中国木兰科各属次生木质部的解剖特征及系统演化

综述了中国木兰科10属的次生木质部解剖学特征,包括导管分子,纤维管胞和木射线。同时,进一步讨论了其系统演化。这10属分为两亚科,即:木兰亚科(Magnoliodeae),包括木兰族(Magnolieae)和含笑族(Michelieae Law),木兰族有木莲属(Maglietia Bl.)、华盖木属(Manglietiastrum Law)、木兰属(Magnolia L.)、拟单性木兰属(Parakmeria Hu et Cheng)、单性木兰属[Kmeria(Pierre) Dandy]、长蕊木兰属(Alcimandra Dandy)共六属;含笑族有含笑属(Michelia L.)、合果木属(Paramichelia Hu)、观光木属(Tsoongiodendron Chun)共三属。鹅掌楸亚科[Liriodendroideae(Bark) Law],仅鹅掌楸属(Liriodendron L.)一属。大量的木材解剖学研究表明,木兰科的原始性很明显,但也有一些进化特征。可以通过属间的差别来分析本科的系统演化。木兰科的系统演化可简单总结为:木兰亚科[木兰族(木莲属,华盖木属,拟单性木兰属,单性木兰属→木兰属,长蕊木兰属)→含笑族]→鹅掌楸亚科。     

用matK序列分析探讨木兰属植物的系统发育关系

用木兰科Magnoliaceae 57种植物的matK基因序列构建了该科的系统发育分支图。结果表明: (1)木兰属Magnolia L.是一个因为性状的趋同演化而建立的多系类群; (2)木兰亚属subgen. Magnolia和玉兰亚属subgen. Yulania (Spach) Reichenb.亲缘关系较远, 支持将后者从该属中分出建立玉兰属Yulania Spach, 木兰亚属作为木兰属保留; (3)木兰亚属的sect. Splendentes Dandy ex Vazquez组与皱种组sect. Rytidospermum Spach的两个美洲种M. macrophylla Michaux和M. dealbata Zucc.亲缘关系较近, 荷花玉兰组sect. Theorhodon Spach与常绿组sect. Gwillimia DC.的亲缘关系较近; (4)盖裂木属Talauma Juss.可以成立, 而其分布于亚洲的Blumiana Blume组可归入木兰属; (5)拟单性木兰属Parakmeria Hu &; Cheng、华盖木属Manglietiastrum Law以及单性木兰属Kmeria (Pierre) Dandy形成一个单系群, 与玉兰亚属和含笑属Michelia L.的亲缘关系较近。花的着生位置不足以作为木兰科的分族依据, 含笑族Michelieae和木兰族Magnolieae的特征及其界定应做修改。将玉兰亚属从木兰属分出后, 木兰属与含笑属无性状交叉,成为两个区别明显的属。     

Sclerotesta morphology and its systematic implications in magnoliaceous seeds

Seeds of 101 species from 14 genera were observed using stereoscopic and scanning electron microscopy. Sclerotesta morphology is stable within the genera of Magnoliaceae. Two different morphological types are described according to features of the chalazal region, which have great value in classification and have been found only in Magnoliaceae. One is the pore type, characterized by being simple, observed in the relatively primitive taxa of this family, including Manglietia, Pachylarnax, Magnolia (19 species), Aromadendron, Talauma (eight species), Parakmeria (one species), Kmeria (one species), Elmerrillia and Liriodendron . The other one is the tube type, which is characterized by having a more complex structure consisting of a central hollow tube contained within a hole. This type was observed in relatively advanced taxa, including Manglietiastrum, Magnolia (15 species), Talauma (three species), Parakmeria (four species), Kmeria (one species), Alcimandra, Michelia, Paramichelia and Tsoongiodendron . Transitional types between these two were observed in some species of Magnolia . Chalazal region morphology, together with other useful sclerotesta characters, including seed size, shape, the raphal sinus and the external surface of the sclerotesta, may be used as diagnostic characteristics of genera, and even species in Magnoliaceae. A key to identify the different genera is supplied.  © 2003 The Linnean Society of London, Botanical Journal of the Linnean Society , 2003, 142 , 407–424.     

Phylogenetic relationships in family Magnoliaceae inferred from ndhF sequences

The ndhF sequences of 99 taxa, representing all sections in extant Magnoliaceae, were analyzed to address phylogenetic questions in the family. Magnolia macrophylla and M. dealbata, North American species of Magnolia section Rytidospermum, are placed at the base in the subfamily Magnolioideae although its supporting value is low. In the remaining taxa, several distinctive lineages are recognized: (1) Magnolia, the biggest genus in the family, is not monophyletic; (2) Michelia, including section Maingola of Magnolia subgenus Magnolia, is closely related with Elmerrillia and sections Alcimandra and Aromadendron of Magnolia subgenus Magnolia; (3) the associates of Michelia are grouped with Magnolia subgenus Yulania and section Gynopodium of Magnolia subgenus Magnolia; (4) Pachylarnax forms a clade with sections Manglietiastrum and Gynopodium of Magnolia; (5) a well-supported Manglietia clade is recognized; (6) Caribbean species of section Theorhodon of Magnolia subgenus Magnolia, which are section Splendentes sensu Vázquez-Garcia, are closely allied with New World members of Magnolia subgenus Talauma; and (7) section Rytidospermum of Magnolia subgenus Magnolia and subgenus Talauma are polyphyletic. The separated clades in the molecular tree are considerably different from traditional taxonomic dispositions in the family. The molecular data strongly suggest that a taxonomic realignment of infrafamilial delimitations and compositions should be considered.     

The Determination of Nuclear DNA Content (2C value) on Some Representative Genus and Species of Magnoliaceae

The plant nuclear DNA content (2C value) is a principal characteristic parmeter to describe biodiversity of species,which has important significance on the study of plant resources. In this study, we choosed 23 species from 10 representative genera (Magnolia、Michelia、Manglietia、Liriodendron、Talauma、 Paramichelia、Tsoongiodendron、Manglietiastrum、Kmeria、Parakmeria) of Magnoliaceae in China. All samples were determined using a flow cytometry technique with a standard of Zea mays (545pg/2C). The amount of nuclear DNA among these species ranged from 325pg (317850Mbp) to 1361pg (1331058Mbp) for Pgrandiflora, Mofficinalis subsp. biloba respectively, and the coefficient of variation (CV) were less than 5%. The results of the study will not only provide references for determination of the nuclear DNA content of Magnoliaceae and other plants, but also lay the foundation for the utilization and conservation of Magnoliaceae plant resources.     

木兰科种子内种皮合点区形态及其系统学意义

在扫描电镜下系统研究了木兰科10属52种成熟种子内种皮合点区形态。该形态分为孔型和管型两大类。孔型为内种皮合点区具一小穿孔。木莲属Manglietia、香木兰属Aromadendron、盖裂木属Talauma(8种)、南洋含笑属Elmerrillia和鹅掌楸属Liriodendron具此类型。管型由内种皮合点区向下凹陷形成的小窝和由窝底向外伸出的小管组成。华盖木属Manglietiastrum、盖裂木属Talauma(3种)、长蕊木兰属Alcimandra、含笑属Michelia、合果木属Paramichelia和观光木属Tsoongiodendron具此类型。在木兰属部分种中还观察到两种形态之间的过渡类型。上述形态特征在属内稳定并为木兰科植物所特有,而且明显表现出原始类群的合点区形态大多为孔型,进化类群的合点区形态大多为管型的特点。     

木兰科植物的杂交亲和性

采用常规杂交育种的方法,在木兰科属内和属间进行了62杂交试验,结果表明,除木兰属的木兰亚属和玉兰亚属之间没有杂交亲和性外,木兰科其他属内都有杂交亲和性,这表明属内不存在生殖隔离,除拟单性木兰属与木兰属的木兰亚属之间有杂交亲和性外,其它属间都没有杂交亲和性,这表明这些属间存在着生殖隔离,因此,木兰科植物的杂交亲和性基本上支持根据形态特征所建立的木兰科科下分类系统,同时,建议将拟单性木兰属与木兰属的木兰亚属合并为木兰属,并将玉兰亚属从木兰属中分出作为玉兰属。     

木兰科的分支分析

主要以形态学、解剖学、细胞学为依据,以德坚木属为外类群,用分支分析的方法探讨了木兰科属间的系统发育关系。有２３个分支单位,选取３２个性状,根据外类群比较原则和化石地层学资料,确定了性状的祖征和衍征。对数据矩阵的分支分析使用ＰＡＵＰ３．１．１和Ｈｅｎｎｉｇ ８６ ｖ．１．５分别在Ｍａｃｉｎｔｏｓｈ和ＩＢＭ机上运行,前者以启发法,后者以ＢＢ命令运算,经严格一致化处理,得到一致化分支图。结果表明：１）木     

Comparative Anatomical Studies on the Vessel Elements of Eight Genera in Magnoliaceae

This paper deals mainly with comparative studies on vessel elements of secondary xylem in Chinese Manglietia, Manglietiastrum, Alcimandra, Parakmeria, Paramichelia, Tsoongiodendron, Aromadendron and Liriodendron. There are some differences between the genera in vessel element length and width. Manglietia species all have scalariform perforation plates, only a few also have simple perforations. The other genera have scalariform perforation plates. only one (Tsoongiodendron odorum Chun) has simple perforations in addition. There are no spiral thickenings in Manglietia except for one species [Manglietia chingii Dandy (M. temuipes Dandy)] . Paramichelia and Liriodendron have no spiral thichenings, but they are present in the other genera. In addition, some other differences in vessel elements between these 8 genera are also discussed.     

八属木兰科植物木材导管分子的比较解剖

本文比较描述了我国木兰科木莲属、华盖木属,长蕊木兰属,拟单性木兰属,合果木属,观光木属,香木兰属和鹅掌楸属等8属22种植物次生质部的导管分子,这些导管分子的长度和宽度都有差异,木莲属的所有种中都有具梯状穿孔板的导管分子,但在少数种中偶然可见到单穿孔,在其它属中,也都有具梯状穿孔板的导管分子,仅在观光木属中偶见的单穿孔,木莲属大多数种均无螺纹加厚,仅桂南木莲一种除外,另外,除了合果木属和鹅掌楸无螺纹加厚外,其余均有此种加厚,各属的导管分子还存在其它一些差异。     

木兰科的化石记录

通过整理和分析木兰科植物的化石记录发现：不论是植物大化石还是花粉,迄今为止在白垩纪以前地层中尚无可靠的记录,自白垩纪以来,木兰科的许多种广泛发生于北半球,如亚洲,欧洲及北美等地,但非洲和大洋洲至今尚未发现木兰科的化石记录。该科最早的化石记录为中国东北延吉地区早白垩世大拉子组的喙柱始木兰Archimagnolia rostrato-stylose Tao et Zhang. 根据现有化石记录,并结合木兰科现代植物的地理分布,推测：1）木兰科的起源时间不迟于早白垩世Aptian-Albian期;2）木兰科起源地点可能是东亚,后来经过欧洲进入北美,再从北美迁移到达南美洲;3）在地质历史时期,木兰属的出现比鹅掌楸属早,从而支持根据形态学与分子系统学研究得出的木兰属较鹅掌楸属原始的结论。     

Vascular systems in the magnoliaceae

Journal of Plant Research - The vascular anatomy of seven genera of Magnoliaceae:Elmerrillia, Liriodendron, Magnolia, Manglietia, Michelia, Paramichelia andTalauma, was examined. Based on the...     

DNA sequences from Miocene fossils: an ndhF sequence of Magnolia latahensis (Magnoliaceae) and an rbcL sequence of Persea pseudocarolinensis (Lauraceae)

We report a partial ndhF sequence (1528 bp) of Magnolia latahensis and a partial rbcL sequence (699 bp) of Persea pseudocarolinensis from the Clarkia fossil beds of Idaho, USA (Miocene; 17-20 million years [my] BP). The ndhF sequence from M. latahensis was identical to those of extant M. grandiflora, M. schiediana, M. guatemalensis, and M. tamaulipana. Parsimony analysis of the ndhF sequence of M. latahensis and previously reported ndhF sequences for Magnoliaceae placed M. latahensis within Magnolia as a member of the Theorhodon clade. This result is reasonable considering that: (1) the morphology of M. latahensis is very similar to that of extant M. grandiflora, and (2) a recent molecular phylogenetic study of Magnoliaceae showed that the maximum sequence divergence of ndhF among extant species is very low (1.05% in subfamily Magnolioideae) compared with other angiosperm families. We reanalyzed the previously reported rbcL sequence of M. latahensis with sequences for all major lineages of extant Magnoliales and Laurales. This sequence is sister to Liriodendron, rather than grouped with a close relative of M. grandiflora as predicted by morphology and the results of the ndhF analysis, possibly due to a few erroneous base calls in the sequences. The rbcL sequence of P. pseudocarolinensis differed from rbcL of extant Persea species by 3-6 nucleotides and from rbcL of extant Sassafras albidum by two nucleotides. Phylogenetic analyses of rbcL sequences for all major lineages of Magnoliales and Laurales placed the fossil P. pseudocarolinensis within Lauraceae and as sister to S. albidum. These results reinforce the suggestion that Clarkia and other similar sites hold untapped potential for molecular analysis of fossils.     

国产木兰科6属植物柱头表面形态比较

用扫描电镜对中国产木兰科单性木兰属、木兰属、木莲属、含笑属、拟单性木兰属和观光木属的42种植物柱头表面形态进行观察.结果表明,42种木兰科植物的柱头均为干柱头,包含单细胞乳突型和多细胞乳突型两类.单性木兰属和观光木属植物是单细胞乳突型;木莲属、含笑属和拟单性木兰属植物是多细胞乳突型;木兰属中木兰亚属植物两型均有,而玉兰亚属则均为多细胞乳突型.结合其他证据,本文支持单性木兰属、木莲属、含笑属、拟单性木兰属和观光木属的建立,并认为在系统学问题较复杂的木兰属中,玉兰亚属是一个相对独立的单系类群,将其独立成属也不无道理,而木兰亚属可能不是一个单系类群,还需要进一步的深入研究,积累更多的性状数据.     

Floral phyllotaxis in basal angiosperms: development and evolution

To date, molecular developmental studies have focused on vegetative rather than floral phyllotaxis because vegetative shoot apices are technically more tractable than floral apices in model plants. In contrast to evolutionary changes in the phyllotaxis of vegetative shoots, however, changes in floral phyllotaxis appear to have played a major role in angiosperm evolution. Consolidation of a whorled floral phyllotaxis in derived groups allowed synorganization of floral organs and further adaptive radiations. In basal angiosperms, floral phyllotaxis is more flexible. To study these phenomena, we need clarification of the complex relations of both spiral and whorled phyllotaxis with divergence angles, plastochrons, spiral versus simultaneous initiation of organs, parastichies, orthostichies, organ series, and whorls. Improved resolution of phylogenetic relationships and increased knowledge of the diversity of floral phyllotaxis will allow us to trace evolutionary changes in floral phyllotaxis in ever more detail. Already, such surveys have confirmed that floral phyllotaxis was unusually labile early in angiosperm evolution. Whether the original floral phyllotaxis in angiosperms was spiral or whorled is equivocal, but it appears that spiral floral phyllotaxis in Magnoliales and Laurales is derived rather than primitive.     

中国木兰科11属40种植物的核形态研究

为了探讨木兰科属间系统学关系和一些种的分类学地位,对中国木兰科11属40种进行了核形态研究。所研究的20种木莲属植物都为二倍体,表明木莲属植物主要是在二倍体水平上进化的,不同的种类具有各自的遗传组成,细微的染色体结构变异可能导致种间形态发生了明显的变化。木兰属的染色体数目具多样性,表明属内存在着不同倍性水平上的进化,说明木兰属分布广泛、形态复杂多样有其细胞学基础。细胞学证据支持木莲属应为独立的属,不宜于归并到木兰属。已观察的含笑属都为二倍体,而木兰属玉兰亚属的大多数种类为多倍体。我们认为维持现有的含笑属的分类地位和范围是恰当的,不支持将含笑属和玉兰亚属合并为一属。拟单性木兰属都是多倍体。木兰科植物形态特征重叠,性状呈网状进化,细胞学证据在探讨一些大属属下种的分类地位时具有一定价值,但论及整个科的分类系统和属间亲缘关系时,作用比较微弱。本文在细胞学基础上,结合形态和地理分布,重点对木莲属一些种类的分类地位进行了讨论。     

THE TERMINAL IDIOBLASTS IN MAGNOLIACEOUS LEAVES

The idioblasts terminating the foliar veinlets were studied in 152 species of the following magnoliaccous genera: Alcimandra, Aromadendron, Elmerrillia, Kmeria, Liriodendron, Magnolia, Manglietia, Michelia, Paramichelia, and Talauma. In all genera, except Liriodendron, some of the veinlets in mature leaves terminate in enlarged, nonliving cells called tracheoidal elements. Only one wall-facet (rarely 2) in such elements is differentially thickened; this wall lies adjacent to a conventional tracheary element. Ultimate cells of other veinlets in the Magnoliaceae differentiate as thick-walled sclereids, conventional tracheids, clavate tracheids, reticulate-walled dilated tracheids, or secretory cells. The terminal elements differentiate relatively late during leaf enlargement. In the Magnoliaceae, foliar structure is frequently characteristic at the generic level, and in some cases at the species level.     

Reproductive and Pollination Biology of Magnolia and its Allied Genera (Magnoliaceae). I. Floral Volatiles of Several Magnolia and Michelia Species and their Roles in Attracting Insects

Abstract Volatile substances emitted from the flowers of eight Magnolia taxa ( M. sieboldii ssp. japonica, M. praecocissima var. praecocissima and var. borealis, M. tomentosa, M. salicifolia, M. obovata, M. denudata, and M. grandiflora ) and one Michelia species ( M. compressa ) (Magnoliaceae) were examined and identified using GC-MS. Volatile substances of these Magnolia and Michelia species consist primarily of monoterpenoids and sesquiterpenoids produced by the mevalonate pathway, acetogenins by the acetate-malonate pathway, and phenyl-propanoids by the shikimate pathway. These Magnolia and Michelia species all possessed various combinations of volatile monoterpenoids, acetogenins, and phenylpropanoids, except for Magnolia obovata , which emitted primarily sesquiterpenoids. Free amino acids in pollen of 12 Magnolia and one Liriodendron species were also analyzed, and their value as food sources for pollinators evaluated.
Pollinators visiting the flowers of five Magnolia species were collected in their native sites and identified. Their behaviors and roles as pollinating agents were assessed.     

单性木兰属(木兰科)植物的分类学订正

根据对单性木兰属Kmeria(Pierre)Dandy植物标本的研究和野外调查,补充描述了该属的一些形态特征,纠正了前人对该属描述中的一些错误,阐述了保留单性木兰属的理由,列出了分种检索表,将焕镛木属Woon-youngiaLaw和单性木兰组MagnoliaLinn.sect.Kmeria(Pierre)Figlar&Noot.作为单性木兰属的新异名,将焕镛木Woonyoungiaseptentrionalis(Dandy)Law和广西木兰MagnoliakwangsiensisFiglar&Noot.作为单性木兰KmeriaseptentrionalisDandy的新异名。     

拟单性木兰属（木兰科）植物的分类学修订

根据标本研究和野外调查,对木兰科(Magnoliaceae)的拟单性木兰属(Parakmeria Hu &; Cheng)进行了分类学修订。回顾了此属的分类学简史,阐述了保留拟单性木兰属的理由,将Magnolia Linn. subgenus Gynopodium Figlar &; Noot. section Gynopodium 作为拟单性木兰属的新异名,将Magnolia yunnanensis (Hu) Noot. 和M. nitida W. W. Smith var. robusta B. L. Chen &; Noot.作为云南拟单性木兰(Parakmeria yunnanensis Hu)的新异名,将Magnolia omeiensis (Cheng) Dandy、M. lotungensis Chun &; C. H. Tsoong、M. nitida W. W. Smith var. lotungensis (Chun &; C. H. Tsoong) B. L. Chen &; Noot. 和Parakmeria lotungensis (Chun &; C. H. Tsoong) Law作为峨眉拟单性木兰(Parakmeria omeiensis Cheng)的新异名,确认拟单性木兰属含４种植物,列出了分种检索表,描述了各种的地理分布和生长环境。