叶锈病侵染对大麦碳素代谢的影响

 本研究用¹⁴C同位素示踪法测定叶锈病侵染引起的大麦幼苗光合作用和光合产物分布的病变。试验以植株第一叶和第二叶所得的结果基本相同:接菌7天后病叶总光合量逐渐降低(10天后降低到健叶的60%以下)而单位绿叶面积光合率则明显提高(10天后提高约20%),且这种光合病变与锈病严重度间呈密切的线性相关(r ≥ 0.949,P<0.001);接菌3天后病叶光合产物的输出明显受阻,其截留的¹⁴C物质大量增加(为对照的3倍多)而输运到根和茎部的¹⁴C物质却严重减少。这些病变无疑是叶锈病抑制大麦植物生长发育的主要生理原因之一。     

铵态氮和硝态氮对香蕉枯萎病发生的比较研究

 为寻找降低香蕉枯萎病发生的防治措施,通过室内盆栽接种试验,研究了铵态氮(NH₄⁺-N)和硝态氮(NO₃^--N)对香蕉枯萎病发生及其植株叶绿素含量、气体交换参数、病原菌在植物体内的数量分布和植物钙(Ca)、镁(Mg)、铁(Fe)、钼(Mo)、可溶性糖和木质素含量的效应。结果表明:不接种病原菌的条件下,不同氮素处理对香蕉幼苗生长影响无差异;接菌情况下,与NH₄⁺-N处理相比,NO₃^--N处理显著降低植株各器官的病原菌数量、发病率和发病严重程度。病原菌侵染后,不同氮素处理下植株光合作用均显著下降:NO₃^--N处理香蕉苗保持比NH₄⁺-N处理更高的光合速率;病原菌侵染后NH₄⁺-N处理的植株Ca、Mg、Fe和Mo含量相对于侵染前没有显著差异,但NO₃^--N处理下此4种元素含量均显著升高。病原菌侵染后的植株叶片可溶性糖含量在不同氮素处理中都没有显著变化,但在根系中,NO₃^--N处理的侵染植株可溶性糖含量显著降低。与此同时,病原菌侵染后,木质素含量在NH₄⁺-N处理植株中变化不显著,但其含量在NO₃^--N处理侵染后显著上升。综上所述,NO₃^--N处理可增加植株抗病相关矿质元素的吸收,诱导香蕉苗木质素形成,使其木质化程度增加,从而维持较高的光合作用,保持较高的抗病水平。     

马铃薯Y病毒侵染对叶绿体超微结构、光合和荧光参数的影响

 马铃薯Y病毒(PVY)侵染导致马铃薯叶片叶绿体个体变小,部分叶绿体的结构遭到破坏,淀粉粒的体积变小而粒数密度提高。随着病毒侵染,叶片中的叶绿素含量逐步减少,光合系统电子传递速率和净光合速率显著下降,而光系统Ⅱ的最大光化学效率则没有显著变化。PVY导致叶绿体结构破坏和碳同化酶活性下降,可能是造成光合作用下降的主要原因。     

外源亚精胺对干旱胁迫下不同品种番茄幼苗光合作用的影响

以耐旱性不同的2个品种番茄(‘毛粉802’和‘皇冠’)为试材,采用营养液栽培,研究了7.5%聚乙二醇(PEG)模拟的干旱胁迫下喷施外源亚精胺(Spd)对番茄幼苗植株光合作用的影响。结果表明,干旱胁迫下,与对照相比,番茄幼苗叶片的净光合速率(Pn),气孔导度(Gs),蒸腾速率(Tr)都显著下降;在胁迫后期,胞间CO2浓度(Ci)显著高于对照。表明在胁迫前期番茄幼苗叶片净光合速率的降低是由气孔限制所造成,而在胁迫后期则是由非气孔限制所造成。喷施0.1 mMSpd能提高干旱胁迫下番茄幼苗叶片的Pn,Gs和Tr,在胁迫后期能减缓Ci的升高,表明在干旱胁迫下,外源Spd能缓解叶片气孔的关闭,促进植株对CO2的吸收,提高植株的光合能力,外源Spd对不耐旱品种‘皇冠’的效果更显著。     

云杉矮槲寄生的侵染对青杄光合与蒸腾作用的影响

 云杉矮槲寄生(Arceuthobium sichuanense)属半寄生性多年生种子植物,是青海省云杉天然林毁灭性生物灾害之一。本研究首次报道了云杉矮槲寄生在自然条件下可以侵染青杄,并对健康与染病青杄(Picea wilsonii)针叶形态及其光合日变化进行了测定。结果表明:1)染病青杄的针叶长度和宽度显著小于健康青杄(P＜0.001),而染病青杄的针叶比叶面积(SLA)显著大于健康青杄(P＜0.001);2)云杉矮槲寄生的侵染显著降低了青杄叶片的净光合速率、蒸腾速率以及气孔导度(P＜0.05),但不影响其胞间CO₂浓度(P =0.32);3)冗余分析(RDA)表明,云杉矮槲寄生的侵染导致青杄对不同环境因子的依赖程度发生变化,健康青杄表现为环境CO₂浓度(CO₂)＞空气温度(T_air)＞叶片温度(T_l)＞蒸汽压亏缺(Vpd)＞空气相对湿度(RH)＞光合有效辐射(PAR),而染病青杄则出现T_l＞RH＞T_air＞PAR＞Vpd＞CO₂,且T_l成为影响染病青杄叶片光合与蒸腾作用(P_n、T_r)的主要环境因子,且染病青杄对RH和PAR变化的响应更加敏感。此外,染病青杄叶片的水分利用率(WUE)显著低于健康寄主(P＜0.05)。因此,云杉矮槲寄生的侵染可降低青杄对环境的适应能力,从而加速寄主的衰老死亡。     

百合无症病毒对百合光合生理、酶活性及叶绿体超微结构的影响

 以东方百合“西伯利亚”为试验材料,研究百合无症病毒(LSV)侵染百合对其叶片生理生化以及叶绿体超微结构的影响。检测结果表明:叶片中叶绿素a、b以及总叶绿素含量与健康对照相比分别下降了28.6%、33.3%和23.5%,净光合速率、气孔导度及胞间CO₂浓度分别下降33.3%、25%和13.8%;超氧化物歧化酶(SOD)、过氧化物酶(POD)、多酚氧化酶(PPO)和苯丙氨酸解氨酶(PAL)与健康对照相比,分别增加了16.6%、29.4%、16.7%和22.2%。电镜观察发现:感病植株叶绿体膨胀变形,基质片层散乱,叶绿体内淀粉粒肿大且数目增多,从而证明LSV侵染破坏叶绿体结构,影响植株的光合作用。     

24-表油菜素内酯对农药处理下葡萄叶片光合特性和抗逆性的影响

研究农药百菌清处理前用外源24-表油菜素内酯(24-epibrassinolide,EBR)预处理对酿酒葡萄品种‘赤霞珠’(Cabernet Sauvignon)光合特性、抗氧化系统以及农药降解代谢的影响,探讨EBR缓解农药对葡萄植株的伤害以及降低农药残留的作用。以酿酒葡萄品种赤霞珠盆栽苗为试材,研究EBR处理对百菌清胁迫下葡萄叶片光合气体交换参数、叶绿素荧光参数、活性氧和丙二醛含量、抗氧化物质含量、解毒酶活性以及叶片百菌清残留量的影响。结果表明:与对照相比,0.1 mg·L-1EBR单独处理可提高葡萄叶片的光合特性,CHT处理(600倍液的百菌清)抑制了叶片光合作用,与CHT处理相比,EBR+CHT处理可显著提高叶片净光合速率(Pn)、气孔导度(Gs)和胞间CO2浓度(Ci),以及叶片光合系统II(PSII)原初光能转换率(Fv/Fm)、实际光化学效率(ΦPSII)和光化学猝灭系数(q P);百菌清CHT处理使葡萄叶片过氧化氢(H2O2)、超氧阴离子(O·2)和丙二醛(MDA)含量显著升高,而EBR+CHT处理使H2O2、O·2和MDA含量分别比CHT处理降低32.5%、15.8%和4.7%,同时使还原型谷胱甘肽(GSH)和抗坏血酸(As A)含量显著高于CHT处理;0.1 mg·L-1EBR单独处理以及CHT处理均使叶片过氧化物酶(POD)、谷胱甘肽转移酶(GST)和谷胱甘肽还原酶(GR)活性有所提高,与CHT处理相比,EBR+CHT处理使叶片解毒酶活性进一步增强;EBR预处理加速了百菌清在叶片中的降解,显著降低了叶片农药残留量。研究得出:0.1mg·L-1EBR处理可促进葡萄叶片光合作用,提高抗氧化物质含量以及解毒酶活性,600倍液百菌清处理损害了葡萄叶片正常的光合作用和氧化还原平衡,外源0.1 mg·L-1EBR预处理能通过改善叶片光合特性,减少活性氧物质和丙二醛的积累以及提高解毒酶活性以促进百菌清降解,从而缓解农药对植株的伤害。     

银胶菊的花对小麦的化感作用机制

采用温室盆栽法,研究了银胶菊的花水浸提液对小麦生长及其生理生化机制的影响,以明确其对小麦的化感作用。结果显示,花水浸提液抑制小麦种子萌发和幼苗生长,且抑制强度随浸提液浓度的升高而加强;随着花水浸提液浓度的增加,小麦叶片光合作用、光合色素含量和过氧化氢酶(CAT)活性下降,磷(P)和丙二醛(MDA)含量升高,氮(N)含量呈现先降低后趋于正常的变化趋势,硝酸还原酶(NR)活性呈现先降低后升高的变化趋势,谷氨酰胺合成酶(GS)活性没有显著变化,而过氧化物酶(POD)和超氧化物歧化酶(SOD)活性则呈现先升高后降低的变化趋势。表明银胶菊的花水浸提液抑制小麦叶片光合作用,提高了小麦叶片的MDA含量,并降低了小麦叶片SOD、POD和CAT的活性。     

核盘菌(Sclerotinia sclerotiorum (Lib.) de Bary)侵染抑制黄瓜光合作用的机理

 以津春四号黄瓜(Cucumis sativus L. ‘Jinchun 4’)为实验材料,通过同时测定黄瓜叶片叶绿素荧光快速诱导动力学曲线和对820 nm光的吸收曲线,以及过氧化氢含量和过氧化氢酶(CAT)活性的变化,研究了核盘菌(Sclerotinia sclerotiorum(Lib.)de Bary)侵染黄瓜叶片后,对光系统Ⅰ(PSⅠ)和光系统Ⅱ(PSⅡ)功能的影响,并分析了核盘菌侵染后,两个光系统之间的相互影响。结果表明,核盘菌侵染叶片后,叶片过氧化氢(H₂O₂)含量升高,膜脂过氧化的程度加剧,叶片放氧能力下降,快速叶绿素荧光诱导动力学曲线发生变化。核盘菌侵染严重伤害了PSⅡ供体侧(放氧复合体)、受体侧以及反应中心的活性,并且降低PSⅠ最大氧化还原能力(△I/Io)。核盘菌侵染黄瓜后,抑制了CAT的活性,导致过量活性氧的积累,直接伤害了光合机构PSⅠ和PSⅡ的功能;对PSⅠ的伤害抑制了PSⅡ电子向PSⅠ的传递,进一步加剧了PSⅡ的伤害程度,导致更多过剩激发能产生,造成恶性循环,这是核盘菌抑制黄瓜光合作用的主要原因。     

南方根结线虫对生姜生长及内源激素的影响

 试验结果表明,南方根结线虫侵染生姜后,首先损伤根系,进而显著降低生姜植株的株高、地上鲜重、根系鲜重和根茎重,减产47.96%。南方根结线虫侵染可使生姜叶片中赤霉素(GA)、吲哚乙酸(IAA)、玉米素核苷(ZR)含量显著降低,感病生姜的脱落酸(ABA)则表现为前期降低,后期增加的趋势,并促使叶片中GA/ABA的迅速下降,严重影响了生姜的生长,使感病植株矮小、叶片黄化,提前衰老。感病生姜根茎GA、IAA、ZR、ABA的变化规律与叶片相似,但9月份ZR、IAA含量的迅速上升,与根结线虫建立侵染据点、形成巨型细胞,从而造成根茎的局部疣裂有关。南方根结线虫侵染可引起病株根系GA/ABA升高以及GA含量在生长后期上升,促进营养物质向根部运输,从而造成根系的补偿性生长;但IAA和ZR含量的下降不利于根结线虫建立侵染据点,不能在根系中形成过多的根结。     

Effects of rust and post-infection drought on photosynthesis, growth and water relations in groundsel

Exchanges of CO² and water vapour were examined in groundsel, Senecio vulgaris , grown and infected with rust, Puccinia lagenophorae , under laboratory conditions. The effects of drought were examined by withholding water from plants from 2 days until approximately 10 days after infection, after which further daily water losses were restored. Net photosynthesis was inhibited and dark respiration was stimulated in rust-infected leaves but, in young healthy leaves on the same plant, gross and net photosynthesis were stimulated and photorespiration was inhibited. The growth of plants was stunted 15 days after infection because the growth of leaf area was inhibited and, thereby, the photosynthetic capacity of the plant was reduced. Drought inhibited the growth of leaf area in both healthy and infected plants and, when combined with rust, had additive deleterious effects on net photosynthesis per plant and on growth. After sporulation, rusted plants transpired more rapidly than did healthy controls and leaf water potential fell to reach - 0.95 and-1.92 MPa in well-watered and drought-stressed plants respectively, compared with -0.18 and - 1.2 MPa in healthy controls, 20 days after infection. Rust impaired the normal increase in Water-Use Efficiency in response to drought.     

叶霉菌非亲和小种对番茄系统抗性的诱导及植株内水杨酸动态

 番茄叶霉菌小种4是番茄Cf5品系的非亲和小种,接种Cf5植株第3叶后,经不同诱导间隔期以亲和小种5接种第3叶和第4叶,15 d后检查叶霉病发病情况。试验表明,在诱导间隔期为3 d和5 d时,小种4诱导接种的第3叶和未经诱导接种的上位第4叶发病面积比不接种或接种小种5的对照显著降低,以5 d间隔期处理效果最好。上述2个叶位的发病分别比对照降低90%和85%。小种4接种第3叶后该叶位和上部未接种第4叶内水杨酸含量迅速增加,以接种后3 d含量最高,分别达4.02 μg/g鲜重和3.21μg/g鲜重,比对照分别高2倍和1.8倍。接种后5 d内始终保持较高水平。接种8 d后逐渐下降,但仍高于对照。水杨酸含量的增加早于抗性表现,因而可能在该系统的抗性诱导中起作用。     

Induction of systemic resistance to rust in Vicia faba by phosphate and EDTA: effects of calcium

Resistance in the upper leaves of broad bean ( Vicia faba ) plants to infection by the rust fungus, Uromyces viciae-fabae, was increased following treatment of the lower leaves with 10 m m potassium phosphate or 5 m m EDTA. Increasing the interval between treatment of the lower leaves and inoculation of the upper leaves had little effect on rust infection. Thus rust infection was reduced by 50 and 34% if the upper leaves were inoculated 1 day after treatment of the lower leaves with potassium phosphate or EDTA, respectively, while there was a 75% reduction in infection if the interval between treatment and inoculation was increased to 12 days. Application of calcium nitrate (10 m m ) after the phosphate or EDTA treatments prevented the induction of systemic resistance. Calcium nitrate applied alone to the lower leaves had no significant effect on rust infection of the upper leaves.     

Photosynthesis,transpiration and plant growth characters of different potato cultivars at various densities of Globodera pallida

Plants of four potato (Solanum tuberosum L.) cultivars were grown in pots in a greenhouse at five densities ofGlobodera pallida between 0 and 300 eggs per gram of soil. Photosynthesis and transpiration of selected leaves were measured at 30, 37, 49 and 60 days after planting. Stem length was recorded at weekly intervals. Plants were harvested 70 days afteer planting and various plant variables were determined.At 30 days after planting, when second and third stage juveniles were present in roots, both photosynthesis and transpiration rates were severely reduced byG. pallida. In the course of time these effects became less pronounced. Water use efficiency was reduced byG. pallida between 30 and 49 days, but not at 60 days after planting. The results suggest independent effects ofG. pallida on stomatal opening and on photosynthesis reactions. There were no consistent differences among cultivars in the response of leaf gas exchange rates and water use efficiency to nematode infection. Reduction of photosynthesis byG. pallida appeared additive to photosynthesis reduction due to leaf senescence.Total dry weight was reduced by 60% at the highestG. pallida density. Weights of all plant organs were about proportionally affected. Shoot/root ratio was not affected and dry matter content was reduced. Stem length and leaf area were most strongly reduced during early stages of plant-nematode interaction. The number of leaves formed was only slightly reduced byG. pallida, but flowering was delayed or inhibited. Reduction of total dry weight correlated with reduction of both leaf area and photosynthesis rate. Leaf area reduction seems the main cause of reduction of dry matter production. Tolerance differences among cultivars were evident at 100 eggs per gram of soil only, where total dry weight of the intolerant partially resistant cv. Darwina was lower than that of the tolerant partially resistant cv. Elles and of the tolerant susceptible cv. Multa. The tolerance differences were not correlated with leaf photosynthesis and transpiration. Apparently these processes are not part of tolerance of plants.     

EFFECT OF PYRAZON ON PHOTOSYNTHESIS OF VARIOUS PLANT SPECIES

Summary. Studies were conducted to determine the influence of pyrazon (5-amino-4-chloio-2-phenyl-3(2H)-pyridazinone) on photosynthesis. A strong inhibiting effect on O₂ evolution from leaf discs of several species was recorded. For most species a concentration of 5 × 10⁻⁵ M caused a reduction of about 50% in the rate of photosynthesis. Photosynthesis of sugar beet, highly resbtant to pyrazon, was reduced to 50% by a concentration of 7–5 × 10⁻⁵ M. Since these differences cannot account for the great divergence in susceptibility to pyrazon, it is suggested that the selectivity of this herbicide results from degradation and differential accumulation in the foliage.
Pyrazon was phytotoxic to plants of tomato and pigweed (Amaranthus retrofiexus L.) kept in the light but not when kept in the dark, after foliage application. The conclusion that pyrazon inhibits the mechanism of photosynthesis and causes starvation for carbohydrates, was strengthened by the fact that external feeding of glucose overcame the toxicity of the compound in tomato plants. These results and a possible mode of selectivity are discussed.     

Indirect interactions between rust (<Emphasis Type="Italic">Melampsora epitea</Emphasis>) and leaf beetle (<Emphasis Type="Italic">Phratora vulgatissima</Emphasis>) damage on<Emphasis Type="Italic">salix</Emphasis>

Willows (Salix spp.) are beneficial as a potential source of renewable energy, riparian barriers and riverbank control, yet are considered invasive weeds when they clog watercourses and lead to erosion and flooding. Interactions between willow rustMelampsora epitea (Thüm.) (Uredinales: Melampsoraceae) and leaf beetlePhratora spp. (Coleoptera: Chrysomelidae) feeding damage have an impact on effective pest management and biological control. The present study investigated the effects of(a) prior mechanical leaf damage on rust development, and(b) rust infection on beetle feeding under laboratory conditions for different time intervals and levels of damage. Willow rust infection significantly reduced the amount of leaf area consumed by beetles. The result was similar when a compatible or an incompatible rust pathotype was sprayed ontoSalix viminalis (L.) ‘Mullatin’ plants. There were no overall significant effects of mechanical damage on rust development, although the lowest level of rust infection was found with the incremental damage treatment. There were, however, differences of significance for leaf position and damage status, with damaged leaves at all positions having fewer pustules and a smaller pustule area than the corresponding undamaged leaves. There was no detectable effect of possible volatile emissions from crushed willow leaves on rust infection and development, although the volatile compoundcis-3-hexenyl acetate significantly reduced pustule diameter and overall pustule area. The results are discussed in terms of the implications for pest management and biological control. Corresponding author http://www.phytoparasitica.org posting April 6, 2003.     

Relationship between physiological response of French beans of different age to Meloidogyne incognita and subsequent yield loss

A study was made of the effect of a single generation of the root-knot nematode Meloidogyne incognita on the growth of potted French bean plants ( Phaseolus vulgaris ) inoculated at different stages of plant maturity. In separate experiments. 3-, 11- and 13-day-old plants were inoculated before primary leaf expansion (BPLE). at the appearance of trifoliate leaves (TRIF) and at the flower bud (BDS) stages respectively, with 0, 2000, 4000 or 8000 second-stage juvenile nematodes and maintained in a growth chamber under controlled conditions. The photosynthetic rate of the plants inoculated at the TRIF and BDS stages decreased significantly with increasing inoculum level 7 days after inoculation. Although the respiration rate did not significantly change throughout the experimental period, the ratio of photosynthetic to respiration rate decreased significantly with increasing nematode inoculum level and duration of infection. Chlorophyll content, plant dry weight and the numbers of buds, flowers, pods and seeds were significantly lower in infected plants than in the controls; this effect increased with increasing levels of nematode inoculum for all three plant stages. The leaf area was significantly smaller only when nematode infection occurred at the BPLE stage. The plants which were youngest at the time of nematode infection produced the lowest yield; this appeared to result from the effect of nematodes on photosynthesis and related physiological processes.     

The effects of rust and anthracnose on the photosynthetic competence of diseased bean leaves

ABSTRACT The effects of rust (caused by Uromyces appendiculatus) and anthracnose (caused by Colletotrichum lindemuthianum) and their interaction on the photosynthetic rates of healthy and diseased bean (Phaseolus vulgaris) leaves were determined by gas-exchange analysis, in plants with each disease, grown under controlled conditions. The equation P(x)/P(0) = (1 - x)() was used to relate relative photosynthetic rate (P(x)/P(0)) to proportional disease severity (x), where beta represents the ratio between virtual and visual lesion. The beta values obtained for rust were near one, indicating that the effect of the pathogen on the remaining green leaf area was minimal. The high values of beta obtained for anthracnose (8.46 and 12.18) indicated that the photosynthesis in the green area beyond the necrotic symptoms of anthracnose was severely impaired. The impact of anthracnose on bean leaf photosynthesis should be considered in assessments of the proportion of healthy tissue in diseased leaves. The accurate assessment of the healthy portion of the leaf could improve the use of concepts such as healthy leaf area duration and healthy leaf area absorption, which are valuable predictors of crop yield. The equation used to analyze the interaction between rust and anthracnose on the same leaf was P(z) = P(0) (1 - x)(x) x (1 - y)(y), where P(z) is the relative photosynthetic rate of any given leaf, P(0) is the maximum relative photosynthetic rate, x is anthracnose severity, y is rust severity, betax is the beta value for anthracnose in the presence of rust, and betay is the beta value for rust in the presence of anthracnose. From the resulting response surface, no interaction of the two diseases was observed. Dark respiration rate increased on diseased leaves compared with control leaves. The remaining green leaf area of leaves with both diseases was not a good source to estimate net photosynthetic rate because the effect of anthracnose extended far beyond the visual lesions, whereas the effect of rust on photosynthesis was essentially limited to the pustule plus halo.     

香蕉束顶病毒(BBTV)侵染对寄主内源激素的影响

 本试验用ELISA方法测定了香蕉感染束顶病毒(BBTV)后植株体内的3种内源激素,赤霉素(GA₃)、玉米素类(iPAs)和脱落酸(ABA)的变化。结果表明,感株的GA₃水平在侵染过程中虽有微弱增加,但含量和增长速度显著低于健株对照;iPAs在接种BBTV第14天后明显下降,并维持较低水平;ABA在BBTV侵染后被大量诱导增加并不断积累,在接种后第35天测定含量最高,为对照的3.34倍。试验还同时检测了BBTV在侵染过程中的运转。用间接ELISA测定的接种叶和顶叶的BBTV含量显示:接种21天后BBTV在接种叶和顶叶中还大量增殖,呈系统性分布。但寄主的症状在接种35天后才逐渐在顶叶表现。以上结果表明:香蕉束顶病的症状表现似乎主要与病株中的内源激素的失调有关,而与BBTV在体内的运转并不直接相关