Effects of elevated CO2 concentration and nitrogen supply on biomass and active carbon of freshwater marsh after two growing seasons in Sanjiang Plain, Northeast China

An experiments were carried out with treatments differing in nitrogen supply (0, 5 and 15 g N/m²) and CO₂ levels (350 and 700 μmol/mol) using OTC (open top chamber) equipment to investigate the biomass of Calamagrostis angustifolia and soil active carbon contents after two years. The results showed that elevated CO₂ concentration increased the biomass of C. angustifolia and the magnitude of response varied with each growth period. Elevated CO₂ concentration has increased aboveground biomass by 16.7% and 17.6% during the jointing and heading periods and only 3.5% and 9.4% during dough and maturity periods. The increases in belowground biomass due to CO₂ elevation was 26.5%, 34.0% and 28.7% during the heading, dough and maturity periods, respectively. The responses of biomass to enhanced CO₂ concentrations are differed in N levels. Both the increase of aboveground biomass and belowground biomass were greater under high level of N supply (15 g N/m²). Elevated CO₂ concentration also increased the allocation of biomass and carbon in root. Under elevated CO₂ concentration, the average values of active carbon tended to increase. The increases of soil active soil contents followed the sequence of microbial biomass carbon (10.6%) > dissolved organic carbon (7.5%) > labile oxidable carbon (6.6%) > carbohydrate carbon (4.1%). Stepwise regressions indicated there were significant correlations between the soil active carbon contents and plant biomass. Particularly, microbial biomass carbon, labile oxidable carbon and carbohydrate carbon were found to be correlated with belowground biomass, while dissolved organic carbon has correlation with aboveground biomass. Therefore, increased biomass was regarded as the main driving force for the increase in soil active organic carbon under elevated CO₂ concentration.     

沼泽湿地N2O通量特征及N2O与CO2排放间的关系

对三江平原淡水沼泽湿地进行了连续4年的野外原位观测.结果表明,沼泽湿地冬季是N2O的汇,但从全年来看,仍为N2O排放的源.5～8月是N2O排放的主要时期.土壤温度是影响N2O通量季节变化的重要环境因素,生长季内的积水水位和土壤温度则会影响到N2O通量的年际变化;沼泽湿地N2O与CO2排放间相关性显著,促使二者间产生这种内在联系的因素包括温度、植物根系的作用、有机质分解的联系作用以及植物气孔行为的调节.     

模拟氮沉降和CO2浓度增加对三江平原小叶章群落土壤总有机碳和氮素含量的影响

利用开顶气室(Open-Top Chamber,OTC),设置当前大气CO2浓度(370μmol.mol-1)、中等CO2浓度(550μmol.mol-1)和高CO2浓度(700μmol.mol-1)3个CO2浓度水平和不施氮(N1,0g N.m-2.a-1)、常氮(N2,5g N.m-2.a-1)、高氮(N3,10g N.m-2.a-1)3个氮素水平。研究了不同N沉降水平下,大气CO2浓度升高对以三江平原小叶章群落土壤有机碳和氮素含量的影响。结果表明:CO2浓度升高结合氮沉降连续运行两个生长季后,湿地土壤总有机碳含量没有显著变化,说明较短时间内大气CO2浓度升高和氮沉降不会使三江平原土壤有机碳含量产生变化。氮沉降引起各个土层的土壤全氮、铵态氮和硝态氮的含量增加,施氮水平越高土壤氮增加越多,但是全氮增加量不明显,铵态氮随施氮量的增加呈现极显著差异水平(P<0.01)。0～10cm,10～20cm土层土壤全氮、铵态氮的含量随着CO2浓度升高呈现出先增大后减小的趋势。土壤硝态氮含量在10～20cm土层含量变化与土壤全氮、铵态氮的变化趋势相同。说明大气CO2浓度一定程度的增加可以增加土壤的氮素含量,但是过量的大气CO2浓度反而会使得土壤氮素含量减少。     

三江平原湿地土壤活性有机碳组分特征及其与土壤酶活性的关系

对三江平原3种主要类型天然湿地(毛苔草湿地、小叶章湿地、岛状林湿地)O-20cm土壤活性有机碳(土壤微生物量碳、土壤可溶性有机碳)特征进行了研究,分析了不同湿地的土壤活性有机碳与土壤总有机碳及酶活性间的关系.结果表明:不同类型湿地的土壤活性有机碳组分含量存在较大的差异,土壤活性有机碳、土壤总有机碳及土壤脲酶、蔗糖酶、淀粉酶、过氧化氢酶的变化趋势具有基本近似的特征.表现为毛苔草湿地>小叶章湿地>岛状林湿地;土壤微生物量碳、可溶性有机碳与土壤总有机碳和酶活性存在显著正相关关系,其中,酶活性与土壤微生物量碳相关性最为显著.另外.毛苔草湿地土壤MBC/SOC、DOC/SOC的比值低于其它2种类型湿地,表明毛苔草湿地生物活性有机碳库的周转速率低.淹水抑制了微生物和酶的分解作用,有利于土壤有机碳的累积.因此,沼泽湿地水文条件的变化将会对土壤碳累积与分解过程产生较大的影响.     

Dynamics of dissolved organic carbon in the mires in the Sanjiang Plain, Northeast China

Mires in boreal area had proved to be an important dissolved organic carbon (DOC) reserve for the sensitivity to climate change and human interfering. The study was focused on the temporal and spatial dynamics and controlling factors of DOC in a seasonallywaterlogged mire (SLM) and perennially-waterlogged mire (PLM) in the Sanjiang Plain, Northest China. In the two mires, DOC concentrations in both surface water and upper soil strata experienced pronounced seasonal variation. DOC concentrations in the surface waters were the greatest and averagely was 47.82 in SLM and 34.84 mg/L and PLM, whereas that in soil water at 0.3-m depth had little di erence (20.25 mg/L in SLM and 26.51 mg/L in PLM). Results revealed that DOC concentrations declined 5–8 times vertically from the surface down to groundwater. DOC in the groundwater only was in a very small part with the average concentration of 5.18 mg/L. In relation to the surface water, DOC concentrations varied positively with temperature just before 8 August, and only in early spring and later autumn DOC concentrations exhibited identifiable spatial trends along with standing water depths in PLM. It was supposed that the influences from standing water depth took e ect only in conditions of low temperature, and temperature should be the most powerful factor controlling DOC dynamics in the mires. Redox potential (Red) showed negative relationship with DOC values while total nitrogen (TN) and the majority of free ions in the soil solution exhibited no relationship. High soil TOC/TN ratio and low redox potentials also led to DOC accumulation in the mires in the Sanjiang Plain.     

西藏色季拉山两种典型天然林分土壤活性有机碳组分与土壤呼吸特征研究

森林土壤活性有机碳和土壤呼吸及其组分区异是森林土壤碳循环过程研究的关键问题.青藏高原亚高山原始森林植被是我国重要的生态屏障,对全球陆地生态系统的碳收支平衡具有举足轻重的作用.本研究选取西藏色季拉山两种最典型的天然林分(急尖长苞冷杉和林芝云杉)为研究对象,测定了这两种林分的土壤活性有机碳含量和同期的土壤呼吸速率及其组分速率,分析了土壤呼吸及其组分与土壤活性有机碳组分之间的关系,结果表明,西藏色季拉山两种天然林分土壤总有机碳(TOC)、土壤颗粒有机碳(POC)、易氧化有机碳(LOC)和微生物量碳(MBC)含量均具有显著的表聚性.急尖长苞冷杉林土壤活性有机碳含量较高,其TOC、POC、LOC、MBC含量分别为57.05 g·kg-1、17.9 g·kg-1、12.2 g·kg-1和365.6 mg·kg-1.两种林分的土壤总呼吸速率(Rt)和微生物呼吸速率(Rh)差异不显著(p0.05),但它们与枯枝落叶呼吸速率(Rl)和根系呼吸速率(Rr)差异极显著(p0.01),同时,Rl和Rr之间差异极显著(p0.01).从不同林分来看,林芝云杉林的土壤总呼吸速率(Rt)和微生物呼吸速率(Rh)高,而急尖长苞冷杉林的枯枝落叶呼吸速率(Rl)和根系呼吸速率(Rr)高.两种林分土壤呼吸各组分对土壤总呼吸速率(Rt)的贡献率大小依次为:RhRlRr.两种林分均表现为微生物呼吸对总呼吸的贡献比例最高,林芝云杉为92.42%,冷杉为70.81%.两种林分的土壤活性碳组分与土壤呼吸关系最密切的是MBC,其次是LOC,最不密切的是POC.     

Contribution of winter fluxes to the annual CH4, CO2 and N2O emissions from freshwater marshes in the Sanjiang Plain

Introduction C arbon dioxide, m ethane and nitrous oxide play im portant roles in the radiation balance of the earth contributing to the greenhouse effect (Rodhe, 1990). N 2O also takes part in the destruction of stratospheric ozone (W ang, 1999). N atura…     

沼泽湿地孔隙水中溶解有机碳、氮浓度季节动态及与甲烷排放的关系

选择三江平原典型的毛果苔草沼泽湿地为研究对象,测定了沼泽湿地孔隙水中水溶性碳、氮浓度、CH4浓度和CH4排放通量,以及相关环境因子;研究了沼泽水中水溶性有机碳、氮浓度变化特征,探讨了沼泽湿地孔隙水中CH4浓度和排放通量季节性变化及发生原因.结果表明,三江平原沼泽湿地土壤孔隙水中DOC浓度有明显的季节变化(p＜0.01).最高值(剖面平均值为95.1 mg·L-1)出现在6月份,9和10月份出现最低值(剖面平均值均为79.3 mg·L-1),剖面上浓集中心位于15～30 cm.孔隙水中NH4 -N和NO-3-N浓度也有明显的季节变化,而DON变化不明显.孔隙水中CH4浓度在剖面上的分布特征与DOC一致,高浓度中心位于20～30 cm.除6月份外,孔隙水甲烷浓度与土壤温度和DOC浓度有显著的正相关关系,与NH4 -N和NO3-N均没有显著相关性.土壤温度和孔隙水中DOC浓度是影响沼泽湿地产CH4能力的重要因素.CH4排放通量与土壤温度和积水深度呈很好的指数关系,与剖面CH4浓度和孔隙水NH4 -N浓度有显著的正相关关系.CH4排放通量与孔隙水DOC浓度相关性不显著.     

不同氮水平下秸秆和活性碳对土壤不同粒级碳的影响

利用采集自FACE(Free Air Carbon Dioxide Enrichment)技术平台上田间培养的土壤样品,通过温室培养的方法,研究不同CO₂浓度下导致作物生物量增加和更多碳输入对土壤含碳量的影响. 结果表明, CO₂浓度高(即通过秸秆还田和根系进入土壤的含碳量增加)时,其显著影响碳在不同粒级土壤中的转化,粒径>53 μm土壤的含碳量增加,粒径<53 μm土壤的含碳量降低;在没有秸秆加入的常规氮水平下与有秸秆加入的低氮水平下,含碳量变化幅度较大;单位土壤各粒级的含碳量均有增加,有秸秆加入,活性碳(葡萄糖)量越大,含碳量增加幅度越大;没有秸秆加入,活性碳量越大,总碳含量增加幅度越小. 而不同氮水平下秸秆的分解代谢对土壤不同粒级碳的影响还不明确,有待继续研究.      

大气中O3、CO2浓度升高对蒙古栎叶片生长的影响

以4年生蒙古栎(Quercus mongolica) 幼树为实验材料,分别于2007,2008年6~9月采用开顶箱法,研究了高浓度CO2和O3及复合作用对蒙古栎叶片光合量变化和生长的影响.结果表明,高浓度O3处理下蒙古栎叶片日光合总量降低, 单叶鲜重、干重和单叶面积均有所下降,对蒙古栎叶片生长产生抑制.高浓度CO2处理下,蒙古栎叶片干、鲜重和单叶面积均高于对照,其中2007年差异显著,日光合总量总体高于对照.2种气体复合作用处理下,蒙古栎日光合总量、单叶鲜重、单叶干重、单叶面积均低于对照,且高于O3单独处理,说明高浓度CO2可以通过减缓O3对植物光合的抑制,进而减少O3伤害,缓解生长抑制.     

CO2浓度升高对湖泊浮游藻类与浮游细菌耦合关系的影响

采用控制空气CO2浓度的围隔体系(P1: 400×10-6体积分数,下同,P2: 800×10-6,P3: 1200×10-6),在不同空气CO2浓度条件下,分析水华微囊藻对CO2的同化作用和异养细菌对藻源性有机碳的异化作用,以及二者出峰时间耦合关系的变化.结果表明,CO2浓度升高能够促进水华微囊藻的生长,P1、P2和P3条件下藻的数量分别达9.4×106,1.1×107,1.5×107cells/mL.同时高浓度CO2降低了藻细胞内酯酶活性但并未影响藻达到峰值所需时间.在不同CO2浓度水平下,浮游细菌达到峰值的时间顺序是P1(12d)vP2>vP1,细菌活性是P3>P2>P1.高CO2浓度条件下,浮游藻类呈现高生物量和低活性的状态,而浮游细菌呈现低生物量和高活性的状态,反映出CO2浓度的改变对同化和异化作用不同的影响机制.因此,CO2浓度升高后导致的浮游藻类生物量的积累可能无法通过促进浮游细菌的生长达到有效转化.     

城市污泥与园林废弃物混合堆肥施用对林地土壤微生物量碳、氮及酶活性的影响

研究城市污泥和园林废弃物混合堆肥施用对土壤微生物量碳(SMBC)、微生物量氮(SMBN)及酶活性的影响,可为林地施用混合堆肥产品的安全及功效性评价提供科学依据.本研究采用大田试验,选取紫穗槐为研究对象,将污泥和园林废弃物以3种比例(GF(纯园林废弃物)、SGA(V(污泥)∶V(园林废弃物)=1∶3)、SGB(V(污泥)∶V(园林废弃物)=1∶1))进行混合堆肥,每种堆肥产品分别按0、5、10、50 kg·株-1(分别记作CK、T5、T10、T50)均匀施入样地.施肥1年后,于田间采样测定土壤生物活性指标及理化性质,采用主成分分析及单、双因素方差分析法研究混合堆肥产品施用后对土壤酶活性及微生物量碳、氮含量的影响.结果表明:施入GF、SGA和SGB时,SMBC和SMBN均在施用量50 kg·株-1时达到最大.随着施用量的增加,土壤酶指数(SEI)总体上呈现逐步递增的趋势,施入GF、SGA、SGB时,各个施肥梯度处理的土壤酶指数较CK分别增加93.33%~186.67%、14.58%~54.17%、119.05%~204.76%.通过主成分分析,依据各处理综合得分情况,不同堆肥产品总体上表现为:SGBGFSGA.施入GF、SGA和SGB,不同处理综合得分均为T50T10T5CK.说明施用堆肥产品能够提高土壤微生物量,增加土壤酶活性,改善土壤的生物环境.     

二氧化钛纳米颗粒对湖滨沼泽土壤氮矿化的影响

二氧化钛纳米颗粒（TiO₂NPs）的广泛应用使其环境释放量不断增加,从而影响到土壤氮的转化过程.然而,目前关于TiO₂NPs对湖滨沼泽土壤氮矿化的影响机制尚不明确.因此,本研究以典型沼泽土壤为研究对象,通过室内培养实验研究不同剂量TiO₂NPs处理（0 mg·kg^-1（CK）、10 mg·kg^-1（A10）、100 mg·kg^-1（A100）、250 mg·kg^-1（A250）、1000 mg·kg^-1（A1000））对土壤理化性质、酶活性和氮矿化过程的影响,探讨TiO₂NPs输入对土壤氮矿化过程影响的内在机制.结果表明：①不同剂量TiO₂NPs处理显著降低了土壤pH和总有机碳（TOC）含量（p<0.05）,A100、A250和A1000处理显著降低了硝态氮（NO₃^--N）含量（p<0.05）.②A250和A1000处理显著抑制了过氧化氢酶活性（p<0.05）;培养7 d,不同剂量TiO₂NPs处理均显著促进了脲酶活性（p<0.05）,抑制了脱氢酶活性（p<0.05）;随着培养时间延长,TiO₂NPs处理对脲酶和脱氢酶活性的抑制作用逐渐减弱,表明TiO₂NPs的负面作用会随时间减弱.③不同剂量TiO₂NPs处理对氨化速率没有显著影响（p>0.05）,A250、A1000处理对硝化和矿化速率有显著抑制作用（p<0.01）.④土壤氮矿化速率与土壤pH、总磷（TP）、NO₃^--N含量呈显著正相关,与脲酶、过氧化氢酶活性呈显著负相关.TiO₂NPs主要通过改变沼泽土壤NO₃^--N含量影响氮矿化过程.本研究可为湖滨湿地保护和TiO₂NPs环境风险评估提供理论依据.     

Temporal variations of CO2 concentration near land surface and its response to meteorological variables in Heihe River Basin, northwest China

Atmospheric CO2 concentration (CC) near land surface and meteorological variables have been measured at four sites,named Yeniugou (alpine meadow and permafrost), Xishui (mountainous forest), Linze (oasis edge) and Ejina (lower desert),respectively, in Heihe River Basin, northwest China. The results showed that, the half hourly CC at night was larger than in daytime,and the daily averaged CC was the largest in winter. The averaged CC of 932 d at the Linze was about 418 ppm, was about 366 ppm in the 762 d at the Ejina. In the same period from September 23 to November 9, 2004, the averaged CC was about 625,334, 436 and 353 ppm, at Yeniugou, Xishui, Linze and Ejina, respectively. The linear relationship between daily averaged CC and air temperature T was negative, between CC and relative humidity (RH) was positive. The linear CC-atmospheric pressure (A P) relationship was negative at the Linze and Yeniugou, was positive at the Ejina. The relationship between CC and global radiation R was exponent, and soil temperature Ts was negative linear, and soil water content was complex. The correlation between CC and wind speed was not existent.Using meteorological variables together to simulate CC, could give good results.     

Soil CO2 flux in relation to dissolved organic carbon, soil temperature and moisture in a subtropical arable soil of China

IntroductionCarbondioxide(CO2 ) ,concentrationofwhichinatmosphereisincreasingat 0 5%annually ,isthemostimportantgreenhousegascausingglobalwarming(Lal,1 995) .SoilCO2 evolutionfromsoilsisoneoftheimportantsourcesofatmosphericCO2 aswellasamainoutputpathwayofsoilorganiccarbonpool(SOC) (Eswaran ,1 993 ;Batjes,1 996;Mosier,1 998) .ApartfromcontributingCtotheatmosphere ,soilCO2 evolutioncanalsobeusedasanindexofunder groundprocesses,andoftheCcyclingcapacityofsoilecosystems.SoilCO2 evolutionge…     

大气中CO2与O3浓度升高对植物光合作用影响研究

随着工业化进程的加快,两种温室气体CO2和O3在大气中浓度不断升高,对植物光合作用产生重要影响.通过从气体交换参数、光合色素含量、叶绿素荧光特性、光合酶、生物量及产量等多方面分析国内外CO2O3单独作用及复合作用对植物光合过程和机理、光合作用物质基础及光合产物的影响,深入了解两种污染气体作用下植物光合响应机制,以期为植物光合作用分子水平的研究以及有效应对未来全球大气变化提供理论依据.     

Distribution characteristics of dissolved organic carbon in annular wetland soil-water solutions through soil profiles in the Sanjiang Plain, Northeast China

Overwhelming evidence reveals that concentrations of dissolved organic carbon （DOC） have increased in streams which brings negative environmental impacts. DOC in stream flow is mainly originated from soil-water solutions of watershed. Wetlands prove to be the most sensitive areas as an important DOC reserve between terrestrial and fluvial biogeosystems. This reported study was focused on the distribution characteristics and the controlling factors of DOC in soil-water solutions of annular wetland, i.e., a dishing wetland and a forest wetland together, in the Sanjiang Plain, Northeast China. The results indicate that DOC concentrations in soilwater solutions decreased and then increased with increasing soil depth in the annular wetland. In the upper soil layers of 0-10 cm and 10-20 cm, DOC concentrations in soil-water solutions linearly increased from edge to center of the annular wetland （R^2 = 0.3122 and R^2 = 0.443）. The distribution variations were intimately linked to DOC production and utilization and DOC transport processes in annular wetland soil-water solutions. The concentrations of total organic carbon （TOC）, total carbon （TC） and Fe（II）, DOC mobility and continuous vertical and lateral flow affectext the distribution variations of DOC in soil-water solutions. The correlation coefficients between DOC concentrations and TOC, TC and Fe（II） were 0.974, 0.813 and 0.753 respectively. These distribution characteristics suggested a systematic response of the distribution variations of DOC in annular wetland soil-water solutions to the geometry of closed depressions on a scale of small catchments. However, the DOC in soil pore water of the annular wetland may be the potential source of DOC to stream flow on watershed scale. These observations also implied the fragmentation of wetland landscape could bring the spatial-temporal variations of DOC distribution and exports, which would bring negative environmental impacts in watersheds of the Sanjiang Plain.     

沼泽湿地植物光合特性及固“碳”潜势对外源氮输入的响应

以沼泽湿地典型草甸植被小叶章(Calamagrostis angustifolia)为研究对象,在三江平原进行了野外培养实验,探讨了4个不同氮素输入水平(0(NO)、6(N6),12(N12)、24(N24)g·m-2· a-1)下沼泽湿地植物生长与光合特性的响应特征,并从光合固"碳"的角度分析了小叶章沼泽湿地的固"碳"潜势.结果表明,外源氮输入明显促进了小叶章的株高、叶面积及植株数,显著增加了碳的生物量积累,到植物生长季结束,N6、N12和N24三个施氮水平下,小叶章地上部分生物量分别比对照增加了58.79%、133.11%和190.55%.同时,小叶章叶片全氮含量、叶绿素、可溶性蛋白和游离氨基酸含量也显著增加,净光合速率明显提高,分别比对照增加了20.70%、26.69%和53.54%.从光合固"碳"的角度来看,外源氮输入能够促使沼泽湿地植物通过光合作用固定更多CO2.     

Effects of elevated CO_2 on sensitivity of six species of algae and interspecific competition of three species of alga

Introduction The atm ospheric C O 2 concentration increases at a rate of 1.5 滋 m ol/(m ol·a) and w ill double com pared to pre-industrial levels around the year 2050 (W atson et al., 1990). Its effects and m echanism by elevated CO 2 on global clim ate,…     

Effects of elevated CO2 on sensitivity of six species of algae and interspecific competition of three species of algae

Effects of elevated CO, （5000 μl/L） on sensitivity comparison of six species of algae and interspecific competition of three species of algae were investigated. The results showed that, the cell densities of six species of algae grown in elevated CO2 significantly increased compared to those in ambient CO2 （360 μl/L）, and with the time prolonged, the increasing extent increased. Therefore, elevated CO2 can promote the growth of six species of algae. However, there were differences in sensitivity between six species of algae. Based on the effects of elevated CO2 on biomass, the sensitive order （from high to low） was Platymanas sp., Platymanas subcordiformis, Nitzschia closterium, Isochrysis golbana Parke 8701, Dunoliella salina, Chlorella sp., on the condition of solitary cultivation. Compared to ambient CO2, elevated CO2 promoted the growth of three species of algae, Platymanas subcordiformis, Nitzschia closterium and Isochrysis galbana Parke 8701 under the condition of mixed cultivation. The sensitivity of the three species to elevated CO2 in mixed cultivation changed a lot compared to the condition of solitary cultivation. When grown in elevated CO2 under the condition of mixed cultivation, the sensitive order from high to low were Nitzschia clostertium, Platymonas subcordiformis; and Isochrysis galbana Parke 8701. However, under the condition of solitary cultivation, the sensitive order in elevated CO2 was Isochrysis galbana Parke 8701, Nitzschia clostertium, Platymonas subcordiformis, from sensitive to less sensitive. On the day 21, the dominant algae, the sub-dominant algae and inferior algae grown in elevated CO2 did not change. However, the population increasing dynamic and composition proportion of three algal species have significantly changed.