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111.
112.
113.
对铃兰族(广义)7个属分别作了花粉(17种)扫描电镜观察和叶表皮(12种)的光学显微镜和
扫描电镜观察。花粉可分为8个类型。在狭义的铃兰族的4个属内,花粉全为远极单槽,舟状。它们
的外壁除夏须草属外,都具细孔。夏须草属的花粉外壁则为细皱。 Hutchinson(1934)的蜘蛛抱蛋族
花粉形态变异很大,其中开口箭属和万年青属的花粉为远极单槽,舟形,外壁具穿孔或网纹,而蜘蛛抱
蛋属的花粉则为球状,无萌发孔。其间的显著差异支持Nakai为前两个属建立万年青族(Rohdeae)。
表1归纳了7个属的花粉形态;图1是我们对铃兰族(广义)花粉形态演化的见解。叶表皮观察表明,气
孔器为无规则型,上表皮角质层主要为条纹加厚,或均匀加厚,而铃兰属的角质层秕糠状加厚。7个属的叶表皮特征归纳于表2。 相似文献
114.
芍药属的研究(1)——国产几个野生种核型的报道 总被引:1,自引:0,他引:1
In the present paper 8 species with 15 populations of the genus Paeonia L. (if P.
papaveracea and P. japonica are recognised as species) were collected from Sichuan, Shaanxi
and Hebei provinces (see the Appendix for detail of the materials). The micrographs of their
somatic metaphase (also Mii in the case of P.veitchii) are shown in Plates 1-4, the karyo-
type formulae, ranges of chromosome length and classification of karyotypes according to Steb-
bins (1971) are shown in Table 5: the idiograms in Figs. 1-2, and the parameters of chromo-
somes in Table 1-4. The essential points are mentioned as follows:
(1) Chromosomes of the various species in the section Modan have so far been examined
and they are all diploid, the two species in the section Onaepia are also diploid, and thus
tetraploids exist only in the section Paeonia.
(2) Chromosomes in the genus Paeonia are relatively stable except for the differentiation
of ploidy. The karyotypes (Table 1-4) show no differences among different taxa in Sect.
Modan and the same can also be said about the taxa in Sect. Paeonia (Table 1). Not only
are the karyotypes very similar, but also among the members within either section have the
same parameters of chromosomes, and, differences, if occur, are not statistically significant.
Between the two sections, however, the situation is different. The arm ratios of the first pairs of
chromosomes in Sect. Modan are 1.53, 1.52 and 1.48 (Table 1), but those in Sect. Paeonia
are 1.12-1.28 (Table 2-4), 95% confidence limits are 1.46-1.60 for the section Modan and
1.07-1.28 (1.21-1.35 only for PB85078) for the section Paeonia, not overlapping, which indi-
cates that the two sections have differentiated in respect of the first pairs of chromosomes.
(3)The population PB85024, which belongs to the P. obovata complex, has a karyotype of
2B (stebbins, 1971), which is a new one in the genus Paeonia. This karyotype is a stable one,
for several individuals in the population are uniform in this respect, which shows that Steb-
bins’ (1971) generalization that all the species in Paeonia have 2A does not hold true.
(4) Three populations of P. obovata complex studied in this work from Sichuan and
Shaanxi are all tetraploids, and one from Hebei is a diploid. From the present work and
the previcus reports, the materials from Japan and Korea, no matter whether flowers are pink
or white, are diploids, those from Heilongjiang Province (with both pink and white flowers)
(Liu Ming-yuan, personal communication) and from Heibei Province (with pink flowers)
in China are also diploids, the one from Sakhalin (pink flowers) is tetraploid, those from
Priamur of the Soviet Union are a tetraploid (with white flowers) and a diploid (with pink
flowers), and those from Shaanxi (the Qinling Range) and western Sichuan (with both pink
and white flowers) are all tetraploids. As far as we have now known, ploidy in this parti-
cular complex is correlated with the geographical distribution: diploids are found in the cen-
tral part, tetraploids occur in the northern limits, and in the south letraploids are the only
cytotype.
(5) The materials of P. mairei from western Sichuan and Shaanxi (the Qinling Range)
are found all to be tetraploids, which shows that two cytotypes, diploid and tetraploid, exist in
this species, but the geographical distribution pattern of these two cytotypes is to be revealed
in the future investigation. 相似文献
115.
研究性学习是以培养学生实践能力和创新精神为基本目标,科学研究为基本内容,学生自主学习为基本形式的一种课程。研究性学习的着眼点是树立以学生发展为本的教学思想,改变学生的学习方式,即通过调整教学目标、内容和方法,帮助学生改变原有单纯接受式的学习方式, 相似文献
117.
高原地区由于风沙天气较多,常在山坡的受风面形成风积沙地层。高原隧道的洞口段常遇该类不良地质地层,风积沙围岩白稳能力极差,开挖时极易坍塌。施工防坍塌、沉降是影响安全和进度的重要因素,解决这一因素的有效方法成为高原隧道施工的课题。 相似文献
118.
119.
The present paper deals with the genus Paeonia in Xinjiang, whose taxonomy has
been confused. Based on the field observation, population sampling and the examination of
herbarium specimens, a taxonomical revision is made in this paper. Two species are recog-
nized, i. e. Paeonia anomala L. and P. sinjiangensis K. Y. Pan. P. altaica K. M. Dai
et T. H. Ying is reduced to P. sinjiangensis and P. hybrida (= P. anomala var.
intermedia) is reduced to P. anomala. The diagnostic characters of the two species are de-
scribed and illustrated, and a map of their distribution in Xinjiang is presented. A key to
these two species is provided here.
1. Roots straight, not thickened; sepals all caudate, less frequently one or very rarely two
non-caudate ................................................ 1. P. sinjiangensis K. Y. Pan.
2. Roots fusiform or tuberous; inner three sepals non-caudate, less frequently one of them
caudate .............................................................. 2. P. anomala L.
key words Xinjiang; Paeonia; P. anomala; P. sinjiangensis; revision 相似文献
120.