SO_2对叶片光诱导荧光动力学曲线的影响

SO_2对大气的污染是个全球性的问题,它是大气污染中最主要的污染因子之一。SO_2造成植物的伤害和引起植物的生理生化变化已有不少研究极道在有关SO_2对光合作用影响方面,一般多是研究 SO_2引起的叶绿素含量和光合强度变化,而这两方面的指标仅能说明光合作用变化的总结果。为了更深入探讨 SO_2对光合作用的影响,同时也为了探索植物对环     

遮荫对‘保佳红’桃树叶片快速叶绿素荧光诱导动力学曲线的影响

以3年生桃品种‘保佳红’为试材,于不同生育时期采用人工遮阴的方法,在叶片生长的不同时期分别设置100%(CK)、80%、60%、40%和20% 自然光照的5个光照强度处理,利用快速叶绿素荧光诱导动力学曲线分析技术,研究了不同光强对桃树叶片快速叶绿素荧光诱导动力学曲线及其参数的影响。结果表明：（1）桃树各生长时期的叶片最大荧光值均随着光照强度的减弱而依次升高。（2）在PSⅡ能量分配比率方面,遮阴下的叶片提高了用于电子传递的量子比率(φ_Eo),降低了用于热耗散的的量子比率(φ_Do)。（3）在PSⅡ反应中心活性方面,遮阴使得单位反应中心吸收的光能(ABS/RC)、捕获的光能(TRo/RC)、用于传递电子的能量(ETo/RC)和用于热耗散的能量(DIo/RC)均下降。（4）各时期不同光强处理的最大光化学效率F_v/F_m均在中午时段出现下降,且光照强度越大,降幅越大,说明桃叶在中午会出现强光抑制。研究认为：在遮阴条件下,桃叶天线色素吸收和捕获的光能减少,PSⅡ反应中心活性降低,但其可以通过增加能量在电子传递方面的分配比率来提高对光能的利用。     

钾营养对干旱条件下植物叶片光诱导的影响

利用红外线ＣＯ２分析仪和氧电极分别测定不同水分条件下钾营养对玉米,谷子和小麦整体叶片和叶切块光诱导影响的结果表明,干旱和缺钾显著地推迟光诱导期,外源钾可以缩短模拟干旱逆境下植物叶原切块的光诱导期。     

实验室和野外条件下SO2对蚕豆叶片抗氧化剂的影响

从实验室熏气和野外大气暴露两方面研究了SO_2对蚕豆叶片内抗氧化剂水平的影响。熏气实验表明,低浓度的SO_2(0.1和0.05 ug/g)暴露能使超氧化物歧化酶(SOD)和过氧化物酶(POD)活性升高,而使抗坏血酸含量下降。野外大气暴露实验结果表明大气硫酸盐化速率与SOD活性呈极显著正线性相关(P相似文献   

24-表油菜素内酯对干旱胁迫下辣椒叶片快速叶绿素荧光诱导动力学曲线的影响

以辣椒品种“超辣九号”为试材,采用15%的PEG6000模拟干旱,研究了0.1μmol·L^-1外源24-表油菜素内酯(EBR)处理对干旱胁迫下辣椒叶片快速叶绿素荧光诱导动力学曲线(OJIP)的影响。结果表明:干旱胁迫降低了辣椒叶片的光化学效率和光合性能,导致干旱光抑制的发生。干旱胁迫既损伤了辣椒叶片PSⅡ供体侧放氧复合体(OEC),同时也对PSⅡ反应中心和受体侧造成伤害,阻碍了光合电子传递;干旱胁迫还导致单位叶面积有活性反应中心数目(RC/CS)的下降,并降低了单位叶面积吸收的光能(ABS/CS)、捕获的光能(TRo/CS)和进行电子传递的能量(ETo/CS),同时诱导了单位叶面积热耗散(DIo/CS)的增加。这说明辣椒遭受干旱胁迫后启动了相应的防御机制,一方面通过PSⅡ的可逆失活减少光能吸收与传递,另一方面通过促进热耗散减少过剩激发能的积累。EBR处理改善了干旱胁迫下辣椒叶片PSⅡ受体侧的电子传递,缓解了单位叶面积有活性反应中心数目的减少,优化了光合电子传递的进行,并维持相对较高的热耗散能力,从而减轻了干旱光抑制程度,对干旱胁迫下辣椒叶片光合机构和光合性能起到保护作用。     

遮阴和干旱对白桦幼苗光诱导的气孔动力学影响

以黄土丘陵区演替早期种白桦的幼龄实生苗为材料,采用全光照和遮阴(光照为全光照的30%)以及正常水分(田间持水量的75%～80%)和干旱(田间持水量的40%～45%)处理,研究了遮阴和干旱下白桦幼苗光诱导的气孔动力学参数、气孔解剖特征、整株植物生长和水分利用的变化。结果表明: 遮阴使气孔开放过程的滞后时间和响应时间显著增加0.8和1.8倍,气孔开放和关闭过程的响应速度显著降低82.2%和65.0%,气孔开放和关闭过程的响应幅度显著降低43.3%和56.9%;干旱使气孔开放过程的响应幅度显著降低43.9%、气孔关闭过程的响应速度显著降低33.0%;二者仅对气孔开放过程的滞后时间存在交互作用。白桦幼苗气孔关闭过程的响应速度与气孔密度和气孔指数呈显著正相关,其他气孔动力学参数与气孔解剖结构间无显著相关性。白桦气孔关闭过程中的响应速度与整株生物量、耗水量呈显著正相关,所有气孔动力学参数和整株水分利用效率间无显著相关性。遮阴和干旱对白桦光诱导的气孔动力学参数的影响与其对气孔解剖结构的影响有关,动态光下的气孔动力学参数可在一定程度上阐释白桦不同生境下生长的差异。     

植物光诱导延迟荧光测量的影响因素研究

光合作用是地球上最重要的化学反应,植物内源性光诱导延迟荧光是光合作用原初过程中光系统Ⅱ作用中心P680处电荷分离效率的内在探针。延迟荧光除了受植物本身及其生长发育状况有关外,还受到其他很多环境及测量方面的影响,所以为了更好地利用延迟荧光特性技术研究植物生理特性,就必须对测量参数指标做合理的优化。本文从影响延迟荧光的激发光源的光强,激发时间及外界环境温度出发,研究延迟荧光的变化特性,为延迟荧光在植物生理特性方面的研究提供合理的理论依据。     

盐胁迫对不同抗盐性小麦叶片荧光诱导动力学的影响

以不同抗盐性小麦为材料,研究了NaCl胁迫对叶片叶绿素。荧光诱导动力学的影响。指出150 mmol/L NaCl使小麦幼苗生长降低,叶绿素含量下降,同时使光系统Ⅱ的潜在光化学活性和原初光能转化率降低,使光反应受到抑制。     

盐胁迫对不同抗盐性小麦叶片荧光诱导动力学的影响

以不同抗盐性小麦为材料,研究了ＮａＣｌ胁迫对叶片叶绿素ａ荧光诱导动力学的影响。指出１５０ｍｍｏｌ／ＬＮａＣｌ使小麦幼苗生长降低,叶绿素含量下降,同时使光系统Ⅱ的潜在光化学活性和原初光能转化率降低,使光反应受到抑制。     

A System Approach to Fluorescence Induction in Green Leaves

Intact green oat leaves (Avena saliva) were irradiated with modulated exciting light. Ai the application of initial square pulses of exciting light, the fluorescence induction pattern will change, but after some repeated pulses the fluorescence response pattern stabilizes and becomes identical. This periodic stimulation gave a better resolution of the two peaks constituting the fast fluorescence transient (the DPS region) compared to a single light pulse. The first peak could be depressed by weak light of wavelengths up to about 740 nm, given between the intense light phases of the pulse, while this treatment did not alter the second peak. The intensity of the higher light level of the pulse as well as the frequency were systematically varied. The results are tentatively rationalized in the form of sequential relaxation processes within the frame of the Hill-Bendull scheme, leading to the possibility of two substances, one belonging to Photosystem II and the other to Photosystem I. underlying the two peaks in the DPS region of the fluorescence induction curve.     

不同浓度氟对茶树幼苗叶片叶绿素荧光特性的影响

为探讨氟对茶树[Camellia sinensis(L.)O.Kuntze]叶片叶绿素荧光特性的影响,采用盆栽沙培法,用不同浓度的Na F溶液处理6周,对茶树叶片的叶绿素荧光特性进行研究。结果表明,用600 mg L–1的氟处理,茶苗叶片的OJIP曲线O相呈小幅度上升,P相下降得非常明显,IP相显著下降,出现清晰的L点(150μs)和K点(300μs);经过氟处理的茶苗叶片I点、J点的相对可变荧光和耗散能增加;荧光参数RC/CSo、ETo/ABS、PIabs、PIcs等明显下降,而DIo/RC、DIo/CSo和DIo/ABS等参数大幅度增加;叶片氟含量与ETo/TRo、REo/ABS、PICS呈负相关,与DIo/RC呈正相关。因此,氟胁迫处理削弱了茶树叶片的光合电子传递能力,影响了光合机构的作用,同时叶片以增加自身热耗散来防止受到光抑制和光破坏。     

二氧化硫污染对植物影响的研究进展

20多年来 ,关于SO2 污染对植物伤害症状、生长发育、生理生化的影响以及伤害机理的研究获得了长足的发展。研究成果应用于大气SO2 的监测和评价 ,以及抗污树种的筛选。对目前刚开始的SO2 与NOx、O3 等复合污染和酸沉降对植物影响的研究 ,将会成为今后研究的主导方向。     

Accumulation of Hydrogen Peroxide in Chloroplasts of SO2-Fumigated Spinach Leaves

Illuminated chloroplasts isolated from SO₂-fumigated spinachleaves accumulated more H₂O₂ than those from non-fumigated ones.This H₂O₂ formation was dependent on light and was inhibitedby DCMU. It also was depressed by cytochrome c and superoxidedismutase (EC 1.15.1.1 [EC] ). The addition of sulfite to rupturedchloroplasts isolated from non-fumigated leaves caused an H₂O₂accumulation that accompanied O₂ uptake. Spinach leaves losttheir catalase (EC 1.11.1.6 [EC] ), ascorbate peroxidase and glutathionereductase (EC 1.6.4.2 [EC] ) activities at the beginning of SO₂ fumigation,when H₂O₂ was accumulated. These results suggest that the accumulationof H₂O₂ in SO₂-fumigated spinach leaves is caused by the increasein O₂^–production, the precursor for H₂O₂, with a sulfite-mediatedchain reaction at the reducing site of photosystem I, and byinactivation of the H₂O₂ scavenging system. (Received October 7, 1981; Accepted June 16, 1982)     

Photosystem II Photosynthetic Unit Sizes from Fluorescence Induction in Leaves : CORRELATION TO PHOTOSYNTHETIC CAPACITY

The use of fluorescence induction measurements in leaves infiltrated with 3-(3,4-dichlorophenyl)-1,1-dimethylurea has been evaluated as a routine method for estimation of the concentration of the reaction centers of photosystem II relative to total chlorophyll in a wide variety of plant species. The procedure is based on a simple theory that takes into account the attenuation of light in passing through the leaf and the linear dependence of the fluorescence induction time from different parts of the leaf on the inverse of the local light intensity. A formula to calculate the reaction center concentration of photosystem II was obtained. The effect of the light attenuation is accounted for by a correction factor which could become practically insignificant by an optimal choice of the excitation and emission wavelengths and the geometry of the photodetector with respect to the sample. Estimation of quantum yields for primary photochemistry and influence of light scattering were considered. The results demonstrate the effect of the above factors under various circumstances and are in agreement, to a first approximation, with the theory.     

Chlorophyll Fluorescence Induction in Leaves of Phaseolus vulgaris Infected with Bean Rust (Uromyces appendiculatus)

To our knowledge, this report describes the first application of video imaging of Chl fluorescence to the study of light utilization in photosystem II of attached leaves of Phaseolus vulgaris infected with the obligate biotrophic fungus Uromyces appendiculatus (race 38). The video-based detection system produced a spatially resolved, quantifiable signal that was highly specific for chlorophyll fluorescence. Video images of spatial variation in the initial stage of the fluorescence induction (dark-light) transient revealed discreet regions of intense emission coinciding with centers of subsequent lesion development and accompanying chlorosis. Incipient lesions were visible by this procedure 3 d following inoculation, fully 3 to 4 d prior to visible symptoms. Fluorescence emission patterns in infected areas during the induction transient were heterogeneous with radial distance from the point of invasion and varied with the length of the time delay between re-illumination and image capture. During later ([greater than or equal to]1 min) stages of the induction transient, fluorescence emission in incipient lesions was quenched compared to surrounding tissue. These essential features of the induction transient observed in video images were also noted when individual lesions were examined using pulse modulation fluorimetry.     

Mesophyll Resistances to SO(2) Fluxes into Leaves

Uptake of label from solutions containing ³⁵SO₂, H³⁵SO₃⁻ and ³⁵SO₃²⁻ into mesophyll protoplasts, vacuoles, and chloroplasts isolated from young barley leaves was measured at different pH values. Uptake was fast at low pH, when the concentration of SO₂ was high, and low at high pH, when the concentration of SO₂ was low. When the resistance (R) of plasmalemma, tonoplast, and chloroplast envelope to the penetration of SO₂ was calculated from rates of uptake of label, comparable values were obtained for the different biomembranes at low pH values. R was close to 8000 seconds per meter and permeability coefficients were close to 1.25 × 10⁻⁴ meters per second. Under these conditions R may describe resistance to SO₂ diffusion across a lipid bilayer. At higher pH values, R decreased. As R was calculated on the assumption that SO₂ is the only penetrating molecular species, the data suggest that carrier-mediated anion transport contributes to the uptake of sulfur at physiological pH values thereby decreasing apparent R_SO2. The contribution of anion transport appeared to be smaller for transfer across the plasmalemma than for transfer across the tonoplast. It was large for transfer across the chloroplast envelope. The phosphate translocator of the chloroplast envelope catalyzed uptake of SO₃²⁻ into chloroplasts at neutral pH. Uptake was decreased in the presence of high levels of phosphate or sulfate and by pyridoxal phosphate. SO₂ transfer into cells leads to the intracellular liberation of one or two protons, depending on pH and oxidizing conditions. When the divalent sulfite anion is exchanged across the chloroplast envelope, bisulfite formation results in proton uptake in the chloroplast stroma, whereas SO₂ uptake into chloroplasts lowers the stroma pH.     

不同胁迫处理对刺栲叶片叶绿素a荧光的影响

探讨了光强、温度和水分胁迫对刺栲(Castanopsis hystrix)体叶片叶绿素a荧光特征的影响,由此了解它的基本生物学特性。结果表明:(1)强光(1 300μmol.m-2.s-1左右)未胁迫时下降6.1%,表现轻微光抑制;(2)黑暗下低温(4℃,72 h)处理后电子传递速率下降较少(21.1%),初始荧光Fo保持稳定;与25℃对照相比,Fv/Fo和Fv/Fm无显著变化,表明黑暗下零上低温对PSⅡ潜在活性及光化学效率影响较小;(3)高温(40℃)胁迫显著影响了PSⅡ反应中心活性,ETR,Fv/Fm和Fv/Fo下降在处理2 h后达到极显著水平(p<0.01),Fo上升在处理4 h后也达到显著水平(p<0.05);(4)PEG诱导的水分胁迫严重影响了其光合机构活性,表现在无论与处理前比较、还是与耐旱种降真香(Acronychia pedunculata)的比较,其Fo上升和Fv/Fm、Fv/Fo下降都达到显著水平,表明其不耐干旱。