欧美杂种山杨微扦插不定根发生过程的解剖学研究

采用石蜡切片技术,以欧美杂种山杨插穗基部茎段为实验材料,连续解剖观察插穗不定根发生发育过程,分析根原基发生部位与扦插生根的关系。结果显示:欧美杂种山杨插穗不定根的发生过程分为4个时期,为根原基诱导期,不定根起始期、表达期和伸长生长期。根原基诱导期维管形成层产生具有分生组织特点的薄壁细胞;不定根起始期,维管形成层及附近的薄壁细胞脱分化,形成不定根原基发端细胞;不定根表达期,根原基发端细胞不断分裂成具有方向性的根原基,根原基穿过韧皮射线和皮层,向皮孔方向发展;不定根伸长生长期,根原基从皮孔伸出,其内部的维管系统开始发育,形成不定根。研究认为,欧美杂种山杨为皮部诱导生根类型,不定根原基起源于维管形成层区,起源部位单一,扦插难生根。     

油茶插穗生根过程的解剖学观察

采用常规石蜡切片法,观察油茶插穗不定根发育的解剖学特征。结果表明：油茶当年生插穗茎内无潜伏根原基, 插条的皮部存在连续排列成环状的厚壁细胞,这些结构特征可能与油茶插条生根时间较长有关。不定根由诱生根原基发育形成, 诱生根源于形成层、韧皮部及愈伤组织等部位,不定根属于诱导根原始体型、混合生根型。只有极少数插条的不定根由愈伤组织长出,不定根的发生与愈伤组织没有直接关系。     

杂种鹅掌楸插穗不定根发生与发育的解剖学观察

从解剖学角度着手,对杂种鹅掌楸〔Liriodendronchinense(Hemsl.)Sarg.×L.tulipiferaL.〕扦插过程中不定根的发生发育进行了研究。结果表明:杂种鹅掌楸插穗内未发现潜伏根原基。扦插后,不定根原基起源于维管形成层区,属于诱导生根类型。维管形成层恢复活动后,在不定根发生的部位附近形成1个明显的多薄壁细胞区域,在此区域不定根较容易发生。愈伤组织内没有发现根原基,愈伤组织在发育的过程中,内部细胞部分分化,并形成不规则的输导组织。大量的愈伤组织对不定根的发生有较强的抑制作用。杂种鹅掌楸插穗上不定根的发生可分为4个阶段:(1)维管形成层恢复活动,分裂出多层薄壁细胞;(2)维管形成层及附近的薄壁细胞脱分化,形成不定根原基发端细胞;(3)根原基发端细胞不断分裂成具有方向性的根原基,根原基穿过韧皮射线和皮层,向皮孔或下切口方向发展;(4)不定根从皮孔或下切口伸出,其内部的维管系统开始发育。     

四合木茎插穗生根的解剖学研究

采用石蜡制片法对四合木茎插穗不定根的形成进行了解剖学研究,探讨四合木生根类型、生根部位、愈伤组织与生根的关系以及不定根的形成过程。结果显示:(1)四合木具有典型的木本植物茎结构,茎皮层内未发现厚壁组织。(2)四合木茎薄壁组织含有丰富的淀粉粒和蛋白质。(3)四合木茎插穗内无潜伏根原基,不定根由诱生根原基发育形成,诱生根原基是由愈伤组织自身的薄壁细胞反分化形成。研究表明,愈伤组织是孕育不定根的前提,四合木扦插生根属于愈伤组织生根类型。     

八角莲组织培养的器官发生途径研究

为探究小檗科植物八角莲组织培养的器官发生方式,该研究以八角莲离体叶片、叶柄在MS培养基上诱导产生的愈伤组织、不定芽、不定根为对象,用连续石蜡切片技术分析八角莲组织培养的器官发生途径。结果表明:八角莲愈伤组织形成的解剖学特征是靠近表皮的薄壁细胞经激素刺激恢复分裂能力,继续培养形成拟分生组织。拟分生组织可形成许多分化中心。通过对八角莲组织培养产生的不定芽细胞组织学观察发现芽原基起源于愈伤组织外侧的几层薄壁细胞,芽原基背离愈伤组织中央生长形成不定芽,故八角莲脱分化形成的芽起源方式为外起源。而八角莲的根原基起源于组织深处髓部薄壁细胞和部分维管形成层细胞,进而形成类似球形或楔形并朝韧皮部突起的根原基轮廓,根原基继续发育会突破表皮生成不定根,起源方式为内起源。八角莲离体再生途径为器官发生型,在组培苗生长过程中先诱导形成不定芽,再诱导形成不定根,在愈伤组织上形成维管组织将不定芽和不定根连接成完整植株。     

金塔柏扦插不定根形成与内源激素的调控研究

金塔柏（Platycladus orientalis ‘Beverleyensis’）是重要的观赏树种。生长素（IAA）、玉米素（ZT）、脱落酸（ABA）和茉莉酸（JA）在金塔柏扦插不定根再生过程中起着重要的调控作用,但不同发育阶段内源激素的动态变化及其对不定根发生的影响仍不清楚。以金塔柏半木质化枝条为材料,采用连续组织切片技术观察了不定根发生过程,利用高效液相色谱串联质谱法检测了4种内源激素含量的动态变化。结果表明,金塔柏不定根原基起源于愈伤组织、髓射线、木质部、维管形成层、次生韧皮部、皮层、髓射线与形成层交界处等部位,属于多位点发生模式和多类型生根方式。在不定根形成过程中,随着愈伤组织的形成,IAA和ZT含量下降,ABA和JA含量升高;随着根原基的分化,IAA和ZT含量缓慢升高,ABA和JA含量下降;随着不定根形成与伸长,IAA、ZT、JA逐渐升高,ABA维持在低水平。激素平衡分析发现,IAA/ABA比值和IAA/JA比值下降、IAA/ZT比值上升利于愈伤组织的形成,反之利于根原基的诱导分化,而IAA/ABA比值升高,IAA/ZT和IAA/JA维持在较低水平利于不定根形成与伸长。研究结果为揭示不同内源激素对金塔柏扦插不定根再生的调节作用提供了依据。     

微型月季插穗筛选及其生根生理和解剖结构研究

以微型月季Rosa chinensis品种‘淑女’和‘维纳斯’作为材料,探究未木质化插穗、半木质化插穗和木质化插穗的扦插生根效果;同时测定‘淑女’半木质化插穗内源激素含量的动态变化,观察其不定根原基起源的解剖结构。结果表明,插穗木质化程度影响扦插生根效果,两个月季品种的插穗扦插效果依次是：半木质化插穗>未木质化插穗>木质化插穗。‘淑女’半木质化插穗在第7 d产生不定根,其生根能力优于‘维纳斯’;‘淑女’半木质化插穗的IAA含量随时间呈递减趋势,ABA、GA和ZR含量则均呈先降低后升高趋势,插穗内源激素含量变化共同影响不定根的形成。通过解剖学观察,微型月季插穗中未发现潜伏根原基,属于诱发根原基类型,其不定根原基起源于韧皮部和维管形成层区域的薄壁细胞团。     

油茶组培苗器官发生的形态学与解剖学研究

以油茶岑软3号组培苗为研究材料,对其器官发生过程进行形态学和解剖学观察。结果表明:在选定的培养基上,外植体不经过愈伤组织,直接由器官诱导形成增殖芽,从而有效地保持了其遗传的稳定性。油茶增殖芽不定根由诱导的根原基发生,它起源于形成层薄壁细胞定向分化,不断向外进行伸长生长,并穿透愈伤组织而形成。这种不定根发生形式属皮部生根类型。油茶增殖芽单芽生根培养25 d后在不定根内形成次生维管形成层和木栓形成层,培养40 d以上根内的输导分子与茎内的输导分子相连。     

红皮云杉茎的解剖结构与插条不定根形成的研究

１９９２年７－８月定时固定红皮云杉插条基部材料于ＦＡＡ液中,石蜡制片法室内解剖研究不定根的发生。结果表明：红皮云杉插条诱发根原基的来源有两种途径。一种是愈伤组织生根型,在愈伤组织的再生形成层处,或茎的维管形成层诱发根原基;另一种是非愈伤组织生根型,在插条切口处的维管形成层、皮层或初生木质部与次生木质部间的薄壁组织较深的部位,直接产生纵向不定根原始体,有的在距离切口０．１－０．５ｃｍ以上茎的维管形成层,维管形成层与木射线的交界处及叶隙等薄壁组织产生径向不定根。不同个体间产生的不定根数量及发育的早晚差异较大。     

毛叶茶茎插穗生根的解剖研究

对毛叶茶茎插穗不定根形成进行了显微研究。观察发现,不定根起源于木射线薄壁细胞和韧皮部起源的愈伤组织。愈伤组织起源的不定根是由伤组织中部的细胞直接产生维管分子或者先产生形成层,再由形成层分化纤管分子。愈伤组织是孕育不定根的前提。韧皮部外侧近乎连续的厚壁的韧皮纤维束不妨碍不定根的发育。     

Histological analysis of adventitious rooting in Arabidopsis thaliana (L.) Heynh seedlings

ABSTRACT

Adventititous rooting is essential for the post-embryonic growth of the root apparatus in various species. In Arabidopsis thaliana, adventitious rooting has been reported in some mutants, and auxin seems to be the inducer of the process. The objective of the study was to identify the tissues involved in adventitious rooting in the most commonly used ecotypes for molecular and genetic studies (i.e. Columbia, Wassilewskija and Landsberg erecta) both in the presence and absence of exogenous auxin. Seedlings of the three ecotypes were grown under various conditions. When grown under 16 hours light/day for 11 days, all seedlings showed adventitious roots, both with and without auxin, however, both adventitious and lateral rooting were enhanced by exogenous auxin (2 µM naphthaleneacetic acid). Independently of the presence of auxin and of the ecotype, the hypocotyl pericycle produced adventitious roots directly (i.e., according to the same pattern of lateral root formation by the pericycle cells in the primary root). However, in the presence of auxin, roots of indirect origin also, and mainly, formed and their formation was preceded by the exfoliation of the tissues external to the stele. Exfoliation was caused by cell hypertrophy, separation, and disintegration, which mainly involved the endodermis. At the exfoliation site, the pericycle, with a minor contribution of a few endodermal cells, produced the callus from which indirect roots arose. The finding that adventitious rooting occurs in the absence of auxin (all ecotypes) indicates that this process is part of the normal root apparatus in Arabidopsis, with the hypocotyl pericycle as the target tissue of the process. Exogenous auxin alters adventitious rhizogenesis mainly affecting the endodermis response.     

Morpho-Histological Investigation of Plantlet Formation In Vitro in Taiwania flousiana Gaussen

Histological events during adventitious shoot formation in cultured shoot apex of 10–12-day-old seedlings and adventitious root formation in the elongated shoot of Taiwania floudana Gaussen were examined. Ceils of the peripheral subsurface layers of the shoot apex responded to cytokinin and divided into meristematic cells from which the shoot primordia were proliferated. A few bud primordia also originated from the epidermis and hypodermis of the adaxial surface of the cotyledon. The parenchyma of leaf gap of the shoots cultured in rooting medium dedifferentiated to regain the capacity of division and form adventitious root. Besides, cells that had relatively low potential of differentiation, such as the cortex parenchyma, pith ray, phloem parenchyma and cambium zone, albeit initiated to divide, but seldom formed root primordium. The origin of the adventitious roots in the leaf gap facilitated the establishment of the vascular connection between the shoot and root.     

温度对马尾松组培单芽不定根发生的影响

马尾松( Pinus massoniana)组织培养生根困难,该研究在严格控制光温条件的光照培养中,以马尾松无性系组培继代芽为材料,分析了在不同温度处理下马尾松组培单芽生根率、生根时间、根系条数和移栽成活率等生根能力指标以及生根解剖构造的变化。所有数据均采用SPSS 19.0统计分析软件,进行单因素分析(ANOVA)的显著性检验及最小显著性差异法(LSD)的多重比较。结果表明：在25℃最适温度培养下,马尾松组培生根效果较佳,移栽成活率最高,可达98.1％。低温处理下,生根时间显著延长,根系条数减少,生根率偏低;高温处理下,根茎愈伤组织明显,移栽成活率显著降低。从生根解剖构造来看,马尾松不定根主要由维管形成层细胞分化而成。与25℃适温处理相比较,在20℃较低温处理下,细胞分裂活动缓慢,不定根原始体诱发较少;而在30℃较高温处理下,细胞活动旺盛,但髓射线与维管组织细胞染色颜色加深、排列紧密,将诱发的不定根原基细胞团区隔成带状或片状。该研究结果探讨了培养环境温度对马尾松组培单芽生根能力的影响,为马尾松组培苗生产提供了参考。     

Histological study of callus formation and root regeneration from mung bean (Vigna radiata W.)

We have established a reproducible culture system for callus formation and root development from juvenile stem segments of mung bean(Vigna radiata). In particular, we have studied the influence of plant growth regulators. Induction of calli from young stem explants was very effective on MS inorganic salts supplemented with 0.5 mg/L 2,4-D and 1.0 mg/L kinetin. In regenerating adventitious roots from callus tissues, we found that a combination of 0.75 mg/L NAA, 1.5 mg/L kinetin, and MS salts resulted in 20% efficiency. Histological examination showed that callus tissues originated from out-growths of the cambium rings through de-novo meristematic activity. Those rings were localized outside the vascular cambium. Adventitious roots that developed from root primordia originated from the center of the Callus masses. These primordia produced tracheid-like cells, which then became meristemoid cells for the cambium. Newly formed adventitious roots had the typical tetrarche actinostele type.     

INITIATION AND DEVELOPMENT OF ROOTS IN JUVENILE AND MATURE LEAF BUD CUTTINGS OF FICUS PUMILA L.

Adventitious root formation (ARF) was studied in woody leaf bud cuttings of Ficus pumila L., creeping fig. Juvenile cuttings rooted easily, whereas only mature cuttings treated with indole-3-butyric acid (IBA) attained any rooting success. In the rooting process, both juvenile and mature material exhibited dedifferentiation of phloem ray parenchyma, root initial formation, primordia differentiation, and root elongation. The early stages of adventitious rooting were most critical since few primordia were observed in mature controls. The stages leading up to root primordia differentiation and elongation occurred more rapidly in IBA-treated juvenile vs. mature cuttings; however, time differences in both types between first observable roots and maximum rooting were comparable. Root primordia differentiated from basal callus of some cuttings, but neither these nor the few primordia in mature controls elongated into well-developed roots. Anatomical differences between the juvenile and mature material did not account for rooting disparity, nor did presence of perivascular fibers, sclereids, and laticifers retard rooting.