Pollen flux and vertical dispersion in coniferous and deciduous broadleaved mixed forest in the Changbai Mountains

The pollen flux in coniferous and deciduous broadleaved mixed forest in the Changbai Mountains is presented in one year's experiments. The results indicate that arboreal pollen percentages are more than 65% and pollen flux is higher than 5000 grain·cm-2·a-1,while less than 2% and lower than 1000 grain·cm-2·a-1 for shrubby pollen,and less than 20% and lower than 3000 grain·cm-1·a-1 for herbaceous pollen for most samples at different heights. The pollen assemblages are similar to those in the samples under 8 m height where Pinus and Ouercus are dominant and followed by the few non-local pollen types,and Fraxinus percentages are high with a few non-local pollen types at 16 m to 32 m height as well as non-local pollen clearly increased at 40 m height. Comparisons between pollen assemblages and vegetation composition suggest that similarities are higher for pollen trap samples than for surface moss samples.

长白山四种林分土壤CO_2释放通量的研究

对长白山地区 4种典型林分下土壤释放CO2 通量的研究表明 ,在较短的时间尺度上 ,4种林型在CO2 释放通量上有显著的差别 ,各林型CO2 通量的释放表现出明显的空间异质性 ,其释放顺序为 :山杨白桦混交林 >原始阔叶红松林 >白桦林 >山杨林 ,其中山杨白桦混交林对CO2 释放的贡献最大 ,而山杨林最小。 4种林分土壤CO2 通量的全日变化过程并不一致 ,除山杨白桦混交林和气温有较一致性的规律 ,呈较明显的单峰型外 ,其余并无明显的变化规律。凋落物对林地CO2 释放通量的变化有显著的影响 ,有凋落物覆盖的林地土壤CO2 释放量明显大于无凋落物覆盖的林地 ,其平均通量为 2 6 2 86～ 5 5 6 5 5mgC·m-2 ·h-1,而无凋落物覆盖林地土壤CO2 的平均通量为 2 0 5 85～ 395 6 9mg·m-2 ·h-1。凋落物排放CO2 量占林地总排放量的14 %～ 30 % ,并且改变了林地CO2 释放通量大小的排序。

高CO_2浓度对长白山阔叶红松林主要树种的影响

组成长白山阔叶红松林的主要树种红松、云杉、落叶松、大青杨、白桦、椴树、水曲柳和色木的幼树 ,盆栽于模拟自然光照和人工调节CO2 浓度为 70 0 μl·L-1、40 0 μl·L-1的气室内两个生长季 ,以生长在 40 0 μl·L-1下的幼树为对照组 ,在各自生长条件下测定 ,高CO2 浓度下生长的红松、云杉、落叶松、大青杨、白桦、椴树、水曲柳和色木的高生长比对照组的幼树提高 10 %～ 40 % .高CO2 浓度的幼树与对照CO2 下的幼树相比各树种蒸腾速率升降不一 ,但水分利用效率均有不同程度的提高 ,不同树种的可溶性糖和叶绿素含量对高CO2 浓度反应不一 ,反映出幼树对高CO2 浓度适应的复杂性 .长期高CO2 浓度环境下生长的阔叶树对CO2 变化反应较针叶树敏感 ,供试树种均发生光合驯化现象 .

Soil carbon dioxide fluxes of a typical broad-leaved/Korean pine mixed forest in Changbai Mountain, China

The forest ecosystem plays an important role in the global carbon cycling. A study was conducted to evaluate soil CO2 flux and its seasonal and diurnal variation with the air and soil temperatures by using static closed chamber technique in a typical broad-leaved/Korean pine mixed forest area on the northern slope of Changbai Mountain, Jilin Province, China. The experiment was carried out through the day and night in the growing season (from June to September) in situ and sample gas was analyzed by a gas chromatograph. Results showed that the forest floor was a large net source of carbon, and soil CO2 fluxes had an obvi-ous law of seasonal and diel variation. The soil CO2 flux of broad-leaved/Korean pine mixed forest was in the range of 0.302.42 mmol穖-2穝-1 with the mean value of 0.98 mmol穖-2穝-1. An examination on the seasonal pattern of soil CO2 emission suggested that the variability in soil CO2 flux could be correlated with variations in soil temperature, and the maximum of mean CO2 flux occurred in July ((1.27±23%) mmol穖-2穝-1) and the minimum was in September ((0.50±28%) mmol穖-2穝-1). The fluctuations in diel soil CO2 flux were also correlated with changes in soil temperature; however, there existed a factor for a time lag. Soil CO2 flux from the forest floor was strongly related to soil temperature and had the highest correlation with temperature at 6-cm depth of soil. Q10 values based on air temperature and soil temperature of different soil depths were at the ranges of 2.09–3.40.

温带森林不同演替阶段下的土壤CO_2排放通量昼间变化

采用时空替代法,在长白山北坡分别选取了红松针阔叶混交林演替序列的5个不同阶段:草地、灌木林(幼龄林)地、白桦林地、阔叶杂木林地和红松阔叶林地,进行土壤CO_2排放通量昼间变化野外同步观测研究,旨在揭示温带森林不同演替阶段下的土壤呼吸CO_2排放过程的差异,探究其与温度、湿度、土壤理化性质等环境因子的关系。结果表明:(1)温带森林不同演替阶段下的土壤CO_2排放通量具有统一性,均为大气CO_2的源,这种统一性确保了小的时段(如昼间)观测能通过换算,实现CO_2排放量的估算。(2)CO_2排放通量的昼间排放都呈现出明显的单峰型,峰值在13:00—15:00左右,草地和灌木林地的峰值大概在13:00左右,明显提前于白桦林地、阔叶杂木林地和红松阔叶林地(14:00—15:00左右)。红松阔叶林地的土壤呼吸有明显的滞后性特征,峰值在15:00左右,比其他几个样地明显推迟。(3)土壤CO_2排放通量平均值由低到高排列依次为草地(2.760μmol m^(-2)s^(-1))、灌木林地(2.854μmol m^(-2)s^(-1))、白桦林地(3.048μmol m^(-2)s^(-1))、阔叶杂木林地(3.696μmol m^(-2)s^(-1))、红松阔叶林地(4.61μmol m^(-2)s^(-1))。随着温带森林演替的正向进行,土壤CO_2排放通量依次增大,次序为草地<灌木林地<白桦林地<阔叶杂木林地<红松阔叶林地。(4)环境因子中,0—5 cm土壤温度与土壤CO_2排放通量相关系数最高,土壤温度监测对土壤CO_2排放量的估算作用明显。

枯落物输入变化对云南松林地CO_(2)释放的影响

为研究枯落物输入变化对云南松(Pinus yunnanensis)林地CO_(2)释放的影响。本研究于2018年3月至2020年2月,应用枯落物添加和去除实验(DIRT),设置对照(CK)、双倍枯落物(DL)、去除枯落物(NL)、去除有机层和A层(O/A⁃Less)、去除根系(NR)和无输入(NI)6个处理水平,采用Li⁃6400便携式光合作用测量仪及TRIME⁃PICO 64/32土壤温度水分测定仪对不同处理样地每月的CO_(2)通量(Rs)、土壤温度和土壤水分(15cm)进行了测定。结果表明:(1)不同处理样地CO_(2)通量均呈现出明显的月变化,7至8月最高,1至4月最低,平均值表现为Rs(DL)=8.10μmol m^(-2)s^(-1)>Rs(CK)=6.27μmol m^(-2)s^(-1)>Rs(NL)=5.44μmol m^(-2)s^(-1)>Rs(NR)=4.46μmol m^(-2)s^(-1)>Rs(O/A⁃Less)=3.86μmol m^(-2)s^(-1)>Rs(NI)=2.94μmol m^(-2)s^(-1)。(2)与CK相比,DL样地CO_(2)通量升高了29.12%,而去除地上枯落物和地下根系样地CO_(2)通量显著降低,CO_(2)通量平均变幅分别为α(NR)=-28.85%,α(NI)=-53.14%,α(O/A⁃Less)=-38.46%,α(NL)=-13.29%。(3)不同处理土壤水分和土壤温度均存在显著的月变化(P<0.01),NL和O/A⁃Less的土壤水分显著低于CK,而其余处理与CK间无显著差异(P>0.05);不同处理间土壤温度表现为NR和NI均显著高于CK,其余处理与CK间无显著差异(P>0.05)。(4)不同处理样地CO_(2)通量与土壤温度呈显著指数相关(P<0.01),与土壤水分在NI和O/A⁃Less处理中无显著相关(P>0.05);与CK相比,NI、O/A⁃Less和NL处理的Q10增加,而NR和DL处理的Q10则降低;不同处理林地CO_(2)通量与土壤水热因子双因素模型能更好的解释林地CO_(2)通量的变化。本研究表明枯落物不同处理通过改变土壤碳输入和土壤环境因子从而影响生态系统碳排放,研究结果可为未来气候变化和人为干扰下云南松林的碳循环提供基础数据。

鼎湖山针阔叶混交林CO_2浓度及通量变化特征

该研究采用珠三角典型森林植被生态系统的鼎湖山南亚热带常绿阔叶林通量观测站2012年CO_2通量资料和气象资料,分析了CO_2通量、净生态系统CO_2交换量及CO_2浓度的变化特征,及其与气象因子的关系。结果表明:(1) CO_2浓度日变化呈"一峰一谷"变化形态,在夜间或日出前后出现最大值,在午后到达最小值; CO_2通量日变化呈"单谷"曲线,在白天中午前后到达最小值(负值),夜间和早晨较高(正值)。(2) CO_2通量季节平均值的高低依次为春季>夏季>冬季>秋季,CO_2浓度季节平均值的高低次序则为冬季>春季>秋季>夏季,即非生长季高于生长季节,这可能与植物物候的季节变化所引起的CO_2源汇强度改变有关。(3) 2012年鼎湖山森林生态系统的CO_2年均浓度为664.7 mg·m-3,CO_2通量年均值为-0.079 mg·m^(-2)·s^(-1),NEE为-611 g C·m^(-2)·a^(-1),表明鼎湖山针阔叶混交林近年来处于快速生长过程中,具有较强的碳汇功能。(4) CO_2通量及浓度与气温、饱和水气压差均成显著负相关关系,其中CO_2浓度与气温的相关性最高,其次为饱和水汽压差,表明气温和饱和水汽压差是影响CO_2浓度和通量的关键气象因子。受人类活动及气候变化的影响,近年来鼎湖山森林生态系统的碳汇功能有所增强。

Meteorological Tower Observed CO_(2)Flux and Footprint in the Forest of Xiaoxing’an Mountains,Northeast China

The Xiaoxing’an Mountains,located in the temperate monsoon climate zone in Northeast China,have the largest and most complete virgin Korean pine forest in Asia,which has great potential for carbon sequestration.Based on the observational data of the eddy-covariance system at Wuying National Climate Observatory in January 2015–November 2017,the CO_(2)flux in the forest ecosystem around the observatory was quantitatively studied and the distribution characteristics of the flux source area were analyzed by the Kljun model and the Agroscope Reckenholz–Tänikon footprint tool,providing references for assessing the carbon source/sink potential of the unique forest area.The results showed that the annual total carbon flux around the observatory in 2015,2016,and 2017 was−756.84,−834.73,and−629.37 gC m−2,respectively,higher than that of other forest ecosystems.The forest of the study area in the Xiaoxing’an Mountains was a strong carbon sink,with the strongest carbon fixation capacity in June and weakest in October,and the carbon flux of each month was less than zero.The flux source area under stable atmospheric conditions was larger than that under unstable conditions,and the source area was larger in the nongrowing season than in the growing season.The size of the source area was largest in winter,followed by spring,autumn,and summer.The maximum length of the source area was 1614.12 m(5639.33 m)under unstable(stable)conditions when the flux contribution rate was 90%.The peak flux contribution was located near the sensor(i.e.,within 200 m)in all seasons.The contribution of the source area from the coniferous and broadleaved mixed forest on the west side of the observatory was greater than(3.4 times)that from the Korean pine forest on the east side.

2003-2010年长白山阔叶红松林碳水通量观测数据集

森林是陆地生态系统的主体,它在生长过程中吸收大量的CO2,并产生水热交换,对大气组成与区域气候都会产生显著影响。基于微气象理论的涡度相关通量观测技术实现了对森林生态系统生产力、水热传输和温室气体交换等过程的直接测定,其长期观测数据为陆地生态系统碳水循环过程的机理解析及碳源/汇和水分利用的时空分布研究提供了重要的数据基础。本数据集为中国通量观测研究联盟(ChinaFLUX)站之一长白山阔叶红松林2003–2010年长期通量观测数据,并基于ChinaFLUX标准质控体系形成了标准化的生态系统碳水通量和关键气象要素数据集。本数据集可为分析我国温带森林生态系统碳源汇功能及其对全球变化的响应提供重要的科学知识和数据基础。

长白山和平全季地形公园“美人松”林区康养对2型糖尿病患者血清细胞因子的影响

以8月份长白山和平全季地形公园野美人松冶林区为例,探讨森林康养对对2型糖尿病患者血清细胞因子分泌的影响,并分析相关机理。在吉林市随机招募12名2型糖尿病患者,6名男性,6名女性,年龄介于62~78岁之间,于2019年8月进行为期8天的森林康养活动,Elisa法检测血清IL-10、IL-12、IL-6、TNF-α、IL-15和IL-18水平。结果表明与康养前比较,"美人松"林区为期8天的森林康养显著降低血清IL-6、TNF-α和IL-18因子水平(P<0.05),而血清中IL-15水平明显增加(P<0.05),IL-10和IL-12在康养前后未发生明显变化(P>0.05)。结论 :8月份在长白山和平全季地形公园"美人松"林区进行为期8天的森林康养活动,可以显著降低2型糖尿病患者血清IL-6、TNF-α和IL-18水平,同时增强IL-15的分泌。

Effect of water stress on N_2O emission rate of 5 tree species

The N2O emission rates, photosynthesis, respiration and stomatal conductance of the dominant tree species from broadleaf/Korean pine forest in Changbai Mountain were measured by simulated water stress with the closed bag-gas chromatography. A total of five species seedlings were involved in this study, i.e.,Pinus koraiensis Sieb. et Zucc,Fraxinus mandshurica Rupr,Juglans mandshurica Maxim,Tilia amurensis Rupr, andQuercus mongolica Fisch. ex Turcz.. The results showed that the stomatal conductance, net photosynthetic rate and N2O emission of leaves were significantly reduced under the water stress. The stoma in the leaves of trees is the main pathway of N2O emission. N2O emission in the trees mainly occurred during daytime. N2O emission rates were different in various tree specie seedlings at the same water status. In the same tree species, N2O emission rates decreased as the reduction of soil water contents. At different soil water contents (MW, LW) the N2O emission rates ofPinus koraiensis decreased by 34.43% and 100.6% of those in normal water condition, respectively. In broadleaf arbor decreased by 31.93% and 86.35%, respectively. Under different water stresses N2O emission rates in five tree species such asPinus koraiensis, Fraxinus mandshurica, Juglans mandshurica, Tilia amurensis, andQuercus mongolica were 38.22, 14.44, 33.02, 16.48 and 32.33 ngN2O·g?1DW·h?1, respectively. Keywords Trees - N2O emission rate - Soil water stress - broadleaf/Korean pine forest - Changbai Mountain CLC number S718.55 Document code A Foundation item: This project was supported by the National Natural Science Foundation of China (No. 30271068), the grant of the Knowledge Innovation Program of Chinese Academy of Sciences (KZ-CX-SW-01-01B-10), and the Special Funds for Major State Basic Research Program of China (No. G1999043407)Biography: Wang Miao (1964-), male, associate professor in Institute of Applied Ecology, Chinese Academy of Science, Shenyang 110016, P. R. China.Responsible editor: Song Funan

Nitrous oxide emissions from three temperate forest types in the Qinling Mountains,China

To understand soil N2O fluxes from temperate forests in a climate-sensitive transitional zone,N2O emissions from three temperate forest types(Pinus tabulaeformis,PTT;Pinus armandii,PAT;and Quercus aliena var.acuteserrata,QAT)were monitored using the static closed-chamber method from June 2013 to May 2015 in the Huoditang Forest region of the Qinling Mountains,China.The results showed that these three forest types acted as N2O sources,releasing a mean combined level of 1.35±0.56 kg N2O ha^-1 a^-1,ranging from0.98±0.37 kg N2O ha^-1 a^-1 in PAT to 1.67±0.41 kg N2O ha^-1 a^-1 in QAT.N2O emission fluctuated seasonally,with highest levels during the summer for all three forest types.N2O flux had a significantly positive correlation with soil temperature at a depth of 5 cm or in the water-filled pore space,where the correlation was stronger for temperature than for the water-filled pore space.N2O flux was positively correlated with available soil nitrogen in QAT and PAT.Our results indicate that N2O flux is mainly controlled by soil temperature in the temperate forest in the Qinling Mountains.

Experimental study on N_2O and CH_4 fluxes from the dark coniferous forest zone soil of the Gongga Mountain, China

The static closed chamber technique is used in the study on the CH4 and N2O fluxes from the soils of primeval Abies fabri forest, the succession Abies fabri forest and the clear-cut areas of mid-aged Abies fabri forest in the Gongga Mountain from May 1998 to September 1999. The results indicate the following: (i) The forest soil serves as the source of atmospheric N2O at the three measurement sites, while the fluxes of CH4 are all negative, and soil is the sink of atmospheric CH4. The comparative relations of N2O emissions between the three sites are expressed as primeval Abies fabri forest > clear-cut areas > succession Abies fabri forest, and those of CH4 consumption fluxes are primeval Abies fabri forest > succession Abies fabri forest > clear-cut areas. (ii) Signifi-cant seasonal variations of N2O emission at various sites were observed, and two emission peaks of N2O occurr during summer (July—August) and spring (February—March), whereas N2O emission is relatively low in winter and spring (mid March—April). Seasonal variations of CH4 consumption at each measurement site fluctuate drastically with unclear regularities. Generally, CH4 consumption fluxes of succession Abies fabri forest and clear-cut areas are higher from mid May to late July but lower in the rest of sampling time, while the CH4 flux keeps a relatively high value even up to Sep-tember in primeval Abies fabri forest. In contrast to primeval Abies fabri forest, the CH4 absorbabili-ties of succession Abies fabri forest and clear-cut areas of mid-aged Abies fabri forest are weaker. Particularly, the absorbability of the clear-cut areas is even weaker as compared with the other two sites, for the deforestation reduces the soil absorbability of atmospheric CH4. (iii) Evident diurnal variation regularity exists in the N2O emissions of primeval Abies fabri forest, and there is a statistic positive correlation between the fluxes of N2O and air temperature (R=0.95, n=11, <0.01), and also the soil temperature of 5-cm layer (R=0.81, n=11, < 0.01), whereas the CH4 diurnal variation regularities are unclear and have no significant correlation with the soil temperature of 5-cm layer and air temperature.