瘤足蕨科及其近缘类群植物叶表皮微形态扫描电镜观察

瘤足蕨科是一个自然的群,但由于各类群之间的形态差异及种内变异比较大,其分类和系统位置一直有争议。该研究利用扫描电子显微镜对瘤足蕨科10种及其近缘类群桫椤科2种、蚌壳蕨科1种共13种植物,即瘤足蕨(Plagiogyria adnata)、耳形瘤足蕨(P.stenoptera)、镰羽瘤足蕨(P.falcata)、峨嵋瘤足蕨(P.assurgens)、密羽瘤足蕨(P.pycnophylla)、灰背瘤足蕨(P.glauca)、华东瘤足蕨(P.japonica)、华中瘤足蕨(P.euphlebia)、日本瘤足蕨(P.matsumureana)、美洲瘤足蕨(P.pectinata)、桫椤(Alsophila spinulosa)、西亚黑桫椤(A.khasyana)和金毛狗(Cibotium barometz)的叶表皮微形态进行了观察和比较,探讨其分类学意义,并据此编制了供试10个种类的分类检索表。结果表明:13种瘤足蕨科及其近缘类群植物气孔均仅分布在叶下表皮,气孔微下陷,气孔器椭圆形至圆形;叶上下表皮角质层纹饰复杂,类型多样,少数类群叶下表皮具毛状物;多数类群气孔外拱盖凹陷;气孔外拱盖内缘浅波状或齿状;保卫细胞两极大多数有明显的"T"型加厚。不同种间叶表皮扫描电镜特征表现出一定差异,对种的划分有一定的分类学鉴定意义。     

胡椒科的知识

近来,在北京海淀街上见有小贩叫卖“海南胡椒”,那白色的小珍珠似的胡椒子挺好玩的,也有胡椒面,这使我想起了胡椒科植物。该科是一个不大为人注意的植物类群,但种类还不少,有8—9个属,3100种,主要分布在热带地区。我国的胡椒科植物种类不多,只有4属,70     

梧桐科植物的地理分布

梧桐科植物全世界有60属约1546种,主要分布在热带和亚热带地区,只有少数种类可分布至温带地区,由于梧桐科是多型的科,科的范围较大,对有些属是否应隶属于该科,国内外学者的意见很不一致。本文基本上按照J.Hutchinson系统和参考有关文献对一些属的分类位置作了调整,把梧桐科分为12族,根据A.Takhtajan的世界植物区系区划的原则,将梧桐植物在世界上的分布区,划分为6区8亚区23地区,并指出各属在中国各省区的地理分布,现在中国梧桐科植物连引种栽培的在内共有25属99种7变种,其中野生的有18属85种7变种,引种栽培的有8属14种,对梧桐科植物的起源和发展作了一些探讨。     

湖北省泽泻科、水鳖科、眼子菜科及茨藻科植物花粉形态研究

本文利用光镜及扫描电镜对湖北省泽泻科、水鳖科、眼子菜科及茨藻科11属29种1变种1变型植物(另加采于湛江的软骨草)的花粉形态进行了研究,发现泽泻科植物花粉具多个圆形萌发孔,外壁表面为小刺状纹饰;茨藻科植物花粉具远极单槽,表面为绉波状纹饰;眼子菜科及本文研究的水鳖科植物花粉均无萌发孔,分别具网状和小刺状饰纹饰。1.茨藻科植物花粉最原始,泽泻科花粉较进化,眼子菜科花粉较水鳖科花粉进化;2.泽泻属与泽苔草属花粉较慈姑属花粉原始;3.鞘叶眼子菜亚屈花粉较眼子菜亚属的花粉处于更高演化阶段;4.多孔茨藻花粉在该科中最原始。本文工作尚对易变形水生植物花粉形态研究方法进行了尝试。     

甘肃白龙江流域提灯藓科植物研究

对采自甘肃白龙江流域的180余份提灯藓科植物标本进行了分类研究,共鉴定出该科植物4属22种,其中瘤柄匍灯藓、大叶毛灯藓、细枝毛灯藓、具丝毛灯藓为甘肃省新记录种。同时,依据标本编制了白龙江流域提灯藓科植物的分属、分种检索表,列出了各个种的生境和分布,并对其区系成份进行了分析。     

伯乐树科及其近缘科的花粉形态研究

本文观察了伯乐树科、省沽油科、牛栓藤科、七叶树科、无患子科、罂粟科,共6科、17属、21种植物的花粉形态。依据花粉资料,探讨了伯乐树科的系统位置。认为伯乐树科与无患子目中牛栓藤科关系较为密切。牛栓藤科较为进化,伯乐树科较为原始。与无患子目中其他一些科关系不明显。伯乐树科与罂粟科、豆科中云实亚科的花粉形态有某些相似,而伯乐树科较为进化。与辣木科、白花菜科花粉形态较少相似。     

茨藻科、角果藻科植物花粉形态的研究

在水生植物茨藻目中,茨藻科Najadaceae和角果藻科Zannichelliaceae植物由于其结构、尤其是花部结构的极度简化和趋同适应,系统关系仍不清楚。本文应用光学显微镜、扫描电镜和透射电镜对上述2科4属的10种代表植物的花粉形态进行了观察,系统描述了各属、种的花粉形态。结果表明角果藻科植物花粉均无萌发孔,外壁纹饰通常为拟网状至浅网状。花粉形态的研究结果支持将Vleisia作为角果藻属Zannichellia的近缘属处理的观点。茨藻科植物花粉外壁光滑、稍皱波状或为疣状,具颗粒状纹饰,萌发孔的有无在种间存在变异。花粉形态的研究结果表明角果藻科与眼子菜科Potamogetonaceae近缘,茨藻科可能与水蕹科Aponogetonaceae或水鳖科Hydrocharitaceae中具单沟花粉的类群有一定联系,而与角果藻科和眼子菜科则相去甚远。     

刮目相看茜草科（上）

蓬子菜茜草科植物有５００属６０００种,也有书记载为６３７属１０７００种。它在被子植物的科中不是最大的,但是有一现象十分有趣。如果我们把几个大科的属和种数对比一下,会发现茜草科有一特点,即用属数和种数比,平均每属所包含的种数少,足以令人刮目相看这一科。茜草科以种数与属数相除,平均每属含种数１２个,此数值较之其他几个大科少得多。这说明茜草科植物属的分化强烈,亦即说明本科生物多样性的分化更深入。但是茜草科中也有一些大的属,如九节木属Ｐｓｙｃｈｏｔｒｉａ有８００—１５００种,耳草属Ｈｅｄｙｏｔｉｓ…     

湖南伞形科植物区系分析

通过野外调查、查阅标本及相关资料,对湖南伞形科植物进行了研究,确认湖南现有伞形科植物3亚科26属65种6变种2变型,种类较为丰富,其中湖南新纪录种6种.湖南伞形科区系温带性质占主体,其区系与江西、贵州、湖北的区系关系密切;湘西北地区伞形科植物最为丰富,湘西北至湘西南地区为湖南伞形科植物的分布中心.伞形科植物有很大的经济价值,应采取措施对其资源保护和可持续利用.     

喜说报春花科植物（上）

说起报春花科植物就令人感到欣喜。这一科的近千种植物中,有500多种产于中国。其中种类最多的报春花属,中国产300种左右,占全球种数的五分之三,以致外国植物学者称中国是世界报春花科的分布中心。盛产于我国西南的报春花、点地梅等属,也是著名的高山花卉,尤其是报春花,花繁色艳,花期长,深得园艺学家青睐,一些种已在庭园和居室中广为栽培,给人们带来春天的希望。先说报春花之美报春花是报春花属（Primula）植物的泛称。这一届的植物几乎都是多年生草本。叶片基生呈莲座状,叶多有柄。花葶上方具一顶生的伞形花序,有时有2－3层乃…     

Effect of certain soil conditions on nodulation ofAcacia spp.

Summary Growth and nodulation ofAcacia spp. in sand increased with increase in soil moisture to an optimum at 15 per cent soil moisture and this agreed with the occurrence of these species in the more moist sites reported by other workers. TheAcacia species grew and produced effective nodules at up to 35°C and this is the highest temperature for nodulation so far recorded. It indicated adaptation of these species to the warm and dry conditions of the fields. Soil reaction affected nodulation more than it affected plant growth. At pH 5–5.5 nodulation was absent while plant growth was as good as at pH 6.5–7.0 which was the optimum level for both growth and effective nodulation. The latter were reduced at pH 8.5–9.0 and therefore the alkaline reaction of the soils in Northern Sudan may be a factor influencing growth of Acacia in that region.     

Two gene clusters of Rhizobium meliloti code for early essential nodulation functions and a third influences nodulation efficiency.

A pLAFR1 cosmid clone (pPP346) carrying the nodulation region of the symbiotic plasmid pRme41b was isolated from a gene library of Rhizobium meliloti 41 by direct complementation of a Nod- deletion mutant of R. meliloti. Agrobacterium tumefaciens and Rhizobium species containing pPP346 were able to form ineffective nodules on alfalfa. The 24-kilobase insert in pPP346 carries both the common nodulation genes and genes involved in host specificity of nodulation. It was shown that these two regions are essential and sufficient to determine the early events in nodulation. A new DNA region influencing the kinetics and efficiency of nodulation was also localized on the symbiotic megaplasmid at the right side of the nif genes.     

Changes in mycorrhiza development in maize induced by crop management practices

A survey of nodulation was carried out in seven regions of Brazil and the nodulation status of 131 legume species is reported. Nodulation is reported for the first time in 46 species and six genera, representing 35% of the examined species. Two of the genera were non-nodulating: Martiodendron and Nissolia, and four nodulating: Riedeliella, Bergeronia, Goldmania. Moreover the last tribe of Mimosoideae yet to be examined for nodulation Mimoziganthus, was shown to be nodulated. The nodulation pattern is discussed in the light of the taxonomy of the family.     

Studies on tree legumes

Twenty five species of tree legumes, belonging to genera Acacia, Albizzia, Bauhinia, Colophospermum, Dichrostachys, Leucaena, Peltophorum, Pithecolobium and Prosopis were examined for nodulation under pot culture conditions using unsterilized soil. Out of these, only nineteen tree-legumes nodulated. It was interesting to note that all the three species of Bauhinia and one each of Acacia, Colophospermum and Peltophorum did not nodulate both at Jodhpur and Delhi. Inoculation of tree legumes with their own rhizobial isolates, improved nodulation under sterilized conditions.     

Nodulation of native woody legumes in Hong Kong, China

Woody legumes can play an important role in forest restoration on degraded land but the knowledge of woody legumes has lagged behind their uses. This study is a pioneer investigation to explore the ability of native woody legumes to form root nodules and fix nitrogen in Hong Kong. Nine sites of different habitat types were surveyed during both wet and dry seasons for two years. Young plants of woody legumes along studied transects were excavated. The patterns of nodulation and nodule morphology were recorded and the nitrogen fixing ability was tested by acetylene-reduction-assay. Twenty-eight species in 16 genera were examined, of which 20 species were nodulating and eight non-nodulating, including all six species in the Caesalpinioideae. Five species were new records to the world’s nodulation inventory. Bowringia callicarpa was a new species and genus examined, which was non-nodulating. The overall nodulation pattern was consistent with previous studies. Nodulation was more profuse in some shrub species while inconsistent in most tree species. Species with higher proportion of nodulated individual plants also tended to have more nodules in each plant. Spherical nodules were common in shrub and woody climber species whilst tree species usually had woody indeterminate nodules. Seasonal difference in the amount of senescent nodules was noted in most species. All the nodules tested by acetylene-reduction-assay were effectively nitrogen-fixing, with nitrogenase activity ranging from 4 μmol C₂H₄ g^?1 h^?1 to 20 μmol C₂H₄ g^?1 h^?1, which was comparable to other tropical tree species. The findings in nodulation pattern and nitrogen fixing ability of these species are essential in their application in forest restoration on degraded lands.     

Cowpea and peanut in southern Africa are nodulated by diverse Bradyrhizobium strains harboring nodulation genes that belong to the large pantropical clade common in Africa

Cowpea (Vigna unguiculata) and peanut (Arachis hypogaea) in southern Africa are nodulated by a genetically diverse group of Bradyrhizobium strains. To determine the identity of these bacteria, a collection of 22 isolates originating from the root nodules of both hosts in Botswana and South Africa was investigated using the combined sequences for the core genome genes rrs, recA, and glnII. These data separated the majority of the isolates into one of three unique lineages that most likely represent novel Bradyrhizobium species. Some isolates were also conspecific with B. yuanmingense and with B. elkanii, although none grouped with B. japonicum, B. canariense or B. liaoningense. To study the evolution of nodulation genes in these bacteria, the common nodulation gene, nodA, and host-specific nodulation genes, nodZ, noeE, and noeI, were analyzed. The nodA phylogeny showed that the cowpea and peanut Bradyrhizobium isolates represent various locally adapted groups or ecotypes that form part of Clade III of the seven known BradyrhizobiumnodA clades. This large and highly diverse clade comprises all strains from sub-Saharan Africa, as well as some originating from the Americas, Australia, Indonesia, China and Japan. Some similar groupings were supported by the other nodulation genes, although the overall phylogenies for the nodulation genes were incongruent with that inferred from the core genome genes, suggesting that horizontal gene transfer significantly influences the evolution of cowpea and peanut root-nodule bacteria. Furthermore, identification of the nodZ, noeI, and noeE genes in the isolates tested indicates that African Bradyrhizobium species may produce highly decorated nodulation factors, which potentially represent an important adaptation enabling nodulation of a great variety of legumes inhabiting the African continent.     

Root hairs and phosphorus acquisition of wheat and barley cultivars

Several genes that restrict nodulation with specific Bradyrhizobiumstrains are known in Glycine max (soybean), and a similar system of nodulation restriction has recently been discovered in the related North American legume Amphicarpaea bracteata. We analyzed how nodulation-restrictive genotypes of each plant interacted with Bradyrhizobium strains sampled from the other host species. Ten bacterial isolates from A. bracteata that nodulated differentially with genotypes of their homologous host legume showed uniform responses to two soybean isogenic lines that differed at the Rj4 locus controlling nodulation restriction: all isolates formed nodules of normal size and morphology on both isolines. However, little or no nitrogen fixation occurred in any of these symbioses. A. bracteata genotypes that displayed broad vs. restricted symbiotic phenotypes toward naturally-associated bradyrhizobia were also tested with two bacterial isolates from soybean (USDA 76 and USDA 123). Both isolates formed nodules and fixed nitrogen in association with both A. bracteata genotypes. However, symbiotic effectiveness (as measured by acetylene reduction assays) was normal only for the combination of USDA 76 with the restrictive A. bracteata genotype. Overall, these results indicate that plant genes that restrict nodulation by certain naturally-associated bradyrhizobia do not confer comparable specificity when plants interact with bacteria from another related legume species.     

Rhizobial symbiosis on Venezuelan savannas

Summary An extensive study of the leguminous plants growing on Venezuelan savannas was made. Of 127 species examined, 109 were nodulated, with 73 species in the Papilionoideae. 71 species in 17 genera are new records of nodulation. Most of the non-nodulated species were in the Caesalpinioideae, and non-nodulation was correlated with brown coloured roots. Some environmental factors involved in the establishment of the legume-Rhizobium association are discussed. These observations on nodulation represent 13 per cent of the total Leguminosae flora of Venezuela.     

Effect of some carbamate pesticides on nodulation,plant yield and nitrogen fixation byPisum sativum andVigna sinensis in the presence of their respective rhizobia

Summary Six carbamate pesticides namely 1-naphthol, sevin, dimetilan, trematan, NaDDC and dymid were studied to see their effect on nodulation and nitrogen fixation inPisum sativum andVigna sinensis. Low concentrations of the pesticides have little effect on nodulation and nitrogen fixation, whereas higher concentrations adversely effect these processes. The results also indicate that then sensitivity depends upon the species of the Rhizobium and also the type of the pesticide. Pesticides belonging to the carbamate group differ in their capacity to affect nodulation and nitroge fixation.     

Isolation and characterization of the DNA region encoding nodulation functions in Bradyrhizobium japonicum.

The DNA region encoding early nodulation functions of Bradyrhizobium japonicum 3I1b110 (I110) was isolated by its homology to the functionally similar region from Rhizobium meliloti. Isolation of a number of overlapping recombinant clones from this region allowed the construction of a restriction map of the region. The identified nodulation region of B. japonicum shows homology exclusively to those regions of R. meliloti and Rhizobium leguminosarum DNA known to encode early nodulation functions. The region of homology with these two fast-growing Rhizobium species was narrowed to an 11.7-kilobase segment. A nodulation-defective mutant of Rhizobium fredii USDA 201, strain A05B-2, was isolated and found to be defective in the ability to curl soybean root hairs. Some of the isolated recombinant DNA clones of B. japonicum were found to restore wild-type nodulation function to this mutant. Analysis of the complementation results allows the identification of a 1.8-kilobase region as essential for restoration of Hac function.