伞形科棱子芹属部分种类果实结构的比较解剖学研究

采用石蜡切片法对伞形科(Apiaceae)棱子芹属(PleurospermumHoffm.)的宝兴棱子芹〔P.benthamii(Wall.ex DC.)Clarke〕和松潘棱子芹(P.franchetianumHemsl.)、西藏棱子芹(P.hookeriClarke var.thomsoniiClarke)和太白棱子芹(P.giraldiiDiels)、康定棱子芹(P.prattiiWolff)和瘤果棱子芹(P.wrightianumde Boiss.)的果实横切面的解剖结构特征进行了详细观察和比较分析。结果表明:6种植物虽然在外部形态上两两相似,但彼此间的果实解剖结构特征却存在一定的差异。共同特征是果棱均比较发达,且外果皮与中果皮分离,常形成空腔,每个果棱有1个明显的维管束,中果皮高度退化,果壁均很薄,棱槽和合生面均有油管,其中合生面油管数为棱槽油管数的2倍;差异主要表现在果实横切面外形、果体的压扁程度、果棱的发达程度、外果皮拱起程度及角质层的有无和厚度、维管束大小和着生位置、棱槽油管数以及合生面与侧棱的关系等方面。根据观察结果认为康定棱子芹与瘤果棱子芹不宜合并,建议将西藏棱子芹与太白棱子芹予以合并。     

影响江苏省道地药材野马追产量的生态因子分析

野马追是江苏省著名的道地药材之一,全草入药,是祛痰、止咳、治疗慢性支气管炎效果显著的天然药物,在临床上具有很重要的应用价值.市场上该药材的需求量很大,目前主要依靠人工栽培来满足市场的需求.通过对江苏省野马追主要生产地区的生长环境与野马追生物量之间相关性的分析,探讨了土壤氮钾含量、pH、间种等环境因素都对野马追生物量的影响规律.结果显示,野马追适宜在微酸环境中生长,以pH6.0左右为最佳,不适与其他作物间种,土壤中碱解氮含量为28～30 mg/kg,速效钾含量230～240mg/kg时有利于其生物量增加.人工栽培过程中应尽量满足野马追生物量增加的最适条件,提高野马追引种驯化成功率,确保人工栽培野马追的药材品质和产量.     

横断山区伞形科4种7个居群植物的核型研究

对横断山区伞形科棱子芹属2种植物(松潘棱子芹Pleurospermum franchetianumHemsl.和西藏棱子芹Pleurospermum hookeriC.B.Clarke var.thomsoniiC.B.Clarke)和茴芹属2种植物(异叶茴芹Pimpinella diversi-foliaDC.和锐叶茴芹Pimpinella argutaDiels)共7个居群进行体细胞染色体数目观察和核型比较分析,结果表明,棱子芹属和茴芹属植物属内种间染色体基数存在差异,其中松潘棱子芹为2n=2x=18=16sm 2st,西藏棱子芹为2n=2x=22=16m 6sm;茴芹属光果组中锐叶茴芹为2n=2x=22=22m,毛果组中异叶茴芹为2n=18=18st或2n=18=2sm 16st.松潘棱子芹、西藏棱子芹、锐叶茴芹的染色体数目和核型均为首次报道,从而为棱子芹属和茴芹属的分类和演化研究提供细胞学依据.     

藏药“加哇”的化学成分研究

藏药“加哇”来源于西藏棱子芹(Pleurospermum hookeri C. B. Clarke var. thomsonn C.B.Clarke》的根及根茎,从其中共分得10种化学成分,经理化常数、波谱数据和化学反应鉴定其结构为:川陈皮素(Ⅰ)、falcarindiol(Ⅱ)、异甘草素(Ⅲ)、甘草查耳酮甲(Ⅳ)、壬二酸(Ⅴ)、反式阿魏酸(Ⅵ)、豆甾-4,22-二烯-3-酮(Ⅶ)、月桂酸酐(Ⅷ)、β-谷甾醇(Ⅸ)、二十四烷(Ⅹ)。所鉴定的化合物皆为首次从加哇中分得。除了falcarindiol和β-谷甾醇以外,其余8种成分在棱子芹属植物中尚属首次发现。     

心草中总黄酮含量的测定及其提取工艺研究

目的:测定心草中的总黄酮含量并确定其提取条件。方法:采用分光光度法测定、乙醇浸提法提取心草中的总黄酮。结果:浸提的最佳条件是:A3B1C3D2,即用20倍50%乙醇在70℃下进行6h,总黄酮含量为15.675%。平均加样回收率为97.67%。结论:心草中的总黄酮含量较高,此方法简便、快速、重现性好,可作为检测心草中黄酮含量的一种手段。     

Analysis of sesquiterpene lactones in Eupatorium lindleyanum by HPLC‐PDA‐ESI‐MS/MS

Introduction – The aerial part Eupatorium lindleyanum is commonly used as an antipyretic and detoxicant clinically in traditional Chinese medicine. Our previous research showed that germacrane sesquiterpene lactones were its main active constituents, so the development of rapid and accurate methods for the identification of the sesquiterpene lactones is of great significance. Objective – To develop an HPLC‐PDA‐ESI‐MS/MS method capable for simple and rapid analysis of germacrane sesquiterpene lactones in the aerial part E. lindleyanum. Methodology – High‐performance liquid chromatography‐photodiode array detection‐electrospray ionization‐tandem mass spectrometry was used to analyze germacrane sesquiterpene lactones of Eupatorium lindleyanum. The fragmentation behavior of germacrane sesquiterpene lactones in a Micromass Q/TOF Mass Spectrometer was discussed, and 9 germacrane sesquiterpene lactones were identified by comparison of their characteristic data of HPLC and MS analyses with those obtained from reference compounds. Results – The investigated germacrane sesquiterpene lactones were identified as eupalinolides C (1), 3β‐acetoxy‐8β‐(4′‐hydroxy‐tigloyloxy)‐14‐hydroxy‐costunolide (2), eupalinolides A (3), eupalinolides B (4), eupalinolides E (5), 3β‐acetoxy‐8β‐(4′‐oxo‐tigloyloxy)‐14‐hydroxy‐heliangolide (6), 3β‐acetoxy‐8β‐(4′‐oxo‐ tigloyloxy)‐14‐hydroxy‐costunolide (7), hiyodorilactone B (8), and 3β‐acetoxy‐8β‐(4′‐hydroxy‐tigloyloxy)‐ costunolide (9). Compounds 6, 7 and 9 were reported for the first time. Conclusion – HPLC‐PDA‐ESI‐MS/MS provides a new powerful approach to identify germacrane sesquiterpene lactones in E. lindleyanum rapidly and accurately. Copyright © 2009 John Wiley & Sons, Ltd.     

伞形科棱子芹属花粉形态特征及其演化意义

采用光学显微镜及扫描电子显微镜观察了国产棱子芹属（Pleurospermum Hoffm．）13个种类的花粉形态特征。结果显示：供试13个种类的花粉粒可分为近菱形、近圆形、椭圆形、近长方形和超长方形5种类型。极轴长度（P）17．1—27．1μm,多为20～25μm;赤道轴长度（E）12．5—19．3μm,多为13．6～18．6μm;PIE值为1．2—2．0,多为1．2—1．5。极面观通常为三角形或近卵状三角形,少数种类为近圆形,仅1种（太白棱子芹Pgiraldii Diels）为三裂圆形;赤道面观多为近菱形、近圆形或椭圆形,少数种类为近长方形,仅1种（太白棱子芹）为超长方形。萌发孔为三沟孔,大多数种类为角萌发孔,仅云南棱子芹（P．yunnanense Franch．）和太白棱子芹为边萌发孔;沟长达两极或几达两极。赤道区的纹饰密集且多样,大体可分为短皱脑纹、颗粒状纹和细网纹3类,其中仅岩生棱子芹[Prupestre（Popov）K．T．FuetY．C．Ho]具细网纹;极区纹饰与赤道区常不一致,多为穴状网纹或纹饰不清晰。依据观察结果,讨论了棱子芹属在伞形科中的演化地位以及属内各种类间的演化关系,并结合宏观形态特征及果实解剖特征探讨了棱子芹（PcamtschaticumHoffm．）、太白棱子芹和矮棱子芹（P．nanumFranch．）的分类问题。     

中国伞形科棱子芹属植物果实表面微形态特征及其分类学意义

采用扫描电镜方法对中国18种棱子芹属植物的果实表面微形态进行了首次研究,结果表明:所研究的棱子芹属植物果实微形态在外果皮细胞轮廓、表面纹饰和表皮分泌物表现出丰富的多样性和一定的规律性,可作为棱子芹属下分组及种间鉴定的重要参考性状.根据外果皮细胞轮廓及果实表面纹饰类型等微形态特征将所研究的棱子芹属植物分成了3种类型,该结论与形态学和分子系统学研究结果基本一致,说明果实微形态对研究棱子芹属属下分类和鉴别有重要意义,并据此对该属属下个别存疑种及一些种的亲缘关系进行了探讨.综合前人研究,我们支持喜马拉雅地区不仅是棱子属的分布中心,也是其分化变异中心.     

中国棱子芹属植物叶表皮微形态特征及其系统学研究

采用光学显微镜和扫描电镜对棱子芹属(Pleurospermum)11种植物的叶表皮微形态特征进行了观察研究.结果表明:(1)显微观察显示,气孔器普遍存在于叶的下表皮.少数种的上表皮也有分布,多为无规则型;叶表皮细胞形状为多边型或不规则形.垂周壁式样可区分为近平直、平直-弓形、浅波状和波状.(2)扫描电镜观察显示,叶表皮气孔器外拱盖内缘为近平滑、浅波状或波状;角质膜条纹状,有的条纹隆起,有的条纹上附有颗粒和晶簇.(3)气孔器的分布、气孔器外拱盖内缘形态以及角质膜等特征对该属部分种的区分有一定的参考价值.(4)结合外部形态特征,推测康定棱子芹应作为种一级分类群.松潘棱子芹与宝兴棱子芹的亲缘关系比较近.     

Intraspecific differentiation of Pleurospermum hookeri (Apiaceae), and its interspecific relationships with two close relatives in the genus Pleurospermum

In order to clarify the interspecific relationships of a lineage in Pleurospermum, P. hookeri C. B. Clarke, P. yunnanense Franch., and P. giraldii Diels, and to understand intraspecific divergence of P. hookeri, a phylogeographic study was carried out based on 198 individuals from 24 populations. Three chloroplast DNA regions, ndhF-rpl32, trnL-trnF, and trnQ-rps16, were sequenced in the present study. The genetic relationship between P. hookeri and P. giraldii is not as close as previously assumed. Pleurospermum hookeri and P. giraldii may originate from an unknown ancestor located in the Qinling region. Pleurospermum yunnanensewas found to be the closest relative of P. hookeri in all the species included in the phylogenetic analysis. The two haplotypes identified from P. yunnanense are shared with P. hookeri, which is potentially a result of both incomplete linkage sorting and introgression. Three large divergences within P. hookeri were identified, located at the northeastern edge, southeastern edge, and platform of the Qinghai–Tibet Plateau (QTP), respectively. Long-term history can explain the deep intraspecific divergence of P. hookeri. The uplift of the QTP played a key role in that divergence, and then were the climatic changes in the Quaternary. In addition, we found one refugium at the northeastern edge of the QTP, one at the southeastern edge, and at least one in the Hengduan Mountains region on the platform of the QTP.