粤北亚热带山地森林土壤有机碳沿海拔梯度的变化

选择位于南岭国家级自然保护区的广东第一峰——石坑崆,从海拔300 m起到山顶部1 900 m范围,每隔100 m高程设置1条10 m×120 m的样带,共17条样带,研究土壤有机碳含量沿海拔梯度的变化规律及其与植被类型和凋落物层厚度的关系。结果表明,0～20 cm和>20～40 cm土层有机碳含量均随海拔梯度变化呈极显著差异(P<0.001),并随林分类型不同而呈高度显著差异(P<0.01),土壤有机碳含量总体上呈随海拔上升而升高的变化趋势。凋落物层厚度仅对0～20 cm土层有机碳含量有显著影响(P<0.05)。可见,海拔梯度变化是影响土壤有机碳含量的综合和主导因素,而最表层土壤有机碳含量还易受林分因子的影响,这些因子反映了土地利用变化及自然保护历史。该研究结果提示,减少人类活动的干扰和保持林地适合的凋落物层厚度有助于增加森林生态系统的碳储量。     

Ecological stoichiometric characteristics of carbon,nitrogen, and phosphorus in three forests in the Lüliang Mountainous Area of Shanxi Province北大核心CSCD

Using a standard plot method, the stoichiometry of carbon (C), nitrogen (N), and phosphorus (P) in leaves, litter, and soil (0-20 cm depth) was investigated for three forest types: Populus davidiana, Larix principis-rupprechtii, and Pinus tabuliformis. The results showed that the stoichiometry of C, N, and P of the same component in the three forests were significantly different. The C and N contents in leaves, litter, and soil in P. davidiana forest were higher than those in L. principis-rupprechtii and P. tabuliformis forests were. However, P in the L. principis-rupprechtii forest was higher than that in the P. davidiana forest and P. tabuliformis forests were. The C, N, and P contents of the components in the three forests were, in order, leaves > litter > soil, and the three nutrient contents were significantly higher in leaves and litter than they were in soil. C:N and C:P in the three forests exhibited a trend of litter > leaves > soil, whereas that for N:P was leaves > soil > litter. There were highly significant positive relationships in N:P between the litter and the soil in the P. davidiana forest. Leaf C:N and litter C:P in the L. principis-rupprechtii forest were significantly negatively correlated, whereas N:P in the leaves and soil was positively correlated. There was a significant positive correlation in N:P between the leaves and the soil in the P. tabuliformis forest. In conclusion, the N contents in leaves and soil exhibited a significant positive correlation, whereas there was no significant correlation between C, N, and P in litter or soil. Environmental factors had a large influence on the stoichiometry of C, N, and P in soil. In particular, latitude and altitude had the most significant effects on C, N, P, C:N, and C:P and were significantly p ositively correlated. T hese results provide a scientific basis for f urther studies on nutrient utilization a nd t he cyclic characteristics of different forests in this area. © 2018 Science Press. All rights reserved.     

Changes in soil organic matter composition after afforestation of arable farmland in northeast China

Since the 1970s, a substantial area of arable farmland in a semi-humid area of northeast China has been planted as deciduous forests (Populus tomentosa Carr.). This study investigates the effects of afforestation on soil organic carbon (SOC) content and the chemical composition of the soil. Soil samples (Calcic chernozem) were collected from the upper 10?cm of paired arable land and secondary forests established 5 and 25 years previously. Carbon isotope analysis and pyrolysis–gas chromatography/mass spectrometry were used to determine SOC composition. The results show that (i) compared to the arable land, five years of afforestation caused a decrease in SOC and N concentration, while 25 years of afforestation resulted in an increase in SOC content; (ii) stable isotope δ¹³C analyses of the forest soils show gradual loss of crop-derived C and an accumulation of forest-derived C; and (iii) afforestation increased lignin abundance and decreased decompositional activity in the 25-year-old forest topsoil. Higher amounts of short-/mid-chain aliphatic compounds were observed in the 5-year-old forest (5–10?cm); and (iv) the arable soil contained substantially higher amounts of decomposed plant material and microbially derived substances. The results obtained suggest that long-term afforestation increases the SOC concentration, and alters the chemical composition of SOC.     

Stoichiometric characteristics of carbon,nitrogen, and phosphorus in leaf litter soil of Pinus yunnanensis forest during different restoration stages in the karst plateau of eastern Yunnan北大核心CSCD

以滇东岩溶坡地不同恢复阶段云南松林(纯林、人工混交林、天然次生林)为研究对象,以元江栲原生林和小铁仔灌丛作为参照样地,对5种植被类型中的叶片-枯落物-土壤中的C、N、P含量和化学计量比特征进行研究.结果表明:(1)3种云南松林都呈现为高C(432.27 g/kg)、低N(10.28 g/kg)、P(0.96 g/kg)的格局,5种植被类型的叶片-枯落物-土壤C、N、P含量基本都表现为叶片>枯落物>土壤,C/N、C/P、N/P值则都表现为枯落物>叶片>土壤,叶片和枯落物的养分含量和化学计量比值与土壤间差异显著.(2)3种云南松林对于养分的吸收同化能力差异不大,但天然次生林的枯落物质量最好,人工混交林的土壤N、P有效性最高,云南松林内受N的胁迫作用强于原生林和灌丛.(3)植物叶片-枯落物-土壤中C、N、P及其化学计量比间相关性显著,互馈机制明显.研究区内土壤C、N、P化学计量特征受土壤pH、团聚体颗粒、含水率、容重和硝态氮影响显著.因此,滇东岩溶高原云南松植被恢复过程中主要受N胁迫作用,提高枯落物养分回流是云南松植被恢复与经营的关键要素.(图4表3参41)     

我国农田土壤碳氮耦合特征的区域差异

利用中国第2次土壤普查数据,分析了稻作和旱作方式下农田耕层土壤有机碳和全氮特征及其区域差异。结果表明,水田土壤有机碳和全氮含量分别为旱地的147.8%和145.5%,但水田碳氮含量的区域变异低于旱地。全国水田和旱地土壤有机碳氮比值分别为10.8和9.9,各区域水田土壤碳氮比值普遍高于旱地,其中东北水田最高,而华东旱地和西北旱地最低。旱地碳氮比值的区域变异显著,水田则不显著。农田耕层土壤有机碳和全氮含量呈显著正相关,除华北地区外,各区域无论水田还是旱地其碳氮含量之间相关系数都超过0.8,达极显著水平。由此可见,我国农田耕层土壤有机碳和全氮含量之间存在显著耦合关系,而且不同利用方式和区域之间差异显著;相同氮水平下,水田土壤可能储存更多的有机碳。     

Does low N-mineralisation rate in soils under grass help limit nitrate leaching in summer?

This paper aimed to confirm the hypothesis that rates of ammonification and net mineral-N production in soils under grass in summer are low and this, rather than nitrate uptake by plants, reduces mineral leaching from soils in summer. Six sets of soil samples were collected from under mown grass on the University of York campus in the UK. Samples were taken from two depths in late summer (August) and late autumn (November) to compare seasonal differences in N species transformations when field-moist soils were incubated for a week at ambient outdoor temperatures after prior removal of vegetation. Ammonification and net mineral-N production rates were low in August in spite of warm temperatures. Net mineral-N production rates were also low in November. The results agreed with those of an earlier study in a different year after considering weather differences between years. They support the hypothesis that litter accumulated over autumn/winter will be minimally mineralised and retain N before the temperature rises in spring. The study shows the merit of measuring concentrations of mineral-N species in both fresh soils and soils incubated at ambient outdoor temperatures after removing plant material to eliminate plant N uptake effects. The results suggest that soil C% and N% are more important than soil C:N ratio alone in understanding controls on N transformations.     

芦芽山土壤有机碳和全氮沿海拔梯度变化规律

研究不同海拔梯度和坡向的土壤碳氮分布,能在较小的空间尺度上反映不同气候状况下土壤碳氮分布规律,揭示多个互相关联的环境因子对土壤碳氮分布规律的综合影响。对山西省北部芦芽山芦芽山沿海拔梯度土壤有机碳和全氮含量的变化规律进行了分析。自海拔1703.1 m至2756.3 m每上升约50 m设置一个样带（共计21块）,每样带内布设30 m＆#215;30 m样地3个,每个样地内“S”形布点,分3层（0~10、10~25、25~40 cm）钻取土样。结果表明,在研究海拔范围内土壤垂直剖面自表层向下有机碳质量分数分别为（35.71±13.32）、（29.18±12.85）和（26.39±12.74） g＆#183; kg-1,全氮质量分数分别为（2.83±0.93）、（2.38±0.84）和（2.12±0.80） g＆#183; kg-1。土壤有机碳和全氮含量的分布特征均表现为随海拔升高而增加的趋势,与海拔呈极显著的线性正相关。土壤有机碳含量与海拔线性模型的回归系数在10~25 cm土层最大,而全氮与海拔线性模型的回归系数随土层深度增加而递减。土壤有机碳含量最高值出现在较高海拔处寒温性针叶林下,而土壤全氮含量最高值出现在最高海拔的亚高山草甸。碳氮含量的剖面分布呈现为表层（0~10 cm）最高,随深度下降而递减。研究区土壤C/N值介于5~19,最小值为海拔最高（2756.3 m）的亚高山草甸,而最大值为较高海拔分布的寒温性针叶林（2332.6 m）,沿海拔梯度表现呈“Λ”型的变化趋势。     

Vertical distributions of soil carbon and nitrogen fractions as affected by land-uses in the Ili River Valley

In this study, soil samples were collected to a depth of 100?cm from different land-uses, including maize field (MZ), wheat field (WT), paddy field (PD), apple orchard (OC), grassland (GL) and wetland (WL) in the Ili River Valley in northwest China, to investigate the effects of land-use on vertical distributions of soil carbon (C) and nitrogen (N) fractions, and examine whether such effects were different between topsoil (0–40?cm) and subsoil (40–100?cm). The results showed that soil organic C, water-extractable organic C, microbial biomass C, total N and microbial biomass N of croplands (MZ, WT, PD and OC) were significantly lower than those of natural lands (GL and WL) in both topsoil and subsoil, indicating that contents of soil C and N fractions can be reduced by agricultural land-uses, and the reductions are not limited to topsoil. However, the contents of soil ammonium N and nitrate N showed complex trends under different land-uses, possibly due to that the plant species and agricultural practices (e.g. application rate of fertiliser and irrigation) are considerably different among land-uses. Therefore, we suggest that more nutrient inputs should be applied to croplands to improve soil fertility in the Ili River Valley.     

降水变化、氮添加对鼎湖山主要森林土壤有机碳矿化和土壤微生物碳的影响

全球变化对土壤有机碳(SOC)存贮与分解的影响在全球碳(C)循环中具有重要地位.分别通过室内土壤培养法和氯仿熏蒸法,研究了降水变化和氮(N)添加处理对鼎湖山3种不同演替阶段的季风常绿阔叶林、针阔混交林和马尾松针叶林SOC矿化和土壤微生物量碳(SMBC)的影响.结果表明:1)降水量增加能够提高森林演替晚期SOC累积矿化量和矿化速率,而对森林演替早期SOC累积矿化量和矿化速率没有显著影响(P>0.05).2)干旱条件(降水量减少)降低森林SMBC含量,且在鼎湖山季风林表层土壤(0～10 cm)中SMBC的减少达到显著水平(P<0.05).3)N添加处理对鼎湖山3种森林类型SOC累积矿化量、矿化速率以及SMBC都没有显著影响(P>0.05).未来关于SOC矿化对全球变化响应的研究,要综合考虑土壤有机质质量、C/N比例、外源性氮输入等因素的作用.图4表2参37     

围湖造田不同土地利用方式土壤有机碳和易氧化碳

围湖造田是我国20世纪50年代后期开始大量出现的与水争地的人类干扰活动。以太湖流域肖甸湖区为试验地,测定分析了该围湖造田区香樟（Cinnamomum camphora）林、水杉（Metasequoia glyptostroboides）林、毛竹（Phyllostachys heterocycla）林和农田4种不同典型土地利用方式35年后0～10 cm、10～20 cm、20～40 cm土壤有机碳和易氧化碳含量的差异,以及土壤易氧化碳的季节动态。结果表明：表层（0～10 cm）土壤有机碳含量林地显著高于农田,阔叶林高于针叶林。土壤易氧化碳含量随季节与土层深度的变化而变化,香樟林与毛竹林春夏季节大于冬季,水杉林与农田季节波动较平缓。4种土地利用方式下土壤有机碳和易氧化碳均随土层增加含量递减。与围湖地区内的溪流底泥相比,林地与农田表层土壤有机碳含量均有明显增加;与旱地发育的植被土壤相比,围湖后的土壤有机碳含量较低,易氧化碳含量较高,土壤有机碳稳定性较差。围湖造田作为人类对自然生态系统的一种干扰方式,显著改变了原有生态系统的碳循环特征,因此在研究全球碳循环中,围湖造田对生态系统碳循环的影响应该给予充分考虑。     

冻融作用下盐碱水田土壤含水率和氮素对有机碳影响研究

选择吉林西部前郭县盐碱水田土壤,进行实验室模拟冻融实验：以-5℃冻结1 d、5℃消融1 d作为1次冻融循环,揭示不同含水率和含氮量处理条件下土壤有机碳（SOC）的变化规律。结果表明,土壤含水率和含氮量是影响SOC含量的2个重要因素,冻融次数、土壤含水率、土壤含氮量以及冻融次数和土壤含水率、冻融次数和土壤含氮量的交互作用对盐碱水田SOC含量的影响显著（P〈0.05）。在1~3次冻融循环过程中,SOC含量明显降低,随着循环次数的增加,SOC含量降低速度减缓;适量的氮素和较低的含水率有利于SOC的稳定,初始含水率为50%的SOC含量明显低于含水率30%和40%的土壤,加入20%硝酸铵的SOC含量明显低于对照组和加入10%硝酸铵的土壤。研究结果对深入研究季节冻土区冻融期盐碱水田SOC变化规律,评估全年候SOC储量有重要意义。     

Elemental composition of Sal forest soils around Chhotanagpur Plateau,India

In recent decades, the Sal-dominated tropical deciduous forests (TDFs) were experiencing loss of regeneration due to lack of seed germination of native species. To understand this ecological problem, the present study dealt with the spatial and temporal variations in biogeochemical parameters of Sal forest soils. Twenty soil samples were collected from four TDF sites in the Chota Nagpur Plateau, India. The inventories of tree species in three life-cycle stages (seedling, sapling and adult) were carried out in four sites. Site-I (290?stems?ha^?1) showed occurrence of only one species (Shorea robusta) without seedling and sapling. The pH of forest soils was acidic to slightly acidic in nature. Seasonal variations in C/N ratio showed rapid mineralization of organic matter in the rainy season. ANOVA revealed that the degree of seasonal variation caused significant difference in pH, soil organic carbon, soil organic matter, total carbon, Al, Fe, Ca, Mg, Mn and P across four sites. The strong correlation of P with pH, Al, Fe, Mg and Mn indicated highly oxidised and exchangeable nature of dry forest soils. Factor analysis of soil parameters revealed that the different combinations of edaphic conditions in different seasons were important in the distribution of the dry tropical forests communities in Chota Nagpur Plateau.     

不同混交类型对毛竹林土壤有机碳和土壤呼吸的影响

为了解不同混交类型对毛竹林土壤有机碳含量和组成以及土壤呼吸的影响,为武夷山地区毛竹林土壤环境改善和可持续生产经营积累实验数据,以武夷山地区毛竹(Phyllostachys edulis J.Houz.)纯林、毛竹-阔叶树混交林、毛竹-油茶(Camellia oleifera Abel.)混交林、毛竹-杉木[Cunnin...     

马鬃岭自然保护区土壤碳蓄积的研究

以金寨马鬃岭自然保护区为研究对象,布置56个采样点,分析该区森林土壤有机碳质量分数时空分布特征和碳储量。结果表明：研究区有机碳含量丰富,随着土壤深度、植被类型、海拔高度的变化而变化。0~20cm土层有机碳质量分数最高为90.88 g·kg-1,平均为32.47 g·kg-1,土壤有机碳质量分数随着深度的增加而递减,表层有机碳变化幅度高于深层土壤,不同测点递减的程度不同;有机碳质量分数随海拔高度的增加呈递增趋势;土壤有机碳质量分数存在明显的季节变化,表层土壤秋季有机碳质量分数最高,冬春季次之,夏季最低,越往表层季节变化越明显。0~20 cm土层有机碳密度平均为6.52 kg.m-2,0~100 cm土层有机碳平均密度为23.26 kg.m-2,有机碳密度分布与有机碳质量分数分布基本一致。0~20 cm土层土壤碳储量为2.258×105~2.265×105 t,0~100 cm土层土壤碳储量为6.91×105~8.76×105 t,碳储量丰富。最后提出该自然保护区封山育林,对温室气体减排意义重大。     

湘东丘陵区不同类型土壤活性碳组分的剖面分布与差异

土壤活性碳组分是土壤健康变化的指示器。选取湘东丘陵区3种不同母质发育的林地土壤（紫色土、板岩红壤和花岗岩红壤）,研究土壤颗粒有机碳（POC）和溶解性有机碳（DOC）的剖面分布规律,并分析POC、DOC与土壤有机碳（SOC）、土壤质地的关系。结果表明：土壤剖面POC、DOC质量分数分别介于0．29～3．87g·kg。和15．01～311．34mg·kg^-1,随剖面加深而大幅降低。土壤剖面POC储量介于8．61一16．54t·hm^-2,以花岗岩红壤最高,板岩红壤最低;而DOC储量介于380．76～1184．83kg·hm^-2,以板岩红壤最高,紫色土最低。POC占SOC的比例（POC／SOC）介于6．42％～46．25％,其中紫色土和板岩红壤POC／SOC随土层加深而降低,而花岗岩红壤则完全相反。DOC占SOC的比例（DOC／SOC）介于O．35％～3．02％,其中紫色土DOC／SOC随土层加深而降低,板岩红壤与花岗岩红壤DOC／SOC则以B层最高。由此可见,不同母质发育的土壤类型,碳库质量和脆弱程度不一。从维持地力和环境健康的角度,应对不同母质发育的土壤制定不同的开发利用方案。     

Soil organic carbon and total nitrogen stocks as affected by different land use in an Ultisol in Imo Watershed,southern Nigeria

Soil organic carbon (SOC) and soil total nitrogen (STN) concentrations and stocks are essential for improving soil quality and increasing C-reservoir. The study aimed at quantifying the dynamics of soil properties under different land use in Imo watershed where there is no knowledge about the effects of land use on SOC and STN pool. Six land use: arable land (AL), forest land (FL), grassland (GL), shrubland hills (SL), urban built-up green (UL), and freshwater swamp-mangrove wetland (WL) were classified using ArcGIS 10.1 and FAO land use classification system. Soil samples were collected and analyzed from each land use under different soil depths and slope positions with three replications. Topsoil layer (0–30?cm) contributed to more than 90% of the total soil nutrients. Land use significantly affected SOC content, STN content, and bulk density. SOC and STN concentrations were in the order of FL?>?WL?>?GL?>?SL?>?UL?>?AL which revealed the potentials of FL and WL for SOC and STN sequestration. The study provides land users with the information to improve soil quality, conserve C and N stocks for ecological sustainability and climate change mitigation.     

Litter decomposition and nitrogen mineralization from an annual to a monthly model

The forest litter decomposition model (FLDM) described in this paper provides an important basis for assessing the impacts of forest management on seasonal stream water quality and export of dissolved organic carbon (DOC). By definition, models with annual time steps are unable to capture seasonal, within-year variation. In order to simulate seasonal variation in litter decomposition and DOC production and export, we have modified an existing annual FLDM to account for monthly dynamics of decomposition and residual mass in experimental litterbags placed in 21 different forests across Canada.The original annual FLDM was formulated with three main litter pools (fast, slow, and very slow decomposing litter) to address the fact that forest litter is naturally composed of a mixture of organic compounds that decompose at different rates. The annual FLDM was shown to provide better simulations than more complex models like CENTURY and SOMM.The revised monthly model retains the original structure of the annual FLDM, but separates litter decomposition from nitrogen (N) mineralization. In the model, monthly soil temperature, soil moisture, and mean January soil temperature are shown to be the most important controlling variables of within-year variation in decomposition. Use of the three variables in a process-based definition of litter decomposition is a significant departure from the empirical definition in the annual model. The revised model is shown to give similar calculations of residual mass and N concentration as the annual model (r² = 0.91, 0.78), despite producing very different timeseries of decomposition over six years. It is shown from a modelling perspective that (i) forest litter decomposition is independent of N mineralization, whereas N mineralization is dependent on litter decomposition, and (ii) mean January soil temperature defines litter decomposition in the summer because of winter-temperatures’ role in modifying forest-floor microorganism community composition and functioning in the following summer.     

南亚热带中幼龄针阔混交林碳储量及其分配格局

以南亚热带中幼龄针阔混交林为研究对象,通过典型样地调查法,对森林生态系统各个层次进行取样调查,采用12个样地实测数据和已有生物量模型相结合的方法计算乔木层生物量,灌木层、草本层和凋落物层采用全部收获法测得其生物量,对土壤层的调查采用剖面法加土钻法,代表性样品碳含量的测定采用重铬酸钾-水合加热法。在此基础上,分析了中幼龄针阔混交林碳储量及其分配格局。结果表明,主要造林树种树根、树杆、树枝和树叶碳含量均值分别为45.07%、46.73%、46.30%和47.72%。植物碳含量表现为乔木〉灌木〉草本。乔木碳储量占植被总碳储量比例介于63.38%-94.08%之间,灌木碳储量所占比例介于3.55%-12.67%之间,而草本碳储量仅介于为1.28%-23.95%之间,不同林龄段乔木和灌木碳储量均值随林龄的增加呈上升趋势,而草本碳储量呈下降趋势。土壤碳储量介于106.73-136.61 t·hm^-2之间,土壤碳储量随林龄的增加呈现出先降低后升高的趋势。针阔混交林总碳储量介于134.79-162.60 t·hm^-2之间,分配格局表现为土壤层〉植被层〉凋落物层。土壤层碳储量所占总碳储量比例范围为78.34%-94.45%,植被层所占比例介于4.84%-20.16%之间,凋落物层仅介于0.71%-1.50%之间,中幼龄针阔混交林碳储量主要以土壤固碳为主。研究结果为树种选择、人工林生态系统固碳潜力以及人工碳汇林的经营管理等研究提供科学参考。     

环境因素对密云水库上游流域土壤有机碳和全氮含量影响的通径分析

土壤是全球重要的碳库和氮库,在全球碳氮循环中具有重要地位。密云水库是华北地区最大的水库和北京市最重要的地表水水源地,其上游流域山地广布,地形复杂,气候变化明显,土壤类型和植被类型多样,影响土壤碳氮库的环境因素具有较强的变异性。为揭示环境因素对密云水库上游流域土壤有机碳（soil organic carbon,SOC）和全氮（total nitrogen,TN）含量的作用效应,采用野外采样、实验室分析与逐步回归分析和通径分析相结合的方法,研究了气候（温度和降水）、地形（海拔和坡度）、土壤理化性质（土壤容重、含水量、pH值和粘粒含量）等环境因素对流域SOC和TN含量的影响。结果表明：温度、土壤容重、含水量、pH值和粘粒含量对SOC含量的影响显著（P＆lt;0.001）,其中各因子的直接通径系数依次为：土壤含水量（0.439）＞土壤容重（-0.324）＞pH值（-0.238）＞温度（-0.209）＞土壤粘粒含量（0.092）,间接通径系数依次为：土壤容重（-0.425）＞土壤粘粒含量（0.305）＞土壤含水量（0.287）＞pH值（-0.179）＞温度（-0.043）,因此,土壤含水量、pH值和温度主要通过直接作用影响SOC含量,而土壤容重和粘粒含量则主要通过其它因子的作用间接影响SOC含量。海拔、土壤容重、含水量、pH 值和粘粒含量对 TN 含量的影响显著（P＆lt;0.001）,其中各因子的直接通径系数依次为：土壤含水量（0.456）＞海拔（0.234）＞土壤容重（-0.228）＞pH 值（-0.190）＞土壤粘粒含量（0.094）,间接通径系数依次为：土壤容重（-0.484）＞土壤粘粒含量（0.301）＞海拔（0.247）＞土壤含水量（0.257）＞pH 值（-0.202）,因此,土壤含水量主要通过直接作用影响TN含量,而土壤容重和粘粒含量主要通过土壤含水量的作用间接影响TN含量,海拔和土壤pH值的直接作用与间接作用     

闽西北地区不同龄组常绿阔叶混交林生态系统碳储量结构特征

选取福建西北部地区多群落类型组成的常绿阔叶混交林为研究对象,通过典型样地调查法,对生态系统各个层次进行取样调查,采用“相对生长法”计算乔木层生物量,灌木层、草本层和凋落物层采用全部收获法测得其生物量,对土壤层的调查采用剖面法加土钻法,代表性样品碳含量的测定采用重铬酸钾-外加热容量法。在此基础上,分析了该地区不同林龄常绿阔叶林生态系统碳储量及其格局特征,结果表明,（1）闽西北地区常绿阔叶林生态系统平均碳储量为260.63 t·hm-2。在每个发育阶段,各层片对整个生态系统碳储量的贡献率相对稳定,空间分布格局特征相似。幼龄林、中龄林、近熟林、成过熟林生态系统的碳储量分别为192.14、221.15、317.11和312.12 t·hm-2,基本表现出随林龄增加而逐渐增大的趋势。（2）乔木层、灌木层、草本层、凋落物层的平均碳质量分数分别为48.5%、46.9%、41.2%、44.0%,每个层片中,各器官的碳含量差异不大,乔木层、灌木层及草本层的碳质量分数表现出随层片高度降低而减小的趋势。土壤碳质量分数由表层到底层逐渐减小。0～10、10～20 cm土层碳质量分数均显著大于其余三个土层。（3）生物量碳储量在每个层片随着龄组不同,表现出不同的变化趋势。乔木层碳储量大小排序为近熟林﹥成过熟林﹥中龄林﹥幼龄林,灌木层与草本层在不同发育阶段的碳储量,均表现出以下规律：从幼龄林到中龄林不断增长,在中龄林达到最大值后,又随发育的进行显现出不断下降的趋势。随着地表凋落物现存量的不断增加,其碳储量也表现出幼龄林﹥中龄林﹥近熟林﹥成过熟林的趋势。土壤的平均碳储量为134.986 t·hm-2,随着林分发育,表现为成过熟林﹥近熟林﹥中龄林﹥幼龄林。