Release of autolytic enzyme from Streptococcus, faecium cell walls by treatment with dilute alkali.

The autolytic enzyme (endo-beta-1,4-N-acetylmuramoylhydrolase) of Streptococcus faecium (S. faecalis ATCC 9790) was released in a soluble form from insoluble cell wall-autolytic enzyme complexes by treatment with dilute NaOH at 0 degree C. Treatment of cell wall-enzyme complexes, obtained from either exponential- or stationary-phase cells, with 0.008 to 0.01 N NaOH gave maximum yields of autolytic enzyme activity. At a fixed concentration of NaOH, the yield of autolysin increased with increasing wall densities and was accompanied by the release of methylpentose and phosphorus in amounts proportional to the autolysin. Since extraction of wall-enzyme complexes with 4.5 M LiCl at 0 degree C also removed methylpentose and phosphorus, release of enzyme with NaOH did not appear to result from hydrolysis of covalent linkages. The autolytic enzyme activity released from intact cells, or cell walls, was predominantly in the later (proteinase activable) form which could be activated by trypsin or a proteinase present in commerical bovine plasma albumin.     

广东省森林死木碳库特征

基于广东省第8次国家森林资源清查的固定样地调查数据和2016年典型抽样的死木调查数据,利用分树种、分腐朽程度的各个组分相兼容的生物量模型以及相对应的地上、地下部分含碳系数,对广东省森林死木碳库动态进行估算,分析死木种类、林分类型和龄组对死木碳库的影响,量化林分生长特性和自然灾害对死木碳库的贡献。结果表明:2007—2012年间广东省乔木林死木碳库新增碳储量5811.86 Pg,占同期乔木林活立木碳库的2.94%,其中枯倒木多于枯立木;阔叶混交林和马尾松林贡献了近70%的死木碳储量;马尾松、其他软阔、湿地松、阔叶混交林和其他硬阔的死木碳储量占同类森林总活立木碳储量的比例较大,均超过4.00%,桉树和杉木比例最小,均不足1.00%;从龄组看,发生在中龄林的死木碳储量占总死木碳储量比例最大,过熟林最小。与同龄组林分的现存碳储量相比,从幼龄林(2.03%)到过熟林(4.56%)基本呈上升趋势。全省新增死木库碳密度为(0.7612±3.3988)Mg/hm~2。竞争和衰老引起的枯死在林分中普遍存在,占发生死木林分面积的60%以上,但增加到死木碳库的储量不足总量的四分之一,而自然灾害只占发生死木林分面积的10%,对死木碳库的贡献却超过40%。到2016年,2007—2012年间增加到死木库的碳储量下降到785.57 Pg,减少约85%,枯倒木的腐朽程度重于枯立木,不同树种间腐朽程度不一,杉木腐朽程度最低。清林等人为经营活动和死木的腐朽是存量减少的主要原因。     

黄浦江中上游杨树人工林生态系统碳储量研究

以上海地区黄浦江中上游杨树人工林为研究对象,构建了杨树立木及各器官(根、干、皮、枝、叶)生物量方程,并对杨树人工林林分生物量(乔木层、地表枯落物层)、碳储量和土壤碳储量进行了估测。结果表明:杨树立木及各器官的生物量方程拟合效果较好(R2=0.96～0.99,P0.001)。9年生杨树人工林生态系统碳储量为90.9 t·hm-2。其中乔木层碳储量所占比例为36.6%,乔木层各组分碳储量大小排序为树干树根树枝树皮树叶;地表枯落物层碳储量所占比例仅为1.7%。土壤碳储量(0～50 cm)所占比例最大,为61.6%。这些杨树人工幼龄林正处于快速生长阶段,对上海地区人工林碳汇经营具有重要意义。     

庐山风景区碳源、碳汇的测度及均衡

旅游目的地系统碳源、碳汇的计算与分析,不仅是旅游业节能减排政策制定的重要依据,也是旅游与环境相互关系研究的一个新的科学命题.以庐山风景区为例,计算并分析了2010年的碳源及碳汇.结果表明:(1)2010年庐山风景区包括本地居民和旅游者的总碳排放为108 697 t.其中,本地居民占碳排放总量的19.52％,旅游者占碳排放总量的80.48％.在旅游者碳排放中,旅游交通碳排放占50.24％,旅游住宿碳排放占38.04％,旅游食物消费碳排放占10.65％,旅游活动碳排放仅占1.07％;(2)2010年庐山风景区内陆地生态系统碳吸收为9447 t;(3)从碳源、碳汇均衡角度看,庐山陆地生态系统的固碳量吸收了区内碳排放的23.47％.但由于旅游者的区际流动和旅游业的产业关联性强,陆地生态系统的碳吸收仅占区内和区外碳排放总量的8.69％,旅游业使庐山成为一个显著的碳源.     

基于森林资源清查资料分析山东省森林立木碳储量

利用山东省第7次森林资源清查数据,采用生物量-蓄积量转换函数和平均生物量法,结合不同树种的含碳率,研究山东省森林生态系统立木碳储量、碳密度及其按优势树种、龄组和林种的分布特征.结果表明: 2007年山东省森林立木碳储量为25.27 Tg,其中,针叶林、针阔混交林和阔叶林的立木碳储量分别占全省立木碳储量的8.6%、2.0%和89.4%.不同林龄组的立木碳储量大小顺序为幼龄林>中龄林>成熟林>近熟林>过熟林,其中幼龄林和中龄林占全省立木总碳储量的69.3%.用材林、经济林和防护林的立木碳储量分别占全省立木碳储量的37.1%、36.3%和24.8%.山东省森林平均立木碳密度为10.59 t·hm^-2,低于全国平均水平,主要是由于现有森林用材林和经济林比重高,中幼林多、成过熟林少.
     

Pelagic food web processes in an oligotrophic lake

Major pelagic carbon pathways, including primary production, release of extracellular products (EOC), bacterial production and zooplankton grazing were measured in oligotrophic Lake Almind (Denmark) and in enclosures (7 m³) subjected to artificial eutrophication. Simultaneous measurements at three days interval of carbon exchange rates and pools allowed the construction of carbon flow scenarios over a nineteen day experimental period.The flow of organic carbon was dominated by phytoplankton EOC release, which amounted from 44 to 58% of the net fixation of inorganic carbon. Gross bacterial production accounted for 33 to 75% of the primary production. The lower values of EOC release (44%) and bacterial production (33%) were found in the enclosures with added nutrients. The release of recently fixed photosynthetic products was the most important source of organic carbon to the bacterioplankton. Uptake of dissolved free amino acids was responsible for 52 to 62% of the gross bacterial production. Thus, amino acids constituted a significant proportion of the EOC. Zooplankton (< 50 µm) grazing on algae and bacteria accounted only for a minor proportion of the particulate production in May. Circumstantial evidence is presented that suggests the chrysophycean alga Dinobryon was the most important bacterial remover.The results clearly demonstrated EOC release and bacterial metabolism to be key processes in pelagic carbon cycling in this oligotrophic lake.     

桃江县毛竹林生态系统碳储量及其空间分布

采用标准地调查和生物量实测方法,研究了湖南省桃江县毛竹林生态系统生物量、碳含量、碳储量及空间分布格局。结果表明,不同年龄毛竹林生态系统总生物量分别为:28.147、30.889 t/hm~2和57.763 t/hm~2,其中竹林层生物量为20.254、25.036、55.685 t/hm~2,各器官生物量均以竹竿最高,占器官生物量的63.0%以上。不同年龄毛竹各器官碳平均含量为0.466—0.483 g C/g;灌木层碳含量为0.474—0.489 g C/g;草本层为0.472—0.490 g C/g;死地被物层为0.213—0.276 g C/g;土壤层有机碳含量为14.790—34.503 g C/g。各年龄毛竹林生态系统总碳储量分别为131.273、139.089 t/hm~2和167.817 t/hm~2,其中植被层碳储量为13.627—28.419 t/hm~2,占系统总碳储量的9.935%—16.935%;死地被物为0.307—0.420 t/hm~2,占0.234%—0.265%;土壤层为117.339—138.978 t/hm~2,占82.815%—89.799%。毛竹林生态系统碳储量分布格局为:土壤层植被层死地被物层。研究结果可为深入研究毛竹林的碳平衡提供基础数据。     

Redox reactions of organic matter decomposition in a soft water lake

During a three year study (1985–1987) we used a mass balance approach to study the oxidation and reduction reactions related to decomposition of organic carbon in Mirror Lake, New Hampshire. The stoichiometry of the reactions allows us to calculate an electron transfer budget for the summer stratification period in the lake, as well as in benthic chambers and sealed jars.The average decomposition rate measured as dissolved inorganic carbon (DIC) production was 5.33 mmol m^–2 d^–1. The proportions of decomposition accounted for by the various electron acceptors varied both during the summer, as well as from year to year. On average, oxygen accounted for 43% of DIC production, while the processes involving sulfate, nitrate, iron and methane formation together accounted for 20%. Despite conservative assumptions we could not account for 37% of the DIC production. The general pattern, including excess DIC production, was also observed in chamber studies conducted over shallow-water sediments and in sealed-jar experiments.Data on burial rates of reduced iron minerals indicate that such minerals are not sufficient to account for the discrepancy in the electron budget. Our analysis suggests that another electron acceptor such as organic carbon reduction, either via fermentation or selective oxidation, is the most likely explanation of excess DIC production.     

Bacterial Contribution to Dissolved Organic Matter in Eutrophic Lake Kasumigaura,Japan

Incubation experiments using filtered waters from Lake Kasumigaura were conducted to examine bacterial contribution to a dissolved organic carbon (DOC) pool. Bacterial abundance, bacterial production, concentrations of DOC, total dissolved amino acids (TDAA), and total dissolved neutral sugars (TDNS) were monitored during the experiments. Bacterial production during the first few days was very high (20 to 35 μg C liter⁻¹ day⁻¹), accounting for 40 to 70% of primary production. The total bacterial production accounted for 34 to 55% of the DOC loss during the experiment, indicating high bacterial activities in Lake Kasumigaura. The DOC degradation was only 12 to 15%, whereas the degradation of TDAA and TDNS ranged from 30 to 50%, suggesting the preferential usage of TDAA and TDNS. The contribution of bacterially derived carbon to a DOC pool in Lake Kasumigaura was estimated using d-amino acids as bacterial biomarkers and accounted for 30 to 50% of the lake DOC. These values were much higher than those estimated for the open ocean (20 to 30%). The ratio of bacterially derived carbon to bulk carbon increased slightly with time, suggesting that the bacterially derived carbon is more resistant to microbial degradation than bulk carbon. This is the first study to estimate the bacterial contribution to a DOC pool in freshwater environments. These results indicate that bacteria play even more important roles in carbon cycles in freshwater environments than in open oceans and also suggests that recent increases in recalcitrant DOC in various lakes could be attributed to bacterially derived carbon. The potential differences in bacterial contributions to dissolved organic matter (DOM) between freshwater and marine environments are discussed.     

农田生态系统碳足迹时空变化——以河南省为例

农田生态系统是陆地生态系统的重要组成部分,起着碳源和碳汇的双重作用,对维持整个生态系统碳平衡具有重要意义.本文基于ArcGIS 10.1、SPSS 20.0、Sigmaplot 12.5等分析平台,以农田生态系统为研究对象,构建农田生态系统碳足迹模型,分析2005—2014年河南省农田生态系统碳排放、碳吸收和碳足迹及三者之间的关系.结果表明: 2005—2014年,研究区碳排放年平均增长率为2.7%,其中因化肥施用引起的碳排放量占总碳排放量的比例最高,占66.2%,且化肥的使用强度为890.38 kg·hm^-2,远高于发达国家公认的安全警戒线225 kg·hm^-2.河南省农田生态系统的碳总储量整体呈逐年上升趋势,其中,小麦的碳吸收比例最高,占总吸收量的60%,水稻的碳吸收增速最快,为7.9%.河南省农田生态系统存在碳生态盈余,且农田生态系统碳足迹总体呈现不断增加趋势,农田生态系统碳足迹占同期生产性土地面积(耕地)的平均比例为5.7%.研究区碳排放、碳吸收、碳足迹的空间变化较为一致,均呈现东南多、西北少的空间分布规律,且地区差异及变化幅度差异较大是三者的最主要外部特征.     

Shrimp ponds lead to massive loss of soil carbon and greenhouse gas emissions in northeastern Brazilian mangroves

Mangroves of the semiarid Caatinga region of northeastern Brazil are being rapidly converted to shrimp pond aquaculture. To determine ecosystem carbon stocks and potential greenhouse gas emissions from this widespread land use, we measured carbon stocks of eight mangrove forests and three shrimp ponds in the Acaraú and Jaguaribe watersheds in Ceará state, Brazil. The shrimp ponds were paired with adjacent intact mangroves to ascertain carbon losses and potential emissions from land conversion. The mean total ecosystem carbon stock of mangroves in this semiarid tropical landscape was 413 ± 94 Mg C/ha. There were highly significant differences in the ecosystem carbon stocks between the two sampled estuaries suggesting caution when extrapolating carbon stock across different estuaries even in the same landscape. Conversion of mangroves to shrimp ponds resulted in losses of 58%–82% of the ecosystem carbon stocks. The mean potential emissions arising from mangrove conversion to shrimp ponds was 1,390 Mg CO₂e/ha. Carbon losses were largely from soils which accounted for 81% of the total emission. Losses from soils >100 cm in depth accounted for 33% of the total ecosystem carbon loss. Soil carbon losses from shrimp pond conversion are equivalent to about 182 years of soil carbon accumulation. Losses from mangrove conversion are about 10‐fold greater than emissions from conversion of upland tropical dry forest in the Brazilian Caatinga underscoring the potential value for their inclusion in climate change mitigation activities.     

Protistan grazing and viral lysis losses of bacterial carbon production in a large mesotrophic lake (Lake Biwa)

The grazing and lysis mortalities of planktonic bacteria were estimated using the modified dilution method and respiratory quinone (RQ) analysis in mesotrophic Lake Biwa, Japan. The planktonic bacterial assemblages in the lake consisted of various RQ subgroups with different growth and mortality rates. The sum of total bacterial mortalities due to protistan grazing and viral lysis accounted for 96.6 % (range 89.0–107.2 %) of daily total bacterial production. This is the first report that successfully demonstrates a balanced relationship between bacterial production and losses using the modified dilution method in a lake. The growth rates of ubiquinone (UQ)-containing bacteria were faster than those of menaquinone-containing bacteria. Especially the dominant and fastest growing bacterial groups in the present study were the bacterial groups containing UQ-8 or UQ-10. The sum of their production and loss accounted for 60 % of carbon fluxes within the microbial loop. Thus, a large portion of the carbon cycling through the bacterial community in Lake Biwa can be explained by the carbon fluxes through dominant bacterial groups.     

Evidence for C4 photosynthesis in barley pericarp tissue

The products of photosynthetic carbon dioxide fixation were determined in isolated pericarps of immature barley grains. Of the carbon dioxide fixed after 1 min photosynthesis 84% was in the C₄ acid malic acid. The remaining label was in hexose phosphates and sucrose. By 2 min sucrose was the major labelled product and at 6 min accounted for 94% of the total carbon dioxide fixed.     

区域碳源碳汇的时空格局——以长三角地区为例

长三角地区是世界第六大也是我国综合实力最强的城市群地区,其快速而大规模的城市化也产生了一系列的生态环境问题.本文核算了1995-2010年长三角地区的碳源碳汇并分析了其时空格局演变特征.结果表明： 研究期间,长三角地区的碳汇增长943×10⁴ t,其中,浙江省森林净生态系统生产量的增加是主要贡献,这主要得益于国家2003年起实施的“退耕还林”政策.该地区的碳排放增加3.27×10⁸ t,其中,能源消费和工业过程排放所占比重在2010年达96%.江苏省的排放量与增长速度都位居长三角第一,其以重工业和制造业等高能耗和高碳排的产业结构是造成其碳排放居高不下的主要原因.由于建设用地的净碳排放量增速大于建设用地扩张速度,导致该地区单位面积建设用地的净碳排放强度明显增大,江苏省的建设用地净碳排放强度增速最快.
     

Total ecosystem carbon stocks at the marine‐terrestrial interface: Blue carbon of the Pacific Northwest Coast,United States

The coastal ecosystems of temperate North America provide a variety of ecosystem services including high rates of carbon sequestration. Yet, little data exist for the carbon stocks of major tidal wetland types in the Pacific Northwest, United States. We quantified the total ecosystem carbon stocks (TECS) in seagrass, emergent marshes, and forested tidal wetlands, occurring along increasing elevation and decreasing salinity gradients. The TECS included the total aboveground carbon stocks and the entire soil profile (to as deep as 3 m). TECS significantly increased along the elevation and salinity gradients: 217 ± 60 Mg C/ha for seagrass (low elevation/high salinity), 417 ± 70 Mg C/ha for low marsh, 551 ± 47 Mg C/ha for high marsh, and 1,064 ± 38 Mg C/ha for tidal forest (high elevation/low salinity). Soil carbon stocks accounted for >98% of TECS in the seagrass and marsh communities and 78% in the tidal forest. Soils in the 0–100 cm portion of the profile accounted for only 48%–53% of the TECS in seagrasses and marshes and 34% of the TECS in tidal forests. Thus, the commonly applied limit defining TECS to a 100 cm depth would greatly underestimate both carbon stocks and potential greenhouse gas emissions from land‐use conversion. The large carbon stocks coupled with other ecosystem services suggest value in the conservation and restoration of temperate zone tidal wetlands through climate change mitigation strategies. However, the findings suggest that long‐term sea‐level rise effects such as tidal inundation and increased porewater salinity will likely decrease ecosystem carbon stocks in the absence of upslope wetland migration buffer zones.     

Estimation of the ecosystem carbon budget in South Korea between 1999 and 2008

A carbon flux model, the vegetation integrated simulator for trace gases, was employed to estimate the carbon budgets of vegetation ecosystems in South Korea. The geographic information system was used to prepare the input variables for the model, such as climate, soil, and land-cover data, from reliable national inventories. Model simulation results indicated that the annual average gross primary production, net primary production, and soil respiration (SR) for 10 years were 91.89, 40.16, and 62.91 Tg C year^?1, respectively. The model also estimated a net ecosystem production with a value of 3.51 Tg C year^?1 between 1999 and 2008. Such results indicate that the vegetation ecosystems of South Korea offset 3.3 % of anthropogenic emissions as a net carbon sink. Latitudinal and topographical gradients over the total simulation area were found for all estimates. In addition, the estimates varied between seasons and years, especially in estimates for biomass growth and carbon uptake, because of variations in the weather conditions. Finally, model validation was conducted using measured soil efflux and flux measurement data from the Gwangneung experimental forest (GEF). The estimated SR accounted for 81.6 % of the observed SR at the GEF site (P < 0.005). Further, the model accounted well for the observed phase and amplitude of changes in the summer and autumn seasons.     

高寒沙地乌柳防护林碳库随林龄的变化

植被恢复是改善脆弱生态系统的有效方式。长期的植被恢复能够提高沙地生态系统的服务功能。以青海共和高寒沙地不同林龄乌柳(Salix cheilophila)防护林生态系统为研究对象,研究植被恢复过程中植被碳库与土壤碳库的动态变化,探讨乌柳防护林生态系统的碳汇功能。结果表明:随林龄增加,乌柳各组分碳浓度变化规律并不显著(P0.05),而碳贮量显著增加(P0.05),且不同林龄乌柳各组分碳库的分配比例不同,树干碳贮量占林分碳贮量的百分比最高。各林龄(6、11、16、21a)乌柳林碳贮量分别为4.95、9.93、14.67 t/hm2和21.99 t/hm2。土壤碳库随植被恢复时间的增加而增加,各林龄土壤碳库(0—200cm)分别为9.54、13.03、17.18和19.05 t/hm2。较之6、11a土壤碳库增加26.78%,16a较之11a提高24.16%,21a较16a提高9.82%。地被物层(植被残体)固碳量分别为0.27、0.29、0.33、0.43 t/hm2。不同林龄乌柳林生态系统碳库分别为14.76、23.25、32.18 t/hm2和41.48 t/hm2。各林龄乌柳植被层碳库分别占该林龄总碳库的33.54%、42.71%、45.59%和53.01%,土壤碳库分别占该林龄总碳库的64.63%、56.04%、53.39%和45.93%,而地被物层分别占该林龄总碳库的1.83%、1.25%、1.03%和1.03%。较之恢复前的,各林龄碳库依次增加57.05%、36.52%、27.75%和22.42%。植被恢复各阶段年净碳累积速率分别为1.41、1.70、1.79、1.86 t C hm-2a-1。乌柳防护林生态系统具有"碳汇"功能。     

Releases of ingested phytoplankton carbon by Daphnia magna

1. The carbon budgets and assimilation efficiencies (AEs) of adults and juveniles of Daphnia magna were quantified using ¹⁴C as a tracer. Animals were fed pure Chlamydomonas reinhardtii or Scenedesmus obliquus at different food concentrations. Carbon AEs (46–70%) were comparable at food concentrations of 0.03–0.30 mg C L^?1 for both algal species, but decreased to 34–49% when the food concentration further increased by 10‐fold. The carbon AEs were significantly and negatively correlated with the food level. 2. During the postdigestive period, partitioning of ingested carbon into different compartments including excretion, respiration and egestion was not influenced by the food species and life stage. There was a negative correlation between respiration (as % of total loss) and food concentration and a positive correlation between egestion (as % of total loss) and food concentration. Dissolved organic carbon (DOC) and CO₂ accounted for 55–72% and 9–37%, respectively, of the total carbon loss from juveniles fed both algal diets. For adults, DOC and CO₂ contributed to 44–64% and 20–47% of the total carbon loss, respectively. Particulate organic carbon (POC) was a minor pathway for the overall carbon loss. 3. The turnover and release budget of structural carbon (as moults and neonate reproduction) were further evaluated in long‐term experiments at different algal concentrations. Food concentration did not affect the carbon efflux or the carbon allocation into different physiological compartments except for respiration. Juveniles had twofold lower carbon turnover rate (0.12–0.16 day^?1) than those of the adults (0.32–0.35 day^?1). In adults, comparable carbon was allocated into DOC (35–42%) and reproduction (27–35%), which were the dominant routes for carbon loss. For the juveniles, DOC accounted for 42–64% of the total carbon loss. 4. About 21–38% of the total DOC released by adults and juveniles was associated with the high molecular weight organic carbon fraction (>5 kDa). Our results show that carbon was mainly lost by D. magna in the form of DOC during assimilation process as well as from the structural materials. Reproduction or maternal transfer was another major drain of body carbon for adult D. magna.     

择伐对阔叶红松林碳密度和净初级生产力的影响

准确量化森林碳密度和净初级生产力(NPP)对于评价森林生态系统在全球碳循环中的作用至关重要.本研究以小兴安岭原始阔叶红松林和择伐(择伐强度30%,择伐对象为大径级红松)34年后的阔叶红松林为对象,采用样地清查和异速生长方程法测定了不同林分的碳密度和NPP.结果表明: 原始林和择伐林的碳密度总量分别为(397.95±93.82)和(355.61±59.37) t C·hm^-2,其中植被碳密度、碎屑碳密度、土壤碳密度分别占总碳库的31.0%、3.1%、65.9%和31.7%、2.9%、65.4%,两者的总碳密度和各组分的分配比例均无显著差异. 原始林和择伐林的NPP总量分别为(6.27±0.36 )和(6.35±0.70) t C·hm^-2·a^-1,乔木层、灌木和草本层、细根所占比例分别为60.3%、2.0%、37.7%和66.1%、2.0%、31.2%,两者的总NPP和各组分的贡献率均无显著差异.而原始林和择伐林中针、阔叶的NPP比例分别为4724∶52.76和20.48∶79.52,两者差异显著.择伐34年后阔叶红松林的碳密度和NPP均达到了择伐前水平.     

黄土高原中西部刺槐人工林生态系统碳密度及其影响因子

为阐明黄土高原中西部刺槐人工林碳密度区域分布特征及其主要影响因子,基于野外样地调查和室内样品分析估算了黄土高原中西部4个栽培区域的刺槐人工林生态系统碳密度及其分布特征,并利用相关性分析和主成分分析分析了影响生态系统碳密度的主要因子(林分、地形、土壤和气候等)。结果表明:调查区5个林龄的刺槐人工林生态系统生物量为34.13—133.08t/hm~2,不同区域之间各组分生物量存在显著性差异。植被层平均碳含量为221.93—454.67 g/kg,总体上表现为乔木层平均碳含量高于灌、草层,枯落物层平均碳含量最低,不同区域乔木、灌木、草本平均碳含量均存在显著性差异。刺槐人工林生态系统碳密度均值为106.86 t/hm~2,其中土壤层碳密度占刺槐人工林生态系统总碳密度的64.09%,是刺槐人工林生态系统碳密度的主要组成部分。植被层碳密度为38.68 t/hm~2,其中乔木层碳密度(33.88 t/hm~2)占植被层碳密度的87.58%,灌木、草本、枯落物所占比例依次为1.98%(0.77 t/hm~2)、2.00%(0.77 t/hm~2)、8.43%(3.26 t/hm~2)。不同区域土壤、生态系统碳密度均存在显著性差异。相关性分析和主成分分析表明,刺槐人工林生态系统碳密度与林龄、降水量呈显著正相关关系,与林分密度、平均气温、海拔和坡度的相关关系不显著,上述林分因子、地形因子和环境因子转化的主成分方差累积贡献率为91.07%,其中林龄和降水量是影响刺槐人工林生态系统碳密度的主要因子,方差贡献率为37.22%。