柳属与杨属植物远缘嫁接研究

为了探索植物远缘嫁接成功的可能性及嫁接体的观赏特性,进行了柳属与杨属植物的属间远缘嫁接组合试验。结果表明：枝接或芽接均可使柳树／杨树或杨树／柳树嫁接成活,其中采用改良插皮接,旱柳／沙兰杨嫁接成活率较高,达90％以上,嫁接组合生长良好,6年内未出现后期不亲和现象,但沙兰杨／旱柳组合在嫁接后会出现“小脚”现象;垂柳／小叶杨、金丝垂柳／小叶杨在秋季芽接．成活率也较高,达70％以上,且嫁接体愈合良好。但是,以柳属植物为砧木,小叶杨为接穗,嫁接组合的成活率较低,仅10％～16％。柳属与杨属植物嫁接体具有较高的观赏性,可望在园林绿化中得到应用,创造新奇的景观。     

黄瓜贴接苗砧木子叶淀粉代谢的动态变化特征

该研究以黄瓜品种‘中农18号’、南瓜砧木品种‘京欣砧5号’为试验材料,以南瓜自根苗(P)和去除1片子叶及生长点的南瓜苗( /P)为对照,采用单子叶贴接法进行黄瓜/南瓜异体嫁接(C/P)和南瓜/南瓜自体嫁接(P/P),测定嫁接后砧木子叶形态指标和淀粉代谢的动态变化,分析嫁接后去除砧木子叶对嫁接苗生长发育的影响,以揭示砧木子叶淀粉代谢在黄瓜嫁接苗生长中的作用,为黄瓜嫁接苗的壮苗培育提供理论依据。结果显示：(1)贴接后,C/P、P/P和 /P砧木子叶鲜质量和面积显著增大,且增加量依次递减,表现为 /P > C/P > P/P > P。(2)贴接后,C/P和P/P砧木子叶中淀粉含量在嫁接后0~3 d时降低,之后迅速升高,至嫁接后13 d再次逐渐降低,且C/P砧木子叶淀粉含量及其淀粉分支酶(SBE)和水解酶(β AL)活性均显著高于P/P。(3)在嫁接后0~10 d 去除砧木子叶可显著抑制C/P嫁接苗接穗和根系生长,减弱根系活力,同时降低根系可溶性糖含量及其CWIN、HXK基因表达水平,并以嫁接后0 d 去除砧木子叶的抑制效果最显著。研究表明,黄瓜C/P单子叶贴接苗中,砧木子叶作为贮存器官,在幼苗生长早期以淀粉形式储存光合产物,之后淀粉水解成单糖为嫁接苗接穗和根系快速生长提供物质和能量。     

提高沙田柚茎尖嫁接成活率的研究

研究了可以影响沙田柚茎尖嫁接成活率的部分因素。结果表明 :当沙田柚接穗选择带 4个叶原基的茎尖、枳壳砧木选择黑暗培养 1 4d的实生苗或培养基中蔗糖浓度选择 7.5 %时各自的嫁接成活率较高。若在茎尖嫁接切口外缠绕 parafilm胶可令成活率明显增加。若在培养基中加入 GA3、6-BA和 IBA则明显抑制嫁接成活率。GA3、6-BA和 IBA处理接穗和砧木均可提高嫁接成活率 ,其中以 1 0 mg/L GA3处理效果最好 ,嫁接成活率可达 45 % ;6-BA和 IBA处理虽然也可提高嫁接成活率 ,但是同时又增加了接穗的脱落死亡率。     

提高沙田抽茎尖嫁接成活率的研究

研究了可以影响沙田抽茎嫁接成活率的部分因素。结果表明：当沙田抽接穗选择带4个叶原基的茎尖、枳壳砧木选择黑暗培养14d的实生苗或培养基中蔗糖浓度选择7．5％时各自的嫁接成活率较高,若在茎尖嫁接切口外缠绕parafilm胶可令成活率明显增加。若在培养基中加入GA3、6－BA和IBA则明显抑制嫁接成活率。GA3、6－BA和IBA处理接穗和砧木均可提高嫁接成活率,其中以10mg/LGA3处理效果最好,嫁接成活率可达45％;6－BA和IBA处理虽然也可提高嫁接成活率,但是同时又增加了接穗的脱落死亡率。     

核桃嫁接技术在提升核桃产量中的应用

核桃嫁接技术在保证嫁接成活率和提高核桃产量方面有着较为重要的作用。本文首先分析了影响嫁接成活率的因素,包括砧接穗的质量、砧木和接穗的亲和力、嫁接伤口流量、环境因素以及穗条的处理等。其次,对嫁接前的准备工作进行了介绍,包括砧木培育和选择接穗标准。最后,对嫁接过程中的关键技术进行了分析,包括劈接技术、削接穗技术和插接穗技术等。     

外源激素对沙田柚茎尖微嫁接成活率的影响

外源激素可对沙田柚茎尖微嫁接成活率产生显著影响.若在培养基中加入一定浓度的GA3、6-BA或IBA,均会明显抑制微嫁接的成活率;若直接利用这三种激素以合适的浓度处理砧木和接穗,则会不同程度地提高微嫁接的成活率.三者之中以10mg/LGA3的促进作用最为明显,微嫁接的成活率可达45%,6-BA和IBA处理虽然也能提高微嫁接的成活率,但它们又同时增加了接穗的脱落死亡率.     

番茄和马铃薯的嫁接方法

番茄和马铃薯的嫁接,是学生学习米丘林学说之后最喜欢的实验。但过去我们很少见到简单的嫁接方法,这里仅将我们去年在植物园里进行番茄和马铃薯嫁接的简单方法介绍如下:去年春天,我们初次领导学生在植物园里进行番茄和马铃薯的嫁接实验,在嫁接方面基本上是成功的,其成活率达80%,如米丘林小组学生嫁接5棵就活了4棵。嫁接的时间是在5月下旬进行的,这个时间马铃薯的幼苗已经长到7—8厘米高,番茄的幼苗也长出5—8个叶子。我们首先选择肥胖而短粗发育良好的番茄幼苗作为接穗(番茄苗应比马铃薯早培育月余,苗高10厘米左右),选择发育一般的马铃薯幼茁作为砧木。嫁接工作进行时,可以将选择好的番茄幼苗连根挖起,拿到砧木生长地点,再将选择好的马铃薯幼苗(茎的粗细要和接穗差不多)从离地面约二厘米处横切去顶端,并把切处以下生的叶子和腋芽一起切去,从砧木茎的中间切一纵切口。再将选择好的粗短而健壮的接穗幼苗,从顶芽留3—4片叶子以下处切去,用保险刀片将接穗的     

淹水胁迫对青杨雌雄幼苗生理特性和生长的影响

为揭示青杨(Populus cathayana)雌雄幼苗对淹水胁迫的适应性, 在实验地内通过土培盆栽淹水方式从植株生理生态和生长发育方面探讨淹水胁迫对青杨扦插苗的影响。试验分为对照和淹水2个处理, 处理时间为40天。结果显示: (1)淹水胁迫导致青杨幼苗叶片中的丙二醛(MDA)含量和茎部淹水区的不定根数显著升高, 植株的净光合速率(P_n)、叶绿素含量、超氧化物歧化酶(SOD)活性、株高、基径、总叶面积、比叶面积(SLA)、根生物量、叶生物量、茎生物量、总生物量干重和根冠比(R/S)显著降低。(2)与雄株相比, 淹水胁迫显著增加了雌株幼苗的MDA含量, 降低了SOD活性、P_n、类胡萝卜素(Caro)含量、叶绿素a/b、SLA、根生物量和R/S, 并导致雄株在淹水胁迫下具有比雌株更高的气孔导度(G_s)、胞间CO₂浓度(C_i)、蒸腾速率(T_r)、不定根数和株高。可见, 淹水胁迫对青杨雌雄幼苗的形态生长和生理过程均有严重的抑制作用, 但表现出显著的性别间差异。雄株可以通过维持更高的光合作用能力和增加不定根数量来维持植株的生长, 从而表现出比雌株更强的抗逆性。     

成年沙田柚树试管嫁接及微繁殖的研究

分别以两类沙田柚侧芽为接穗、酸柚为砧木进行了试管嫁接,结果表明:不同嫁接方式、接穗大小以及不同激素处理均直接影响到试管嫁接成活率.对大田侧芽而言,接穗大小以茎尖为宜,1.0mg/LGA3或0.5mg/L6-BA处理效果较佳,嫁接成活率分别达50%和30%;对侧枝沙培萌发的侧芽而言,接穗大小以茎尖 1个节间为宜,2.0mg/LGA3或0.5mg/L6-BA处理效果较佳,嫁接成活率分别达90%和80%.在相同条件下,后者的嫁接成活率一般明显高于前者.两种沙田柚嫁接苗的试管微繁殖没有明显区别,在MS 6-BA0.1mg/L培养基上均可分化不定芽,继代的嫁接成活率可达90%以上.     

嫁接导致的绿豆可遗传性变异及其在绿豆育种中的应用

植物嫁接可以导致接穗的后代中有可遗传性变异的发生。我们将绿豆 (Vignaradiata (L .)Wilczek)的幼苗嫁接在红薯 (Ipomoeabatatas (L .)Lam .)的茎上 ,维护其生长至结实。将收获的绿豆种子连续几代播种于普通环境时 ,其后代中出现了明显的遗传变异。这些变异在未经嫁接的绿豆接穗品系中并不出现。为了研究这种嫁接诱导变异现象可能的机理 ,我们对变异品系的细胞质和细胞核DNA进行了分析。结果显示 ,在原绿豆和变异品系之间未发现细胞质DNA的RFLP(限制性酶切片段多态性 )差异。而细胞核DNA却发生了高频率的序列重组。同时 ,本研究没有发现砧木与接穗间基因转移的迹象。根据以上事实 ,我们推测远缘嫁接变异很有可能是嫁接生长逆境诱导的抗逆变异。     

Effects of mutual grafting on the cadmium accumulation characteristics of two ecotypes of Solanum photeinocarpum

Abstract

The effects of mutual grafting on the cadmium (Cd) accumulation characteristics of two ecotypes (farmland and mining) of the potential Cd-hyperaccumulator Solanum photeinocarpum were studied through a pot experiment for one month. Four treatments were used in the experiment: ungrafted farmland ecotype (F-CK), ungrafted mining ecotype (M-CK), the farmland ecotype as the scion grafted onto rootstocks of the mining ecotype (F-Scion), and the mining ecotype as the scion grafted onto rootstocks of the farmland ecotype (M-Scion). Mutual grafting increased the rootstock biomass of both S. photeinocarpum ecotypes. However, mutual grafting decreased the scion biomass of F-Scion compared with F-CK and M-CK, and the scion biomass of M-Scion was higher than that of M-CK and lower than that of F-CK. The Cd content in the rootstock of M-Scion increased compared with F-CK, and the Cd content in the rootstock of F-Scion increased compared with M-CK, but mutual grafting decreased the Cd content in scions of both S. photeinocarpum ecotypes. Mutual grafting increased Cd extraction by rootstocks of both S. photeinocarpum ecotypes, but decreased extraction by scions. Therefore, mutual grafting can increase Cd accumulation in S. photeinocarpum rootstocks but not increase Cd accumulation in S. photeinocarpum scions in a short period.     

Cotton shoot plays a major role in mediating senescence induced by potassium deficiency

The objective of this study was to determine the roles of shoot and root in the regulation of premature leaf senescence induced by potassium (K) deficiency in cotton (Gossypium hirsutum L.). Two contrasting cultivars (CCRI41, more sensitive to K deficiency; and SCRC22, a less sensitive cultivar) were selected for self- and reciprocal-grafting, using standard grafting (one scion/one rootstock), Y grafting (two scions/one rootstock) and inverted Y grafting (one scion/two rootstocks) at the seedling stage. Standard grafting was studied in the field in 2007 and 2008. There were no obvious differences in senescence between CCRI41 and SCRC22 scions while supplied with sufficient K. However, SCRC22 scions showed significantly greater K content, SPAD values (chlorophyll content), soluble protein content and net photosynthetic rates than CCRI41 scions while grown in K deficient solution or soil, regardless of rootstock cultivars, grafting types, growth stage and growth conditions. Also, SCRC22 scions had greater yield and less variation in boll weight either between upper- and lower sympodials, or between proximal and distal fruit positions from the main stem in the field under K deficiency, probably owing to reduced leaf senescence. Although the effect of rootstocks on leaf senescence under K deficiency was significant in some cases, the scion cultivars explained the highest percentage of variations within grafting treatments. The shoot-to-root feedback signal(s), rather than high shoot demand for K nutrition, was involved in the shoot regulation of premature senescence in cotton plants, achieved possibly by altering root K uptake.     

Development,histological observations and Grapevine leafroll‐associated virus‐3 localisation in in vitro grapevine micrografts

Development, histological process and Grapevine leafroll‐associated virus‐3 localisation were studied in micrografts of three scion/rootstock combinations: healthy/healthy, healthy/infected and infected/healthy. Earlier bud break and faster growth in scions of micrografts were obtained when the healthy shoot segments were used as scions, while earlier bud break in rootstocks and greater fresh weight of roots in micrografts were produced when the healthy shoot segments were used as rootstocks. All histological processes including callus initiation and formation in micrografting conjunctions, and initiation of new cambial cells followed by vascular bundle development connecting scions and rootstocks were similar in micrografts, regardless of the sanitary status of the scions and rootstocks used for micrografting. Virus infection in micrografting conjunctions and systematic infection in micrografts were much more efficient and faster in micrografting combination of the infected scions/healthy rootstocks than in the healthy scions/infected rootstocks. To the best of our knowledge, this is the first report addressing histological process of micrograft development and virus localisation in micrografts. In vitro culture system established in this study facilitates studies on the ‘pure’ impact of the viral infection on micrografting.     

Transmission of RNA silencing signal through grafting confers virus resistance from transgenically silenced tobacco rootstocks to non-transgenic tomato and tobacco scions

We examined the transmission of RNA silencing signal in non-transgenic tomato and tobacco scions grafted onto the tobacco Sd1 rootstocks, which is silenced in both NtTOM1 and NtTOM3 required for tobamovirus multiplication. When the non-transgenic tomato scions were grafted onto the Sd1 rootstocks, RT-PCR analysis of the scions showed the reduced level of mRNA compared with that before grafting in both LeTH3 and LeTH1, tomato homologs of NtTOM1 and NtTOM3, respectively. siRNAs from both genes were detected in the scions after grafting but not before grafting. Further tomato scions were inoculated with Tomato mosaic virus (ToMV) and used for virus infection. They showed very low level of virus accumulation. Necrotic responding tobacco to tobamovirus was grafted onto the rootstock of Sdl. RT-PCR analysis showed low level expression of both NtTOM1 and NtTOM3 in the scions but siRNA was detected after grafting. When the leaves of scions were inoculated with ToMV or Tobacco mosaic virus, they produced very few local necrotic lesions (LNLs) while the control scions did many LNLs. These results suggest that RNA silencing was transmitted to non-transgenic tomato and tobacco scions after grafting onto the Sd1 rootstocks and that virus resistance was induced in the scions.     

柑桔接穗对砧木生长及若干生理生化特性的影响

以体细胞杂种红桔+枳、红桔+粗柠檬和有性杂种Troyer枳橙、Swingle枳柚以及枳作砧木的"国庆4号"温州蜜柑、脐橙(无枳砧)和不嫁接的砧木幼树为试材,通过两年盆栽试验研究接穗对砧木生长、根系活力和根系抗氧化酶活性的影响。结果表明,Swingle枳柚和红桔+粗柠檬的砧粗易受接穗影响,接穗显著地影响砧木根系体积。在一般情况下,同一种砧木嫁接后砧木根系活力、超氧化物歧化酶(SOD)和过氧化物酶(POD)活性低于未嫁接砧木,或与其差异不显著;同时存在接穗促进根系过氧化氢酶(CAT)活性升高的现象。     

Rootstock effects on xylem conduit dimensions and vulnerability to cavitation of <Emphasis Type="Italic">Olea europaea</Emphasis> L.

Two clones of Olea europaea L. were studied for their potential impact on hydraulic architecture and vulnerability to xylem cavitation, when used as rootstocks. The clones used were “Leccino Minerva” (LM), showing vigorous growth and “Leccino Dwarf” (LD) with strongly reduced growth. Self-rooted LM and LD plants as well as their grafting combinations were compared, namely, LM/LD (Leccino Minerva grafted onto Leccino Dwarf rootstock) and LD/LM (Leccino Dwarf grafted onto Leccino Minerva rootstocks). Plants with LD roots (LD and LM/LD) showed significantly reduced leaf surface area compared with plants with LM roots. Xylem conduits of LD shoots were 25% more numerous than in LM shoots. When grafted onto LM rootstocks, however, LD shoots produced consistently wider and longer vessels than measured in LD self-rooted plants. This caused LD/LM plants to increase stem vulnerability to cavitation with threshold pressures for cavitation (P _c) of less than 0.5 MPa compared with LD self-rooted plants that had P _c of over 2.0 MPa. By contrast, although LD rootstocks caused some reduction of vessel diameter and length of LM scions, their influence on LM hydraulic architecture was too small to reduce vulnerability to cavitation of LM scions with respect to that measured for LM self-rooted plants. Our conclusion is that although dwarfing rootstocks effectively reduce grafted plant size, they do not necessarily confer higher resistance to xylem cavitation to scions which would improve plant resistance to drought.