广西唇柱苣苔属(苦苣苔科)一新变种——光华唇柱苣苔

记载了广西苦苣苔科Gesneriaceae一新变种——光华唇柱苣苔Chirita tribracteata、W．T.Wang var.zhuana Z．Y．Li,Q．Xing＆Y．B．Li。该变种与原变种不同在于叶大而厚,边缘具圆齿或牙齿,叶柄具宽翅,苞片宽倒卵形或倒披针形,有锯齿,花冠淡紫色,喉部具黄色纵纹。     

中国广西唇柱苣苔属(苦苣苔科)一新种——黄花牛耳朵

报道了在广西发现的苦苣苔科唇柱苣苔属Chirita一新种,即黄花牛耳朵C.lutea Yan Liu & Y.G.Wei.黄花牛耳朵的体态和叶形与牛耳朵(C.eburnea)相似,但前者聚伞花序俯垂,花冠黄色,花药与退化雄蕊先端密被白色绵毛.     

New Plants of Gesneriaceae from Guangxi of China (Cont. I)

Five new species of Gesneriaceae from Guangxi of China are described and illustrated. They are Oreocharis heterandra , Didymostigma leiophyllum , Chirita macrodonta ,C. macrorhiza and C. liujiangensis.     

广西苦苣苔科新植物(续一)

1.异蕊马铃苣苔 新种 图1:4—6 Oreocharis heterandra D. Fang et D. H. Qin, sp. nov. Species O. aureae Dunn affinis, sed corolla purpureo-caerulea, 2.5 cm longa, extussparse glanduloso-puberula, labio postico eo antico aequilongo; staminibus posticis et eis an-ticis heteromorphis differt.     

黄花牛耳朵(苦苣苔科)的传粉生物学

通过野外观察和繁育系统的实验,对黄花牛耳朵(Chirita lutea Yan Liu et Y.G.wei)的传粉生物学进行了研究.结果表明,黄花牛耳朵的花期从7月初至8月底,单株花期约35～47 d,单花化期约6～10 d,花的开放无固定的时间.在花期内花粉活性约80%,柱头可授性约75%～90%.花粉/胚珠比率(P/O)为1 215.73±266.13.柱头在花药散粉时已生长至花筒口部,明显高于花药,便于接受异花花粉.黄花牛耳朵不存在无融合生殖,高度白交亲和,但较难发生自动的白花授粉,产生种子主要依靠传粉媒介.自然授粉的结实率明显低于人工授粉的结实率,存在传粉限制,蜜蜂(Apidae sp.)、方头泥蜂(Crabro sp.)、无垫蜂(Ameglla sp.)是主要的传粉者.     

假烟叶唇柱苣苔——中国广西石灰岩地区苦苣苔科一新种

报道了广西石灰岩地区苦苣苔科唇柱苣苔属(Chirita Buch.-Ham.ex D.Don)1新种--假烟叶唇柱苣苔(C.pseudoheterotricha T.J.Zhou.B.Pan & W.B.Xu).该种在叶型上与烟叶唇柱苣苔(C. heterotricha Merr.)较相近,但不同在于根状茎节间长2～8 mm,叶片和叶柄两面密被腺毛,侧脉3～4条,整个花序被开展的腺毛,花萼裂片披针形,花冠裂片长圆形,花丝在中部扭曲,密被紫色腺毛.     

中国广西石灰岩地区苦苣苔科一新种——鹿寨唇柱苣苔

描述了中国广西石灰岩地区苦苣苔科(Gesneriaceae)1新种--鹿寨唇柱苣苔(Chirita luzhaiensis Yah Lin,Y.S.Huang & W.B.Xu).该种与桂林唇柱苣苔(Chirita gueilinensis W.T.Wang)相似,但叶面被长柔毛和短柔毛,花药无毛,花丝近基部膝状弯曲,退化雄蕊3枚,无毛,花期12月至次年1月可与后者区别.目前,鹿寨唇柱苣苔仅见于广西鹿寨县中渡镇的两个石灰岩山洞中.     

广西苦苣苔科唇柱苣苔属一新种——李氏唇柱苣苔

报道了在广西柳州市市区附近一岩溶洞穴发现的苦苣苔科唇柱苣苔属一新种,并命名为李氏唇柱苣苔。本种与寿城唇柱苣苔及百寿唇柱苣苔相近,与寿城唇柱苣苔的主要区别在于植株体形、叶和花较大,叶为长卵状椭圆形或椭圆形,叶缘具锯齿,每花序1-3花,退化雄蕊3而与之不同;与百寿唇柱苣苔的区别主要在于叶缘具锯齿,每花序仅1-3花,花药背部密生紫色髯毛,退化雄蕊3而不同。     

桂林唇柱苣苔和百寿唇柱苣苔的开花动态及花粉活力和柱头可授性的比较

对桂林唇柱苣苔的两个居群(YZ居群和DB居群)和百寿唇柱苣苔的开花动态、花粉活力和柱头可授性进行了比较研究。结果表明,桂林唇柱苣苔的两个居群花期、单花持续期存在明显差异,DB居群的花期较YZ居群晚,但花期长于后者。YZ居群的花期、单花持续期与百寿唇柱苣苔的花期、单花持续期相近。三者开花过程相似。花粉活性和柱头可授性达最大的时间、持续时间在桂林唇柱苣苔的两个居群以及百寿唇柱苣苔之间具有明显差异。     

桂林唇柱苣苔传粉生物学及生殖配置研究

对桂林唇柱苣苔在不同生境下（YZ居群,半野生,林下裸露岩石上;DB居群,洞穴岩石上）的生殖生态学进行了比较研究。结果表明：（1）桂林唇柱苣苔的花期为2月下旬至4月中旬,受环境因素的影响,单花期在DB居群（16~24 d）明显长于YZ居群（10~17 d）;（2）两个居群的P/O比差异显著,花粉量比胚珠量有更明显的变化,这可能与其生境有关;（3）桂林唇柱苣苔属于兼性异交系统,不存在无融合生殖现象;(4)传粉和种子后熟阶段均存在限制,致使各种处理的结实率均处在较低的水平（<45％）;（5）白颊尤垫蜂与小蜂类(DB居群)或蜜蜂(YZ居群)为桂林唇柱苣苔较为稳定的传粉者;（6）桂林唇柱苣苔植株个体越大,花期繁殖投入就越高,繁殖分配越低;（7）与DB居群相比,YZ居群可利用资源较为丰富、植株生物量较大,因此其花期投入繁殖也较高,而DB居群将更多的资源分配给营养器官,从而提高了对资源获取能力。     

New Plants of Gesneriaceae from Guangxi of China

Four new species of Gesneriaceae from Guangxi of China are described and illustrated. They are Lagarosolen integrifolius, D. Fang et L. Zeng Chirita wentsaii D. Fang et L. Zeng, C. cyrtocarpa D. Fang et L. Zeng and Chiritopsisglandulosa D. Fang, L. Zeng et D. H. Qin.     

Phylogenetic reconstruction of Chirita and allies (Gesneriaceae) with taxonomic treatments

Abstract Chirita D. Don, a large genus in the subfamily Cyrtandroideae of Gesneriaceae, has been the subject of much debate whether it is a natural group or not. In addition, the highly heterogeneous Chirita has also been very problematic with regard to delimitation and subdivision. Here we used the nrDNA internal transcribed spacer and cpDNA trnL‐F for molecular phylogenetic analaysis, combined with morphological data. Our results suggest that Chirita is an artificial, polyphyletic genus. The most important character that defines Chirita, the dorso‐ventrally oblique and bilamellar stigma, has evolved convergently in different clades of diandrous Cyrtandroideae. Chirita sensu stricto only includes the species of Chirita sect. Chirita, whereas Chirita sect. Microchirita is an independent clade located at the basal node of the phylogenetic tree. Chirita sect. Liebigia is closely related to Didymocarpus with an entire stigma unlike other species of Chirita. The species of Chirita sect. Gibbosaccus, Chiritopsis, Primulina, and Wentsaiboea form a monophyletic group that is sister to a strongly supported clade comprising four monotypic genera Paralagarosolen, Calcareoboea, Petrocodon, and Tengia. We further analyzed the morphological evolution of Chirita and identified a series of morphological synapomorphies for the monophyletic groups revealed herein, and thereby provide a taxonomic treatment in this study.     

半制备高效液相色谱制备5种苯乙醇苷类单体

利用MCI柱层析和半制备型反相高效液相色谱法从牛耳朵中分离制备了5种苯乙醇苷类单体。在Eclipse XDB-C18(9.4mm×250mm,5μm)半制备柱上,以甲醇-水为流动相,流速为4mL/min,采用梯度洗脱方式,制备得到5个组分。经波谱(EI-MS、1H-NMR、13C-NMR)分析,分别鉴定为plantainoside(1)、chirito-sideC(2)、plantaninosideB(3)、plantamajoside(4)和desrhamnosylverbascoside(5)。高效液相色谱分析表明所制备5种化合物纯度均高于98%。该方法分离条件简单,高效,一次可得到5个单体,目标产物纯度较高。     

Phylogenetic reconstruction of Chirita and allies (Gesneriaceae)with taxonomic treatments

Chirita D. Don, a large genus in the subfamily Cyrtandroideae of Gesneriaceae, has been the subject of much debate whether it is a natural group or not. In addition, the highly heterogeneous Chirita has also been very problematic with regard to delimitation and subdivision. Here we used the nrDNA internal transcribed spacer and cpDNA trnL-F for molecular phylogenetic analaysis, combined with morphological data. Our results suggest that Chirita is an artificial, polyphyletic genus. The most important charact...     

文采唇柱苣苔的组织培养与快速繁殖

以肉质叶为外植体,研究文采唇柱苣苔的组织培养和快速繁殖。结果表明：培养基MS＋6-BA 0.1 mg？L-1＋NAA 0.1mg？L-1适用于初代培养时的愈伤组织诱导和植株再生;MS＋6-BA 0.5 mg？L-1＋NAA 0.2 mg？L-1＋10%香蕉泥和MS＋6-BA 0.5mg？L-1＋NAA 0.5 mg？L-1＋10%香蕉泥分别适用于继代增殖及壮苗培养,60 d后的增殖系数分别为6.7和4.8;培养基MS适用于生根培养,培养30 d,生根率达100%。另外,对文采唇柱苣苔生根试管苗进行大棚移栽,移栽成活率约为94%。     

广东唇柱苣苔属观赏植物资源调查分析

对广东省内的唇柱苣苔属植物资源进行调查,筛选出8个具有较高观赏价值的种类,并对其资源分布及观赏特性进行详细介绍,初步分析推广应用中的困难。     

Significance of consensus CYC-binding sites found in the promoters of both ChCYC and ChRAD genes in Chirita heterotricha (Gesneriaceae)

CYC-like genes are widely conserved in controlling floral dorsoventral asymmetry (zygomorphy) through persistent expression in corresponding domains in core eudicots. To understand how CYC-like gene expression is maintained during flower development, we selected Chirita heterotricha as a material and isolated the promoter sequences of the ChCYCIC and ChCYCID genes, homologs of CYC, by inverse polymerase chain reaction. Further promoter analyses led to the identification of a putative cis-regulatory element in each promoter matching the consensus DNA binding site for Antirrhinum CYC protein: GGCCCCTC at-165 for ChCYC1C, and GGCCCCCC at-163 for ChCYCID. This indicates that both the ChCYCIC and ChCYC1D genes have probably evolved autoregulatory loops to sustain their expression in developing flowers. We also isolated the coding and promoter sequences of the ChRAD gene, a homolog of Antirrhinum RAD. Promoter analysis showed that the ChRAD gene promoter also contained a putative CYC-binding site (GGCCCAC at -134). Therefore, ChRAD is likely a direct target of the ChCYC1 genes, which is similar to Antirrhinum RAD. These results imply that the establishment of floral zygomorphy in Chirita may have been achieved by the evolution of an autoregulatory loop for CYC-like genes,which was probably accompanied by simultaneous co-option of the RAD-like gene into their regulatory network.