土地利用类型对千烟洲森林土壤碳矿化及其温度敏感性的影响

土壤有机质分解是陆地生态系统碳循环的重要环节,它不仅受温度和水分的影响,还对土地利用变化十分敏感.以中国科学院千烟洲生态试验站的柑橘园和湿地松人工林为对象,研究不同土地利用类型、温度(5、10、15、20和25 ℃)和水分(30%、60%和90%饱和含水量)对土壤碳矿化及其温度敏感性的影响.结果表明： 土地利用类型、温度和水分对土壤碳矿化都具有显著影响,且各因素间存在显著的交互效应.柑橘园和湿地松人工林土壤碳矿化速率均与温度呈正相关,60%饱和含水量处理下土壤碳矿化速率最高.在相同的温度和水分处理下,柑橘园土壤碳矿化量显著高于湿地松林.土地利用类型和水分对土壤碳矿化温度敏感性(Q₁₀)具有显著影响.培养7和42 d,土壤碳矿化的温度敏感性随水分升高而上升;柑橘园温度敏感性高于湿地松林,且水分越高差异越明显.包含温度和水分的双因素模型可以很好地模拟土壤碳矿化对温度和水分的响应,温度和水分共同解释土壤碳矿化变异的79.9%～91.9%.     

水分和温度对若尔盖湿地和草甸土壤碳矿化的影响

土壤碳矿化及其温度和水分敏感性是研究生态系统碳循环的重要指标。本文以若尔盖高寒湿地和草甸为对象,在不同水分（70%,100%,130%饱和含水量（SSM））和温度（5,10,15,20,25℃）培养下定期测定土壤碳矿化速率（或土壤微生物呼吸速率）,探讨水分和温度对高寒湿地和草甸土壤碳矿化的影响,为揭示未来暖干化对若尔盖地区碳贮存及其碳汇功能的潜在影响提供科学依据。实验结果表明：增温显著促进了高寒湿地和草甸土壤碳矿化,而水分过高会抑制土壤碳矿化;此外,高寒湿地土壤碳矿化速率高于高寒草甸。土壤水分和草地类型对土壤碳矿化温度敏感性（Q10）的影响比较复杂。高寒草甸Q10随水分升高而显著升高,培养7天时的Q10变化趋势为70% SSM（1.21）< 100% SSM（1.76）< 130% SSM（2.80）,培养56天的Q10从1.17上升为4.53。高寒湿地的Q10在培养7天差异不显著,但整个56天培养期内Q10随水分升高而显著增加。在评估暖干化对若尔盖地区碳贮量和碳汇功能的影响时,应更加重视高寒草甸和高寒湿地Q10对水分和温度变化的不同响应。     

鄱阳湖苔草湿地非淹水期CO2释放特征

2009年9月至2010年4月非淹水期,在鄱阳湖南矶湿地国家级自然保护区,选择以灰化苔草为建群种的洲滩湿地,设置土壤-植物系统(TC)、剪除植物地上部分(TJ)2个试验处理（分别代表生态系统和土壤呼吸）,利用密闭箱-气相色谱法测定了非淹水期鄱阳湖苔草湿地CO₂释放通量.结果表明：苔草湿地生态系统呼吸与土壤呼吸均具有明显的季节变化模式,释放速率变化范围分别为89.57～1243.99和75.30～960.94mg CO₂·m^-2·h^-1,土壤呼吸占生态系统呼吸的比例为64%(39%～84%);土壤温度是苔草湿地CO₂通量的主要控制因子,可以解释呼吸速率80%以上的变异;生态系统呼吸与土壤呼吸的温度敏感性指数(Q₁₀)分别为3.31和2.75,且冬季的Q₁₀值明显高于春秋季节;土壤水分与CO₂释放速率之间未达到显著相关;非淹水期,鄱阳湖苔草湿地是大气CO₂的汇,其强度为1717.72 g C·m^-2.     

Does a General Temperature-Dependent Q10 Model of Soil Respiration Exist at Biome and Global Scale？

Soil respiration （SR） is commonly modeled by a Q10 （an indicator of temperature sensitivity） function in ecosystem models. Q10 is usually treated as a constant of 2 in these models, although Q10 value of SR often decreases with increasing temperatures. It remains unclear whether a general temperature- dependent Q10 model of SR exists at biome and global scale. In this paper, we have compiled the long-term Q10 data of 38 SR studies ranging from the Boreal, Temperate, to Tropical/Sublropical biome on four continents. Our analysis indicated that the general temperature-dependent biome Q10 models of SR existed, especially in the Boreal and Temperate biomes. A single-exponential model was better than a simple linear model in fitting the average Q10 values at the biome scale. Average soil temperature is a better predictor of Q10 value than average air temperature in these models, especially in the Boreal biome. Soil temperature alone could explain about 50% of the Q10 variations in both the Boreal and Temperate biome single-exponential Q10 model. Q10 value of SR decreased with increasing soil temperature but at quite different rates among the three biome Q10 models. The k values （Q10 decay rate constants） were 0.09, 0.07, and 0.02/℃ in the Boreal, Temperate, and Tropical/Subtropical biome, respectively, suggesting that Q10 value is the most sensitive to soil temperature change in the Boreal biome, the second in the Temperate biome, and the least sensitive in the Tropical/ Subtropical biome. This also indirectly confirms that acclimation of SR in many soil warming experiments probably occurs. The k value in the ＂global＂ single-exponential Q10 model which combined both the Boreal and Temperate biome data set was 0.08/℃. However, the global general temperature-dependent Q10 model developed using the data sets of the three biomes is not adequate for predicting Q10 values of SR globally. The existence of the general temperature-dependent Q10 models of SR in the Boreal and Temperate biome has important implications for modeling SR, especially in the Boreal biome. More detail model runs are needed to exactly evaluate the impact of using a fixed Q10 vs a temperature-dependent Q10 on SR estimate in ecosystem models （e.g., TEM, Biome-BGC, and PnET）.     

青藏高原东部高寒草甸54种禾本科植物种子的萌发特性

在实验室条件下观测了青藏高原东部高寒草甸54种禾本科植物的种子萌发特点。结果发现:在54种植物中,有43种植物种子萌发率都达到了50%,其中萌发率80%以上的物种有26种,60%~80%的有11种,40%~60%的有8种,20%~40%的有5种,小于20%的有4种; 萌发开始时间为3~5 d的植物有14种,6~8 d的植物有29种,9~10 d的植物有10种,大于10 d的有1种;萌发持续时间为1~7 d的植物有16种,8~14 d的植物有28种,15~21 d的有10种;达50%萌发率的时间为1~7 d的植物有11种,8~14 d的植物有27种,大于14 d的植物有5种,萌发率一直没达到50%的植物有11种。这些植物显示了4种萌发类型:爆发型、过渡型、缓萌型(萌发率大于50%的物种)和低萌型(萌发率小于50%的物种)。     

水热条件对锡林河流域典型草原退化群落土壤呼吸的影响

 采用碱液吸收法对锡林河流域温带典型草原一退化群落的土壤呼吸进行了测定,并分析了温度和水分对土壤呼吸的影响,结果表明：1）土壤呼吸总体趋势是夏季高,其它季节低,但季节动态呈现不规律的波动曲线;2）气温、地表温度以及5 cm、10 cm、15 cm和25 cm的土壤温度均与土壤呼吸速率呈显著的指数关系,温度对土壤呼吸的影响在低温时比高温时更显著;3）0～10 cm和10～20 cm土层的土壤含水量均与土壤呼吸速率呈显著的线性关系,消除气温的影响后则呈更为显著的乘幂关系;4）根据变量在p=0.05水平上的多元回归分析结果得到关于土壤呼吸与气温和10～20 cm土壤含水量的关系模型：y=5 911.648×e0.04216Ta×M20. 90758 (R2=0.8584,p<0.0001) ,这一模型比单变量模型能更好地解释土壤呼吸的变化情况;5）实验期间土壤呼吸的平均速率为661.35 mgC·m-2·d-1,以气温、地表温度以及5 cm、10 cm、15 cm和25 cm的土壤温度为依据得到的Q10值依次为1.63、1.47、1.52、1.70、1.90、1.97。     

苏北淤泥质海岸典型防护林地土壤呼吸及其温度敏感性

土壤呼吸及其温度敏感性研究是准确估计陆地生态系统碳平衡对未来气候变化响应的基础.我国漫长的淤泥质海岸有着大面积的防护林,其碳汇服务功能是一个非常值得研究的科学问题,因此,对淤泥质海岸防护林生态系统土壤呼吸及其温度敏感性的研究具有重要的意义.研究采用碱液吸收法对苏北淤泥质海岸杨树Populus tomentosa Carr.及水杉Metasequoia glyptostroboides Hu & Cheng两种典型海防林土壤呼吸及其温度敏感性进行了研究.结果表明:杨树和水杉林地4～11月份土壤呼吸速率变化范围分别为337～732mgCO2m-2h-1和257～821mgCO2m-2h-1,呼吸通量分别为128.57gCO2m-2和121.38gCO2m-2.杨树和水杉林地土壤呼吸速率季节变化均近似单峰曲线,最大值均出现在7月份,最小值分别出现在4月份和11月份.模型R=a×exp(b×T)能够很好地拟合林内气温及土壤温度变化对土壤呼吸的影响,温度是影响土壤呼吸的主要因子,能够解释土壤呼吸季节变化的50.5%～80.9%.土壤含水量与土壤呼吸关系不显著,不是其主要影响因子.利用林内气温及土壤2、5cm和10cm处温度得到杨树林地的Q10值分别为1.45、1.97、2.08、2.01,水杉林地的Q10值分别为1.92、3.29、2.89、3.00.研究结果表明,水杉林地土壤呼吸对全球变暖的响应比杨树林地更敏感.     

观赏草丽色画眉种子萌发特性研究

丽色画眉(Eragrostis spectabilis)在中国作为一种观赏草引种栽培,但有研究报道丽色画眉具有潜在的杂草入侵风险.通常成功的外来杂草有很强的繁殖能力,而丽色画眉种子的萌发特性如何,目前尚无人研究.本文通过培养皿和盆栽实验研究温度、光照、水分、土层深度对丽色画眉种子萌发的影响.以发芽率和发芽指数为评价指标的结果显示,丽色画眉种子最适萌发温度为35℃.应用种子萌发温度模型得出种子萌发温度范围为17.7 ～43.2℃,其中最适萌发温度为39.2℃.光照有利于种子萌发,与连续黑暗相比连续光照显著提高种子发芽率.PEG6000模拟的水分胁迫对丽色画眉种子的萌发有显著的抑制作用,水势降低到-0.8 Mpa时,种子已经不能完成萌发.0.5 cm是种子萌发的理想深度,0～1 cm的土层适宜色画眉种子的萌发,发芽率不低于60％,在土层1～4 cm范围内,随着土层深度的增加其萌发率显著降低.     

通量的影响

东北地区森林生态系统因其面积大,碳贮量高而在本地区和我国碳平衡中占有重要的地位。土壤表面CO₂通量(RS)作为陆地生态系统向大气圈释放的主要CO₂源,其时空变化直接影响到区域碳循环。该研究采用红外气体分析法比较测定我国东北东部次生林区6个典型的森林生态系统的RS及其相关的土壤水热因子,并深入分析土壤水热因子对RS的影响。研究结果表明：影响RS的主要环境因子是土壤温度、土壤含水量及其交互作用,但其影响程度因生态系统类型和土壤深度而异。包括这些环境因子的综合RS模型解释了 67.5%～90.6%的RS变异。在整个生长季中,不同生态系统类型的土壤温度差异不显著 ,而土壤湿度的差异显著(α= 0.05)。蒙古栎(Quercus mongolica)林、红松(Pinus koraiensis)林、 落叶松(Larix gmelinii)林、硬阔叶林、杂木林和杨桦(Populus davidiana_Betula platyphylla)林的RS变化范围依次为：1.89～5.23 µmol CO₂•m^－2•s^－1,1.09～4.66µmol CO₂•m^－2•s^－1,0.95～3.52µmol CO₂•m^－2•s^－1,1. 13～5.97µmol CO₂•m^－2•s^－1,1.05～6.58µmol CO₂•m^－2•s^－1和1.11～5.76µmol CO₂•m^－2•s^－1。RS的季节动态主要受土壤水热条件的驱动而呈现单峰曲线,其变化趋势大致与土壤温度的变化相吻合。Q₁₀从小到大依次为：蒙古栎林2.32,落叶松林2 .57,红松 林2.76,硬阔叶林2.94,杨桦林3.54和杂木林3.55。Q₁₀随土壤湿度的升高而增大;但超过 一定的阈值后,土壤湿度对Q₁₀起抑制作用。该研究结果强调对该地区生态系统 土壤表面CO₂通量的估测应同时考虑土壤水热条件的综合效应。     

东北地区4种林分土壤呼吸及温、湿度敏感性对氮添加的短期响应

全球变化中氮沉降日益严重,已对森林生态系统的各个过程产生了重要影响。因此,通过研究氮添加对森林生态系统土壤碳输出的影响,对分析全球变化背景下土壤碳吸存具有重要意义。对黑龙江省帽儿山实验林场白桦(Betula platyphylla)次生林,以及水曲柳(Fraxinus mandschurica)、红松(Pinus koraiensis)、长白落叶松(Larix olgensis)人工林通过2年氮添加(对照(0 kg N hm~(-2) a~(-1)),低氮(50 kg N hm~(-2) a~(-1)),中氮(100 kg N hm~(-2) a~(-1))和高氮(150 kg N hm~(-2) a~(-1)))试验,测定根生物量密度、土壤微生物量碳浓度、土壤呼吸速率及温、湿度敏感性等指标,旨在探讨森林生态系统土壤呼吸对氮添加的短期响应。结果表明:(1)低氮处理对白桦和水曲柳林土壤呼吸速率影响不显著,但显著提高了红松和长白落叶松林土壤呼吸速率;水曲柳林分中高氮处理土壤呼吸速率显著降低于低氮和中氮处理,而其他林分高氮处理土壤呼吸速率仅显著低于低氮处理。(2)氮添加处理下,4种林分中林分土壤呼吸速率与根生物量密度呈极显著正相关,Pearson相关系数为0.81。(3)低氮处理下5 cm和10 cm处土壤呼吸温度敏感性系数Q_(10)值较CK处理分别提高了2.65%和3.12%,高氮处理较CK处理分别降低了6.29%和5.46%。但氮添加处理对土壤呼吸和土壤湿度间的相关性无影响。综上所述,阔叶林与针叶林土壤呼吸速率对氮添加的响应存在差异。根生物量密度是影响不同林分土壤呼吸对短期氮添加响应的主要因素,同时氮添加处理显著改变了土壤温度敏感性系数。     

高寒草甸15种植物种子发芽的比较研究

对高寒草甸 15种植物种子的发芽进行了比较实验研究。结果显示 ,冷湿层化、温度变幅及光照条件能够提高或者降低多数高寒草甸植物种子发芽率。其中 ,13种植物对层化、11种对光照条件、14种对温度变幅处理有显著性响应。 15种植物中 ,有14种对单一因子或因子组合有反应 ,仅藏嵩草种子发芽对设定的因子或因子组合没有响应。根据不同植物种子对不同处理及其组合的发芽反应可将植物种子划分为不同的反应类型 ,通过对种子进行冷湿层化处理 ,可以部分或者全部地替代某些植物种子发芽对光、温需求。探明植物种子在特定环境因子组合条件下的发芽表现 ,对通过种子恢复退化草甸是至关重要的。     

古尔班通古特沙漠及周缘52种植物种子的萌发特性与生态意义

本文对古尔班通古特沙漠及其周缘52种植物种子的萌发特性进行比较,以探讨该地区植物的不同萌发对策及其生态适应意义。结果发现：萌发率80%以上的有11种,小于20%的有22种,7种未萌发;萌发开始时间为1-3d的有37种,大于10d的有2种;萌发持续时间为1-7d的有10种,大于22d的有14种;达50%萌发率的时间为1-7d的有17种。主成分分析(PCA)和聚类分析结果表明,52种植物可划分为4种萌发类型：爆发型、过渡型、缓萌型和低萌型,这可能与生境土壤中水分存在差异有关;木本植物的萌发率显著高于非木本植物,暗示木本植物的高萌发率保证植物能够快速占领空间和资源,增加竞争优势,而非木本植物,尤其是一年生植物表现低的萌发率,是植物生存的一种风险分摊策略。     

七种蒿属植物种子重量形状及萌发特性的比较研究

在实验室条件下 ,对 7种蒿属植物种子 (差巴嘎蒿、乌丹蒿、万年蒿、大籽蒿、黄蒿、野艾蒿和冷蒿 )进行重量、形状及萌发特性的比较研究。沙生先锋植物乌丹蒿和差巴嘎蒿的种子重量较大、形状扁平 ,这些特征是植物对流沙环境进化的适应机制之一。黄蒿种子小且呈圆形 ,具有持久土壤种子库 ,因此黄蒿抗干扰能力较强。 7种蒿属植物有 3种萌发格局 :大籽蒿、万年蒿、差巴嘎蒿和冷蒿的萌发前期快 ,后期平缓 ;野艾蒿和黄蒿整个萌发过程平缓 ;乌丹蒿早期和后期萌发平缓 ,中间快。乌丹蒿推迟萌发高峰是它比差巴嘎蒿更适应流沙环境的机制之一。从种子萌发格局分析 ,黄蒿种子具有生理后熟或休眠机制 ,大籽蒿种子萌发是典型的机会主义。黄蒿、野艾蒿和冷蒿种子具有风险分摊的萌发机制。种子重量和形状与发芽率之间无相关性 ,重量和形状则显著相关。     

Effect of light on seed germination in Phalaris arundinacea L. (reed canary grass)

Phalaris arundinacea is an invasive species in someregions of North America. The literature on how the light environment affectsseed germination in Phalaris arundinacea is contradictory,and clarification is necessary for understanding its mechanisms of invasion. Inour trials, germination was photoperiod insensitive in the range of 12 to 16hours. Highest germination percentages (up to 80) were obtained under whitelight and red light (11.0 ) and up to 40 with high red: far-red ratios.Virtually no germination occurred in the dark. Our results are not consistentwith early reports that P. arundinacea germinationoccurredin the dark and was light insensitive, but they are consistent with a recentreport that it does not germinate in the dark and our own field and greenhouseobservations.     

科尔沁沙地31种1年生植物萌发特性比较研究

在实验室条件下观测了科尔沁沙地乌兰敖都地区 1年生植物当年新采种子的萌发特点。在 3 1种植物中 ,7种植物包括大籽蒿、虎尾草、冠芒草、刺沙蓬、曼陀罗、龙葵、地锦的发芽率超过 80 % ,9种植物包括苍耳、水稗草、狗尾草、虱子草、沙米、灰绿藜、野西瓜苗、太阳花、鹤虱的发芽率不足 10 %。 1～ 3 d开始发芽的 18种植物包括大籽蒿、黄蒿、虎尾草、毛马唐、画眉草、冠芒草、野大豆、黄花草木樨、网果葫芦巴、沙米、雾冰藜、碱地肤、刺沙蓬、苘麻、野西瓜苗、马齿苋、苋菜、地锦。超过 10 d基本不发芽的 5种植物包括苍耳、狗尾草、虱子草、灰绿藜、太阳花。发芽持续期小于 10 d的 12种植物包括毛马唐、水稗草、画眉草、沙米、雾冰藜、苘麻、野西瓜苗、益母草、马齿苋、龙葵、地锦、鹤虱 ;发芽持续期超过 2 1d的 6种植物包括大籽蒿、黄蒿、冠芒草、黄花草木樨、刺沙蓬、碱蓬。高发芽率植物的发芽进程线显示了 3种萌发格局 :速萌型 ,包括虎尾草、地锦、曼陀罗、龙葵 ;缓萌型 ,包括刺沙蓬 ;中间型 ,包括大籽蒿、冠芒草     

The comparative germination ecology of nine Rumex species

The germination requirements, dormancy cycle and longevity of nine Rumexspecies were studied in field conditions and laboratory experiments to show theadaptations of the related species to their specific habitat. Within one genus,rather striking differences were observed in germination ecology. However, theclosely related species, R. acetosa and R.scutatus, are very similar: they fruit in early summer; theirseeds can germinate immediately after dispersal, and they are nondormant andshort-lived. R. acetosella also has fruits insummer, but the seeds do not germinate the first season after dispersal. Theyare long-lived, but buried seeds do not show a dormancy cycle; they mightgerminate in different seasons after exposure to light. Seeds of four species (R. conglomeratus,R. maritimus, R. sanguineus andR. crispus) are long-lived and undergo aseasonal dormancy cycle, with a low level of dormancy in winter and early springand a deep dormancy in summer as was already known for R.obtusifolius. These seeds are shed in the autumn, and they germinatemainly in the spring in consecutive years. R. maritimusalso germinates in summer and autumn on drying muddy soils. The seeds of R. hydrolapathum only germinate onwaterlogged soils, which explains its growth at the edge of streams and ponds.Its seeds are rather short-lived. The seeds of the species on very wetplaces require a higher temperature for germination.     

Effects of rabbit gut passage on seed retrieval and germination of three shrub species

It has been known for a few decades that European rabbits consume seeds and fleshy fruits of native woody plants, but relevant factors in the endozoochory processes such as seed predation (chewing and digestion), sexual differentiation, or the temporal pattern of seed recovery have been little evaluated until now. In this study, we examined seed dispersal of three Mediterranean shrub species by wild rabbits through monitoring of seed retrieval and germination after gut passage. Twelve adult wild rabbits (Oryctolagus cuniculus; six males and six females) of similar size and age were fed seeds of three shrub species with fleshy fruits (Crataegus monogyna, Myrtus communis and Pistacia lentiscus). After ingestion of fruits, seeds were retrieved from dung every 12 h for a day and a half. The viability and germination of retrieved seeds were tested along with that of uneaten seeds. Between 5% and 76% of ingested seeds were retrieved from dung, with significant differences between species and sex. Most M. communis seeds were retrieved with 12–24 h after ingestion; almost all C. monogyna seeds were recovered with 0–12 h after ingestion; no seeds of P. lentiscus were recovered. Only in the case of M. communis seed was the recovery rate greater in female than in male. Passage through the rabbit gut significantly increased seed germination in M. communis, and decreased it in C. monogyna. In conclusion, wild rabbits acted in this study as predators of C. monogyna and P. lentiscus seeds and potential dispersers of M. communis seeds.     

Effects of osmotic tension and salt stress on germination of three grass species

Effects of osmotic tension, salinity and alkalinity were studied on seed germination of three grasses of Karnal-Kurukshetra region with a view to evaluating their capacity to establish through seeds in saline and alkaline environments. Experiments were conducted under controlled conditions in petri dishes lined with blotting papers that were wetted with non-ionic osmotic solutions of mannitol (–2.5 to –15 bars); salinized solutions of NaCl, Na₂SO₄, MgCl₂ and CaSO₄ (Electrical conductivity, EC, ranging from 4 to 16 dS/m), alkaline solutions of Na₂CO₃ (pH 9 to 10) and also in dishes filled with alkali soil grades of the same pH range. Seed germination of all the three grasses was observed to be delayed and finally suppressed by the stress conditions, magnitude of reduction being related to the kind and level of stress as well as to the species. WhileSorghum halepense showed a strikingly superior stress-resistance,Panicum miliare did not appear to be suited to establishment through seeds.Diplachne fusca, on the other hand, was found to be remarkably adapted to alkalinity.     

The effects of thermal scarification and seed storage on germination of four heathland species

The germination responses of 4 shrubs, Erica arborea, E. australis and Daboecia cantabrica (Ericaceae) and Genistella tridentata (Papilloneaceae) in relation to variable light and temperature regimes was determined for freshly harvested and 1 year-old seeds. Temperature treatments consisted of 5 levels of heat from 60 °C to 140 °C and two levels of exposure time, 2 and 4 min. We also examined the effects of stratification on germination of Erica arborea and E. australis. The seeds of Erica arborea were the first to begin germinating and the freshly collected ones reached the highest level of germination with light. The seed viability of E. arborea was affected by storage, decreasing germinative capacity, while mean germination in Erica australis ssp. aragonensis was lowest. However, the stored E. australis seeds germinated better than the fresh ones. Germination response to ageing varies in Daboecia cantabrica depending on heat pretreatment. A significantly positive effect of high temperature and exposure time on germination was shown in Daboecia cantabrica and Genistella tridentata. Cold pre-treatment of seeds did not enhance germination.