底泥养分富集条件下11种水生植物的光合氮利用效率

为揭示水生植物对富营养化河涌底泥的生理生态适应性及其净化能力,选取11种水生挺水植物(包含6种本土植物和5种外来植物)结合河涌底泥进行试验。通过测定试验一年后植物叶片的光饱和光合速率(P_(sat),μmol m~(-2)s~(-1))、比叶面积(SLA,m~2/kg)、总氮含量(TN,mg/g)和光合作用氮利用效率(PNUE,μmol mol~(-1)s~(-1)),比较分析物种间生理与结构特性及其相互关系。结果表明:种间的SLA层次比较分明,最高的大叶皇冠草(20.31±0.30)与最低的鸢尾草(7.22±0.31)相差近3倍。种间的P_(sat)在(3.76±0.57)(鸢尾草)—(21.53±1.20)(水罂粟)之间,水罂粟比鸢尾草高81.79%。种间的PNUE从42.53±8.42(鸢尾草)至655.8±100.93(天使花),美人蕉、水罂粟、风车草和香蒲的PNUE值均较高,且差异不明显(P0.05),这些植物的PNUE显著高于较低PNUE的种类(包括菖蒲、蓝花草和鸢尾草)(P0.05)。种间SLA分别与PNUE和P_(sat)(μmol kg~(-1)s~(-1))呈显著的正相关,SLA和P_(sat)(μmol m~(-2)s~(-1))分别与TN(mmol/m~2)呈显著负相关(P0.05)。外来植物类群的PNUE、SLA、P_(sat)和TN均显著高于本地植物类群(T-test,P0.05),说明外来水生植物在养分富集化环境下能更有效地利用资源,具有潜在的高生长速率和种间竞争优势。     

巴郎山糙皮桦叶片光合氮利用效率的海拔响应

为深入认识植物对环境变化的响应和适应,以分布在川西巴郎山的糙皮桦为研究对象,选择海拔2200、2500、3100和3400 m 4个分布点,测定计算了各分布点叶片光合氮利用效率(PNUE)、CO₂扩散导度(叶肉细胞导度g_m与气孔导度g_s)和氮分配比例(Rubisco氮分配比例P_R、生物力能学组分氮分配比例P_B、捕光组分氮分配比例P_L与细胞壁氮分配比例P_CW)等参数,分析了其沿海拔的变化趋势以及叶片PNUE与其他参数的相关关系.结果表明: 糙皮桦叶片PNUE、P_R和P_B在海拔2500和3100 m相对较高;叶片g_s和g_m则随海拔升高而增加,P_L随海拔升高而降低.糙皮桦叶片P_R和P_B与PNUE呈显著正相关关系,说明P_R和P_B是PNUE随海拔变异的重要内部因素.糙皮桦叶片光合系统氮分配比例P_P在海拔2500和3100 m相对较高,叶片P_CW随海拔升高而降低,叶片其他组分氮分配比例P_other随海拔升高而增加,说明随海拔的升高,糙皮桦叶片趋向将更大比例的氮分配于除光合系统和细胞壁外的其他组分中.     

亚热带季雨林植物罗伞气体交换对光质的反应

亚热带季雨林林下阴生植物罗伞(Ardisia quinquegona)叶片的气体交换速率(PN.μmol.m~(-2),s~(-1))随光强(PFD,μmol,m~(-2),s~(-1))增高而增大。在光强低于80μmol,m~(-2),s~(-1),PN=29.21PFD×10~(-3)+0.36。在光强150μmol,m~(-2),s~(-1)对出现气体交换的光饱和现象。在低光强下,气孔传导率(G,m mol,m~(-2),s~(-1)与光强(m mol,m~(-2),s~(-1)的关系为G=265.6 PFD+4.6。在低光强下。开阔地的阳生灌木桃金娘(Rhodmyrtus tomentosa)的气体交换速率和气孔传导率与光强关系曲线的直线部分斜率皆较罗伞的低,在红光上,罗伞叶片气体交换速率(μmol,m~(-2),s~(-1)与光强(μmol,m~(-2),s~(-1)的关系为PN=32.4 PFD×10~(-3)-0.04。气孔传导率(m mol,m~(-2),s~(-1)与光强(m mol,m~(-2),s~(-1)的关系为G=339.08 PFD+7.37。同时气体交换速率的饱和红光光强亦较白光的高。在蓝光光强低时,气体交换速率(μmol,m~(-2),s~(-1))与光强(μmol,m~(-2),s~(-1))的关系为PN=13.54 PFD×10~(-3)—0.17,而气孔传导率(m mol,m~(-2),s~(-1))与光强(mμmol,m~(-2),s~(-1))的关系为G=80.5 PFD+4.35。在低的蓝光下,体交换速率和气孔传导率与光强关系曲线的直线部分斜率显著较在白光和红光下的低。罗伞叶片气体交换对红光的反应敏感。     

异质光环境下克隆整合对白夹竹光合氮分配格局的影响

采用盆栽试验,以单轴散生型竹类植物——白夹竹(Phyllostachys bissetii)克隆片段为对象,使近端分株处于自然光照环境,远端分株处于遮荫环境中,对根状茎作切断或不切断处理,研究克隆整合对远端分株和近端分株光合氮分配格局的影响。结果表明:(1)根状茎保持连接的远端分株较根状茎切断的远端分株具有更高的最大净光合速率、叶片氮含量、光合色素含量、叶片光合氮分配系数。(2)相对根状茎切断处理,根状茎保持连接的远端分株将更多的氮分配到光合系统的羧化系统、生物力能学组分,而分配至捕光系统组分的比例较小。(3)比较处于自然光照条件的近端分株,比叶重、叶片氮含量等并没有因根状茎切断与否表现出显著性差异,根状茎连接的近端分株部分指标甚至高于根状茎切断的近端分株。研究认为,克隆整合作用影响处于遮荫环境的白夹竹远端分株的光合氮分配格局,使得处于遮荫生境中的克隆分株依旧维持较高的光合能力,保证了处于逆境条件下克隆分株的生存与生长。     

红树林植物叶片形态和解剖特征对叶肉导度、叶片导水率的影响

叶肉导度和叶片导水率是影响光合作用的两个重要过程,叶肉导度通过影响从气孔下腔到Rubisco酶位点的二氧化碳浓度梯度直接影响光合作用,而叶片导水率则通过影响水分供应或气孔行为来影响光合作用,然而对这两个生理过程之间的协同性研究较少。本研究选择9种红树林植物为研究对象,探讨盐生环境下植物叶肉导度和叶片导水率的协同性及其与叶片解剖结构特征之间的相关性。结果表明,9种红树林植物叶片导水率(0.78~5.83 mmol·m~(-2)·s~(-1)·MPa-1)、叶肉导度(0.06~0.36 mol·m~(-2)·s~(-1))、最大光合速率(7.23~23.71μmol·m~(-2)·s~(-1))等特征的差别较大;叶肉导度与最大光合速率呈显著正相关,而与比叶重无显著相关性,其原因是由于比叶重与叶片厚度、叶片密度不存在相关性;叶脉密度与气孔密度呈较强的相关性,说明红树林植物叶片水分运输与散失相关的叶片结构之间存在协同关系;叶片导水率不受叶脉密度影响,并且与叶肉导度、最大光合速率也不存在相关性,这很可能与红树林植物叶片的肉质化、有发达的储水组织有关,体现了红树林植物叶片结构和功能的特殊性。     

大豆叶片光呼吸对光强和CO_2浓度的响应

利用低氧法(2% O_2)研究了大豆叶片光呼吸速率(R_p)对光强和CO_2浓度的响应。结果表明:当光合有效辐射强度(PAR)小于600μmol·m~(-2)·s~(-1)时,大豆叶片的R_p随光强的升高而几乎直线增加;当PAR约为1200μmol·m~(-2)·s~(-1)时,R_p达到最大值(12.69·mol CO_2·m~(-2)·s~(-1)),随后R_p随PAR的升高呈下降趋势;构建的光呼吸速率与光强的方程式拟合结果表明,大豆叶片最大光呼吸速率为13.42·mol CO_2·m~(-2)·s~(-1),其对应的光强为1207.74·mol·m~(-2)·s~(-1),该拟合值与实际测量值极为吻合(P0.05);当PAR一定(2000μmol·m~(-2)·s~(-1))时,随着CO_2浓度的增加(0~1200μmol·mol~(-1)),大豆叶片的R_p呈先升高后下降变化,在600μmol·mol~(-1)时达到最大值(9.97·mol CO_2·m~(-2)·s~(-1));构建的光呼吸速率与CO_2浓度的方程式拟合结果表明,大豆叶片最大光呼吸速率为10.21·mol CO_2·m~(-2)·s~(-1),其对应的外界CO_2浓度为625.74·mol·mol~(-1)。该拟合值也与实际测量值极为吻合(P"0.05)。本文所构建的方程式可较好地拟合光呼吸速率对不同光强和不同CO_2浓度的响应,这对定量研究光呼吸提供了强有力的手段。     

苋菜的光合特性

宽菜Amaranthus cruentus cv.生长在调控的温室条件。在光强0至800μmol.m~(-2)S~(-1),光合速率(PN,μmol.CO_2m~(-2)、s~(-1))随光强(PFD,μmol、m~(-2)、s~(-1))增高而增大,其关系为PN=56.82 PFD×10~(-3)—2.13。光补偿点为60μmol.m~(-2)、s~(-1)。叶片在1400 μmol.m~(-2)、s~(-1)达到光合光饱和点。在叶温35℃,叶片/空气水蒸汽压陡度20 m Pa、Pa~(-1)和外界CO_2浓度340μ1、1~(-1),光饱和光合速率为51.63±4.90μ mol.CO_2、m~(-2)、S~(-1)。在光强0至600μmol.m~(-2)、s~(-1),气孔传道率随光强增高而增大。光强高于600μmol.m~(-2)、s~(-1),气孔传道率变化较小。细胞间CO_2浓度为120μ1.1~(-1)由于细胞间CO_2浓度在光合速率——CO_2关系曲线的转折点,可能表明光合作用不受气孔限制。结果表明,苋菜适于高光强环境生长,在干旱条件下具有高的光合速率。     

不同光强下生长的两种榕树叶片光合能力与比叶重、氮含量及分配的关系

观测了不同光强下生长的两种榕树幼苗叶片的光合能力、比叶重(LMA)、氮含量及在光合机构中的分配.结果表明,两种榕树幼苗的最大净光合速率(Pmax)均随生长光强的升高而升高,这与LMA、单位面积氮含量(NA)和光合氮利用效率随生长光强的升高而升高有关.除36%光强下外,相同光强下生长的喜光的斜叶榕(Ficus tinctoria)的Pmax均显著高于耐荫的假斜叶榕(Ficus subulata),这与其叶片中氮在羧化组份和生物力能学组份中的分配系数、LMA和NA较高有关.     

补增UV-B辐射对香蕉叶片光合作用和叶氮在光合碳循环组分中分配的影响

补增UV－B辐射的香蕉叶片光下呼吸速率（Rd））和不包括光下呼吸的CO2补偿点（г*）,分别为0.33μmol·m-2·s-1和46.5μl·L-1,较对照植株分别高5.6％和10.0％。在较高CO2浓度（>340μl·L-1）条件下的An/θp关系最初直线部分斜率,即表观量子产率(α-A)为0.023±0.007,而补增UV-B辐射处理的植株则降低13.0％,光能转换效率（δ）亦降低28.6％,表明UV-B辐射明显降低αA和δ。在高θp（1100μmol·m-2·s-1）和Ci<200μl·L-1条件下,对照植株的An/Ci关系为An=0.028Ci+1.44,补增UV-B辐射处理的植株则为An=0.021Ci+1.01,UV-B辐射降低羧化限制速率。最大羧化速率（Vcmax）和电子传导速率的光饱和值（Jmax）亦较低,补增UV-B辐射的叶片,叶氮在Rubisco的分配系数（PR）和叶氮在生物力能学组分的分配系数（PB）分别较对照低8.1％和3.0％,叶氮分配到类囊体膜捕光色素蛋白组分的则略见增高,UV-B辐射降低叶氮在光合循环组分的分配。     

油蒿光合参数季节动态及其与叶氮含量和比叶面积的关系

了解植物光合作用参数季节动态及其与叶性状的关系对于准确模拟生态系统碳循环具有重要的意义。本研究在生长季内原位测定了毛乌素沙地油蒿(Artemisia ordosica)光合作用CO_2响应和光响应曲线,分析了油蒿光合参数与叶氮含量(N_(mass))和比叶面积(SLA)的关系。结果表明:整个生长季内油蒿最大净光合速率(P_(nmax))、表观量子效率(α)和光饱和点(LSP)都是在春季后期和初秋时期值比较高,在夏季波动较大,光补偿点(LCP)和暗呼吸速率(Rd)变化趋势不明显,P_(nmax)的变化范围为13.79~33.31μmol CO_2·m~(-2)·s~(-1),平均值为23.77μmol CO_2·m~(-2)·s~(-1),其中5月达到最大值,P_(nmax)季节变化显著;羧化速率(φ)、最大羧化速率(V_(cmax))、最大电子传递速率(J_(max))和光下暗呼吸(Rp)的季节动态变化也是呈现春季后期和初秋时期值比较高、在夏季波动较大的趋势,CO_2补偿点(Co)在整个生长季季节动态明显;CO_2饱和点(Cisat)的季节动态变化不明显;V_(cmax)在5月达到最大值(89.10μmol·m~(-2)·s~(-1)),在8月达到最小值(27.25μmol·m~(-2)·s~(-1)),平均值为56.29μmol·m~(-2)·s~(-1),J_(max)在9月达到最大值(78.86μmol CO_2·m~(-2)·s~(-1)),在8月达到最小值(24.19μmol CO_2·m~(-2)·s~(-1)),平均值为46.24μmol CO_2·m~(-2)·s~(-1),V_(cmax)和J_(max)季节变化显著;P_(nmax)、V_(cmax)、J_(max)和Rp与N_(mass)存在显著线性正相关,P_(nmax)、V_(cmax)和J_(max)与SLA存在显著线性正相关。本研究结果进一步证实,叶氮含量和比叶面积是影响油蒿光合能力的重要因素。研究获得的光合参数与叶性状的关系可为构建参数化生态系统过程模型提供帮助。     

Characterization of imipenem-resistant Serratia marcescens producing IMP-type and TEM-type beta-lactamases encoded on a single plasmid

To evaluate the roles of blaIMP and blaTEM genes in the resistance of Serratia marcescens against beta-lactams and to find the spreading ways of these genes, 19 clinical isolates of imipenem-resistant Serratia marcescens were analyzed. Six strains bore blaIMP and blaTEM genes on a single plasmid, as confirmed by transferring resistance determinants via conjugation and transformation, and by detecting bla genes with PCR analysis. The six strains showed two different genomic patterns on pulsed-field gel electrophoresis. All the transconjugants and transformants gained high-level resistance to ampicillin, cephalexin, cefoxitin and cefotaxime, and showed a reduced susceptibility to imipenem, but maintained full susceptibility to aztreonam. In addition, the expressions of blaIMP and blaTEM genes were constitutive, either in Serratia marcescens clinical isolates or in their transconjugants and transformants. These findings may explain the rapid spread of the above resistance determinants among Enterobacteriaceae via transmissible plasmids in the clinical setting.     

On the integration of subthreshold inputs from Perforant Path and Schaffer Collaterals in hippocampal CA1 pyramidal neurons

Using a realistic model of a CA1 hippocampal pyramidal neuron, we make experimentally testable predictions on the roles of the non-specific cation current, I _h , and the A-type Potassium current, I _A , in modulating the temporal window for the integration of the two main excitatory afferent pathways of a CA1 neuron, the Schaffer Collaterals and the Perforant Path. The model shows that the experimentally observed increase in the dendritic density of I _h and I _A could have a major role in constraining the temporal integration window for these inputs, in such a way that a somatic action potential (AP) is elicited only when they are activated with a relative latency consistent with the anatomical arrangement of the hippocampal circuitry.     

Low levels of quantitative and molecular genetic differentiation among natural populations of Medicago ciliaris Kroch. (Fabaceae) of different Tunisian eco-geographical origin

In this paper, we analyze the genetic variability in four Tunisian natural populations of Medicago ciliaris using 19 quantitative traits and six polymorphic microsatellite loci. We investigated the amplification transferability of 30 microsatellites developed in the model legume M. truncatula to M. ciliaris. Results revealed that about 56.66% of analyzed markers are valuable genetic markers for M. ciliaris. The most genetic diversity at quantitative traits and microsatellite loci was found to occur within populations (>80%). Low differentiations among populations at quantitative traits Q _ST  = 0.146 and molecular markers F _ST  = 0.18 were found. The majority of measured traits exhibited no significant difference in the level of Q _ST and F _ST . Furthermore, significant correlations established between these traits and eco-geographical factors suggested that natural selection should be invoked to explain the level of phenotypic divergence among populations rather than drift. There was no significant correlation between population differentiation at quantitative traits and molecular markers. Significant spatial genetic structure consistent with models of isolation by distance was detected within all studied populations. The site-of-origin environmental factors explain about 9.07% of total phenotypic genetic variation among populations. The eco-geographical factors that influence more the variation of measured traits among populations are the soil texture and altitude. Nevertheless, there were no consistent pattern of associations between gene diversity (He) and environmental factors.     

Gas Exchange Responses to CO2 Concentration Instantaneously Elevated in Flag Leaves of Winter Wheat Cultivars Released in Different Years

Three winter wheat (Triticum aestivum L.) cultivars, representatives of those widely cultivated in Beijing over the past six decades, were grown in the same environmental conditions. Net photosynthetic rate (P _N) per unit leaf area and instantaneous water use efficiency (WUE) of flag leaves increased with elevated CO₂ concentration. With an increase in CO₂ concentration from 360 to 720 µmol mol^–1, P _N and WUE of Jingdong 8 (released in 1990s and having the highest yield) increased by 173 and 81 %, while those of Nongda 139 (released in 1970s) increased by 88 and 66 %, and Yanda 1817 (released in 1945, with lowest yield) by 76 and 65 %. Jingdong 8 had the highest P _N and WUE values under high CO₂ concentration, but Yanda 1817 showed the lowest P _N. Stomatal conductance (g _s) of Nongda 139 and Yanda 1817 declined with increasing CO₂ concentration, but g _s of Jingdong 8 firstly went down and then up as the CO₂ concentration further increased. Intercellular CO₂ concentration (C _i) of Jingdong 8 and Nongda 139 increased when CO₂ concentration elevated, while that of Yanda 139 increased at the first stage and then declined. Jingdong 8 had the lowest C _i of the three wheat cultivars, and Yanda 1817 had the highest C _i value under lower CO₂ concentrations. However, Jingdong 8 had the highest P _N and lowest C _i at the highest CO₂ concentration which indicates that its photosynthetic potential may be high.     

黄花棘豆脱水素OoY_2K_4的鉴定及表达分析

该研究以黄花棘豆cDNA为模板,采用同源克隆法,从黄花棘豆转录组数据库中克隆获得1个响应逆境胁迫的胚胎发育晚期丰富蛋白基因,命名为OoY_2K_4;OoY_2K_4基因ORF为786bp,编码261个氨基酸,含有2个保守的Y片段和4个K片段,为典型的Y_2K_4类脱水蛋白亚家族成员;OoY_2K_4蛋白不具有跨膜结构域,不存在信号肽,亲水性极强,含有1个糖基化位点和17个磷酸化位点;亚细胞定位显示,OoY_2K_4蛋白定位于细胞质中。多序列比对发现,OoY_2K_4蛋白与其他物种第二组LEA蛋白(脱水素)序列高度保守;进化树分析显示,该序列与三叶草、蒺藜苜蓿和紫花苜蓿相似度最高,亲缘关系最近。采用qRT-PCR对OoY_2K_4基因在干旱、高盐、低温以及脱落酸、乙烯、赤霉素处理下的表达分析显示,干旱和高盐胁迫可显著诱导OoY_2K_4基因表达,而低温胁迫下基本无变化;激素处理均可诱导OoY_2K_4基因高效表达,其中脱落酸诱导下OoY_2K_4基因表达最显著。研究推测,OoY_2K_4基因可能通过依赖ABA的信号途径参与黄花棘豆对干旱和高盐逆境胁迫的应答反应。     

Genomics of the<Emphasis Type="Italic"> ccoNOQP</Emphasis>-encoded<Emphasis Type="Italic"> cbb</Emphasis><Subscript>3</Subscript> oxidase complex in bacteria

Many bacteria adapt to microoxic conditions by synthesizing a particular cytochrome c oxidase (cbb ₃) complex with a high affinity for O₂, encoded by the ccoNOQP operon. A survey of genome databases indicates that ccoNOQP sequences are widespread in all sub-branches of Proteobacteria but otherwise are found only in bacteria of the CFB group (Cytophaga, Flexibacter, Bacteroides). Our analysis of available genome sequences suggests four major strategies of regulating ccoNOQP expression in response to O₂. The most widespread strategy involves direct regulation by the O₂-responsive protein Fnr. The second strategy involves an O₂-insensitive paralogue of Fnr, FixK, whose expression is regulated by the O₂-responding FixLJ two-component system. A third strategy of mixed regulation operates in bacteria carrying both fnr and fixLJ-fixK genes. Another, not yet identified, strategy is likely to operate in the -Proteobacteria Helicobacter pylori and Campylobacter jejuni which lack fnr and fixLJ-fixK genes. The FixLJ strategy appears specific for the -subclass of Proteobacteria but is not restricted to rhizobia in which it was originally discovered.     

Genes determining leucine aminopeptidase and mildew resistance from the ornamental apple, ‘White Angel’

Mildew resistance in the ornamental apple White Angel was found to be determined by complementary genes. The gene R _w was found to be necessary for the expression of resistance controlled by the resistance gene Pl _w . The close linkage between the isoenzyme gene, Lap-2, for leucine aminopeptidase and P1 _w was confirmed. The efficiency of Lap-2 as a marker in screening for mildew resistance is limited, as it cannot account for susceptible plants with the r _w r _w P1 _w p1 _w genotype. It has, however, an important role to play in combining resistance genes from different sources. The genotypes of White Angel (R _w r _w , Pl _w pl _w , Lap-2an), Jester (R _w r _w , p1 _w p _w , Lap-2an) Katja (R _w r _w ,p1 _w p1 _w , Lap-2an) and Gloster 69 (r _w r _w , p1 _w p1 _w , Lap-2an) were determined. It also appeared that R _w might influence Lap-2 activity in young seedlings.     

Carbon dioxide and methane fluxes in boreal peatland microcosms with different vegetation cover—effects of ozone or ultraviolet-B exposure

O₃ concentrations in the troposphere are rising and those in the stratosphere decreasing, the latter resulting in higher fluxes of solar ultraviolet-B (UV-B) radiation to the earth's surface. We assessed whether the fluxes of CO₂ and CH₄ are altered by enhanced UV-B radiation or elevated tropospheric O₃ concentrations in boreal peatland microcosms (core depth 40 cm, diameter 10.5 cm) with different vegetation cover. At the end of the UV-B experiment which lasted for a growing season, net CO₂ exchange (NEE) and dark ecosystem respiration (R _TOT) were sevenfold higher, and CH₄ efflux 12-fold higher, in microcosms with intact vegetation dominated by Eriophorum vaginatum L. and Sphagnum spp., compared to microcosms from which we removed E. vaginatum. Vegetation treatment had minor effects on CH₄ production and consumption potentials in the peat, suggesting that the large difference in CH₄ efflux is mainly due to efficient CH₄ transport via the aerenchyma of E. vaginatum. Ambient UV-B supplemented with 30% and elevated O₃ concentrations (100 and 200 ppb, for 7 weeks) significantly increased R _TOT in both vegetation treatments. Elevated O₃ concentrations reduced NEE over time, while UV-B had no clear effects on the fluxes of CO₂ or CH₄ in the cloudy summer of the study. Field experiments are needed to assess the significance of increasing UV-B radiation and elevated tropospheric O₃ concentration on peatland gas exchange in the long-term.     

A novel phospholipase A2/esterase from hyperthermophilic archaeon Aeropyrum pernix K1

An open reading frame of the hyperthermophilic archaeon Aeropyrum pernix K1 APE2325, which composed of 474 bases, was cloned and expressed in Escherichia coli BL21 (DE3) Codon Plus-RIL. The recombinant protein was purified by Ni-chelation affinity chromatography. It showed a single band with a molecular mass of 18kDa in SDS-PAGE. The purified enzyme exhibited both phospholipase A(2) and esterase activities with the optimal catalytic temperature at 90 degrees C. The enzyme activity was Ca(2+)-independent. Kinetic analysis revealed its Km, k cat, and Vm for the p-nitrophenyl propionate substrate were 103microM, 39s(-1), and 249micromol/min/mg, respectively. The recombinant protein was thermostable and its half-life at 100 degrees C was about 1h.