明显的优势种。主要树种的径级结构近似于正态分布或双峰分布,而次林层和林下层树种则表现出倒"J"形或"L"形。红松、紫椴(Tilia amurensis)、蒙古栎(Quercus mongolica)、水曲柳(Fraxinus mandshurica)、色木槭(Acermono)和春榆(Ulmus japonica)几个主要树种的空间分布随物种、径级的变化表现出不同的分布格局,其它一些树种的分布格局也表现出一定的空间异质性。

长白山阔叶红松林乔木树种幼苗组成及其年际动态

为了解阔叶红松(Pinus koraiensis)林乔木树种幼苗的组成及其年际动态,以长白山阔叶红松林25ha动态监测样地为平台,在样地内150个种子收集器周围设置了600个5m×5m幼苗样方。基于2006-2008年连续3年的幼苗样方调查数据,对乔木幼苗的树种组成、数量组成、空间分布特征、年际动态、新增和死亡幼苗组成等进行了分析。结果表明:(1)从树种组成来看,该群落乔木树种的幼苗组成种类较为丰富,共记录到21个树种,这些树种也是样地内胸径1cm以上乔木树种的主要组成成分。树种组成在年际间变化不大,但各样方间表现出极大的空间变异。(2)从数量组成来看,共记录到11,959株乔木幼苗,以水曲柳(Fraxinus mandshurica)和紫椴(Tilia amurensis)幼苗数最多,占总幼苗数的72.75%;水曲柳、紫椴和红松的幼苗数量在年际间有明显波动,其他树种年际间波动较小。(3)从新增和死亡幼苗的数量与组成来看,共记录到15个乔木树种的新增幼苗,其中紫椴、水曲柳、色木槭(Acer mono)、红松等10个树种在每次调查中都有新苗记录,新苗数量在年际间随物种和样方位置表现出明显差异。(4)对各树种的幼苗、种子和大树的组成和空间分布的比较发现,各树种的幼苗、种子和大树之间的数量组成和比例差异较大,其中紫椴、水曲柳、色木槭和假色槭(A.pseudo-sieboldianum)的幼苗、种子在整个样地内都有分布,春榆(Ulmus japonica)和怀槐(Maackia amurensis)幼苗的空间分布与种子和大树不一致,糠椴(T.mandshurica)和山丁子(Malus baccata)等的幼苗、种子和大树的个体数相对都较少,且它们的分布是一致的。

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021<50%强度择伐林044<白桦中成林067<白桦中幼林072<红松人工林074<人工落叶松林077.

长白山阔叶红松(Pinus koraiensis)林种子雨组成及其季节动态

为了解阔叶红松（Pinus koraiensis）林的种子雨组成及其在时间和空间上的动态变化，在长白山阔叶红松林25hm^2样地内，设置了150个种子收集器，收集掉落于种子收集器中的果实、种子等。所有收集到的样品分别鉴定其种类并分为成熟种实、未成熟种实、花序和果实或种子碎片及其附属物4类，计算各类别的数量，而后分别烘干秤重。从2005年6月到2006年11月，共收集到隶属11科12属20种的种实及其生殖器官残体。累计收集到121291粒种实，其中成熟种实23147粒，仅占所有种实总个体数的19．1％。种实数最多的树种是紫椴（Tilia amurensis）和水曲柳（Fraxinus mandshurica），两个树种种实的个体数占总个体数的90％。对2006年5月-11月种子雨季节动态的分析发现：种实在7月中旬至10月下旬数量极大，但主要由未成熟种实组成；在10月中旬出现成熟种实散落高峰，但未成熟种实仍占一定的比例。按每个收集器收集到的成熟种实数统计，成熟种实数量在100-200之间的收集器数量最多。按每个收集器收集到的树种数统计，收集器中最多收到的树种数为7，树种数为3和4的收集器个数最多。对6个主要树种成熟种实所在收集器的空间分布进行分析发现，紫椴和水曲柳的成熟种实在整个样地都有分布，春榆（Ulmusjaponica）、糠椴（T.mandshurica）、色木槭（Acermono）和假色槭（A．pseudo-sieboldianum）则只在样地的局部区域收集到成熟种实。成熟种实的空间分布与母树的空间分布大都表现出明显的相关性，表明这些树种的成熟种实并没有扩散到离母树较远的距离。

长白山原始林和次生林土壤有效氮含量对模拟氮沉降的响应

研究了长白山地区阔叶红松林和杨桦次生林生长季土壤有效氮(铵态氮+硝态氮)含量及其在高氮(50kg.hm-2.a-1)、低氮(25kg.hm-2.a-1)处理下的变化状况。结果表明:生长季内,两种林型土壤有效氮含量具有明显的季节变化特征。二者土壤铵态氮在研究期内均呈现先减少后增加再减少的变化趋势,而硝态氮在林型中的变化趋势不同:杨桦次生林中先减小后增加再减小;阔叶红松林中则呈减小的趋势,生长季末略有增加。杨桦次生林和阔叶红松林土壤有效氮的生长季总平均值分别为6.83和6.80mg·kg-1,其中铵态氮分别占45.36%和33.30%,硝态氮占54.64%和66.70%。两种林型土壤总有效氮、铵态氮和硝态氮含量对不同氮沉降梯度的响应大致相同,表现为随氮沉降量的增加而增加,其中高氮处理显著增加了土壤中的铵态氮、硝态氮及总有效氮的含量(P<0.05),但这种促进效果在低氮处理下则不明显(P>0.05)。

长白山阔叶红松林物种多度和空间分布格局的关系

应用随机分布多度模型和聚集分布多度模型,探讨不同研究尺度下物种多度和空间分布格局的关系。结果表明,预测的物种多度不仅受物种分布面积大小的影响,还受其聚集程度的影响。物种多度和空间分布格局的关系存在着明显的尺度效应,即随着研究尺度的增加,无论是随机分布多度模型还是聚集分布多度模型,通过物种空间分布格局来预测物种多度的准确度都在下降。聚集分布多度模型预测物种多度的结果要好于随机分布多度模型,这表明该区大多数物种是聚集分布的。由于物种的空间分布格局不同,不同物种多度的预测值和真实值之间的差异也不同。因此,为了进一步提高模型预测的准确性,进一步考虑不同物种的生活史特性是必要的。

人为干扰对长白山红松针阔叶混交林粗木质残体的影响

研究人为干扰(森林采伐)对长白山红松针阔叶混交林(天然林和择伐林)粗木质残体的影响。结果表明天然林和择伐林的粗木质残体平均材积分别为78.88和41.7m3.hm-2;天然林粗木质残体大部分径级2～40cm,其中倒木、枯立木和伐桩分别占总材积的94%、5.8%和0.2%,择伐林粗木质残体大部分径级11～50cm,其中倒木、枯立木和伐桩分别占总材积的41%、4%和55%。天然林和择伐林粗木质残体的覆盖面积分别为376.2和189.3m2.hm-2;天然林和择伐林倒木腐烂级为E的倒木分别占33.5%和14%。择伐活动明显减少了森林倒木的数量。为促使采伐后的森林能维持原始林粗木质残体的结构特征,现行的森林管理措施应进行必要的调整。

阔叶红松林不同大小林隙土壤温度、水分、养分及微生物动态变化

对小兴安岭阔叶红松林不同大小林隙主要土壤性质和微生物数量进行测定,对其动态变化进行比较和分析。结果表明,林隙表层(0-10cm)土壤含水量比郁闭林分高。不同大小林隙土壤月平均温度呈现单峰变化。中林隙有机质平均含量(194.34g/kg)>大林隙(169.47g/kg)>小林隙(143.49g/kg)>郁闭林分(128.61g/kg)。各林隙土壤表层NH4+-N含量季节动态变化趋势基本一致。大林隙中,土壤各月平均总有效氮(铵态氮+硝态氮)含量春季最高,夏季最低。林隙的有效磷含量呈现多峰变化。8月份是速效钾吸收和淋失的高峰期。林隙土壤微生物的数量秋季最多,生长季和雨季较少。不同大小林隙土壤因子的相关分析表明,pH值与有机质、速效钾呈显著负相关,与微生物和有效磷呈显著正相关。有机质与全氮、铵态氮、硝态氮、微生物和速效钾呈现显著或极显著相关。

长白山阔叶红松林草本植物多样性季节动态及空间分布格局

基于长白山阔叶红松林25hm2样地(CBS)一年内草本植物的4次调查数据,对样地内草本植物多样性的季节动态及其空间分布格局进行了初步分析.结果表明:样地内草本植物物种组成丰富,共有102种,隶属于40科84属.Shannon多样性指数、Simpson多样性指数和Pielou均匀度指数分别为3.52、0.96和0.75;物种组成的季节变化比较明显,以初夏物种数最多;各季节的Shannon多样性指数、Simpson多样性指数和Pielou均匀度指数的变化较大,个体数量从早春到秋季逐渐减少;物种丰富度和多度的空间分布连续性较差,主要表现为斑块性分布,说明草本植物对微环境有较强的依赖性;坡向是影响物种丰富度和多度的主要因素,在早春、夏末和秋季,不同坡向的物种丰富度和多度差异极显著(P<0.01),且早春阶段北坡和东坡的丰富度高于南坡和西坡,夏末和秋季则相反.

综合构成指数在森林生态系统健康评估中的应用

首次提出综合构成指数(IntegratedComposeIndex,ICI)模型ICI=ln∑B×∑IV×CAV。通过选取目前长白山阔叶红松林生态系统区主要林分类型(原始阔叶红松林,不同干扰模式造成的择伐林、次生白桦林和人工落叶松林等)共29块样地进行群落结构和生物量调查,以原始阔叶红松林作为健康基准,定量评估了各受损生态系统的健康现状及恢复趋势。结果表明综合构成指数是一种易操作的能定量描述受干扰系统健康差距的度量方法。利用分层[主林层(H≥18m)、亚主林层(18m>H≥10m)、演替层(10m>H≥2.5m)和更新层(H<2.5m)]的综合构成指数值可定量不同干扰模式造成的受损系统与健康基准之间的健康差距。健康基准是12.77,与之差距越大,表明受干扰破坏越大,系统健康程度越低。29块样地分为8个类型,6个受干扰类型依距离原始健康基准的远近排序为:结构转换型0.64<结构破坏型0.75<结构保留型0.85<严重干扰类型1.95<白桦林系列2.07<人工落叶松系列2.89。综合构成指数的上层(主林层和亚主林层)指数能表示群落结构现状和目前处于演替阶段的位置;下层(演替层和更新层)指数能表示群落向健康基准类型恢复的潜力,值越大,潜力越大。上下两层综合能说明群落受到干扰的强度和后果。上下两层差值D对于阔叶红松林生态系统来说,健康基准类型D位于0.28～0.35之间,如0<D<0.28说明目前群落结构还是针阔混交类型,但群落上层的针叶树(主要是红松)比例明显减少;或者群落受干扰,下层结构活跃,红松更新现象明显。D>0.35说明群落主林层和亚主林层的阔叶树种受到干扰破坏,且红松更新困难或还没大量更新。D≤0说明群落遭受很大强度的干扰,如70%以上的生物存量被破坏取走,或直接导致裸地重新发育演替的白桦林、营造人工落叶松林等情况,差值D越大,红松的侵入程度越高,红松更新状况良好,该群落向顶级恢复的趋势良好。

小兴安岭阔叶红松混交林林隙特征

对小兴安岭阔叶红松混交林林隙基本特征进行了研究。结果表明:林隙的线状密度为31.78个/km,冠空隙和扩展林隙所占的面积比例分别为15.71%和30.78%;冠空隙的年干扰频率为0.46%,干扰轮回期约为434.8a。冠空隙的大小变化在42.12—372.52m2之间,平均为153.37m2;扩展林隙的大小变化在98.65m2—633.10m2之间,平均为300.44m2。冠空隙和扩展林隙面积分布格局均符合Weibull分布。林隙形成方式主要为干基折断,占总形成木总数的35.29%,其次为掘根风倒,占28.43%。平均每个林隙的形成木为4.98株,由红松、白桦、枫桦、冷杉形成,径级在20—30 cm之间,高度在15—30 m之间。冠空隙的直径与高度比值的相对频率的分布呈单峰型曲线,当比值为0.30—0.45时,出现峰值;而扩展林隙的直径与高度比值的相对频率的分布呈双峰型曲线,当比值分别为0.75—0.90和1.05—1.15时,出现峰值。林隙边缘木胸径级的多度分布和高度级多度分布符合Weibull分布,但不符合正态分布。约13.41%的边缘木未出现偏冠现象,偏冠率在0.5—0.7之间的边缘木占70.49%。

长白山红松针阔混交林CO_2通量的日变化与季节变化

Diurnal and seasonal variation of CO2 flux above the Korean Pine and broadleaved mixed forest in Changbai Mountain were expounded according to the measurements by eddy covariance technique. The results showed that the diurnal variation during growing season was closely correlated with photosynthetically active radiation （PAR）. The forest assimilated the CO2 in daytime and released in night. The maximum uptake occurred about 9 o’clock of local time in clear day. Assimilation was synchronous to PAR in cloudy day. The night respiration increased with increasing of shallow soil temperature. The CO2 flux also had obviously seasonal variation that was mainly controlled by temperature. Relationship between monthly net exchange of CO2 and monthly mean air temperature fit cubic equation. Remarkable uptake occurred in blooming growing season,May to August,and weak respiration occurred in dormant season,October to March,and relatively big release happed in October. Assimilation and respiration were nearly balanced during the transition of growing and dormant seasons. The annual carbon uptake of the ecosystem was-184 gC·m -2 .

采伐干扰下长白山阔叶红松林主要灌木种群生态位动态特征

利用Levins、Hurlbert和Pianka生态位指数分析了采伐干扰下长白山阔叶红松林主要灌木种群在伐后不同年度资源维上的生态位动态特征。结果表明:在研究时段内,东北山梅花(Philadelphus schrenkii)、鸡树条荚蒾(Viburnum sargenti)和软枣子猕猴桃(Actinidia arguta)生态位宽度最大,比研究中的其它7种灌木种类的生态位重叠指数也高,东北溲疏(Deutzia amurensis)生态位宽度最窄。伐后生态位宽度都有所增加,其中,9种灌木伐后10a生态位宽度达到最大,伐后15a降低,伐后20a基本与原始林中生态位相同。与原始林相比,伐后5、10、15a所有灌木种对的生态位重叠指数都有所增加,表明采伐后灌木对资源的利用能力增强。伐后20a,生态位重叠指数接近原始林中的灌木种对的生态位重叠指数。

阔叶红松林林隙结构与树种多样性关系研究

对阔叶红松林林隙与林下不同层次树种多样性进行比较,探讨林隙大小及发育阶段与树种多样性间的关系.结果表明,林隙与林下树种多样性存在显著差异(P<0.01).与林下相比,林隙更新层树种多样性、丰富度和均匀度增大,生态优势度减小(P<0.01);演替层树种多样性、丰富度和均匀度减小,生态优势度增大(P<0.0001).林隙中不同层次树种多样性随着林隙大小呈现出相反的变化趋势.长白山阔叶红松林林隙演替层树种多样性和丰富度总体上呈单峰形变化,中等大小林隙(100～250m2)中树种多样性和丰富度较高,生态优势度较小.而更新层树种多样性和均匀度在≥250m2和<100m2的林隙中最大,在200～250m2的林隙中最小;生态优势度在200～250m2的林隙中达到最大.更新层和演替层树种对林隙面积大小反应不同,有利于更新层幼苗建立的林隙面积并不是演替层幼树发育和成活的最适面积;随林隙年龄的增加,更新层和演替层树种多样性在不同层次上呈互补关系.

长白山针阔混交林不同演替阶段的昆虫多样性

昆虫多样性变化对生态系统健康有重要的指示作用,为研究昆虫群落变化与生境演替之间的关系,本研究采用网捕、灯诱和诱捕法系统调查了长白山针阔混交林不同演替阶段(次生白桦林、次生针阔混交林、原始阔叶红松林)昆虫群落的组成和多样性,分析了昆虫在森林演替过程中的规律及与植被群落之间的关系。系统调查共采集昆虫标本8183头,隶属于14个目699种,其中鳞翅目和鞘翅目是主要优势类群。次生针阔混交林昆虫的个体数量最多,原始阔叶红松林中物种数最多。不同演替阶段昆虫群落的物种数和个体数差异不显著,但次生针阔混交林、原始阔叶红松林的Fisher’sα指数显著高于次生白桦林。目水平上的昆虫多样性未表现出显著性差异。昆虫多样性在森林演替过程中和草本植物多样性的变化趋势相同;由于食性和生境选择的不同,森林演替过程中鳞翅目昆虫多样性逐渐升高,而鞘翅目多样性逐渐降低。

间伐对红松Pinus koraiensis针阔混交林冠层结构及林下植被的影响

为揭示不同间伐强度对冠层结构、林下光环境及林下植被生长和更新的影响,以红松针阔混交林为研究对象,利用Winscanopy 2010a冠层分析仪对中度、强度间伐及对照林分的冠层结构及光学特性进行测定,同时采用典型样地调查法,对林下灌木层和草本层的更新及多样性进行调查,分析间伐后林分的冠层结构及光环境特征,运用相关分析法对冠层结构和林下植被多样性的相关性进行分析。结果表明:间伐显著改变了红松针阔混交林的冠层结构,改善了林下光环境,与对照相比,中度(38%)、强度(48%)间伐林分的叶面积指数分别为对照的65.11%和71.7%,开阔度分别比对照增加205%和249%,林下总辐射分别为对照的2倍和5倍。冠层结构对林下光环境的影响较大,林冠开阔度与林下直射光、散射光和林下总辐射量呈极显著正相关(p<0.01),叶面积指数与林下散射光、林下总辐射呈极显著(p<0.01)和显著(p<0.05)负相关;间伐有利于林下阔叶树种更新,中、强度间伐林下幼苗的个体密度、基径、树高显著高于对照(p<0.05),且表现为随着间伐强度的增强而增强的趋势;林下光环境对林下植被多样性影响较大,灌木层的物种多样性指数与林下总辐射呈显著负相关(p<0.05),草本层多样性指数、丰富度指数与冠层开阔度呈显著正相关(p<0.05)。间伐改善了红松针阔混交林的林下光环境,有利于林下阔叶树种的更新,对林下植被多样性具有较大的影响。