扁苞蕗蕨和长柄蕗蕨的细胞分类学研究

本文首次报道了四川产扁苞蕗蕨和长柄蕗蕨的染色体及孢子发生情况。它们的染色体数目分别为 n=26和n=28,都是有性生殖的二倍体。染色体基数26在蕗蕨属的发现进一步证明了它和膜蕨属、厚壁蕨属的密切亲缘关系。这两种蕗蕨的孢子囊通常形成128个孢子及少数256个孢子的情况被描述,它们应该被看成是有性生殖真蕨,尤其是在膜蕨科和薄囊真蕨中的其他较原始的类群中的正常的孢子发生路线。     

A cytoskeletal system predicts division plane in meiosis ofSelaginella

Summary An ultrastructural investigation of the monoplastidic microsporocytes ofSelaginella arenicola revealed a unique cytoskeletal array that predicts the future division plane before nuclear division takes place. By midprophase of the first meiotic division, the single plastid has divided once and the two plastids lie on opposite sides of the nucleus which is elongated in the plane of the incipient metaphase I spindle. A cytoplasmic structure, the procytokinetic plate (PCP), predicts the division plane of of both plastid and cytoplasm. The PCP consists of a distinct concentration of vesicles lying in the future division plane and an elaborate system of microtubules aligned parallel to the long axis of plastids and nucleus. Microtubules of the axially aligned system appear to terminate in clusters of vesicles in the central zone of the PCP. The PCP with axially aligned microtubules is as predictive of the division plane in these meiotic cells as is the girdling preprophase band of microtubules in mitotic cells.     

苔藓植物孢子发生的研究进展

苔藓植物孢子发生的过程是一个复杂的形态建成的过程,在此过程中,孢子母细胞经过减数分裂的两次精确的核分裂以及细胞质分裂,形成单倍体的四分孢子,再经孢子壁的发育过程,形成成熟的孢子。本文重要介绍了苔藓植物孢子发生过程中细胞质裂片、质体及核的变化、微管系统及纺锤体、胞质分裂和孢子壁形成过程的特点及其研究进展。     

Structural and developmental studies of Chlamydomyzium oviparasiticum from Rhabditis nematodes and in culture

The oomycete (Peronosporomycete) Chlamydomyzium oviparasiticum, previously recorded as a parasite of rotifer eggs, was found infecting Rhabditis nematodes in a sample of rotting garden compost. For the first time C. oviparasiticum was cultured in liquid media, which enabled more detailed studies of zoospore behaviour and facilitated the use of confocal microscopy. Rhabditis nematodes were successfully re-infected from liquid-cultured inoculum. Light (including video) microscopy and transmission electron microscopy were used to document details of thallus development, zoospore release and resting spore morphology to enable comparison with other oomycete species. This species showed several significant saprolegnialian characters such as the ‘achlyoid’ pattern of spore formation, centrifugal cleavage and structured encystment vesicles. In contrast, spore release into a transient vesicle was a peronosporalean characteristic. The thick-walled resting spores showed relatively poor cytoplasmic preservation and had a thick multi-layered wall. It was still not possible to unequivocably decide whether these were chlamydospores or parthenogenically formed oospores. The phylogenetic significance of these observations is discussed.     

Penicillium rubens germination on desiccated and nutrient-depleted conditions depends on the water activity during sporogenesis

Fungal growth often appears in a surrounding where water and nutrients are scarce. The impact of this environment during sporogenesis on subsequent growth is often neglected.This study investigates the effect of water availability during sporogenesis on subsequent early growth. Therefore, a carbon-depleted substrate was constructed. Humidity is then the only parameter of interest. The water conditions during sporogenesis, and during subsequent growth, were varied. This is a stressing environment: no carbon source is present, and water provided solely via the vapour.The lag time, $t_l$, and initial growth rate, ${\mu }_{fp}$, of the germ tubes were monitored.The effect of $a_w$ history on germination and initial growth depends on the $RH$ of the environment. Only at low $RH$ do spores produced at low $a_w$ have a smaller $t_l$ and higher ${\mu }_{fp}$ compared to those grown at high $a_w$. This result was remarkably pronounced when the substrate was also made hydrophobic: growth only occurred when spores were developed at low $a_w$ and placed in high $RH$.Spores grown on lowered $a_w$ attract more water. It is hypothesized that this attraction affects subsequent growth behaviour, and is the reason why growth on hydrophobic glass only prevails in the condition of high $RH$ and lowered $a_w$ history.We demonstrate the influence of cultivation conditions on germination, which becomes more pronounced in a more desiccated environment.     

Cytotaxonomic Observations on Mecodium paniculiflorum (Presl) Copel and M. osmnndoides (V. D.B.) Ching

Mecodium paniculiflorum (Presl) Copel. and M. osmundoides (v. d. B.) Ching from Sichuan Province have been examined cytologically. They have the chromosome numbers n = 26 and n=28 respectively, which are recorded for the first time. Their spores produced after normal meiosis are seemly available. Both the species are sexual diploid. The chromosome number n=26 of M. paniculiflorum shows that it is distinct from M. polyanthos (Sw.) Copel. with the chromosome number n=28. However, M. osmundoides has the same chromosorrie number with M. polyanthos. Therefore, it may be an Asian member of M. polyanthos group. The occurrence of the basic number 26 in the genus Mecodium has given a strong evidence of the close relationship between Mecodium and Hymenophyllum, Meringium. It has been known that in Hymenophyllaceae, they are the only three genera with more than four base numbers. They have shared the base numbers 21 and 28. Now, they have the third common base number 26 (or 13) which is a spicific basic number in the family. In addition, all they have bivalved involucres and other similar characters, so it is reasonable that they are treated as subgenera or section under the same genus Hymenophyllum by C. V. Morton[13] and K. lwatsuki[7,8]. During the sporogenesis of M. paniculiflorum and M. osmundoides, the initial archesporiaI cell in a developing sporangium usually divides successively five times by mitosis resulting 32-spore mother cells, and then meiosis occurs regularly, giving rise to 128 spores finally. In a few cases, 64-SMC or 256-spore sporangia are also produced in M, osmundoides. It is suggested that besides forming 64-spore sporangium, forming 128-spore and 256-spore sporangia should be conscidered as normal sporogenesis lines in sexually-reproducing ferns, especially in Hyme- nophyllaceae and other ancient group of leptosporangiate ferns. The voucher specimens are deposited in the Herbarium of our Institute (PE).     

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。     

吸鱼粘体虫在异育银鲫心脏中的孢子发生

吸鱼粘体虫主要寄生在异育银鲫的心肌纤维间。随着营养体的长大,营养体内的两型生殖细胞相聚,小生殖细胞包围大生殖细胞,形成泛孢子母细胞。大生殖细胞进行连续的核分裂,成为产孢体。核分裂达12核时,产孢体内分化为10个细胞:4个成极囊细胞,4个成壳片细胞和2个双核的孢子质细胞。这些细胞均分为两组,从而形成双生孢子型的泛孢子母细胞。     

Sporogenesis in Eusporangiate Ferns: I. Monoplastidic Meiosis in Angiopteris (Marattiales)

Angiopteris (Marattiales) undergoes the more primitive form of monoplastidic meiosis, while other ferns have evolved the polyplastidic type typical of seed plants. In monoplastidic cell division, the single plastid divides and serves as site of the microtubule organizing center (MTOC) for spindle formation resulting in coordinated division of plastid, nucleus, and cytoplasm. In plants with polyplastidic cell division, the MTOC is diffuse and generally perinuclear. Monoplastidic cell division is seen as a plesiomorphic feature that was inherited from algal ancestors containing a single plastid and modified through evolution. Monoplastidic meiosis occurs in all groups of bryophytes (although in only a few hepatics), Isoetes, Selaginella, certain generic segregates of Lycopodium, and in members of the Marattiales. It is not known to occur in psilophytes, Equisetum, leptosporangiate ferns, or seed plants. Received 30 January 2001/ Accepted in revised form 24 April 2001