Early reproductive developmental anatomy in Decaisnea (Lardizabalaceae) and its systematic implications

Background and Aims

Decaisnea insignis, known as ‘dead man''s fingers’ (Lardizabalaceae), is widely distributed in China and the Himalayan foothill countries. This economically important plant, which is the only species in the genus, has not been the subject of any embryological studies aside from one brief, older paper that lacks micrographs. Data on Decaisnea are also important because its systematic position has been unstable since the genus was established in 1855. Therefore, the objectives of this study were: (a) to use modern microscopy to document early reproductive anatomical development in Decaisnea; and (b) to compare qualitatively these early embryological characters with allied taxa in a systematic context.

Methods

Decaisnea insignis floral buds and inflorescences were regularly collected from Shaanxi Province, China and prepared for light microscopy. The embryological characters studied were qualitatively compared with those of allied taxa via a thorough examination of the existing literature.

Key Results

Early reproductive anatomy in Decaisnea was documented and novel revelations made. It was discovered that the pollen is shed when three-celled (not two-celled, as previously reported), and that endosperm formation is nuclear (not cellular or helobial, as previously reported). These two newly revealed embryological characters are not found in any other members of Lardizabalaceae. Furthermore, neither are persistent antipodal cells, which we confirmed to be present in Decaisnea.

Conclusions

Decaisnea and other Lardizabalaceae characteristically have tetrasporangiate anthers, a secretory tapetum, simultaneous microsporocyte cytokinesis, primarily bitegmic, crassinucellate ovules, and a Polygonum type embryo sac. However, in the family, persistent antipodals, nuclear endosperm, and pollen shed at the three-celled stage are only found in Decaisnea. These embryological data prompted the suggestion that Decaisnea needs elevation above the level of genus.     

Reproductive morphology of Sargentodoxa cuneata (Lardizabalaceae) and its systematic implications

The reproductive morphology of Sargentodoxa cuneata (Oliv) Rehd. et Wils. is investigated through field, herbarium, and laboratory observations. Sargentodoxa may be either dioecious or monoecious. The functionally unisexual flowers are morphologically bisexual, at least developmentally. The anther is tetrasporangiate, and its wall, of which the development follows the basic type, is composed of an epidermis, endothecium, two middle layers, and a tapetum. The tapetum is of the glandular type. Microspore cytokinesis is simultaneous, and the microspore tetrads are tetrahedral. Pollen grains are two-celled when shed. The mature ovule is crassinucellate and bitegmic, and the micropyle is formed only by the inner integument. Megasporocytes undergo meiosis resulting in the formation of four megaspores in a linear tetrad. The functional megaspore develops into an eight-nucleate embryo sac after three rounds of mitosis. The mature embryo sac consists of an egg apparatus (an egg and two synergids), a central cell, and three antipodal cells. The pattern of the embryo sac development follows a monosporic Polygonum type. Comparisons with allied groups show that Sargentodoxa shares more synapomorphies with the Lardizabalaceae than other Ranunculales. Characteristics of its reproductive morphology are consistent with the placement of Sargentodoxa as the sister group of the remaining Lardizabalaceae. It does not possess a sufficient number of apomorphic characters to justify its separation into a separate family or subfamily. It is best retained as a member of the Lardizabalaceae.     

Anther wall development,placentation, sporogenesis and gametogenesis in Smilax davidiana A.DC: A contribution to the embryology of Smilax

Embryological characters can be used to address taxonomic relationships and complement molecular phylogenetics and are of special value at the genus level. However, embryological information is fragmentary in Smilax and completely unknown in Smilax davidiana, a Chinese species. Anther wall development, placentation, sporogenesis and gametogenesis of S. davidiana are characterized here. The anther is bisporangiate, anther wall formation is of the Dicotyledonous type, both epidermis and endothecium develop fibrous thickenings, and the tapetum is secretory and of dual origin. Cytokinesis in the microsporocyte meiosis is successive, the microspore tetrad is tetragonal, and mature pollen is two-celled. The ovary is mostly trilocular with an axile placentation (a small fraction of the ovaries are unilocular with parietal placentation), the ovule is anatropous, bitegmic and crassinucellate, with embryo sac development of the Polygonum type. This study documents for the first time the embryological characters of S. davidiana in detail and contributes much to the embryology of Smilax.     

三叶木通大小孢子发生和雌雄配子体发育研究

三叶木通（Akebia trifoliata）属于木通科（Lardizabalaceae）木通属（Akebia）,为雌雄异花,雌雄同株的木质藤本植物,具有药食两用的经济价值。本文运用石蜡切片技术观察了三叶木通的大小孢子发生和雌雄配子体发育过程中胚胎学特征,以期了解三叶木通有性生殖过程,分析该物种自然条件下结实率低的生殖原因,为其后续进行杂交育种和新品种培育提供理论基础。结果表明：三叶木通雄蕊6枚,每枚花药具4个小孢子囊,花药壁完全分化时由外到内依次为1层表皮、1层药室内壁、2～3层中层及1层绒毡层,且绒毡层为分泌型绒毡层。小孢子母细胞减数分裂的胞质分裂为同时型,小孢子四分体为四面体型排列,从四分体分离出来的小孢子经过进一步发育形成2-核成熟花粉细胞。小孢子囊中的小孢子四分体时期存在少量败育现象。雌蕊具1室子房,为侧膜胎座,胚珠横生,多枚,双珠被,厚珠心。大孢子母细胞减数分裂后形成的大孢子四分体呈线型排列,靠珠孔端的3个大孢子退化,合点端的1个大孢子发育成为功能大孢子,经3次连续有丝分裂并进一步发育为七细胞八核的蓼型胚囊。雌花中的雄蕊早期发育正常,但小孢子发育至单核靠边期不在进一步发育,...     

Embryology of <Emphasis Type="Italic">Hemerocallis</Emphasis> L. and its systematic significance

The embryology of the genus Hemerocallis L. was studied to re-evaluate its current systematic position proposed by recent phylogenies based on molecular data. Using the improved carbol fuchsin–aniline blue staining method and conventional paraffin sectioning technique, we followed the development of anther and pollen grain, ovule and female gametophyte, and embryo and endosperm up to seed maturity. Our results showed that the (1) anther wall development is of the Monocot type, with a one cell-thick middle layer and a secretory tapetum, (2) microsporocytes cytokinesis is of the intermediate type, (3) microspore tetrads are tetragonal or decussate, (4) pollen grains are two-celled, (5) ovary is superior and trilocular, with axile placentas bearing two collateral ovules per locule, (6) ovules are anatropous, tenuinucellate, and bitegmic, with micropyle formed by the inner integument, (7) megaspore tetrads are linear, and only the chalazal one is functional, (8) embryo sac development is typically of Polygonum type, (9) embryogenesis is of Graminad type, and (10) endosperm development is of nuclear type. Overall, our study thus confirms that the embryological features of Hemerocallis support its exclusion from Liliaceae in Liliales, its inclusion in Asparagales, and its affinities with Asphodelaceae.     

琼榄小孢子发生、雄配子体发育及花粉粒形态

利用光学显微技术和电镜扫描技术研究了琼榄的小孢子发生、雄配子体发育和花粉粒形态以增加广义心翼果科的胚胎学和孢粉学资料。主要结果如下：（1）花药四孢囊;（2）花药壁四层,从外到内分别为表皮、具纤维性加厚的药室内壁、退化早的中层和细胞具2~4核的分泌型绒毡层;（3）小孢子母细胞胞质分裂同时型,形成四面体型排列的小孢子四分体;（4）成熟花粉粒为二细胞型;（5）花粉粒具3个隐形萌发孔,外壁为网状纹饰。琼榄与心翼果属的小孢子发生和雄配子体发育特征非常相似,稍有不同。琼榄的花粉粒形态特征与同属其它种基本相同。     

Anther structure and pollen development in Melicoccus lepidopetalus (Sapindaceae): An evolutionary approach to dioecy in the family

Anther and pollen development in staminate and pistillate flowers of dioecious Melicoccus lepidopetalus (Sapindaceae) were examined by light and electron microscopy. Young anthers are similar in both types of flowers; they consist of epidermis, endothecium, two to four middle layers and a secretory tapetum. The microspore tetrads are tetrahedral. The mature anther in staminate flowers presents compressed epidermal cells and endothecium cells with fibrillar thickenings. A single locule is formed in the theca by dissolution of the septum and pollen grains are shed at two-celled stage. The mature anthers of pistillate flowers differ anatomically from those of staminate flowers. The epidermis is not compressed, the endothecium does not develop fibrillar thickenings, middle layers and tapetum are generally persisting, and the stomium is nonfunctional. Microspore degeneration begins after meiosis of microspore mother cells. At anthesis, uninucleate microspores and pollen grains with vegetative and generative nuclei with no cytokinesis are observed. Some pollen walls display an abnormal exine deposition, whereas others show a well formed exine, although both are devoid of intine. These results suggest that in the evolution towards unisexuality, the developmental differences of anther wall tissues and pollen grains between pistillate and staminate flowers might become more pronounced in a derived condition, such as dioecy.     

Microsporogenesis and microgametogenesis of Excentrodendron hsienmu (Malvaceae s.l.) and their systematic implications

Flowers, microsporogenesis and microgametogenesis of Excentrodendron hsienmu in opening-functional flowers and non-opening flowers were studied to investigate the evolutionary relationships of Excentrodendron . E. hsienmu is a dioecious species that blossoms every 3–4 years, although large numbers of flower buds develop every year. The anther is tetrasporangiate, the tapetum is of the secretory type, the microspore tetrads are mainly tetrahedral, and the pollen grains are two-celled when shed. Four to six microsporocytes are seen on the transverse section of the anthers, and cytokinesis is simultaneous. The development of the anther wall conforms to the basic type and the anther wall is five or six cells thick, with a fibrous endothecium. The difference between the opening-functional and the non-opening flowers is mainly in the thickness of the anther wall. Early megasporogenesis in staminate flowers up to megaspore mother cell or megaspore tetrads has been observed. Excentrodendron shares with Dombeyeae only plesiomorphic features, but differs in anther wall development type and thickness. Most features of Excentrodendron are shared with Pterospermum , including such synapomorphic features as basic type of anther wall development, five- to six-cell-thick anther wall, biseriate tapetum at some places, and degeneration of microsporocytes, suggesting placement near Pterospermum .   © 2006 The Linnean Society of London, Botanical Journal of the Linnean Society , 2006, 150 , 447–457.     

Ultrastructural study of pollen and anther development in Luehea divaricata (Malvaceae,Grewioideae) and its systematic implications: Role of tapetal transfer cells,orbicules and male germ unit

Developmental processes of microsporogenesis and microgametogenesis in Luehea divaricata (Malvaceae, Grewioideae) were analyzed with transmission electron microscopy. The species studied has perfect flowers. The young anthers are bithecal and tetrasporangiate; microspore mother cells undergo simultaneous meiosis, forming tetrads with a tetrahedral arrangement. The development of the anther wall conforms to the basic type and the tapetum is secretory. The results highlight the presence of multinucleate tapetal cells, which acquire ultrastructural features characteristic of transfer cells at the young pollen grain stage, and which are associated with the presence of orbicules. Tapetal transfer cells have not been previously investigated in detail for other species of angiosperms; their function during pollen development is discussed. The present work is the first contribution to the knowledge of ultrastructural pollen development in the genus Luehea, as well as in the subfamily Grewioideae.     

凹叶厚朴大、小孢子发生和雌、雄配子体发育的研究

凹叶厚朴花药四囊型,腺质绒毡层有1-2层细胞,小孢子形成时胞质分裂方式为修饰性同时型．小孢子四分体排列方式为左右对称型,成熟花粉粒为二细胞型。四分体和小孢子在发生时有不规则变形。子房单心皮。心皮腹面壁上着生2个胚珠,胚珠倒生型,厚珠心,双珠被;抱原细胞一个,并且自表皮下第2层细胞处分化。胚囊发育为单孢蓼型。凹叶厚朴的胚胎学特征与木兰科其它植物的胚胎学特征基本相同,属于较原始的被子植物胚胎类型。在凹叶厚朴大、小孢子发生和雌、雄配子体发育过程中存在部分败育现象。本文初步探讨了凹叶厚朴濒危的生殖生物学原因。     

凹叶厚朴大、小孢子发生和雌、雄配子体发育的研究

凹叶厚朴花药四囊型,腺质绒毡层有1-2层细胞,小孢子形成时胞质分裂方式为修饰性同时型,小孢子四分体排列方式为左右对称型．成熟花粉粒为二细胞型。四分体和小孢子在发生时有不规则变形。子房单心皮,心皮腹面壁上着生2个胚珠,胚珠倒生型,厚珠心,双珠被;孢原细胞一个,并且自表皮下第2层细胞处分化。胚囊发育为单孢蓼型。凹叶厚朴的胚胎学特征与木兰科其它植物的胚胎学特征基本相同,属于较原始的被子植物胚胎类型。在凹叶厚朴大、小孢子发生和雌、雄配子体发育过程中存在部分败育现象。本文初步探讨了凹叶厚朴濒危的生殖生物学原因。     

Microsporogenesis and development of the male gametophyte in Allium senescens L. (Liliaceae) in China

Microsporogenesis and development of the male gametophyte of Allium senescens L. were studied by use of paraffin sections. The anther was found to be four-sporangia. Its wall includes four layers: epidermis, endothecium, middle layer, and secretory tapetum. Cytokinesis during meiosis of microspore mother cells (MMCs) is successive. Most mature pollen grains are two-celled, a few are three-celled. In addition, anomalies were observed during meiosis of MMC and in uninucleate microspores, including laggard chromosomes, lagging chromosomes, anaphase bridges, and micronucleus. These anomalies are possible reasons for abortive pollen.     

Ultrastructure of microsporogenesis and microgametogenesis in Campsis radicans (L.) Seem. (Bignoniaceae)

In the present study, microsporogenesis, microgametogenesis and pollen wall ontogeny in Campsis radicans (L.) Seem. were studied from sporogenous cell stage to mature pollen using transmission electron microscopy. To observe the ultrastructural changes that occur in sporogenous cells, microspores and pollen through progressive developmental stages, anthers at different stages of development were fixed and embedded in Araldite. Microspore and pollen development in C. radicans follows the basic scheme in angiosperms. Microsporocytes secrete callose wall before meiotic division. Meiocytes undergo meiosis and simultaneous cytokinesis which result in the formation of tetrads mostly with a tetrahedral arrangement. After the development of free and vacuolated microspores, respectively, first mitotic division occurs and two-celled pollen grain is produced. Pollen grains are shed from the anther at two-celled stage. Pollen wall formation in C. radicans starts at tetrad stage by the formation of exine template called primexine. By the accumulation of electron dense material, produced by microspore, in the special places of the primexine, first of all protectum then columellae of exine elements are formed on the reticulate-patterned plasma membrane. After free microspore stage, exine development is completed by the addition of sporopollenin from tapetum. Formation of intine layer of pollen wall starts at the late vacuolated stage of pollen development and continue through the bicellular pollen stage.     

珍稀濒危植物大花万代兰的花粉团发育及其分类学意义

万代兰属的属间界限划定及其亲缘关系重建是兰科分类系统中的难解之谜。该研究采用常规石蜡切片技术观察了珍稀濒危植物大花万代兰的一对深裂花粉团的形成机制、花药壁发育模式、小孢子发生及雄配子体发育等的胚胎学特征。结果表明：(1)大花万代兰早期的花药原基分化出一对侧生药室,每个药室的小孢子囊中央分化出一条在花药成熟时会降解的不育隔膜组织,形成两个不等深裂的花粉团。(2)发育完整的花药壁有5~9层,包括2~6层药室内壁,符合多层型花药壁发育类型;绒毡层细胞为单核,腺质型,在花药成熟时,表皮、中层和绒毡层皆降解,仅留下2~6层纤维性加厚的药室内壁。(3)小孢子母细胞经过连续型胞质分裂形成正四面体和左右对称的小孢子四分体,小孢子四分体继续保持在同一个胼胝质内,完成有丝分裂形成了2 细胞型的四合花粉;四合花粉两两紧密排列,且由于隔膜组织的降解,最终发育为一对深裂的花粉团。根据现有兰花花药发育资料,分析了大花万代兰花粉团发育的胚胎学特征的分类学意义,为万代兰属错综复杂的系统分类提供了新资料。     

中国特有种苦绳(广义夹竹桃科)的大小孢子发生和雌雄配子体发育及其分类学意义

近年来的分子系统学把狭义萝藦科和狭义夹竹桃科合并为广义夹竹桃科,包括5个亚科和25个族,但亚科和族间的亲缘关系较为复杂,亟待多学科证据澄清。本文利用常规石蜡切片技术观察了马利筋亚科南山藤属中的中国特有植物苦绳(Dregea sinensis var. sinensis)的孢子发生和配子体发育,结合已有资料比较了5个亚科的胚胎学特征。结果表明:(1)苦绳的花药由一对侧生并列药室组成,各有一个花粉团。(2)花药壁有6层,由外至内分别为表皮、2层药室内壁、中层和2层绒毡层,花药壁发育模式属于多层型。(3)绒毡层细胞单核,排成2列,为腺质型; 在小孢子四分体形成时期,药室内壁发生明显纤维状加厚; 花药成熟时,位于药室远轴最外侧处的花药壁发生断裂,准备散粉。(4)小孢子母细胞减数分裂中,胞质分裂方式为连续型,小孢子四分体排列方式为左右对称; 成熟花粉粒为3-细胞型,排列紧密,形成花粉团。(5)雌蕊含有两枚离生心皮,具边缘胎座,胚珠倒生,单珠被,薄珠心,蓼型胚囊。本文观察到的这些胚胎学特征为牛奶菜族提供了新资料。同时,胚胎学特征在5个亚科间的区别和联系,支持广义夹竹桃科的成立。     

Pollen morphology and ontogeny of Maianthemum bifolium (L.) F.W. Schmidt in China

The study observed the pollen morphology and ontogeny of Maianthemum bifolium (L.) F.W. Schmidt and explored the development and structure of its anther wall using conventional paraffin section and histochemical techniques. The results showed that it has four anthers, consecutive cytokinesis, tetragonally arranged microspore tetrads, two-celled mature pollen grains, and a secretory tapetum. Fascicular crystals were found in the connective tissues and anther wall during pollen ontogeny. The distribution of carbohydrates and lipids changes regularly in the process of pollen development and is related to their physiological activities such as cell division and material synthesis. Under a light microscope, its pollen grains are ellipsoid and have a sulcus and exine with fine, reticulate ornamentation.     

甜荞pin型花与thrum型花雌雄蕊发育的比较研究

为从形态上研究甜荞(Fagopyrum esculentum)二型花发育的差异性,该文运用石蜡切片技术对甜荞pin型花和thrum型花大、小孢子发生和雌、雄配子体的发育过程进行观察比较.结果表明:(1)甜荞2种花的雌蕊、雄蕊发育的细胞学特征有很高的相似性,具直生胚珠、双珠被、厚珠心;大孢子四分体直线型排列,合点端为功能...     

西域旌节花的雌雄配子体发育及其系统学启示

研究西域旌节花（Stachyurus himalaicus Hook.f.et Thoms.ex Benth)雌雄配子体的形成和发育过程,并与“近缘”类群（山茶科,猕猴桃科,山柳科,省沽油科,堇菜科,金缕梅科和Crossomataceae等）的胚胎学特征进行了比较,西域旌节花主要胚胎学特征可概括为：四囊型花药,药壁形成方式为基础型,花药壁由表皮,药室内壁,2-3层中层和绒毡层组成,药室内壁纤维质加厚,腺质绒毡层,小孢子母细胞减数分裂为同时型,小孢子四分体呈四面体形排列,花粉散发时为二细胞,胚珠倒生,双珠被,厚珠心,珠孔由内,外珠被构成,具珠心冠和承珠盘,蓼型胚囊,从目前可资利用的雌雄配子体形成和发育的资料来看,旌节花科与堇菜科最为接近,与金缕梅科的关系值得注意,而与山柳科和猕猴桃科以及山茶科的关系相对疏远,胚胎学证据不支持Nandi等（1998）揭示的旌节花科与Crossosomataceae的姐妹群关系,但他们的分析结果在某种程度上仍然得到了胚胎学证据的支持。     

Sporogenesis and gametogenesis in Sladenia and their systematic implication

Sporogenesis and gametogenesis in the monotypic genus Sladenia is reported for the first time. The anther wall is of the monocotyledonous type of formation and consists of four-layers, namely a glandular tapetum, one middle layer, an endothecium, and an epidermis. Fibrous thickenings are developed in the epidermis at or near the stage of anther maturity rather than in the endothecium. Successive cytokinesis in microsporogenesis results in tetrahedral or rarely isobilateral tetrads of microspores. Pollen grains are two-celled when shed. The ovule is bitegmic, tenuinucellate, and anatropous. The nucellus degenerates during meiosis of the megaspore mother cell. The micropyle is formed by only the inner integument. Development of the female gametophyte conforms to the Adoxa type. Sladenia has been treated either as a member of Actinidiaceae, Dilleniaceae or Theaceae s.l. , or as belonging to an independent family, Sladeniaceae. Recent molecular studies have suggested that it belongs to Ternstroemiaceae within the Ericales s.l . Several noteworthy embryological characters are distinct from those of the other putatively related families and support the recognition of a separate family, Sladeniaceae. Additional embryological evidence confirms this conclusion.  © 2003 The Linnean Society of London, Botanical Journal of the Linnean Society , 2003, 143 , 305–314.     

粉背薯蓣雄花的形态发生

通过田间观察与石蜡切片法,对粉背薯蓣雄花的发生发育进行了形态与解剖学观察。结果表明:粉背薯蓣雄花为功能上的单性花,花芽分化时雄蕊原基正常启动,随后,3枚雄蕊正常发育,3枚雄蕊退化。成熟雄蕊药隔分叉、变宽呈加厚短叉状,退化雄蕊呈花丝状,顶端分叉或膨大成瘤状。初步分析了花部构件的演变与功能的关系。对粉背薯蓣小孢子发生及雄配子体发育过程的观察表明,花药具4个花粉囊,花药壁发育为单子叶型,由表皮、药室内壁、中层1层和绒毡层组成,绒毡层为腺质型。小孢子母细胞减数分裂后胞质分裂为同时型,四分体为四面体型排列,偶有左右对称型排列,成熟的花粉粒为二细胞型。