金缕梅科银楼梅属与帕罗堤属的亲缘关系——核糖体DNAITS序列证据

本对金缕梅科弗特吉族的细胞核核糖体ＤＮＡＩＴＳ片段进行了序列分析,在此基础上对该族的演化关系、尤其是中国有属银缕梅属的系统位置进行了最简约分支分析。基本结果如下：其一,蚊母族和狭义的弗特吉族均不形成自己的系分支,因此,支持Ｅｎｄｒｅｓｓ的处理,即合并两族为广义的弗特吉族;其二,银缕梅属同帕罗堤有着密切的亲缘关系,支持形态学和解剖学结论;其三,根据该片段核苷酸序列的演化速率推算出的银缕梅属和帕罗堤     

四药门花属及其近缘植物ITS区序列分析和系统学意义

测定和分析了四药门花等１３种金缕梅科（Ｈａｍａｍｅｌｉｄａｃｅａｅ）植物的核糖体ＤＮＡ转录间隔区（ＩＴＳ区）及５８Ｓ编码区的序列。应用最大简约法构建的分子系统树表明：被分析的金缕梅亚科（Ｈａｍａｍｅｌｉｄｏｉｄｅａｅ）植物形成一个单系类群,亚科内及其中的金缕梅族（Ｈａｍａｍｅｌｉｄｅａｅ）内部呈复系演化（ｐｏｌｙｐｈｙｌｅｔｉｃ）的特征;支持秀柱花族（Ｅｕｓｔｉｇｍａｔｅａｅ）（含秀柱花属Ｅｕｓｔｉｇｍａ、牛鼻栓属Ｆｏｒｔｕｎｅａｒｉａ和山白树属Ｓｉｎｏｗｉｌｓｏｎｉａ）成立以及将蚊母树族（Ｄｉｓｔｙｌｉｅａｅ）与弗特吉族（Ｆｏｔｈｅｒｇｉｌｅａｅ）合并的观点,此结果与Ｅｎｄｒｅｓ（１９８９）系统接近;金缕梅族中金缕梅属（Ｈａｍａｍｅｌｉｓ）与弗特吉族中的弗特吉属（Ｆｏｒｔｈｅｒｇｉｌａ）、银缕梅属（Ｓｈａｎｉｏｄｅｎｄｒｏｎ）和水丝梨属（Ｓｙｃｏｐｓｉｓ）系统发育关系密切;四药门花属（Ｔｅｔｒａｔｈｙｒｉｕｍ）与木属（Ｌｏｒｏｐｅｔａｌｕｍ）属于同一个单系类群,它们与Ｈａｍａｍｅｌｉｓ的亲缘关系较远     

银缕梅属——中国金缕梅科一新属

在研究中国稀有濒危植物过程中,通过三年观察,作者发现小叶金缕梅绝无花瓣,无疑应从金缕梅族中分出,其形态特征又明显与无花瓣的蚊母树族和弗特吉族各属有差别,故成立新属——银缕梅属。     

银缕梅木材解剖特征及其系统学意义

报道了银缕梅（ShaniodendronsubaequaleM.B.Deng,H.T.Wei＆X,Q,Wang）木材的解剖学特征,通过比较研究支持将银缕梅（“小叶金缕梅”HamamelissubaeqalisH.T.Chang）从金缕梅属（族）中分出的处理,其合适的系统位置应归入弗特吉族。     

银缕梅叶器官的宏观与微观结构及系统意义

银缕梅〔Ｓｈａｎｉｏｄｅｎｄｒｏｎｓｕｂａｅｑｕａｌｅ（Ｃｈａｎｇ）Ｄｅｎｇ,ＷｅｉｅｔＷａｎｇ〕叶表皮毛为星状毛,气孔器为平列式中周缘型,叶缘齿型为弗特吉型,叶肉栅栏组织一层细胞厚,三叶隙三叶迹的节,从茎节到叶之间的维管束呈分离合并分离的变化格局,并且呈续次合并和续次分离发育模式。这些结果进而说明银缕梅属的独立性,也从一个侧面证明它应属于狭义的弗特吉族（Ｆｏｔｈｅｒｇｉｌｅａｅ）。     

银缕梅属(Shaniodendron)染色体数报告

银缕梅园ShaninodendronM.B.Deng,H.T.WeietX．Q．Wang银缕梅S．subaequale（Chang）Deng,WeietWang发表于1992年,为中国特有的单种属。银缕梅染色体的观察结果表明：银缕梅染色体为小型,点状;2n=24.其染色体数与Anderson＆Sax（1935）报道（J,ArnArb．16：210～215）的金缕梅亚科各届染色体大多数为n=12相一致。形状则与Weaver（196）报道（JArnArb50：559～619）的弗特吉属（Fothergilla）的FmajiorLodd相近,但F．majiorn=36该属另一种F.gareniiMurr．n＝24,它们的染色体基数均为12,可见银缕梅属与弗特吉属有近缘关…     

基于流式细胞术和K-mer分析的银缕梅属(Parrotia C.A.Mey.)植物基因组大小测定

金缕梅科(Hamamelidaceae)银缕梅属(Parrotia C.A.Mey.)仅包含银缕梅(Parrotia subaequalis(H.T.Chang)R.M.Hao&H.T.Wei)和波斯铁木(Parrotia persica(DC.)C.A.Mey.)两种落叶阔叶乔木,其中银缕梅是我国华东地区特有的Ⅰ级濒危珍稀保护植物,属东亚第三纪孑遗成分;其姊妹种波斯铁木则间断分布于伊朗北部,属北极第三纪孑遗植物类群。本研究首次利用流式细胞术和K-mer分析方法对银缕梅属两姊妹种的基因组大小进行了测定,建立和优化了以萝卜(Raphanus sativus L.‘Saxa’)为内标、WPB(Woody plant buffer)为细胞核解离液的两种植物单倍体基因组的DNA含量(DNA C值)流式测定的适宜体系,旨在为金缕梅科银缕梅属植物的全基因组测序、基因组学研究、种质资源开发和利用以及物种保育等提供前期基础数据参考;同时也可为金缕梅科其他属、种的基因组大小测定提供借鉴。主要研究结果如下:(1)通过流式测定银缕梅基因组大小约为971.45±13.91 Mb,波斯铁木基因组大小约为890.52±24.69 Mb;(2)K-mer分析估测银缕梅基因组大小为951.70 Mb,杂合率为1.740%,重复序列比例为77.50%;波斯铁木基因组大小为858.50 Mb,杂合率为0.695%,重复序列占74.30%;(3)银缕梅属于高杂合和高重复基因组,波斯铁木则属于微杂合和高重复基因组。本研究的结果为银缕梅属植物后续基于DNA三代高通量测序技术的全基因组测序、组装及去冗余处理等工作提供了重要的数据参考。     

金缕梅亚科ITS序列分析及其系统学意义

根据金缕梅亚科22属（活塞花属Embolanthera除外）代表种的nrDNA ITS序列数据构建了分子系统树。结合形态解剖证据,金缕梅亚科可分为3个族,即①Ji木族LoropetaleaeZhangtrib.nov.,包括蜡瓣花属Corylopsis、Maingaya、Matudaea、活塞花属、四药门花属Tetrathyrium和Ji木属L;②DicorypheaeZhangtrib.nov.,包括毛枝花属Trichocladus、Dicoryphe、Neostrearia、Ostrearia、Noahdendron、秀柱花属Eustigma、牛鼻栓属Fortunearia、山白树属Sinowilsonia、Molinadendron;③金缕梅族Hamamelideae,包括Fothergilla、金缕梅属Hamamelis、Parrotiopsis、水丝利属Sycopsis、Parrotia、银缕梅属Shaniodendron、蚊母树属Distylium和拟母树属Distyliopsis。     

弗特吉族在中国的发现及其意义

在连续数年的稀有濒危植物调研中,发现特产于江苏宜兴的小叶金缕梅实属一误订。该植物花两性,绝无花瓣,故可以肯定是金缕梅亚科中我国唯一缺少的弗特吉族植物。弗特吉族在中国的发现,使中国成为世界上唯一拥有该亚科五个族的国家,证明中国是世界金缕梅亚科的多样性中心,填补了该族在东亚分布的空白,为中国新生代植物研究和对金缕梅科以及被子植物的系统学研究提供了不可缺少的活材料。     

银缕梅属花形态及其分类学意义

以1995年在江苏宜兴发现的一较大银缕梅居群的花为材料,观察确认金缕梅亚科单种属银缕梅属（ShaniodendronM.B.Deng,H．T．WeietX．QWang）的花序为近头状短稳状花序,由4～7朵花组成,花序内轮4～5朵花,两性;外轮1～2朵花,常为雄花,构成雄全同株。花无柄,无花瓣,花喜常合成浅林状,杯缘及杯背早期簇生长硬毛（hirsute）,花生于初生苞片腋处,初生苞片卵形或阔卵形。雄蕊不定数,5～15枚,花丝长,直立。与其他无花瓣属植物比较表明,银缕梅属与特产里海南岸的Parrotia形态极为相似,主要区别在于本属花萼合生成浅怀状。银缕梅属花形态特征的阐明,对探讨金缕梅亚科无花瓣类群的系统发育具有重要意义。     

Variation and Evolution of Leaf Trichomes in the Chinese Hamamelidaceae

Leaves of 25 species which cover 13 genera of the Chinese Hamamelidaceae (sensu lato ) were examined by light microscope (LM) and scanning electron microscope (SEM) to reveal the nature and variation of trichomes. The trichomes showed greater diversity under SEM than under LM and naked eyes. Based on Theobald’s scheme, they can be divided into four types: 1. Simple trichomes: Unbranched, curved or straight (Altingia, liquidambar, Semiliquidambar; 2. 2- 4 armed trichomes: Two to four branched (Corylopsis, Loropetalum, sinowilsonia); 3. Stellate trichomes: With more than five branches. They may be tufted (Forthunearia, Loropetalum, sinowilsonia, Hamamelis, Distylium) or storied (Eustigma); 4. Scales: Peltate and flattened. In the genus Rhodoleia, the scales are totally composed of small boat-shaped ones, whereas in the genus Sycopsis they are rotately branched on the verge but unbranched and flattened in the middle. The distribution of trichome types is of grest significance in hamamelidaceous phylogeny. The simple trichomes mainly exist in Liquidambaroideae and Exbucklandioideae, the stellate and 2-4 armed trichomes occur in Hamamelidoideae, and the scales are confined to Sycopsis (Hamamelidoideae) and Rhodoleia (Rhodoleioideae). From this fact, the authors consider that there are two evolutionary lines in the family, i. e. the Disanthoideae- Exbucklandioideae- Liquidambaroideae line and the Rhodoleioideae-Hamamelidoideae line though some subfamilies are isolated. Within Hamamelidoideae, the trichome types also have taxonomic significance. Corylopsis is a primitive group, whereas Eustigma, Distylium and Sycopsis are respectively on the top of evolutionary branches and the other genera are transitional groups. These genera might be separated as tribes, Corylopsideae, Eustigmateae, Distylieae, Sycopsideaeand Hamamelideae. The relationships among these tribes are given in Fig. l.     

Phylogenetic relationships in the Hamamelidaceae: Evidence from the nucleotide sequences of the plastid genematK

The Hamamelidaceae is a family that bridges the basal elements of the Rosidae and the lower Hamamelidae, thus a better understanding of the phylogeny of the family is important for clarifying evolutionary patterns in the diversification of eudicots. However, subfamilial as well as tribal relationships in the Hamamelidaceae have been controversial. Nucleotide sequences of the chloroplast genematK were used to study the intergeneric relationships of the family. In the phylogenetic trees, constructed using parsimony analysis, the clade containingAltingia andLiquidambar (Altingioideae) is sister to a clade that includes all other Hamamelidaceae.Exbucklandia andRhodoleia form a clade, suggesting a close relationship between the two genera.Disanthus is sister to the monophyletic Hamamelidoideae. The paraphyletic arrangement ofDisanthus, Mytilaria andExbucklandia with respect to the Hamamelidoideae does not support the combination of these genera in one subfamily. In the Hamamelidoideae, thematK phylogeny supports the monophyly of several previously recognized groups with modifications, including the tribes Eustigmateae (incl.Molinadendron), Fothergilleae (excl.Molinadendron andMatudaea), and the subtribe Dicoryphinae. However, the Hamamelideae as traditionally circumscribed is polyphyletic. Apetaly has evolved three times independently in the Hamamelidoideae.     

金缕梅科的种子形态学及其系统学评价

本文利用光学显微镜及扫描电镜在属级水平上观察了金缕梅科全部6亚科中的21属41种1变种植物的种子特征,结果表明：该科的种子形状、颜色、大小及种脐特征在各亚科中有差异(除了双花木亚科与金缕梅亚科的大多数属是一致的)可作为区分亚科的特征之一。根据种皮的特征,可划分为5类：(1)种皮平滑或仅在边缘部分具条纹状纹饰(双花木亚科及金缕梅亚科中大部分属);(2)种皮具条纹状纹饰,条纹有波浪加厚或升高(马蹄荷亚科);(3)种皮具瘤状纹饰或具条纹和瘤状相间排列的纹饰(红花荷亚科);(4)种皮具条一网状纹饰(壳菜果亚科);(5)种皮具网状纹饰(枫香亚科)。种皮纹饰对亚科的划分具有一定意义。此外,还详细观察了该科的种皮结构,确认金缕梅科的种皮由外种皮及内种皮构成,而外种皮又进一步划分为外层、中层和内层,种皮各层的细胞层数对该科的分类价值不大。研究结果还表明：枫香亚科的种子特征明显不同于该科的其它成员。关于枫香亚科的系统位置还需深入研究。