氯化钠胁迫对嫁接黄瓜叶片多胺含量的影响

以日本耐盐品种‘帝王新土佐’南瓜为砧木,以’新泰密刺’黄瓜为接穗,在100 mmol·L^-1 NaCl胁迫下,对黄瓜嫁接和自根植株不同时期叶片中不同形态多胺含量的变化进行了研究.结果表明：NaCl胁迫下黄瓜嫁接植株游离态腐胺（Put）含量在胁迫2 d时与自根植株无显著差异,其余时间均显著高于自根植株;游离态亚精胺（Spd）和游离态精胺（Spm）含量在整个胁迫期间均显著高于自根植株;游离态多胺总量（PAs）在胁迫第4天出现峰值;嫁接植株游离态Put/PAs值在胁迫4 d时与自根植株无显著差异,其余胁迫时间均显著低于自根植株,而(Spd+Spm)/Put值在整个胁迫期间均显著高于自根植株;嫁接植株结合态和束缚态Put、Spd和Spm含量在整个胁迫期间均显著高于自根植株,结合态和束缚态PAs在胁迫第6天出现峰值;结合态多胺的Put/PAs值和(Spd+Spm)/Put值变化趋势与游离态多胺一致;嫁接植株束缚态Put/PAs值在胁迫6 d时与自根植株无显著差异,其余时间均显著低于自根植株,而(Spd+Spm)/Put值在整个胁迫期间均显著高于自根植株.表明黄瓜嫁接植株表现出较强的耐盐特征.     

盐胁迫对黄瓜幼苗根系生长和多胺代谢的影响

以两个不同抗盐性黄瓜品种为试材,采用营养液水培法,研究了NaCl胁迫对幼苗根系生长和多胺代谢的影响.结果表明:盐胁迫下黄瓜幼苗根系生长受抑制,膜脂过氧化和电解质渗漏升高,而弱抗盐品种‘津春2号'的变化幅度大于抗盐品种‘长春密刺';盐胁迫下‘长春密刺'根系精氨酸脱羧酶、鸟氨酸脱羧酶和S-腺苷蛋氨酸脱羧酶活性升高幅度均大于‘津春2号',其最高值分别比对照增加了149.3%、60.1%、69.4%和118.6%、56.2%、50.6%;'长春密刺'多胺氧化酶活性升高幅度小于‘津春2号',而二胺氧化酶活性仅在‘长春密刺'中增加.'长春密刺'根系游离态亚精胺和精胺、结合态和束缚态多胺含量均显著增加,而‘津春2号'根系游离态腐胺含量显著增加.表明黄瓜根系中较高的游离态亚精胺和精胺、结合态和束缚态多胺以及较低的游离态腐胺含量有利于提高幼苗对盐胁迫逆境的适应能力.     

外源亚精胺对盐胁迫下毕氏海蓬子体内多胺含量的影响

用含不同浓度(0、100、200、300、400和500 mmol·L 1)NaCl的Hoagland营养液及叶面喷施0.1 mmol·L-1外源亚精胺(Spd)处理毕氏海蓬子幼苗,研究外源Spd对NaCl胁迫下海蓬子体内游离态、结合态和束缚态3种形态多胺含量的影响,分析内源多胺含量的变化与植物耐盐性的关系.结果表明:(1)随盐胁迫浓度的升高,海蓬子幼苗叶片中3种形态腐胺(Put)含量均先降后升;同期的游离态Spd含量持续上升,结合态和束缚态Spd含量均先升后降;同期的游离和结合态精胺(Spm)含量均先升后降,而其束缚态Spm含量呈上升趋势;游离态和束缚态多胺(PAs)总量变化随盐浓度升高均呈上升趋势,而结合态PAs总量先升后降.(2)3种形态(Spd+ Spm) /Put比值均先升后降,而3种形态Put/PAs比值则均呈先降后升的相反趋势.(3)外源Spd处理提高了海蓬子幼苗叶片中结合态和束缚态PAs总量,也提高了游离态和束缚态(Spd+Spm)/Put比值.研究发现,外源Spd参与了NaCl胁迫下海蓬子内源PAs代谢的调节,可能通过促进盐胁迫植株中Put向Spd和Spm的转化,以及游离态多胺向结合态和束缚态多胺的转化来增强海蓬子耐盐性.     

砧木类型对甜樱桃花芽多胺代谢相关基因表达和休眠的影响

为验证砧木类型对甜樱桃多胺代谢和花芽休眠的影响,该研究以嫁接于不同砧木——矮化砧木‘吉塞拉6号’[Gisela 6,(G6)]和乔化砧木‘马扎德’(Mazzard)的甜樱桃品种‘罗亚理’为试材,通过田间观察确定嫁接于两种砧木的‘罗亚理’休眠期和花期,利用生物信息学、基因克隆、实时荧光定量、亚细胞定位和双分子荧光互补等手...     

嫁接对铜胁迫下黄瓜幼苗根系多胺代谢的影响

采用营养液栽培法,研究了嫁接(以黑籽南瓜为砧木)对铜胁迫下黄瓜幼苗根系活力及多胺代谢的影响.结果表明:铜胁迫下黄瓜幼苗根系活力下降,电解质渗漏率升高,而嫁接苗的变化幅度显著小于黄瓜自根苗;铜胁迫下黄瓜嫁接植株根系中除游离态腐胺(Put)含量显著低于自根苗外,结合态和束缚态Put、3种形态亚精胺(Spd)和精胺(Spm)含量均显著高于自根苗,嫁接苗根系中游离态Put含量及腐胺/多胺(Put/PAs)显著低于自根苗;铜胁迫下,嫁接苗根系精氨酸脱羧酶(ADC)、鸟氨酸脱羧酶(ODC)和S-腺苷蛋氨酸脱羧酶(SAMDC)活性高于自根苗,而二胺氧化酶(DAO)和多胺氧化酶(PAO)活性显著低于自根苗.表明嫁接黄瓜幼苗根系PAs的合成增加,降解减少,使PAs含量维持在较高水平,从而提高了黄瓜幼苗抗铜胁迫能力.     

NaCl胁迫对茄子嫁接苗根系多胺代谢的影响

采用高压液相色谱法对80 mmol.L-1NaCl胁迫下营养液栽培茄子嫁接苗和自根苗根系多胺代谢的差异进行了研究。结果表明,胁迫2 d时,嫁接苗根系游离态亚精胺和结合态多胺含量显著高于自根苗,游离态腐胺和束缚态多胺显著低于自根苗,游离态精胺含量两者无显著差异。胁迫10 d时,自根苗3种形态的多胺含量均下降,显著低于对照植株,而嫁接苗根系游离态精胺、结合态腐胺和束缚态多胺含量显著高于对照植株。研究结果表明,NaCl胁迫显著提高了茄子嫁接苗和自根苗根系多胺氧化酶的活性,且自根苗增加幅度显著高于嫁接苗;嫁接苗胁迫初期根系结合态多胺的迅速积累及胁迫后期保持较高的精胺含量有利于其耐盐性的提高。     

多胺对菊花激素含量与花芽分化的影响

以切花菊（Dendranthema morifolium）品种‘神马’为试材,外源喷施0．1mmol·L-1的亚精胺（Spd）与多胺合成抑制剂D-精氨酸（D．Arg）,转入昼10h／夜14h的短日条件下进行开花诱导,测定不同花芽分化时期顶芽内源多胺[腐胺（Put）、亚精胺（Spd）、精胺（spm）]和几种激素[生长素（IAA）、玉米素核苷（ZR）、异戊烯基腺苷（iPA）、赤霉素（GA）]含量的动态变化,分析多胺对激素和花芽分化的作用关系。结果表明,外源多胺和多胺合成抑制剂能够显著影响顶芽内源多胺（Put、Spd、Spm）和激素（IAA、ZR、iPA、GA）的含量,顶芽内高水平多胺有利于菊花花芽分化的启动和保持;外源多胺及多胺合成抑制剂可能通过影响内源多胺含量从而影响内源激素或者直接影响内源激素和内源多胺,进而调控花芽分化：内源Put与IAA关系密切,高水平的内源Put不利于IAA的积累;ZR和iPA含量与内源多胺总量的变化趋势一致;外源多胺及多胺合成抑制剂对GA的影响主要在花序分化期和小花分化期,且高水平的内源Spd和Put不利于GA的积累。     

盐适应过程中香根草内源游离态、结合态、束缚态多胺含量的变化

研究了不同浓度NaCl胁迫下,香根草（Vetiteria zizanioides）根、叶中的游离态、结合态、束缚态多胺（PAs）[包括腐胺（Put）,尸胺（Cad）,亚精胺（Sod）和精胺（Spm）]含量的变化。在中度盐胁迫（100,200mmol L^-1NaCl）9天时,香根草基本能够正常生长,但在重度盐胁迫（300mmol L^-1NaCl）下,其生长受到严重抑制。在上述3个不同浓度的NaCl胁迫下,香根草根、叶中游离态Put,Cad,spd,Stma和总的游离态PAs含量明显下降,在高盐浓度下下降幅更大;结合态Put,Cad,Sod,Spm和总的结合态PAs含量显著上升,但在重度盐胁迫下升幅较小或与对照相当;束缚态Put,Cad和总的束缚态PAs含量均减少,而束缚态Spd和Spm含量在叶中是下降的,在根中则增加,且在中度盐胁迫下更明显。对根和叶片而言,除游离态（Spd＋Spm）,Put比值在重度盐胁迫下较对照显著下降外,其它游离态、结合态、束缚态和总的（Spd＋Spm）／Put比值在不同盐胁迫下均上升,在中度盐胁迫下更明显。这表明,维持多胺总量的稳态和较高的（Spd＋Spm）／Put比值是香根草适应中度盐胁迫的一个重要机制。     

NaCl胁迫对菜用大豆种子多胺代谢的影响

采用蛭石栽培,在100 mmol·L-1NaCl胁迫下,对耐盐性不同的两个品种菜用大豆种子的丙二醛(MDA)含量和多胺(PAs)代谢进行了研究.结果表明:NaCl胁迫显著增加了菜用大豆种子的MDA含量,但耐盐品种‘绿领特早’(LL)的增幅低于盐敏感品种‘理想高产95-1’(LX).与LX相比,LL种子在整个NaCl胁迫期间均维持了相对较高的游离态精胺(Spm)、结合态Spm、结合态亚精胺(Spd)、束缚态Spd和束缚态腐胺(Put)含量,较高的(Spd +Spm )/Put 和(cPAs+bPAs)/fPAs值及较低的Put/PAs值,在胁迫中、后期(9～15 d)维持了相对较高的游离态Spd含量;胁迫期间,LL的精胺酸脱羧酶(ADC)长时期(6～15 d)保持相对较高的活性,而多胺氧化酶(PAO)则长时期(6～15 d)维持相对较低的活性.综上,LL具有较强的多胺合成能力及较强的Put向Spd和Spm以及游离态多胺向结合态和束缚态多胺转化的能力,进而有效抑制了细胞的膜脂过氧化,这可能是其耐盐性较强的重要原因之一.     

NaCl胁迫对茄子嫁接苗叶片多胺代谢和ABA含量的影响

以日本引进的茄子设施栽培专用耐盐品种'Torvum Vigor'为砧木,栽培品种'苏崎茄'为接穗,研究了80 mmol·L-1 NaCl胁迫下茄子嫁接苗和自根苗生长、多胺代谢和ABA含量的变化.结果表明,在NaCl胁迫下,茄子嫁接苗的生长量、3种不同形态多胺(游离态、结合态和束缚态)和ABA含量均显著高于自根苗.NaCl胁迫显著增加了叶片精胺和ABA含量;腐胺和亚精胺含量在胁迫前期上升,后期下降.嫁接苗的腐胺和亚精胺含量降低幅度低于自根苗,而精胺和ABA含量上升幅度则高于自根苗.嫁接苗生长和多胺代谢受NaCl胁迫的影响小于自根苗,NaCl胁迫下ABA的快速积累和保持相对高的多胺含量与嫁接苗耐盐性有关.     

梨远缘花粉原位萌发及生长特性

应用荧光标记方法对梨远缘花粉在‘丰水’和‘噢嗄二十世纪’柱头上萌发及花粉管生长特性进行观察,结果表明:(1)梨远缘花粉均能在柱头上萌发,但其萌发率不同,授粉后24 h,在‘丰水’柱头上‘红叶桃’花粉萌发率最高,达62.8%,而‘盖县大李’花粉萌发率仅为12.0%,各种远缘花粉在‘丰水’柱头萌发率均高于‘噢嗄二十世纪’柱头。(2)各种远缘花粉管在梨柱头或花柱内生长情况也有差异,‘红叶桃’等核果类花粉管在梨柱头上均表现为扭曲、盘绕等现象,不能穿过柱头;‘红星’和‘红富士’花粉管虽然有少量穿过柱头,但不能进一步在花柱内生长,表现为扭曲变形、先端膨大等不亲和性现象。因此,梨与远缘果树杂交不亲和在柱头上就已发生,这与梨自交不亲和反应发生在花柱内的现象不同。     

Prognosis of iron chlorosis in pear (Pyrus communis L.) and peach (Prunus persica L. Batsch) trees using bud, flower and leaf mineral concentrations

Background and Aims

The possibility of using tree materials in early phenological stages, such as dormant buds and flowers, for the prognosis of Fe deficiency occurring later in the year has been studied in peach and pear trees.

Methods

Thirty-two peach trees and thirty pear trees with different Fe chlorosis degrees were sampled in different commercial orchards. In peach, samples included flower buds, vegetative buds, bud wood, flowers and leaves at 60 and 120?days after full bloom (DAFB). In pear, samples included buds, bud wood, flowers and leaves at 60 and 120?days DAFB. Leaf chlorophyll was assessed (SPAD) at 60 and 120 DAFB. Sampling was repeated for 3–5?years depending on the materials. Mineral nutrients measured were N, P, K, Ca, Mg, Fe, Mn, Zn and Cu.

Results

The relationships between the nutrient concentrations in the different materials and leaf SPAD were assessed using four different statistical approaches: i) comparison of means depending on the chlorosis level, ii) correlation analysis, iii) principal component analysis, and iv) stepwise multiple regression. In all cases, significant associations between nutrients and SPAD were found. The best-fit multiple regression curves obtained for the multi-year data set provided good prediction in individual years.

Conclusions

Results found indicate that it is possible to carry out the prognosis of Fe chlorosis using early materials such as buds and flowers. The relationships obtained were different from those obtained in previous studies using a single orchard. The different methods of analysis used provided complementary data.     

越冬代梨木虱、梨二叉蚜产卵选择对子代种间竞争的影响

梨树萌芽期,越冬代梨木虱Cacopsylla chinensis和梨二叉蚜Schizaphis piricola子代共用同一食物资源,为了解其母代如何避免子代发生种间竞争,通过研究其产卵特点表明,梨二叉蚜和梨木虱在梨树枝条上的产卵位点不同。梨木虱主要在花芽枝上进行产卵,偏好于花芽芽鳞和枝条基部刻痕处产卵,以枝条基部产卵量最多,其次为顶花芽,产卵量随芽位次序依次下降,梨木虱还可在叶芽部位产卵,但数量较少;梨二叉蚜主要于叶芽枝上进行产卵,偏好在叶芽枝的第2、3芽位产卵,顶芽和枝条基部无产卵,未见梨二叉蚜在花芽部位产卵;在花芽枝上,梨木虱卵的空间生态位大于梨二叉蚜、叶芽枝上却相反,两者在梨树枝条上的产卵空间生态位呈分离状态;梨木虱和梨二叉蚜孵化的若虫数量及空间分布特点与卵一致;对梨木虱和梨二叉蚜产卵位点分析表明,其产卵位点的物理性状明显不同。本研究明确了梨木虱和梨二叉蚜母代通过不同产卵位点的选择,降低了子代种间的同位竞争。     

Dead flower buds of pear: effect of tree growth control, and Alternaria alternata as causal agent

Dead (dormant) flower buds of pear is an important phenomenon in pear production in the Netherlands. Vigourous or unbalanced tree growth and Pseudomonas syringae pv. syringae are mentioned as likely causes of dead flower buds. Several tree growth control treatments including ethephon. Regalis (Prohexadione-Ca) and root pruning were evaluated. Regalis increased disease incidence. The plant stimulant (foliar fertilizer) Resistim (potassium phosphonate) reduced disease incidence. Pseudomonas syringae pv. syringae was occasionally isolated from diseased flower buds. However, Alternaria alternata was nearly always isolated from diseased buds. Indicating a strong relation between this fungus and dead flower buds of pear.     

Pear bud metabolism: seasonal changes in glucose utilization

Utilization of glucose, uracil and valine by flower and leaf buds of seedling pear trees (Pyrus calleryana Decne.) from the time of flower bud initiation to flowering was investigated. A very high rate of glucose utilization through the pentose phosphate pathway was observed throughout the development of buds. There was no difference in the type of glucose metabolism between flower and leaf buds except immediately before flowering, when the metabolism in flower buds was shifted toward the glycolytic pathway. Such a shift did not occur in leaf buds. The incorporation of uracil and valine into the nucleic acid and protein fraction of buds, respectively, was high throughout bud development, perhaps indicating a high rate of turnover in the resting buds. Incorporation of both compounds decreased when buds started to expand prior to flowering.     

Genetic linkage maps constructed by using an interspecific cross between Japanese and European pears

Genetic linkage maps of the European pear ( Pyrus communis L.) cultivar 'Bartlett' and the Japanese pear ( Pyrus pyrifolia Nakai) cultivar 'Housui' were constructed based on AFLPs, SSRs from pear, apple and Prunus, isozymes and phenotypic traits by using their F(1) progenies. The map of the female parent Bartlett consisted of 226 loci including 175 AFLPs, 49 SSRs, one isozyme and one S locus on 18 linkage groups over a total length of 949 cM, while that for 'Housui' contained 154 loci including 106 AFLPs, 42 SSRs, two phenotypic traits and the other four markers on 17 linkage groups encompassing a genetic distance of 926 cM. These maps were partially aligned using 20 codominant markers which showed segregating alleles in both parents. Compared with the reports of apple genetic maps, these pear maps were not saturated but were near saturation. Distorted segregation was observed in two and one regions of the genome of Bartlett and Housui, respectively. The position of 14 SSRs originating from apple could be successfully determined in pear maps, which enabled us to compare the two maps. Some SSRs developed from Prunus (peach, cherry) were also mapped. The relationships between pear and the other species belonging to the Rosaceae were discussed based on the position of SSRs.     

荷花玉兰休眠芽幼叶的形态和发育特征

对荷花玉兰休眠芽的形态和发育特征进行了解剖观察。结果表明:幼叶多直立,个别旋抱状;叶片沿中脉向近轴面,在同株和异株的芽间随机性向左或向右纵向对折;叶芽内的外1～3层和花芽内的幼叶常枯死;花芽最内一层幼叶柄与其托叶贴生,并且叶片多完全退化,个别发育出较小的正常叶片。芽内幼叶枯死,是适应性的生理退化而非病害或营养不良现象,在演化上可能与其托叶替代幼叶作为芽鳞进行保护作用有相关性。     

Perpetuation of Cherry Leaf Spot Disease in Ornamental Cherry

Cherry leaf spot disease, caused by Blumeriella jaapii (Rehm) Arx., is an increasing concern to nursery producers of ornamental cherry in the south‐eastern United States. Spores were trapped starting in late March before symptoms were observed in the field, which indicates that leaf debris from diseased trees are an important source of primary inoculum. Previously infected trees of six cultivars (‘Kwanzan’, ‘Yoshino’, ‘Okami’, ‘Snowgoose’, ‘Autumnalis’ and ‘Akebono’), which were overwintered in a controlled environment protected from airborne spores, developed disease symptoms in late spring, indicating that dormant buds may also be a source of primary inoculum. Because ornamental cherry trees are propagated by budding and cuttings, disease management should incorporate cultural practices that focus on propagation from disease‐free trees and fungicide applications beginning at petal drop to protect emerging leaves.     

Specialized 16SrX phytoplasmas induce diverse morphological and physiological changes in their respective fruit crops

The host-pathogen combinations—Malus domestica (apple)/`Candidatus Phytoplasma mali´, Prunus persica (peach)/`Ca. P. prunorum´ and Pyrus communis (pear)/`Ca. P. pyri´ show different courses of diseases although the phytoplasma strains belong to the same 16SrX group. While infected apple trees can survive for decades, peach and pear trees die within weeks to few years. To this date, neither morphological nor physiological differences caused by phytoplasmas have been studied in these host plants. In this study, phytoplasma-induced morphological changes of the vascular system as well as physiological changes of the phloem sap and leaf phytohormones were analysed and compared with non-infected plants. Unlike peach and pear, infected apple trees showed substantial reductions in leaf and vascular area, affecting phloem mass flow. In contrast, in infected pear mass flow and physicochemical characteristics of phloem sap increased. Additionally, an increased callose deposition was detected in pear and peach leaves but not in apple trees in response to phytoplasma infection. The phytohormone levels in pear were not affected by an infection, while in apple and peach trees concentrations of defence- and stress-related phytohormones were increased. Compared with peach and pear trees, data from apple suggest that the long-lasting morphological adaptations in the vascular system, which likely cause reduced sap flow, triggers the ability of apple trees to survive phytoplasma infection. Some phytohormone-mediated defences might support the tolerance.     

The life-history and bionomics of Epitrimerus piri (Acarina: Eriophyidae) on pear

The majority of Epitrimerus piri on pear, cv. Williams' Bon Chretien, moved from their hibernation sites in small permanently dormant buds on spurs and under loose bark to fruit buds between the stages of green cluster and petal fall. Peak numbers of mites occurred in mid-June on fruit and early August on leaves with the return to hibernation beginning in July. Development time from egg hatch to adult was 17–1, 6–9 and 4–8 days at 10, 16 and 22 °C, respectively. Mites were dispersed by wind. They were found only on species in the genera Pyrus, Cydonia and Pyronia. Mite feeding caused browning on the ventral, sides of leaves and russet on fruit which was confined to the calyx end on Williams'. Populations of over 2000 mites/leaf reduced the length and dry weight of new shoots on potted pears by 8 and 14% respectively.