武汉市桔梗科一物种新记录——卵叶异檐花     

安玫  李雅绚 《湖北林业科技》2020,49(2):28-30

报道了武汉市外来入侵植物新记录一种,为桔梗科Campanulaceae异檐花属Triodanis卵叶异檐花Triodanis perfoliata subsp.biflora(Ruiz et Pavon)Lammers。卵叶异檐花原产于美洲,在武汉地区是首次发现,凭证标本保存于长江文明馆(武汉自然博物馆)。  相似文献   

大别山-桐柏山地区杀虫性植物资源调查初报   总被引：3，自引：0，他引：3  

周巍  魏锦晖  熊建伟  尹健 《信阳农业高等专科学校学报》2001,11(2):5-7

大别山、桐柏山属于亚热带向暖温带过渡地气候 ,是植物区系的交接过渡地带 ,既有亚热带典型的代表型 ,又体现着过渡性的特征。能产生具有杀虫活性的次生代谢产物的植物即杀虫性植物。通过广泛调查、采集与鉴定 ,大别山—桐柏山地区分布有杀虫性植物 72科 138种  相似文献   

德阳市湿地水鸟资源及保护对策     

陈凡  喻晓钢  罗秀琼  张台贵  高丽  刘宏晓  简基伦 《四川林业科技》2005,26(3):52-55

湿地水鸟是湿地生态系统的重要组成部分，对维持湿地生态系统起着举足轻重的作用。德阳建市20a来，虽曾救护过不少濒危水鸟，但该市的湿地水鸟资源不清。1999年2002年，3次对全市湿地区域内的野生水鸟种类、分布进行了专项调查研究，调查结果显示，德阳市分布有湿地水鸟9目12科42属78种，大多属于旅鸟和候鸟，留鸟甚少，属中日保护协定水鸟50种，中澳保护协定水鸟16种。论文还就保护德阳市湿地水鸟提出了6条建议。为德阳市政府制定保护湿地水鸟规划提供科学依据。  相似文献   

《蒙古秘史》中的野生食用植物研究   总被引：7，自引：1，他引：6  

哈斯巴根 《干旱区资源与环境》1996,10(1):87-96

经考证,在《蒙古秘史》中的植物古蒙古名称中,有山荆子、稠李、地榆、鹅绒委陵菜、葱、山韭、山丹和野韭等８种野生食用植物。植物区系及地理分布的研究表明,这些植物在十二世纪蒙古人所采集的地点,即现在的蒙古国肯特山脉地区仍有广泛分布。从民族植物学的研究看,它们在蒙古族民间被用于代粮、野菜、茶用、药用和调味品,比过去的利用有了很大的发展,已成为独特的植物利用文化。本文不仅对蒙古学研究能够提供可靠的依据,而且对寻找新的食用植物种类及其开发利用研究也提供了一些基本资料。  相似文献   

Periodicity and gradients in dispersal ofAlternaria linicola in linseed crops     

I. Vloutoglou  B. D. L. Fitt  J. A. Lucas 《European journal of plant pathology / European Foundation for Plant Pathology》1995,101(6):639-653

Conidia ofAlternaria linicola produced on infected linseed crops were mainly dispersed by wind. The numbers of conidia in the air above linseed crops collected by a Burkard spore sampler were greatest between 1200 h and 1300 h, when the relative humidity was lowest. Although numbers of conidia collected decreased with increasing height within and above the crop canopy, air-borneA. linicola conidia were present up to 80 cm above the crop canopy. Conidia ofA. linicola were transported by wind up to at least 40 m downwind from an artificial line inoculum source, but their numbers decreased with increasing distance from the source. In 1991, 1992, and 1993, the dispersal ofA. linicola conidia above linseed crops followed a seasonal periodicity which was influenced by weather conditions and cultural practices. The greatest numbers of conidia were collected during July, August and early September and coincided with periods favourable for sporulation and with an increase in the incidence of the disease in the senescent crop. Air-borneA. linicola conidia produced on point or line inoculum sources (naturally infected linseed stem debris) were responsible for the spread of the disease in linseed crops. In 1992 and 1993, the disease was first detected downwind from the sources, but by the end of the growing seasons, it had spread in all directions and up to 20 m and 60 m from the sources, respectively. Disease gradients were initially steep near the inoculum sources but they became flatter with time due to the secondary spread of the disease.  相似文献   

Goat horns: Platforms for viroid transmission to fruit trees?     

Oded Cohen  Ozgur Batuman  Yoni Moskowits  Alexander Rozov  Elisha Gootwine  Munir Mawassi  Moshe Bar-Joseph 《Phytoparasitica》2005,33(2):141-148

Mechanical inoculations with contaminating tools and propagation of infected budwood were considered the main causes for the omnipresence of multiple viroid species among citrus and other Middle Eastern and Mediterranean fruit trees and grapevines. However, neither means could explain viroid infections of wild trees — scattered on terrains inaccessible to humans — nor the finding of similar viroids among graft-incompatible plants. Northern hybridization of RNA extracts made of scrapings from the surfaces of goat (Capra hircus) horns that were rubbed against etrog (Citrus medica) stems infected with a citrus viroids complex, revealed accumulation of considerable amounts ofCitrus exocortis viroids (CEVd) andHop stunt viroids (HSVd). Experimental transmission of both CEVd and HSVd was obtained by rubbing healthy citrus plants with goat horns that had been rubbed 24 h earlier on infected etrog stems. These results implicate goats as possible vectors of viroids. Transmissionvia goats could have facilitated the long-range spread of viroids among cultivated and wild plants andvice versa and also among graft-incompatible plants.  相似文献   

重庆地区色叶植物资源及其在园林中的应用   总被引：5，自引：0，他引：5  

黄丽霞  秦华  杨振华 《西南园艺》2005,33(5):32-35

色叶植物是未来园林应用的主要造景植物之一，本文就重庆地区色叶植物资源作了详细调查．按植物色彩分成常色叶类、春色叶类、秋色叶类和两季色类，并对其在园林中的应用途径和前景作了详尽介绍．  相似文献   

2004年冬成都市外来园林植物冻害调查及建议   总被引：7，自引：0，他引：7  

何飞  何亚平  费世民  王乐辉  陈秀明 《西南园艺》2005,33(6):19-22

作者2005年春调查了成都市外来园林植物冻害情况,发现：（1）外来园林植物受冻害影响较为普遍,41种植物在不同程度上受害;（2）冻害影响存在区域差异,郊区冻害比城区严重.分析了冻害原因,并对园林植物引种提出建议.  相似文献   

Engineering of a Single Chain Variable Fragment Antibody Specific for the Citrus tristeza virus and its Expression in Escherichia coli and Nicotiana tabacum     

P. Galeffi  G. Giunta  S. Guida  C. Cantale 《European journal of plant pathology / European Foundation for Plant Pathology》2002,108(5):479-483

Citrus tristeza virus (CTV) is one of the most destructive citrus virus diseases in the world. The construction of an engineered antibody, EMBL accession number AJ278109, able to specifically recognize its antigen, i.e. the coat protein of CTV, directly on infected plant material without any purification or manipulation of the entire woody plant. The potential uses of this engineered antibody are discussed.  相似文献   

Can wild relatives of sorghum provide new sources of resistance or tolerance against Striga species?     

A L Gurney  M C Press  & J D Scholes 《Weed Research》2002,42(4):317-324

Summary The genus Striga contains some of the most noxious parasitic plants, which have a devastating impact on cereal production in Africa; of most importance are Striga hermonthica and Striga asiatica . Complete resistance to infection by Striga species does not exist in cultivated cereals. Of great interest is the possibility that wild relatives of cereals may provide a genetic basis for resistance or tolerance to infection and may be of enormous value for the development of resistant crops. A wild relative of cultivated sorghum, Sorghum arundinaceum , demonstrated tolerance to infection by S. asiatica , with little impact of S. asiatica on host growth or grain production compared with the detrimental impact of the parasite on cultivated sorghum. Infection by S.hermonthica , however, had a significant influence on host performance for both wild and cultivated sorghum. Differences in host:parasite responses may be explained by the timing of parasite attachment and differences in host specificity for these two Striga species.  相似文献