藠头大小孢子的发生及雌雄配子体败育的细胞学研究

对栽培Ｊｉａｏ头４个品种大小孢子发生和雌雄配子体发育的细胞学观察表明,Ｊｉａｏ头小孢子细胞减数分裂过程基本正常,四分体左右对称或四面体体型,部分单核小孢子解体。散粉时,多数花粉粒空瘪,无萌发沟;部分花粉粒人单核或二核;极少数花粉粒具有生殖核和营养核。共 粒生活力低或无,无花粉管萌发。囊发育属葱型,部分能发育形成四核胚囊,大部分发育异常,出现二 核至五核胚囊,未观察到正常七细胞八核胚囊的形成。结果表     

花生雌雄两性细胞发育关系的研究

本试验结果表明,雌雄配子体形成过程和程序与前人结论相一致,但发现：1)尽管雌雄蕊同时形成,但在雌雄配子形成不同步的情况下,花粉和胚囊中的大量淀粉却能同时充实,并且同时成熟等待受精。2)大孢子母细胞形成比小孢子母细胞迟0.7～0.8片展叶;雌配子体形成比雄配子体迟0.5～0.6片展叶。3)雌雄两性细胞发育特点不同,雄性是小孢子形成快而花粉粒发育慢,雌性是大孢子形成慢而胚囊发育快,为此在所用时间上,花粉粒发育约是小孢子形成的1.6倍,是胚囊发育的2.3倍,而大孢子形成约是胚囊发育的2.2倍,约是小孢子形成的1.4倍。     

刺五加大、小孢子发生和雌、雄配子体发育的观察

刺五加Eleutherococcus senticosus(Rupr．et Maxim．)Maxim．雄株的小孢子发生和雄配子体发育过 程正常,大孢子发生和雌配子体发育过程多不正常。雄花具5个花药,花药4室,药壁发育属双子叶型, 腺质绒毡层,绒毡层细胞多具2核。小孢子母细胞经减数分裂形成四面体形四分体,其胞质分裂为同时 型。成熟花粉为3细胞型。子房下位,5室;每室有上胚珠和下胚珠,上胚珠退化,下胚珠倒生、具单珠 被、厚珠心;大孢子母细胞经减数分裂形成线形或“T”形四分体,偶尔有2个并列或串联的四分体或在 四分体之上又出现孢原细胞。其功能大孢子位置不确定。雌配子体发育中异常现象较多。开花时,雌 配子体主要为反足细胞退化后的四细胞胚囊。刺五加雌株的小孢子母细胞不能进行减数分裂或减数分 裂不正常,不能形成四分体。开花时,药室空瘪,无花粉形成。其大孢子发生和雌配子体发育过程正常, 大孢子母细胞减数分裂形成线形或“T”形四分体,合点端大孢子为功能大孢子,胚囊发育属蓼型。开花 时,雌配子体主要为七细胞八核或七细胞七核胚囊,其卵器尚未发育成熟。刺五加两性株的小孢子发生 过程无异常,但雄配子体发育过程有部分异常;开花时,药室内有或多或少的空花粉,且花粉粒大小悬 殊,大的直径达35μm,小的仅15～18 μm。两性株的雌蕊发育大部分正常,也有一些异常胚囊形成。开 花时,雌配子体主要是七细胞八核胚囊、七细胞七核胚囊和反足细胞退化后的四细胞胚囊,其卵器也未发育成熟。     

花生雌雄两性细胞发育关系的研究

本试验结果表明 ,雌雄配子体形成过程和程序与前人结论相一致 ,但发现 :1 )尽管雌雄蕊同时形成 ,但在雌雄配子形成不同步的情况下 ,花粉和胚囊中的大量淀粉却能同时充实 ,并且同时成熟等待受精。 2 )大孢子母细胞形成比小孢子母细胞迟 0 .7～ 0 .8片展叶 ;雌配子体形成比雄配子体迟 0 .5～ 0 .6片展叶。 3)雌雄两性细胞发育特点不同 ,雄性是小孢子形成快而花粉粒发育慢 ,雌性是大孢子形成慢而胚囊发育快 ,为此在所用时间上 ,花粉粒发育约是小孢子形成的 1 .6倍 ,是胚囊发育的 2 .3倍 ,而大孢子形成约是胚囊发育的 2 .2倍 ,约是小孢子形成的 1 .4倍。     

喜树大小孢子发生和雌雄配子体的发育

喜树子房下位,一室,有1枚倒生胚珠,悬垂,具单珠被。假厚珠心胚珠类型,胚囊发育为蓼型。喜树小孢子母细胞减数分裂胞质分裂方式为同时型,四分体主要为四面体形和左右对称形,单核小孢子呈三角形,成熟花粉粒有三角形、四边形和圆形。本文主要研究喜树大小孢子发生和雌雄配子体的发育过程,并初步探讨了喜树部分雌蕊败育的原因。     

彩色马蹄莲大小孢子发生和雌雄配子体发育的研究

选用石蜡切片法观察了彩色马蹄莲品种‘Majestic Red’的大小孢子发生及雌雄配子体发育的过程。研究结果表明：彩色马蹄莲的胚珠为倒生,具双珠被、厚珠心和珠被绒毡层。大孢子母细胞的减数分裂后形成的四分体为直线型或T型排列,合点端的大孢子发育成为功能大孢子,其余3个大孢子则退化,表明胚囊发育方式为单孢子发生的蓼型胚囊。观察到每个雄花花药多数,花粉囊呈蝶形,每侧有2个小孢子囊。花药壁由外到内分别为表皮、药室内壁、中层和绒毡层,其中绒毡层为变形绒毡层类型。在小孢子形成时,胞质分裂属于连续型,小孢子排列成十字形的四分体,成熟花粉则为二胞花粉粒。     

濒危植物裂叶沙参的大小孢子发生及雌雄配子体发育

本文以近缘广布种泡沙参为对照,对濒危物种裂叶沙参进行了大小孢子发生和雌雄配子体发育的研究。裂叶沙参的药壁发育为双子叶型,绒毡层为腺质型,细胞含两核。小孢子母细胞在减数分裂过程中胞质分裂为同时型。小孢子四分体为四面体型,成熟花粉粒为2-细胞型。胚珠倒生,单珠被,薄珠心,大孢子四分体为线形排列,胚囊发育为蓼型。成熟胚囊中两极核在受精之前融合为一个大的次生核。当胚囊发育至单核胚囊时,珠被的最内层细胞发育为珠被绒毡层。濒危植物裂叶沙参在大、小孢子发生及雌、雄配子体的发育过程中,未见有败育及其它异常现象;与对照种泡沙参相比,也未见有差异,这说明裂叶沙参的致濒原因不在于有性生殖过程。     

沙田柚雌雄蕊发育及其相关性研究

沙田柚为例生胚珠,双珠被,厚珠心,具多个孢原细胞,其中之一发育形成大孢子母细胞,四个大孢子呈直线形排列,功能大孢子居合点端,胚囊发育为蓼型,珠孔端有珠心冠。 花药为四分孢子囊,小孢子母细胞减数分裂过程中,胞质分裂为同时型,四分小孢子四面体型,成熟花粉粒为二细胞型。 同一朵花中,雌雄蕊发育的相关性是:当大孢子母细胞形成时,小孢子进入单核期。当雌蕊发育进入大孢子时期,双核花粉粒形成。大孢子和双核花粉粒都在开花前10天左右形成,雌雄蕊同时成熟。     

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。     

七筋姑的大小孢子发生雌雄配子体发育及多糖物质的动态

七筋姑(Clintonia udensis Trautv. et Mey)具倒生胚珠、双珠被、薄珠心、单个孢原。大孢子母细胞减数分裂后形成1 3排列,合点端三核退化,珠孔端有功能的大孢子核进行两次有丝分裂。成熟胚囊具5核或6核,即1组卵器、1上极核、合点端的1个或2个退化核。胚囊发育为四孢子、高度退化的贝母型。花药壁由表皮、药室内壁、两层中间层及绒毡层组成,发育属单子叶型。绒毡层解体方式为分泌型。小孢子母细胞减数分裂时胞质分裂为连续型。二轴对称式四分体,2-细胞成熟花粉粒。组织化学表明:大小孢子发生及雌雄配子体形成过程中的不溶性多糖颗粒的分布呈现规律性变化。     

Megasporogenesis,Microsporogenesis and Development of Gametophytes in Eleutherococcus senticosus (Araliaceae)

This paper describes megasporogenesis, microsporogenesis, and development of female and male gametophytes in Eleutherococcus senticosus. The main results are as follows: Flowers of E. senticosus are epigynous, pentamerous. Anthers are 4 -microsporangiate. An ovary has 5 loculi. Each ovary loculus has 2 ovules: the upper ovule and the lower ovule. The upper one is orthotropous and degenerates after the formation of archesporial cell, while the lower one is anatropous, unitegmic and crassinucellar, and able to continue developing. In male plants, microsporogenesis and development of male gametophytes took place in regular way, but a series of abnormal phenomena were found in megasporogenesis and development of female gametophytes. The microspore mother cells gave rise to tetrahedral tetrads by meiosis. Cytokinesis was of the simultaneous type. The mature pollen was 3-celled and shed singly. The anther wall formation belonged to the dicotyledonous type. At the stage of microspore mother cell, the anther wall consisted of four layers, i.e. epidermis, endothecium, middle layer, and tapetum. The tapetum was of glandular type and its most cells were binucleate. When microspores were at the uninucleate stage, the tapetum began to degenerate in situ. When microspores developed into 3-celled pollen grains, the tapetum had fully degenerates. In the lower ovule of male flower, the megaspore mother cell gave rise to a linear or “T” -shaped tetrad. In some cases, a new archesporial cell over the tetrad or two tetrads parallel or in a series were observed. Furthermore, the position of functional megaspore was variable; any one or two megaspores might be functional, or one megaspore gave rise to a uninucleate embryo sac, but two other megaspores also had a potentiality of developing into the embryo sac. In generally, on the day when flowers opened, female gametophytes contained only 4 cells: a central cell, two irregular synergids and one unusual egg cell. In female plants, microspore mother cells and secondary sporogenous cells were observed. But at the stage of secondary sporogenous cell, the newly differentiated tapetum took the appearance of degeneration. Later, during the whole stage of meiosis, the trace of degenerative tapetum could be seen. At last, the microsporangium degenerated and no tetrad formed. On the blossom day, all anthers shriveled without pollen grains. In female flowers, megasporogenesis and development of female gametophytes were normal: the tetrad of megaspores was linear or “T”-shaped; the chalazal megaspore was usually functional; the development of embryo sac was of the Polygonum type. On the blossom day, most embryo sacs consisted of 7 cells with 8 nuclei or 7 cells with 7 nuclei; but the egg apparatus was not fully developed. In hermaphroditic plants, microsporogenesis was normal but the development of male gametophytes was partially abnormal. When the hermaphroditic flowers blossomed, there were more or less empty pollen grains in the microsporangium and these pollen grains were quite different in size. The development of most gynoecia was normal but numerous abnormal embryo sacs could be seen. On the blossom day, female gametophytes were mainly 7-celled with 8-nuclei or with 7-nuclei or 4-celled with antipodal cells degenerated; the egg apparatus wasnot fully developed either.     

Abnormalities Occurring during Female Gametophyte Development Result in the Diversity of Abnormal Embryo Sacs and Leads to Abnormal Fertilization in indica/japonica Hybrids in Rice

Embryo sac abortion is one of the major reasons for sterility in indica/japonica hybrids in rice. To clarify the causal mechanism of embryo sac abortion, we studied the female gametophyte development in two indica/japonica hybrids via an eosin B staining procedure for embryo sac scanning using confocal laser scanning microscope. Different types of abnormalities occurred during megasporogenesis and megagametogenesis were demonstrated. The earliest abnormality was observed in the megasporocyte. A lot of the chalazal-most megaspores were degenerated before the mono-nucleate embryo sac stage. Disordered positioning of nucleus and abnormal nucellus tissue were characteristics of the abnormal female gametes from the mono-nucleate to four-nucleate embryo sac stages. The abnormalities that occurred from the early stage of the eight-nucleate embryo sac development to the mature embryo sac stage were characterized by smaller sizes and wrinkled antipodals. Asynchronous nuclear migration, abnormal positioning of nucleus, and degeneration of egg apparatus were also found at the eight-nucleate embryo sac stage. The abnormalities that occurred during female gametophyte development resulted in five major types of abnormal embryo sacs. These abnormal embryo sacs led to abnormal fertilization. Hand pollination using normal pollens on the spikelets during anthesis showed that normal pollens could not exclude the effect of abnormal embryo sac on seed setting.     

Abnormalities Occurring during Female Gametophyte Development Result in the Diversity of Abnormal Embryo Sacs and Leads to Abnormal Fertilization in indicaljaponica Hybrids in Rice

Embryo sac abortion is one of the major masons for sterility in indicaljaponica hybrids In rice. To clarify the causal mechanism of embryo sac abortion, we studied the female gametophyte development in two indicaljaponica hybrids via an eosin B staining procedure for embryo sac scanning using confocal laser scanning microscope. Different types of abnormalities occurred during megasporogenesis and megagamatogenesis were demonstrated. The earliest abnormality was observed in the megasporocyte. A lot of the chalazal-most megaspores were degenerated before the mono-nucleate embryo sac stage. Disordered positioning of nucleus and abnormal nucallus tissue were characteristics of the abnormal female gametes from the mono-nucleate to four-nucleate embryo sac stages. The abnormalities that occurred from the early stage of the eight-nucleate embryo sac development to the mature embryo sac stage were characterized by smaller sizes and wrinkled antipodals. Asynchronous nuclear migration, abnormal positioning of nucleus, and degeneration of egg apparatus were also found at the eight-nucleate embryo sac stage. The abnormalities that occurred during female gametophyte development resulted in five major types of abnormal embryo sacs. These abnormal embryo sacs led to abnormal fertilization. Hand pollination using normal pollens on the spikelets during anthesis showed that normal pollens could not exclude the effect of abnormal embryo sac on seed setting.     

落葵的花粉粒和胚囊的形成与发育

落葵(Basella rubra L.)小孢子的发育为同时型,四分体呈四面体排列。在花粉母细胞减数分裂过程中,可清楚地看到胼胝壁的消长变化。三胞花粉,具散沟和网状纹饰。腺质绒毡层。 胚囊的发育为蓼型。反足细胞早期退化。内珠被突出形成珠被喙,同时,在其珠孔区域,有由内珠被的内表皮细胞所发育而来的类似盖状结构。 本文还注意到同一花中以及相邻花朵之间,花粉粒与胚囊发育进程的相关。花粉粒的发育略早于胚囊的发育,但以后由于胚囊母细胞形成胚囊的进程较为迅速,以致花粉粒与胚囊能够同时成熟。     

濒危植物香木莲的胚胎学研究

对香木莲（Manglietia aromatica）的大、小孢子发生以及雌、雄配子体发育过程进行了研究,并结合已有的资料归纳出木链属的胚胎学特征。香木链花药四囊型,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交叉型,有时为左右对型,成熟花粉粒为二细胞型。胚珠倒生,厚珠心,双珠被,大孢子四分体呈直线排列,功能大孢子位于合点端。胚囊发育属于蓼型。木莲属的胚胎学特征与木兰属、含笑属、鹅掌揪属等植物的胚胎学特征基本相同,都属于较原始的被子植物胚胎学类型。     

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。     

珍稀濒危植物巴东木莲胚胎学研究

对巴东木莲(Manglietia patungensis Hu)的花发育以及胚胎发育过程进行了系统研究。巴东木莲花顶生,花器官头年年底开始分化到第二年3月分化出花被、雌雄蕊群直至6月发育成熟。雌蕊成熟时胚珠倒生,双珠被,厚珠心,大孢子四分体线形排列,合点端发育成功能大孢子,珠孔端的3个退化,大孢子为单孢子发生型,胚囊发育方式属蓼型;雄蕊花药外侧壁玫瑰红色,内侧有4个白色花粉囊,绒毡层有1层多核细胞,小孢子四分体排列方式多为左右对称形和交叉形,四面体形,偶为T字形和线形,成熟花粉粒为二细胞型。在巴东木莲花发育和大、小孢子发生以及雌、雄配子体形成过程中未见异常现象,因此笔者认为该物种的花器官发育以及雌、雄配子体发育并不构成导致该物种濒危的因素。     

Embryological Studies on Narcissus tazetta var. chinensis

Chinese narcissus (Narcissus tazetta var.chinensis Roem) blooms but has no seeds.Embryological studies on the species were conducted to discover the causes of its sterility.Its anther wall is composed of four layers of cells,and its tapetum is of the secretory type.The cytokinesis of microspore mother cells is of the successive type,and the tetrad is tetrahedral.During meiosis of microspore mother cells,some chromosomes lagged,and several micronuclei were found in tetrads.Only 27.7% of the pollen grains contained full cytoplasm,and 1.3% of them germinated in culture medium.No pollen grain,however,could germinate on the stigma.The ovary is trilocular with axile placenta,and the ovules are bitegmic,tenuinucellate,and anatropous.Its embryo sac is of the polygonum type.Most embryo sacs degenerated,and only about 4.5% of the ovules contained a normal embryo sac with an egg cell,two synergids,three antipodal,and a central cell containing two polar nuclei.One reason for the sterility of Chinese narcissus is the abnormality of microsporogenesis and megasporogenesis,in which only a few functional pollen grains and embryo sacs are produced.The other reason is that the pollen grains cannot germinate on the stigma.     

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。     

Comparative cyto-embryological investigations of sexual and apomictic dandelions (Taraxacum) and their apomictic hybrids

. In the autonomous apomictic Taraxacum officinale (common dandelion), parthenogenetic egg cells develop into embryos and central cells into endosperm without prior fertilisation. Unreduced (2n) megaspores are formed via meiotic diplospory, a nonreductional type of meiosis. In this paper, we describe the normal developmental pathways of sexual and apomictic reproduction and compare these with the development observed in the apomictic hybrids. In sexual diploids, a standard type of megasporogenesis and embryo sac development is synchronised between florets in individual capitula. In contrast, we observed that megasporogenesis and gametogenesis proceeded asynchronously between florets within a single capitulum of natural triploid apomicts. In addition, autonomous endosperm and embryo development initiated independently within individual florets. Parthenogenetic initiation of embryo development in outdoor apomicts was found to be temperature-dependent. Egg cells produced in natural apomicts were not fertilised after pollination with haploid pollen grains although pollen tubes were observed to grow into their embryo sacs. Both reductional and diplosporous megasporogenesis were observed in individual inflorescences of triploid apomictic hybrids. Embryo and endosperm development initiated independently in natural and hybrid apomicts.