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1.
中华水韭雌配子体及胚胎发育的初步研究   总被引:1,自引:0,他引:1  
中华水韭(Isoetes sinensis Palmer)属水韭科(Isoetaceae)草本拟蕨类,是长江中下游特有的古老物种,对环境污染敏感,为国家一级重点保护的极度濒危的野生植物。本研究通过人工培养,按不同发育阶段,用常规石蜡切片法连续观察了雌配子体及胚胎发育的全过程。结果显示:大孢子培养15~20 d萌发,雌配子体为球状、属壁内发育型,每个雌配子体着生8~20个颈卵器。成熟的颈卵器发育有多种可能,但只有颈沟细胞和腹沟细胞都退化,卵才有受精的机会。合子首先进行横向分裂,培养约50 d发育成数十个细胞的球形胚胎,约80 d雌配子体的细胞萎缩,第一叶及其叶舌、第一根结构更明显,出现第二叶。文中还初步探讨了中华水韭濒危的生殖生物学机制。  相似文献   

2.
以中国产3种水韭的成熟叶片基部为实验材料,采用石蜡切片法,详细观察3种水韭的叶舌结构,建立各自叶舌的立体模型,探讨3种水韭间的亲缘关系,并比较了中国特产水韭与中亚及北美水韭的演化关系。结果显示:(1)3种水韭叶舌结构主要分为舌片、舌足和横带三部分。(2)中华水韭与东方水韭舌片均为三叉型,有主侧舌片之分,足角均为卵圆形,舌足与叶轴平行,而云贵水韭长鼻形,无主侧舌片之分,足角为三角形,舌足与叶轴有一定的角度。(3)中华水韭与云贵水韭的舌足侧面观为长椭圆形,东方水韭舌足侧面观为肾形。研究认为,中华水韭与东方水韭的亲缘关系较近,二者与云贵水韭亲缘关系较远;叶舌是水韭类的溯祖形态,其结构复杂,特征稳定,种间差异明显,应该作为水韭分类的重要依据。  相似文献   

3.
采用半薄切片法,连续观察了极度濒危级(CR)植物中华水韭大小孢子囊的发育过程,以期从无性生殖的角度,为探讨其濒危原因提供直观可靠的理论根据。结果显示:(1)中华水韭的大小孢子叶相间排列,无混生孢子囊。(2)隔丝为孢子供给营养,其体积直接影响孢子的大小、产量和育性。(3)大小孢子囊都近半数败育,小孢子囊为整齐发育,大孢子囊为不整齐发育。(4)大小孢子囊均无柄,且都不存在开裂结构,只有孢子囊壁腐烂后才能散播孢子。研究认为,中华水韭的濒危与孢子囊的发育特征密切相关,孢子囊的高频率败育、没有开裂结构以及对环境的依赖,是造成中华水韭濒危的重要因素之一;通过与近缘类群孢子囊的比较,发现仅水韭孢子的散播借助外力,对生境要求较高,即验证了水韭古老的系统学地位,同时说明水韭更具有监测生境地区环境指标的能力。  相似文献   

4.
我国共有5种水韭,全部被列为国家一级保护,均属极度濒危级(CR)野生植物。就营养器官而言,因水韭根、茎的简化,叶片特征成为最重要的分类学依据。本文针对形态特征相近的中华水韭、云贵水韭、台湾水韭和东方水韭,用显微镜观察了叶片发育的形态特征。结果表明:不同种水韭叶片在旋转角度、气孔分布等方面存在差异,而气孔器的种间一致性较高;同种水韭叶片在不同发育时期,其近远轴面的气孔指数、气孔分布及叶凸指数均有稳定的分类价值。本文检索讨论了我国4种水韭的分类学关系,并发现了叶表皮都存在异形条状细胞。  相似文献   

5.
极度濒危蕨类中华水韭对除草剂的生理响应   总被引:2,自引:0,他引:2  
以人工繁殖获得的极度濒危蕨类中华水韭(Isoetes sinensis Palmer)第3代成熟植株为材料,采用盆栽方法考察了中华水韭原产地农耕区常用8种除草剂处理后,中华水韭膜系统、保护酶系统及光合系统的变化规律,探讨除草剂污染对中华水韭濒危的生理学机制。结果表明:(1)各除草剂处理下,中华水韭的叶片相对电导率、MDA含量、SOD活性和CAT活性在处理后15d时显著高于对照,随着除草剂处理后时间的延长,各处理的POD活性均先升高后降低,在15d时接近对照水平,说明中华水韭的叶片光合系统普遍受到严重影响。(2)各除草剂处理后15d时中华水韭的叶绿素含量显著低于对照,气孔导度和蒸腾速率急剧升高,净光合速率明显降低。研究发现,中华水韭对8种不同除草剂都十分敏感;乙氧氟草醚和2甲4氯钠对植株叶片净光合速率的伤害严重,精稳杀得、精恶唑禾草灵及苄嘧磺隆对膜系统的伤害严重;推测除草剂是造成中华水韭濒危的重要原因之一。  相似文献   

6.
水韭属(Isoëtes)是起源最为古老的水生维管植物,全属物种均被列为国家一级重点保护植物。通过对全国水韭属植物的调查和研究发现,不同产地的四倍体植株在形态上存在显著差异。基于形态学、孢粉学和细胞学证据,将分布于中国湖南省长沙地区和怀化地区的四倍体居群分别命名为隆平水韭(Isoëtes longpingii)和湘妃水韭(I. xiangfei),并详细描述了其形态特征。隆平水韭形态上与中华水韭(I. sinensis)相似,不同之处在于其大孢子具小的瘤状或冠状纹饰,叶细长而柔弱,长达60 cm; 该种也与六倍体东方水韭(I. orientalis)相似,不同之处在于其染色体44条,大孢子具瘤状或冠状纹饰。湘妃水韭的大孢子纹饰虽与二倍体云贵水韭(I. yunguiensis)相似,但在小孢子纹饰、孢子囊形状和染色体数目方面却不同。隆平水韭仅少数植株生长于湖南省宁乡市一处池塘,完全沉水生长,而湘妃水韭则分布于怀化市通道县和会同县的湿地。由于这两个新种的分布区狭窄,野生居群数量和个体数较少,栖息地环境受到人为干扰,因此根据IUCN红色名录评估标准,将隆平水韭评为极危(CR)等级,湘妃水韭评为易危(VU)等级。所编制的中国已知水韭属物种的分种检索表,为本属物种的鉴定和保护工作提供了重要参考。  相似文献   

7.
为了解云贵水韭(Isoetes yunguiensis)的生殖过程和濒危原因,采用人工培养获得其雌配子体,用半薄切片法观察雌配子体发育过程。结果表明,云贵水韭的大孢子萌发率约为26%;雌配子体异养,终生都在大孢子细胞壁内发育;颈卵器发育只有2枚颈沟细胞而无腹沟细胞。雌配子体发育停止在游离核时期、颈壁细胞数量偏少或排列紊乱、颈沟细胞异常、卵细胞凋亡等可能是导致生殖濒危的原因。同时,游离核是水韭生殖生物学研究和系统学研究的重要环节之一;缺失腹沟细胞可能是水韭类简化性进化的特征之一。  相似文献   

8.
极濒危植物中华水韭屯溪居群调查研究报告   总被引:1,自引:0,他引:1  
中华水韭(Isoetes sinensisPalmer)为水韭科(Isoetaceae)水韭属(Isoetes)多年生沼泽植物,由于人为干扰日益严重,现分布范围急剧缩小,种群数量稀少,处于濒危状态,已被列为国家一级重点保护野生植物。为科学合理的保护和抢救这一珍稀濒危植物资源提供理论依据,为此对中华水韭屯溪居群的生长环境、面积、株丛数量、水体的pH值、伴生植物种类和生存现状等的调查研究。中华水韭屯溪居群面积500m^2,株丛密度较大,水体pH值为6.55,伴生植物有40余种,其中10种有较高优势度,生存面临多重威胁,保护迫在眉睫。  相似文献   

9.
用石蜡切片法对濒危物种灰叶胡杨的大孢子发生和雌配子体发育过程进行观察研究.结果显示,灰叶胡杨雌蕊由三心皮构成,侧膜胎座,胚珠为倒生型,有18~21列;发育早期的胚珠为双珠被,厚珠心;当外珠被发育至与内珠被处于同一水平时,内珠被便开始退化,故成熟胚珠为单珠被;孢原细胞1个,并且自表皮下2层处分化;大孢子母细胞由孢原细胞分裂后形成的造孢细胞直接发育而来;大孢子四分体直线形排列,合点端的大孢子为功能大孢子,蓼型胚囊;在胚囊发育过程中珠孔端的珠心组织退化.根据开花物候不同阶段花的形态特征,可以初步判断灰叶胡杨大孢子发生和雌配子体的发育进程.  相似文献   

10.
中国水韭属植物的孢子形态特征   总被引:1,自引:0,他引:1  
利用扫描电镜观察了中国现存5种水韭属Isētes植物孢子的表面纹饰,并统计分析了孢子的大小(n=30).结果显示:高寒水韭上hypsophila大孢子表面光滑无突起纹饰,平均极面直径358 μm,小孢子具脑回状纹饰,平均长度22μm;云贵水韭Lyunguiensis大孢子表面具脊条-网络状纹饰,纹饰突起较低,近极面较稀疏且不连成完全的网络,平均极面直径390 μm,小孢子具疣状小颗粒至近于光滑的表面纹饰,平均长度22μm;台湾水韭L taiwanensis大孢子表面具瘤状突起,平均极面直径312μm,小孢子表面具刺棘状突起,平均长度24μm;中华水韭I sinensis大孢子表面具脊条状突起,平均极面直径409 μm,小孢子表面具刺棘状突起,平均长度28 μm;东方水韭I orientalis大孢子表面具脊条-网络状纹饰,纹饰突起较高,近极面的网络较完整,平均极面直径420 μm,小孢子表面具矮刺状-瘤状突起,平均长度34 μm.比较类群间的孢子形态特征与染色体数目表明:5个类群的孢子表面纹饰区别明显,同时,孢子的大小可反映类群的倍性,孢子较小的高寒水韭、云贵水韭和台湾水韭是二倍体(2n=22),孢子较大的中华水韭(2n=44)和东方水韭(2n=66)为多倍体.孢子的形态特征在中国水韭属植物物种的鉴定与分类中具有重要意义.  相似文献   

11.
12.
Summary   Isoetes eludens, a new, highly localised, endemic species from the Kamiesberg, Northern Cape is described. The aquatic species grows in a shallow temporary gnamma or !gau (rock pool) in Kamiesberg gneiss at an altitude of 1,284 m. It is characterised by a short, strongly 3-lobed stem, relatively short, and broad estomate sporophylls, a complete velum, the presence of an outer sporangium sack (a feature not previously reported for the genus), graphite-black, laevigate megaspores with a narrow, but tall laesura, microspores with near smooth proximal surfaces but with a papillate distal surface, the absence of a ligule and labium, and simple roots with few root-hairs. The systematic relationship of the species is difficult to determine as a result of convergent evolution in the genus. The sporangium sack does not support an affinity with any of the known species. Further surveys are needed to establish the geographical extent and conservation status of this remarkable local endemic.  相似文献   

13.
The dominant Knotted-1 mutations in maize alter development of the leaf blade. Sporadic patches of localized growth, or knots, and fringes of ectopic ligule occur along lateral veins of mutant leaf blades. In addition, bundle sheaths do not completely encircle lateral veins on mutant leaf blades. We have compared mutant leaf blades with wild-type leaves to determine the precise nature of the perturbed regions. Our analysis includes characterization of epidermal cell shapes, localization of photosynthetic proteins and histology of the leaf. We show that mutant leaf blades are a mosaic of leaf organ components. Affected regions of mutant leaf blades resemble either sheath or auricle tissue in both external and internal features. This conversion of blade cells represents an acropetal shift of more basal parts of the leaf blade region and correlates with previously identified ectopic expression of the Knotted-1 protein in the leaf blade. We propose that inappropriate expression of Kn1 interferes with the process of establishment of cell identities, resulting in early termination of the normal blade development program or precocious expression of the sheath and auricle development programs. © 1994 Wiley-Liss, Inc.  相似文献   

14.
描述了产自贵州的竹亚科一新种:黎平玉山竹(Yushania lipingensis Z. X. Zhang, Y. H. TongZ. Yang)。本种形态上与显耳玉山竹(Y. auctiaurita T. P. Yi)接近,但区别在于该种箨鞘背面密被向上的黄褐色或紫色疣基刺毛,箨耳及叶耳明显弯曲呈镰刀形,鞘口繸毛发达,通常呈放射状,箨舌先端截平,不圆拱,边缘密生短纤毛,箨片腹面被微柔毛,叶片次脉通常5~6对。  相似文献   

15.
Some maize (Zea mays L.) genotypes produced husk leaves without leaf blades. However, the physiological implication of this leaf deformity is unclear. Difference in protein pattern was observed between maize with and without husk leaf blades. A clear band around 38[sim ]40 kDa in seeds of maize genotypes without husk leaf blades appeared, while it was not detected in ones with husk leaf blades. These protein might be involved in leaf blade intiation.  相似文献   

16.
Gaultheria gonggashanensis P. W. Fritsch & Lu Lu, a new species from western Sichuan Province, China, is described and illustrated. This species belongs to Gaultheria ser. Trichophyllae Airy Shaw and is most similar to G. sinensis J. Anthony, but differs by its longer stem setae, glabrous petioles and leaf blade midveins adaxially, thick‐chartaceous to subcoriaceous leaf blades, larger calyx lobes, and smaller anther thecae. The species is known with certainty only from the Hailuo Valley on the east slope of Mount Gongga in the Daxue Range.  相似文献   

17.
The glycine betaine which accumulated in shoots of young barley plants (Hordeum vulgare L.) during an episode of water stress did not undergo net destruction upon relief of stress, but its distribution among plant organs changed. During stress, betaine accumulated primarily in mature leaves, whereas it was found mainly in young leaves after rewatering. Well-watered, stressed, and stressed-rewatered plants were supplied with [methyl-14C]betaine (8.5 nmol) via an abraded spot on the second leaf blade, and incubated for 3 d. In all three treatments the added 14C migrated more or less extensively from the second leaf blade, but was recovered quantitatively from various plant organs in the form of betaine; no labeled degradation products were found in any organ. When 0.5 mol of [methyl-14C]betaine was applied via an abraded spot to the second leaf blades of well-watered, mildly-stressed, and stressed-rewatered plants, 14C was translocated out of the blades at velocities of about 0.2–0.3 cm/min which were similar to velocities found for applied [14C]sucrose. Heat-girdling of the sheath prevented export of [14C]betaine from the blade. When 0.5 mol [3H]sucrose and 0.5 mol [14C]betaine were suppled simultaneously to second leaf blades, the 3H/14C ratio in the sheath tissue was the same as that of the supplied mixture. After supplying tracer [14C]betaine aldehyde (the immediate precursor of betaine) to the second leaf blade, the 14C which was translocated into the sheath was in the form of betaine. Thus, betaine synthesized by mature leaves during stress behaves as an inert end product and upon rewatering is translocated to the expanding leaves, most probably via the phloem. Accordingly, it is suggested that the level of betaine in a barley plant might serve as a useful cumulative index of the water stress experienced during growth.  相似文献   

18.
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