人类活动对亚热带森林大气CO_2浓度及两种木本植物碳水化合物含量的影响

研究了包括旅游、宗教活动及工厂废气等不同类型的人类活动对亚热带森林大气CO2 浓度及两种木本植物荷木和马尾松碳水化合物代谢的影响 .结果表明 ,人类不同形式的活动不但影响了CO2 日进程变化 ,而且使CO2 的垂直分布发生了改变 .与对照相比 ,人类活动引起森林大气 (5～ 1 5m)CO2 上升了 4～ 1 1 μl·L- 1 .马尾松和荷木叶片的可溶性糖和非结构性碳水化合物随人类活动的加强而下降 ,其下降趋势与CO2 上升趋势基本一致 .树木上层 (1 5m)叶片的可溶性糖和淀粉受影响较明显 ,纤维素含量受人类干扰相对较小 .荷木和马尾松的碳水化合物代谢对人类活动的响应不同     

人类活动对亚热带森林大气CO2浓度及两种木本植物碳水化合物含…

研究了包括旅游,宗教活动及工厂废气等不同类型的人类活动对亚热带森林大气ＣＯ２浓度及两种木本植物荷木和马尾松碳水化合物代谢的影响,结果表明,人类不同形式的活动不但影响了ＣＯ２日进程变化,而且使ＣＯ２的垂直分布发生了改变,与对照相比,人类活动引起森林大气（５～１５ｍ）ＣＯ２上升了４～１１μｌ．Ｌ＾－１马尾松和荷木叶片的可溶性糖和非结构性碳水化合物随人类活动的加强而下降,其下降趋势与ＣＯ２上升趋势基本一     

黄瓜幼苗非结构性碳水化合物代谢对干旱胁迫与CO2倍增的响应

以‘津优1号’黄瓜水培幼苗为试材,采用裂区设计,主区设大气CO₂浓度(约380 μmol·mol^-1)和倍增CO₂浓度(760±20 μmol·mol^-1)2个CO₂浓度处理,裂区设无干旱胁迫、中度干旱胁迫和重度干旱胁迫3个水分处理(以PEG 6000模拟根际干旱胁迫),研究了黄瓜幼苗非结构性碳水化合物代谢对干旱胁迫和CO₂倍增的响应.结果表明: CO₂倍增促进了黄瓜叶片中非结构性碳水化合物(葡萄糖、果糖、蔗糖、水苏糖)的积累,降低了渗透势,提高了黄瓜的耐旱性.在干旱胁迫处理过程中,叶片中蔗糖合成酶、可溶性酸性转化酶和碱性转化酶活性先上升后下降;根中可溶性酸性转化酶和碱性转化酶活性则逐渐上升,蔗糖磷酸合成酶活性先上升后下降.CO₂倍增提高了蔗糖合成酶的活性而降低了蔗糖磷酸合成酶的活性,这两种酶和转化酶相互配合,促进了蔗糖的分解和抑制蔗糖合成,导致己糖积累,从而降低了细胞的渗透势,增强吸水能力.因此,CO₂倍增能缓解干旱胁迫造成的不利影响,提高黄瓜的耐旱性,并且这种缓解效应在干旱胁迫严重时表现更为明显.
     

旅游和工业化对亚热带森林地区大气环境质量及两种木本植物叶绿素荧光特性的影响

研究了旅游、工业化等不同类型的人类活动对亚热带森林大气ＣＯ２、ＳＯ２、ＮＯｘ浓度及两种木本植物———木荷（ＳｃｈｉｍａｓｕｐｅｒｂａＧａｒｄｎ．ｅｔＣｈａｍｐ．）和马尾松（ＰｉｎｕｓｍａｓｏｎｉａｎａＬａｍｂ．）叶绿素荧光特性的影响。结果表明,不同形式人类活动使森林中大气ＣＯ２浓度上升了１７～３０μｍｏｌ·ｍｏｌ－１,ＮＯｘ化合物的浓度上升了５～２０ｎｍｏｌ·ｍｏｌ－１,ＳＯ２浓度上升了２～１９ｎｍｏｌ·ｍｏｌ－１。森林大气中ＣＯ２、ＮＯｘ、ＳＯ２浓度随着人类活动的加强而升高。木荷和马尾松叶片Ｆｖ／Ｆｍ、ΦＰＳⅡ和稳态下的ｑＰ随人类活动加强而下降,其下降趋势与ＣＯ２、ＳＯ２、ＮＯｘ的上升趋势相一致。     

大气CO2浓度升高对玉米非结构性碳水化合物和籽粒品质的影响

本试验利用改进的开顶式气室(OTC)在黄土高原长武农业生态试验站田间模拟大气CO₂浓度升高环境,设置3个处理:CK(田间环境,自然大气CO₂浓度)、OTC(OTC气室,自然大气CO₂浓度)、OTC_e(OTC气室,CO₂浓度700 μmol·mol^-1),探讨春玉米在不同生育期各器官非结构性碳水化合物(NSC)及籽粒品质(可溶性糖、淀粉和粗蛋白)对大气CO₂浓度升高的响应,为揭示旱作区春玉米对大气CO₂浓度升高的适应机理提供科学依据。结果表明: 大气CO₂浓度升高对玉米NSC含量、积累量的影响因器官和生育期不同而异。与CK和OTC相比,OTC_e促进了生殖生长阶段叶、茎和根NSC的活化再分配,提高了叶片、茎秆和根系NSC转运到籽粒的量(ATM_NSC)、向籽粒的转运率(AR_NSC)以及对籽粒的贡献率(AC_NSC);与CK相比,OTC带来的增温效应抑制了茎和根NSC的活化再分配,促进了叶NSC的活化再分配,显著提高了玉米叶ATM_NSC、AR_NSC、AC_NSC。在两年试验中,大气CO₂浓度升高对玉米籽粒可溶性糖、淀粉和粗蛋白含量无显著影响。     

空气CO2增高条件下荔枝叶片光合作用和超氧自由基产率

研究结果表明,生长在77±5PaCO₂分压下30d的荔枝幼树,其光合速率较大气CO₂分压(39.3Pa)下的低23%,光下线粒体呼吸速率和不包含光下呼吸的CO₂补偿点亦略有降低.空气CO₂增高使叶片最大羧化速率(V_cmax)和最大电子传递速率(J_max)降低,表明大气增高CO₂分压下叶片的光系统I(PSI)能量水平较低,叶片超氧自由基产率亦降低39%,叶片感染荔枝霜疫霉病率则从生长在大气CO₂分压下的1.8%增至9.5%.可能较低光合和呼吸代谢诱致较低的超氧自由基产率,而使叶片易受病害侵染.叶片受病害侵染后表现为超氧自由基的激增.在全球大气CO₂分压增高趋势下须加强对荔枝霜疫霉病的控制.     

大气CO2浓度升高和N沉降对南亚热带主要乡土树种叶片元素含量的影响

大气CO₂浓度升高和N沉降以及二者之间的耦合作用对陆地森林生态系统的影响是当前国际生态学界关注的热点之一。该实验运用大型开顶箱(open-top chamber, OTC)研究: 1)高CO₂浓度(700 μmol×mol^-1) +高N沉降(100 kg N×hm^-2×a^-1) (CN); 2)高CO₂浓度(700 μmol×mol^-1)和背景N沉降(CC); 3)高N沉降(100 kg N×hm^-2×a^-1)和背景CO₂浓度(NN); 4)背景CO₂和背景N沉降(CK) 4种处理对南亚热带主要乡土树种木荷(Schima superba)、红锥(Castanopsis hystrix)、肖蒲桃(Acmena acuminatissima)、红鳞蒲桃(Syzygium hancei)、海南红豆(Ormosia pinnata)叶片元素含量的影响。研究结果表明, 大气CO₂浓度升高对5种乡土树种叶片元素含量有较大的影响, 除海南红豆叶片的Ca含量外, 其他树种的叶片元素含量在高CO₂浓度处理下都显著升高(p < 0.05); 而在N沉降处理下, 5个树种的叶片K和Ca含量都降低。大气CO₂浓度升高与N沉降处理对5种乡土树种植物叶片元素含量影响的交互作用不是很明显, 仅仅木荷和红鳞蒲桃的叶片Ca和Mn以及海南红豆的叶片Mn含量在大气CO₂浓度上升和N沉降交互处理下显著下降, 而肖蒲桃的叶片P含量在大气CO₂浓度上升和N沉降交互处理下显著上升。     

马尾松和苦槠林根际土壤矿化和根系分解CO2释放的温度敏感性

以中亚热带马尾松林和苦槠林为对象,原位收集根际和非根际土壤、树木不同生态功能的根系,开展15 ℃、25 ℃、35 ℃和45 ℃恒温培养模拟试验,采用密闭气室碱液吸收法测定53 d内CO₂释放的动态变化.结果表明: 两种森林类型不同温度下土壤矿化CO₂释放速率的根际效应介于1.12～3.09,且培养前期高于培养后期;15 ℃下马尾松林和苦槠林差异不显著,25 ℃和35 ℃下前者低于后者,45 ℃下则相反.不同培养温度下两树种吸收根分解的CO₂释放速率均高于过渡根和贮存根,且马尾松均低于苦槠.两种森林类型CO₂释放的Q₁₀值均为土壤(1.21～1.83)显著高于根系(0.96～1.36).两种森林类型土壤矿化CO₂释放的Q₁₀值差异不显著,而马尾松根系分解CO₂释放的Q₁₀值高于苦槠.推断全球变暖导致的土壤矿化CO2释放的增量将远远高于根系分解,且马尾松林高于苦槠林;地带性顶极群落应对气候变化的抵抗力强于先锋树种群落.     

北京西山侧柏林冠层不同高度处叶片水分利用效率

以北京西山广泛分布的侧柏林为研究对象,综合考虑冠层不同高度处气象因子、大气CO₂浓度以及大气CO₂中碳同位素组成的差异,对其冠层不同高度处叶片的瞬时水分利用效率和短期水分利用效率分别进行了测定,以期为区域森林生态系统固碳与耗水研究提供理论依据,为区域森林生态系统经营与维护提供技术支撑.结果表明: 侧柏林冠层不同高度处叶片的瞬时水分利用效率随冠层高度的变化规律表现为上层>中层>下层,多种气象因子协同影响气孔运动,使瞬时水分利用效率受气孔限制;侧柏林冠层不同高度处的环境因子、大气CO₂浓度以及大气CO₂的δ13C均存在一定差异,导致了林冠各层叶片的短期水分利用效率的变化.林冠上层叶片通过提高水分利用效率适应环境.     

亚热带人工幼林土壤呼吸与植物功能性状的关系

土壤呼吸是森林生物地球化学循环的关键过程,探究植物功能性状与土壤呼吸的关系有助于了解森林树种转换对土壤碳循环的影响。本文选取在二代杉木林采伐迹地营造的亚热带15个常见树种,测定土壤CO₂排放通量、土壤理化性质,以及各树种的叶片和根系功能性状,探讨植物功能性状对土壤呼吸的影响。结果表明：各树种土壤CO₂排放年通量在7.93～22.52 Mg CO₂·hm^-2,其中米槠的土壤CO₂排放年通量最高(22.52 Mg CO₂·hm^-2),南方红豆杉最低(7.93 Mg CO₂·hm^-2)。逐步回归分析显示,土壤CO₂排放年通量随着叶氮含量和细根直径的增加而降低,随叶片非结构性碳水化合物增大而提高。结构方程模型中,植物叶片非结构性碳水化合物对土壤CO₂排放通量具有直接的、显著的正效应,而植物叶片氮含量和细根直径则通过显著降低土壤pH值和可溶性有机氮含量等对土...     

不同光强下生长的亚热带树苗的光合-光响应特性的比较

鼎湖山亚热带森林中的优势树种马尾松、荷木、黧蒴和黄果厚壳桂的幼苗,盆栽于100%、40%和16%的自然光下生长1年.利用氧电极离体测定叶片的光合-光响应曲线,结果表明不同树种及同一树种不同生长光强处理之间差异明显.比较最大净光合速率(Amax)、光补偿点、光饱和点、光抑制点及光能利用效率(QUE)等的变化可见,黄果厚壳桂为耐阴植物,对高光强的光合适应潜力为有限,100%的自然光明显抑制其最大同化力;其余3种植物均为喜光植物,其中马尾松的光合作用对遮阴的适应能力较差,而荷木和黧蒴则相对较强.本文还对植物的光合生理特性与其演替状态的联系作了初步探讨.     

Species-dependent responses of soil microbial properties to fresh leaf inputs in a subtropical forest soil in South China

Aims Forest disturbance from extreme weather events due to climate change could increase the contribution of fresh green leaves to the litter layer of soil and subsequently alter the composition and activity of the soil microbial properties and soil carbon cycling. The objective of this study was to compare the effect of naturally fallen litter and fresh leaves on the soil microbial community composition and their activities.Methods Fresh leaves and normal fallen litter were collected from four tree species (Pinus elliottii, Schima superba, Acacia mangium, A. auriculaeformis) in subtropical China and mixed with soil. Soil microbial community composition was determined using PLFAs, and its activity was quantified by soil respiration. During a 12-month period, the decomposition rate of litter was measured bimonthly using a litterbag method. Soil microbial samples were collected after 6 and 12 months. Soil respiration was measured monthly.Important findings We found that fresh leaves decomposed faster than their conspecific fallen litter. Although total microbial biomass and bacterial biomass were similar among treatments, soil fungal biomass was higher in fresh leaf than fallen litter treatments, resulting in greater values of the Fungal phospholipid fatty acids (PLFAs)/Bacterial PLFAs ratio. Fungal PLFA values were greater for Schima superba than the other species. The effect of litter type on soil respiration was species-dependent. Specifically, fallen litter released 35% more CO₂ than fresh leaves of the conifer P. elliottii. The opposite pattern was observed in the broadleaf species whose fresh leaf treatments emitted 17%–32% more CO₂ than fallen litter. Given future predictions that global climate change will cause more disturbances to forests, these results indicate that conifer and broadleaf forests in subtropical China may respond differently to increased fresh litter inputs, with net soil microbial respiration decreasing in conifer forests and increasing in broadleaf forests.     

提高CO2浓度对两种亚热带树苗叶片水分状况的影响

鼎湖山季风常绿阔叶林的主要优势乔木树种黧蒴和荷木的幼苗,盆栽于自然光照和人工调节CO₂浓度为500μl·L^-1或空气CO₂(340μl·L^-1)的气罩中3个月.在各自生长条件下测定,高CO₂下生长的黧蒴和荷木叶片平均气孔导度分别降低13%和20%,蒸腾速率下降20%和18%,水分利用效率提高1倍以上,不同CO₂浓度下的植物叶片气孔导度和蒸腾速率日进程曲线也有明显差异.处理后将幼苗置于自然条件下观测其后效应,第7d时处理间的气孔导度和蒸腾速率皆无明显差异     

Effect of Tourism and Industrialization on the Atmospheric Quality of Subtropical Forests and on Chlorophyll Flourescence of Two Species of Woody Plants

Different impacts of human activities including tourism, religious activity and industrial activities on atmospheric CO2, NOx and SO2 concentration of the subtropical forests and the chlorophyll fluorescence of two woody plant species ( Schima superba Gardn. et Champ. and Pinus massoniaha Lamb. ) were studied. The experimental sites were at Dinghushan Biosphere Reserve and its nearby industrial area in Guangdong Province. In recent years, the Biosphere Reserve has received more than 700 000 tourists and nearly 120 000 vehicles each year. A steel production plant and a chemical plant are located in the nearby industrial area. The chlorophyll fluorescence was measured by a modulation pulse fluorometer (PAM). The results showed that the effects of human being activities have caused an increase of the concentration of CO2, NOx and SO2 within the forests. Comparing to the control site (core area of Biosphere Reserve), the CO2, NOx and SO2 concentration in the disturbed sites have increased 17 to 40 μmol· mol-1, 5 to 20 nmol· mo1-1 and 2 to 19 nmol·mol-1 respectively. The Fv/Fm, qp and ФPSⅡof two woody plants decreased with the increase of human being activities. The trend of decreasing Fv/Fm, qp and ФPSⅡ associated with an increase of qN in leaves of forests plant was consistent with the increasing CO2, NOx and SO2 concentration within the forests.     

Water-use efficiency of four native trees under CO2 enrichment and N addition in subtropical model forest ecosystems

Aims We aimed to evaluate the changes in water-use efficiency (WUE) in native tree species in forests of subtropical China, and determine how coexisting species would be responding to increases in atmospheric carbon dioxide (CO₂) concentrations and nitrogen (N) deposition.Methods We used model forest ecosystems in open-top chambers to study the effects of elevated CO₂ (ca. 700 μmol mol^-1) alone and together with N addition (NH 4 NO 3 applied at 100kg N ha^-1 year^-1) on WUE of four native tree species (Schima superba, Ormosia pinnata, Castanopsis hystrix and Acmena acuminatissima) from 2006 to 2010.Important findings Our result indicated that all species increased their WUE when they were exposed to elevated CO₂. Although higher WUE was shown in faster-growing species (S. superba and O. pinnata) than that of slower-growing species (C. hystrix and Acmena acuminatissima), the increased extent of WUE induced by elevated CO₂ was higher in the slower-growing species than that of the faster-growing species (P < 0.01). The N treatment decreased WUE of S. superba, while the effects on other species were not significant. The interactions between elevated CO₂ and N addition increased intrinsic WUE of S. superba significantly (P < 0.001), however, it did not affect WUE of the other tree species significantly. We conclude that the responses of native tree species to elevated CO₂ and N addition are different in subtropical China. The species-specific effects of elevated CO₂ and N addition on WUE would have important implications on species composition in China's subtropics in response to global change.     

鼎湖山森林群落不同演替阶段优势种叶生态解剖特征研究

对南亚热带鼎湖山森林群落不同演替阶段8种优势树种进行了叶生态解剖学研究。观察的叶片解剖特征有：叶腹角质膜厚度、栅栏组织厚度、海绵组织厚度、叶背角质膜厚度及叶总厚度等。马尾松（Pinus massoniana)在针叶林群落和针阔叶混交林群落生境中,针阔叶混交林中叶片厚度变小,主脉管胞、树脂道平均直径变小。从针阔叶混交林演替阶段到季风常绿阔叶林演替阶段,锥栗（Castanopsis chinensis)叶片厚度、海绵组织厚度增加,栅栏组织厚度、P／S值（栅栏组织与海绵组织厚度比）减少;荷木（Schima superba)和黄果厚桂（Cryptocarya concinna)叶片厚度、栅栏组织厚度、叶腹及叶背角质膜厚度差异显著;从针阔叶混交林演替阶段到季风常绿阔叶林演替阶段,锥栗、荷木、黄果厚寺叶片厚度和栅栏组织厚度等差异均显著。不同生境下林内气温、相对湿度、光合有效辐射等小气候特征是叶片结构特征差异的主要影响因子,叶片结构差异反映了叶片结构在一定程度上对生境的适应。     

亚热带人工林松树13C/12C比率和水分利用效率

The ¹³C/¹²Cratio, photosynthetic rate and stomatie conductivity of leaves of Pinus massoniana, Schima superba,Psychotria rubra, Evodia lepta and Rhodomyrtus tomentasa are measured. No significant deviation (at 5% level) is observed between water use efficiencies calculated by these items. The¹³C/¹²Cis 25.41±0.61‰. In average for treerings of Pinus massoniana from 1971 to 1983(n=6), with the maximum in1977 when the lowest precipitation was recorded. The average water use efficiency of Pinus massoniana is 8.28±0.38 in1977—1983, which is higher than that of trees in natural site and might be caused by the changes of solar radiation and water condition. ¹³C/¹²Cratio ana lysis could provide usefull informations for studying water use efficiency of artificial forest.     

Influence of elevated CO2 and ozone concentrations on late blight resistance and growth of potato plants

Potato plants (Solanum tuberosum L. cv. Indira) with high susceptibility to the late blight pathogen Phytophthora infestans were exposed for 4 weeks to two different CO₂ concentrations (400/700 ppm) combined with ambient and double ambient ozone concentrations (first experiment) and with 1/5 ambient and ambient ozone concentrations (second experiment) in climate chambers. Leaves of the potato plants were then inoculated with Phytophthora infestans zoospores. Plants from the “high CO₂” variant showed a significantly increased resistance to the pathogen, verified by visual evaluation and quantitative real-time PCR, whereas plants treated with double ambient ozone were slightly more susceptible. An increase in the constitutive activities of the PR-proteins β-1,3-glucanase and osmotin in leaves of plants exposed to 700 ppm CO₂ correlated with the increase in resistance at this CO₂-concentration. Biomass parameters were barely affected by the elevated CO₂-concentration but decreased with increasing ozone concentrations. Biochemical analyses revealed that the content of starch as well as the content of soluble sugars in leaves were highest at the double ambient ozone/700 ppm CO₂ variants pointing to an ozone-induced inhibition of assimilate allocation from leaves to tubers. Leaf C/N-ratio increased at elevated CO₂-concentrations due to a decrease in N-content. The effect of the ozone- and CO₂-induced biochemical changes on the resistance response of potato towards Phytophthora infestans is discussed.     

Changes in leaf nutrient traits and photosynthesis of four tree species: effects of elevated [CO2], N fertilization and canopy positions

Aims Leaf traits of trees exposed to elevated [CO₂] in association with other environmental factors are poorly understood in tropical and subtropical regions. Our goal was to investigate the impacts of elevated [CO₂] and N fertilization on leaf traits in southern China.Methods Four tree species, Schima superba Gardn. et Champ. (S. superba), Ormosia pinnata (Lour.) Merr (O. pinnata), Castanopsis hystrix AC. DC. (C. hystrix) and Acmena acuminatissima (Blume) Merr. et Perry (A. acuminatissima) were studied in a factorial combination of atmospheric [CO₂] (ambient at ~390 μmol mol ? 1 and elevated [CO₂] at ~700 μmol mol^-1) and N fertilization (ambient and ambient + 100 kg N ha^-1 yr^-1) in open-top chambers in southern China for 5 years. Leaf mass per unit leaf area (LMA), leaf nutrient concentration and photosynthesis (A sat) were measured.Important findings Results indicated that leaf traits and photosynthesis were affected differently by elevated [CO₂] and N fertilization among species. Elevated [CO₂] decreased LMA in all species, while N fertilization did not affect LMA. Leaf mass-based N concentration (N M) was significantly greater in O. pinnata and C. hystrix grown in elevated [CO₂] but was lower in S. superba. Leaf mass-based P concentration (P M) was significantly greater in C. hystrix and A. acuminatissima exposed to elevated [CO₂] but was lower in S. superba. N fertilization significantly increased P M in O. pinnata but decreased P M in S. superba. Photosynthetic stimulation in O. pinnata, C. hystrix and A. acuminatissima was sustained after 5 years of CO₂ fumigation. N fertilization did not modify the effects of elevated [CO₂] on photosynthesis. Leaf traits (N M, N A, P M, P A) and light-saturated photosynthesis were decreased from the upper to lower canopy. Canopy position did not alter the responses of leaf traits and photosynthesis to elevated [CO₂]. Results suggest that photosynthetic stimulation by elevated [CO₂] in native species in subtropical regions may be sustained in the long term.     

不同演替阶段典型树种幼苗对酸胁迫响应的高光谱监测

通过在为期2a的可控酸雨试验下对处于不同演替阶段的典型树种幼苗的高光谱测定,得到不同梯度酸雨下各树种的叶片光谱反应曲线及相应叶片的生理生化参量.对测定的3种树种的叶片叶绿素含量及一阶导数光谱进行分析,发现随着酸雨浓度的增加,处于演替前期的先锋树种马尾松的幼苗叶绿素含量呈现增加趋势,而处于演替中、后期的木荷和青冈幼苗叶绿素含量则呈现减少趋势;随着试验时间的推移,马尾松的红边位置呈现"红移"趋势,其中pH2.5处理下的"红移"趋势较明显;而木荷和青冈的红边位置则呈现不同程度的"蓝移"趋势.较长时期高浓度酸胁迫对先锋树种马尾松的幼苗生长有一定促进作用,而对演替中期和后期树种木荷和青冈幼苗生长则主要表现为抑制作用.