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1.
倭竹族花序演化的探讨 总被引:1,自引:0,他引:1
倭竹族隶于禾本科之竹亚科。本族计有10属约150余种。分布于东南亚季风带的印度、越南、中国及日本等国,我国产8属约120种,占该族全部属种的80%。其中唐竹属、短穗竹属、筇竹属、八月竹属等均为我国所特产,唐竹属1种早期引入日本栽培,倭竹属、大节竹属、方竹属、刚竹属等也主要分布于我国,只有少数种分布于其它国家,业平竹属和阴阳竹属为日本特产。 刚竹属计有70种之多,我国产50种以上,是本族中种类最多的属,其中有许多种类分布广、适应能力强,用途多、产量大。是重要的植物资源.尤其是毛竹,是我国亚热带地区的主要栽培竹种。 倭竹族花序演化的研究对于进一步认识和鉴别竹类植物.了解竹类植物的演化关系。使竹类植物的系统安排更加合理都是有益的。倭竹族的花序属于假花序.与真花序相比较属于原始类型。本族中花序轴反复分枝.具有极多小穗的短穗竹属,业平竹属等是比较原始的,大节竹属、唐竹属的花序简化、花序轴不分枝或仅有少数分枝,含小穗数很少是进化类型。 相似文献
2.
筛胸梳爪叩甲幼虫寄主调查及其土壤空间分布 总被引:5,自引:0,他引:5
对安吉竹博园内筛胸梳爪叩甲Melanotus cribricolls(Faldermann)的寄主危害进行调查,主要调查竹种隶属于刚竹属(Phyllostachys)、矢竹属(Pseudosasa)、大明竹属(Pleioblastus)、唐竹属(Sinobambusa)、短穗竹属(Brachystachyum)、少穗竹属(Oligostachyum)和箣竹属(Bambusa),共7个属,包括47个竹种,其中41种寄主都不同程度地受到筛胸梳爪叩甲幼虫期的危害,新发现受害寄主30余种。据筛胸梳爪叩甲幼虫在5个竹种林区间的空间分布表明:筛胸梳爪叩甲较大体型的幼虫在竹林土壤中主要为聚集分布。调查过程发现,除筛胸梳爪叩甲幼虫对竹种的危害以外,竹笋夜蛾Apamea spp.也是导致退笋的主要虫害之一,二者一并成为目前竹博园内竹笋退笋的主要害虫。此外,园内竹种也受到浙江栉蝠蛾Bipectilus zhejiangensi、叶甲、白蚁和腐生蝇的侵害。鉴于筛胸梳爪叩甲幼虫危害的竹种范围比以往报道的有扩大的趋势,在竹种移植、土壤改良及敏感品种的选育应考虑到这些方面。 相似文献
3.
中国(竹思)簩竹属(Schizostachyum Nees)的研究及其它 总被引:3,自引:0,他引:3
夏念和 《热带亚热带植物学报》1993,1(1):1-10
对国产(竹思)(竹劳)竹属(Schizostachyum Nees)进行了系统整理。对属的范围进行了修订,认为本属应包括乔草竹属(Dendrochloa Parkinson),薄竹属(Leptocanna Chia et H.L.Fung),长穗竹属(Teinostachyum Munro)和李海竹属(Neohouzeaua A.Camus),并首次建立了本属的属下分类系统。此外,对二种竹子起了新名:甲竹(Bambusa austro-sinensis Xia)和毛环单竹(B.yunnanensis Xia);作了4个新组合,即Schizostachyum coradatum(Wen et Dai)Xia, S.dumetorum(Hance)Munro var.xinwuense(Wen et J. Y Chin)Xia, Bambusa glaucescens glaucescens(Willd)Sieb. ex Munro var.annulata(W.T.Lin et Z.J.Feng)Xia和B.glaucescens (Willd)Sieb.ex Munro var.pubivagina(W.T.... 相似文献
4.
夏念和 《热带亚热带植物学报》1993,(2)
对国产(竹思)(竹劳)竹属(Schizostachyum Nees)进行了系统整理。对属的范围进行了修订,认为本属应包括乔草竹属(Dendrochloa Parkinson),薄竹属(Leptocanna Chia et H.L.Fung),长穗竹属(Teinostachyum Munro)和李海竹属(Neohouzeaua A.Camus),并首次建立了本属的属下分类系统。此外,对二种竹子起了新名:甲竹(Bambusa austro-sinensis Xia)和毛环单竹(B.yunnanensis Xia);作了4个新组合,即Schizostachyum coradatum(Wen et Dai)Xia, S.dumetorum(Hance)Munro var.xinwuense(Wen et J. Y Chin)Xia, Bambusa glaucescens glaucescens(Willd)Sieb. ex Munro var.annulata(W.T.Lin et Z.J.Feng)Xia和B.glaucescens (Willd)Sieb.ex Munro var.pubivagina(W.T.Lin et Z.J.Feng)Xia. 相似文献
5.
箣竹属和牡竹属(竹亚科)叶表皮微形态特征 总被引:5,自引:0,他引:5
利用光学显微镜和扫描电镜,对箣竹属21个种(包括箣竹亚属5个种、孝顺竹亚属2种、单竹亚属4种、绿竹亚属9种和亚属未定1种)以及牡竹属5种叶表皮微形态特征进行了观察和研究。所得结果表明气孔保卫细胞上乳突的数目和分布存在一定的规律,并具有一定的分类价值。绿竹亚属的叶表皮微形态特征界于箣竹属和牡竹属之间,但更接近于箣竹属。因此认为在分类处理上,将绿竹亚属置于箣竹属比单独成立绿竹属更为合理。 相似文献
6.
7.
大明竹属遗传多样性ISSR分析及DNA指纹图谱研究 总被引:1,自引:0,他引:1
利用对竹类有较好多态性的18条引物及已优化的ISSR反应体系和扩增程序,分析大明竹属25种竹的遗传多样性。研究结果:共扩增出重复性好的多态位点高达88.3%,平均每个引物扩增8.61个,DNA分子量在160-3000 bp,此25种竹类的平均遗传距离为0.5006,变异幅度为0.1486-0.7191,说明大明竹属具有高的遗传多样性,种间遗传相对复杂。ISSR结果聚类分析,在遗传距离0.5396处将25种竹划分为3类,与形态分类结果大致一致,说明ISSR技术能精确检测大明竹属部分植物的遗传多样性及亲缘关系,有助于该属的分类。试验用U807、U815、U835、U836、U840、U841、U844 7条引物构建大明竹属25种竹的数字指纹识别码,为大明竹属部分植物的分类及种质鉴定提供参考。 相似文献
8.
竹类果实与淀粉形态及系统位置 总被引:5,自引:0,他引:5
本文收集了竹类5个族21属30种的竹类果实,作了外部形态与淀粉形态的研究,从而为确立各竹属的系统分类位置提供了科学依据,进一步证实了浆果类果实不具有胚乳,从而认为Oreocalamus(Keng,1940),Qiongzhuea(薛纪如等,1979),Ferrocalamus(耿伯介等,1982)与Chimonobambusa Subg.Chimonobambusa系统位置更接近于Melocanneae(Keng,1940)。 竹类果实淀粉均为复粒结构。果实大小、淀粉粒大小与淀粉小粒相互之间有一定的联系。 相似文献
9.
井冈寒竹属(又名短枝竹属,Gelidocalamus Wen)是1982年温太辉以产于井冈山区的井冈寒竹Gelidocalamus stellatus Wen为模式种建立的新属。自井冈寒竹属建立以来,陆续有新的分类群发表,或将一些分类群归并到本属中,但迄今尚未开展系统研究。为了发现更多的井冈寒竹属分类学证据,本研究利用扫描电镜对井冈寒竹属9个分类群的叶表皮微形态特征进行了观察。结果表明:9个分类群竹叶下表皮的长细胞、微毛、大毛的形态和分布较为一致,但乳突、刺毛、气孔器和短细胞呈现较丰富的微形态差异。尤其是乳突的形状、气孔器及其周围的乳突排列式样最为丰富,具有重要的分类学价值,可以作为属内种的划分依据。 相似文献
10.
中国的生物多样性我国是世界上生物多样性最丰富的国家之一,现有高等植物470科,3700余属,约3万种,占世界高等植物种类的10%以上。有许多是北半球地区早已灭绝的古老孑遗植物,单种(型)属和少种(型)属约有1200余属,尤其是特有属种亦十分丰富,计有200多个特有属、约1 相似文献
11.
Sarawood Sungkaew Chris M. A. Stapleton Nicolas Salamin Trevor R. Hodkinson 《Journal of plant research》2009,122(1):95-108
The taxonomy of Bambusoideae is in a state of flux and phylogenetic studies are required to help resolve systematic issues.
Over 60 taxa, representing all subtribes of Bambuseae and related non-bambusoid grasses were sampled. A combined analysis
of five plastid DNA regions, trnL intron, trnL-F intergenic spacer, atpB-rbcL intergenic spacer, rps16 intron, and matK, was used to study the phylogenetic relationships among the bamboos in general and the woody bamboos in particular. Within
the BEP clade (Bambusoideae s.s., Ehrhartoideae, Pooideae), Pooideae were resolved as sister to Bambusoideae s.s. Tribe Bambuseae,
the woody bamboos, as currently recognized were not monophyletic because Olyreae, the herbaceous bamboos, were sister to tropical
Bambuseae. Temperate Bambuseae were sister to the group consisting of tropical Bambuseae and Olyreae. Thus, the temperate
Bambuseae would be better treated as their own tribe Arundinarieae than as a subgroup of Bambuseae. Within the tropical Bambuseae,
neotropical Bambuseae were sister to the palaeotropical and Austral Bambuseae. In addition, Melocanninae were found to be
sister to the remaining palaeotropical and Austral Bambuseae. We discuss phylogenetic and morphological patterns of diversification
and interpret them in a biogeographic context. 相似文献
12.
Zhang W 《Molecular phylogenetics and evolution》2000,15(1):135-146
DNA sequence data from the chloroplast noncoding rpl16 intron are used to address phylogenetic relationships among the major lineages of the grass family, with particular emphasis on the highly heterogeneous subfamily Bambusoideae and the basal lineages. Thirty-five grass sequences representing all six currently recognized major groups of the family and one outgroup sequence were analyzed using both parsimony and distance methods. The phylogenetic analyses indicated: (1) Puelia, a traditionally isolated bambusoid genus, is the most basal lineage in the BOP clade (Bambusoideae, Oryzoideae, and Pooideae); (2) the bambusoid clade is a sister group to the pooid clade; and (3) the monophyletic oryzoid clade is well separated from the bambusoid clade. The study further confirmed the recognition of two primary groups in the grass family: the BOP clade and the PACC clade (Panicoideae, Arundinoideae, Chloridoideae, and Centothecoideae); it also provided further evidence that the traditional subfamily Bambusoideae is highly heterogeneous and phylogenetically unacceptable. The data support Streptochaeteae, Anomochloeae, and Phareae as the most basal lineages among the extant grasses. Within the BOP clade, oryzoids and pooids are confirmed as two monophyletic clades, but the bambusoid clade, including only the woody bamboo tribe Bambuseae and the herbaceous bamboo tribe Olyreae, is relatively weakly supported. The study also indicated that the chloroplast noncoding region sequence data could be useful in phylogenetic analysis at relatively high taxonomic levels. 相似文献
13.
Phylogenetic relationships withinChusquea,a diverse genus of neotropical woody bamboos, and among selected members of the Bambusoideae were explored usingrpl16intron sequence data from the chloroplast genome. Mechanisms of mutation, including slipped-strand mispairing, secondary structure, minute inversions, and base substitutions, were examined within therpl16intron, and their effects on sequence alignment and phylogenetic analysis were investigated. Thirty-five bamboo sequences were generated and two separate matrices were analyzed using maximum parsimony. In the first, 23 sequences fromChusquea,1 ofNeurolepis,and 3 outgroups were included.Neurolepiswas supported as sister toChusquea, Chusqueawas strongly supported as a monophyletic lineage, and three species ofChusqueasubg.Rettbergiawere resolved as the most basal clade within the genus. In the second analysis, 15 sequences, 14 from across the subfamily and 1 outgroup, were included. A Bambusoideae clade was recovered with the Olyreae/Parianeae (herbaceous bamboos) and the Bambuseae (woody bamboos) each supported as monophyletic. Two clades corresponding to temperate and tropical woody bamboos were derived within the Bambuseae and the tropical taxa were further split into New World and Old World clades. Therpl16intron in bamboos was found to be susceptible to frequent length mutations of multiple origins, nonindependent character evolution, and regions of high mutability, all of which created difficulties in alignment and phylogenetic analysis; nonetheless therpl16intron is phylogenetically informative at the inter- and intrageneric levels in bamboos. 相似文献
14.
竹亚科系统学和生物地理学研究进展及存在的问题 总被引:9,自引:1,他引:8
对近年来在竹亚科作为一个单系类群的界定、其系统位置的确定、内部系统演化趋势以及地理分布和起源方面研究所取得的进展进行了评述。竹亚科作为一个单系类群仅包括了木本的竹族(Bambuseae)和一个草本的莪利竹族(Olyreae),其中莪利竹族分布在新几内亚的伊里安竹(Buergersiochloa)处于Olyreae最基部。禾本科12个亚科中除了3个亚科为基部类群以外,其余9个亚科分成PACCAD(包括黍亚科,狭义的芦竹亚科,广义的虎尾草亚科,假淡竹叶亚科,三芒草亚科和扁芒草亚科)和BOP单系分支(包括竹亚科,稻亚科和早熟禾亚科)。在BOP支中,竹亚科与早熟禾亚科相近缘,共同组成稻亚科的姐妹群。竹亚科分成草本和木本两个单系类群,木本竹子又分成热带和温带支系,热带支系进一步分成新世界热带和旧世界热带两个单系类群。从现有的化石证据和基部类群的地理分布推断,竹亚科很可能起源于晚白垩纪的冈瓦纳古陆。最后,本文就竹亚科研究尚存在的问题做了初步探讨。 相似文献
15.
A cladistic analysis of chloroplast DNA restriction site variation among representatives of all subfamilies of the grass family (Poaceae), using Joinvillea (Joinvilleaceae) as the outgroup, placed most genera into two major clades. The first of these groups corresponds to a broadly circumscribed subfamily Pooideae that includes all sampled representatives of Ampelodesmeae, Aveneae, Brachypodieae, Bromeae, Diarrheneae, Meliceae, Poeae, Stipeae, and Triticeae. The second major clade includes all sampled representatives of four subfamilies (Panicoideae [tribes Andropogoneae and Paniceae], Arundinoideae [Arundineae], Chloridoideae [Eragrostideae], and Centothecoideae [Centotheceae]). Within this group (the “PACC” clade), the Panicoideae are resolved as monophyletic and as the sister group of the clade that comprises the other three subfamilies. Within the latter group, Danthonia (Arundinoideae) and Eragroslis (Chloridoideae) are resolved as a stable monophyletic group that excludes Phragmites (Arundinoideae); this structure is inconsistent with the Arundinoideae being monophyletic as currently circumscribed. The PACC clade is placed within a more inclusive though unstable clade that includes the woody Bambusoideae (Bambuseae) plus several disparate tribes of herbaceous grasses of uncertain affinity that are often recognized as herbaceous Bambusoideae (Brachyelytreae, Nardeae, Olyreae, Oryzeae, and Phareae). Among eight most-parsimonious trees resolved by the analysis, four include a monophyletic Bambusoideae sensu lato (comprising Bambuseae and all five of these herbaceous tribes) as the sister group of the PACC clade; in the other four trees these bambusoid elements are not resolved as monophyletic, and the PACC clade is nested among these tribes. These results are consistent with those of previous analyses that resolve a basal or near-basal branch within the family between Pooideae and all other grasses. However, resolution by the present analysis of the PACC clade, which includes Centothecoideae, Chloridoideae, and Panicoideae, but excludes Bambusoideae, is inconsistent with the results of previous analyses that place Bambusoideae and Panicoideae in a monophyletic group that excludes Centothecoideae and Chloridoideae. 相似文献
16.
A nuclear gene, FLOWERING LOCUS T (FT) homolog, was cloned from Phyllostachys meyeri as PmFT. Its putative copy number was estimated as four by Southern blot analysis, and the two copies were completely sequenced. Twenty-seven FT homolog sequences of bambusoid and early diverging grasses comprised 172-bp exons, and 357- to 785-bp introns exhibited 0-58.9% pairwise divergence with six modal levels. Parsimony analyses of the FT homologs rooted at Pharus virescens produced six equally parsimonious trees. In the strict consensus tree, five clades were resolved; they were affected by divergence of the intron region rather than exon region. The basal clade was Puelioideae, followed by Olyreae clade including Oryza sativa. Streptogyneae clade combined the Olyreae clade with terminal sister clades of the Bambuseae, i.e., pantropical bamboos and East Asiatic temperate bamboos. The global topology suggested that FT homologs are significant for resolving the tribe level. However, the phylogeny of FT homologs does not resolve monophyly in Bambusoideae because of intercalary positioning by Streptogyneae clade. We discussed the role of FT homologs in controlling the inflorescence architecture and position of Streptogyneae in the bamboo phylogeny. 相似文献
17.
Yu‐Xiao Zhang Chun‐Xia Zeng De‐Zhu Li 《Botanical journal of the Linnean Society. Linnean Society of London》2014,176(1):46-65
Arundinarieae (temperate woody bamboos) is a taxonomically challenging group and the taxa in this tribe show a low level of DNA sequence variation, especially for plastid markers. As a result of the scarcity of flowering collections, species identification mainly depends on vegetative features, and leaf epidermal micromorphology has proven to be useful in bamboo taxonomy. In this study, we used scanning electron microscopy to investigate the abaxial leaf epidermal micromorphology of 94 species in 24 genera of Arundinarieae and three species of Bambuseae. Leaf epidermal characteristics differed mainly in the number and distribution pattern of papillae. Seven papilla forms were assigned, which had little taxonomic value at the generic and subtribal levels. However, the papilla patterns combined with other leaf epidermal features were useful in the discrimination of several species. Most papilla types were shared between tribes Arundinarieae and Bambuseae. We assessed the phylogenetic implications of the leaf epidermal micromorphology based on recently published molecular phylogenetic analyses. With one exception, none of the papilla types corresponded to a particular clade in the plastid or nuclear phylogenetic trees. Based on these results, the papilla patterns have limited phylogenetic value. © 2014 The Linnean Society of London, Botanical Journal of the Linnean Society, 2014, 176 , 46–65. 相似文献
18.
Background and Aims
The tribe Spermacoceae is essentially a herbaceous Rubiaceae lineage, except for some species that can be described as ‘woody’ herbs, small shrubs to treelets, or lianas. Its sister tribe Knoxieae contains a large number of herbaceous taxa, but the number of woody taxa is higher compared to Spermacoceae. The occurrence of herbaceous and woody species within the same group raises the question whether the woody taxa are derived from herbaceous taxa (i.e. secondary woodiness), or whether woodiness represents the ancestral state (i.e. primary woodiness). Microscopic observations of wood anatomy are combined with an independent molecular phylogeny to answer this question.Methods
Observations of wood anatomy of 21 woody Spermacoceae and eight woody Knoxieae species, most of them included in a multi-gene molecular phylogeny, are carried out using light microscopy.Key Results
Observations of wood anatomy in Spermacoceae support the molecular hypothesis that all the woody species examined are secondary derived. Well-known wood anatomical characters that demonstrate this shift from the herbaceous to the woody habit are the typically flat or decreasing length vs. age curves for vessel elements, the abundance of square and upright ray cells, or even the (near-) absence of rays. These so-called paedomorphic wood features are also present in the Knoxieae genera Otiophora, Otomeria, Pentas, Pentanisia and Phyllopentas. However, the wood structure of the other Knoxieae genera observed (Carphalea, Dirichletia and Triainolepis) is typical of primarily woody taxa.Conclusions
In Spermacoceae, secondary woodiness has evolved numerous times in strikingly different habitats. In Knoxieae, there is a general trend from primary woodiness towards herbaceousness and back to (secondary) woodiness.Key words: Knoxieae, LM, primary woodiness, Rubiaceae, Rubioideae, secondary woodiness, Spermacoceae, wood anatomy 相似文献19.
To elucidate chloroplast genome evolution within neotropical-paleotropical bamboos, we fully characterized the chloroplast genome of the woody bamboo Guadua angustifolia. This genome is 135,331 bp long and comprises of an 82,839-bp large single-copy (LSC) region, a 12,898-bp small single-copy (SSC) region, and a pair of 19,797-bp inverted repeats (IRs). Comparative analyses revealed marked conservation of gene content and sequence evolutionary rates between neotropical and paleotropical woody bamboos. The neotropical herbaceous bamboo Cryptochloa strictiflora differs from woody bamboos in IR/SSC boundaries in that it exhibits slightly contracted IRs and a faster substitution rate. The G. angustifolia chloroplast genome is similar in size to that of neotropical herbaceous bamboos but is ~3 kb smaller than that of paleotropical woody bamboos. Dissimilarities in genome size are correlated with differences in the lengths of intergenic spacers, which are caused by large-fragment insertion and deletion. Phylogenomic analyses of 62 taxa yielded a tree topology identical to that found in preceding studies. Divergence time estimation suggested that most bamboo genera diverged after the Miocene and that speciation events of extant species occurred during or after the Pliocene. 相似文献
20.
Arberella, a new genus of bambusoid grasses, is established, based on the newly described species,A. dressiert. Also belonging to this new genus are the taxa originally namedOlyra flaccida andRaddia costa-ricensis and several new species from Panama and Brazil which will be described later. The new genus is presented in a key to the genera of the tribe Olyreae, of which it is a member, and a key is given to the three species treated in this paper. 相似文献