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.     

泽兰属植物中的倍半萜化学成分

倍半萜化合物是菊科泽兰属植物中的一类主要化学成分,迄今从该属46种植物中共分离鉴定了近200余个倍半萜化学成分。本文介绍了这些化合物的名称,存在的植物,以及这些化合物的生物活性。     

紫茎泽兰化学成分的研究（Ⅰ）

从云南紫茎泽兰(Eupatorium aclenophorum Spreng)茎、叶中分出10个化合物,经波谱(IR,MS,~1H-NMR,~(13)C-NMR)分别鉴定为9-oxo-ageraphorone(Ⅰ),9β-hydroxy-ager-aphorone(Ⅱ),表木栓醇(epifriedelinol,Ⅲ),豆甾醇(stigmasterol,Ⅳ),正二十八烷酸(octa-cosanoic acid,V),β-胡萝卜甙(β-daucosterol,Ⅵ),邻羟基桂皮酸(O-hydroxy cinnamic acid,Ⅶ),阿魏酸(ferulic acid,Ⅷ),咖啡酸(caffeic acid,Ⅸ),2-异丙烯基-5-乙酰基-6-羟基苯骈呋喃的乙酰化物(2-isopropenyl-5-acetyl-6-hydroxybenzofuran acetate,Ⅹ)。化合物(Ⅲ～Ⅹ)均系首次从该植物中分离到。     

紫茎泽兰对三种岩溶地区木本植物种子萌发的化感作用

采用生物测定法研究了紫茎泽兰叶和根水浸提液对任豆、香椿和龙须藤等三种岩溶木本植物种子萌发的化感作用。结果表明,除最低浓度(0.0125 g/mL)外,其它浓度的叶浸提液均能显著抑制香椿种子的萌发及幼苗生长,浓度越高抑制作用越大;对任豆和龙须藤种子萌发也有一定的化感作用,但抑制作用相对较弱,有时为促进作用。紫茎泽兰叶浸提液对受试植物的化感作用强于根水浸提液。     

Chemical Constituents of Guangdong Tu Niu Xi (Eupatorium chinense,Compositae)

One new compound, namely eupatorin A (1), was isolated from the methanolic extract of Guangdong Tu Niu Xi, the dried roots of Eupatorium chinense (Compositae). Its structure was determined to be (threo) 3 O acetyl 1 (4 hydroxy 3 methoxyphenyl) 2 \[4 (3 hydroxy 1 (E) propenyl) 2, 6 dimethoxyphenoxy\]propyl β D gluco pyranoside on the basis of detailed spectroscopic analysis. In addition, ten known compounds, including (threo) 3 hydroxy 1 (4 hydroxy 3 methoxyphenyl) 2 \[4 (3 hydroxy 1 (E) propenyl) 2, 6 dimethoxyphenoxy\]propyl β D glucopyranoside (2), ardisiacrispin A (3), ardisiacrispin B (4), euparone (5), 3 (2, 3 dihydroxy isopentyl) 4 hydroxy acetophenone (6), 12,13 dihydroxy euparin (7), gymnastone (8), N (2′ hydroxy tetracosanosyl) 2 amino 1, 3, 4 trihydroxy octadec 8 (E) ene (9), stigmasterol (10) and stigmasterol 3 O β D glucopyranoside (11) were also obtained. This was the first time that compounds 2-4 were reported from Compositae family, while 5-8 were isolated from the genus Eupatorium.     

Inhibition of Ageratina riparia (Asteraceae) by native Australian flora and fauna

We investigated the influence of native flora and fauna on the establishment and persistence of the exotic weed Ageratina riparia (Asteraceae) in disturbed and regenerating rainforests on the Springbrook plateau of south‐eastern Queensland. The height and ground cover of A. riparia was positively associated with light availability beneath the rainforest canopy and negatively associated with forest leaf litter biomass. Regenerating rainforest with the associated increases in litter and decrease in light availability could therefore inhibit the establishment and density of A. riparia. The red‐necked pademelon, Thylogale thetis, browsed extensively on A. riparia, but the pattern of browsing was not associated with light availability, forest leaf litter biomass or density of A. riparia. Browsing and incidental damage by T. thetis breaks up the broad stands of A. riparia. The physical damage caused by T. thetis, and the inhibition to establishment and density of A. riparia by native plant species, combine to reduce the environmental threat associated with A. riparia.     

表型可塑性和局域适应在紫茎泽兰入侵不同海拔生境中的作用

紫茎泽兰是我国危害最严重的外来入侵物种之一,为探讨表型可塑性和局域适应在其入侵中的作用,在高、低海拔的两个样地内,测定了来自云南南部640～2450 m海拔范围的6个种源的紫茎泽兰种群的株高、冠宽、分枝数和高温半致死温度(HSLT).结果表明,在高海拔样地,各种群紫茎泽兰株高、冠宽、分枝数和HSLT(2130 m的哀牢山种群除外)均显著低于在低海拔样地,紫茎泽兰各种群的株高、冠宽和分枝数的可塑性指数(0.881～0.975)均较大,而HSLT的可塑性(0.052～0.200)较小.无论在高还是低海拔样地,紫茎泽兰的株高、冠宽和分枝数在种群间的差异均不显著,而HSLT在种群间的差异达极显著水平,表现出明显的遗传分化,但其在种群间的差异仍小于其在样地间的差异.在高海拔样地,紫茎泽兰各种群的分枝数与种源海拔呈显著正相关;在低海拔样地,紫茎泽兰的HSLT与种源海拔呈显著负相关,表现出明显的局域适应特征.表型可塑性和局域适应均与紫茎泽兰的入侵有关,但前者的作用可能更大.     

紫茎泽兰茎和叶片色素及叶绿素荧光相关参数对不同温度处理的响应差异

通过人工模拟低温(12 ℃)、常温(25 ℃)、高温(35 ℃)生境,对紫茎泽兰茎和叶片色素(叶绿素a,b,类胡萝卜素,花青素)含量和组成、叶绿素荧光参数包括最大荧光效率Fv/Fm、光系统II效率ФpsⅡ、光化学淬灭系数qP、非光化学淬灭系数NPQ、热耗散速率HDR进行了动态测定.结果表明:在低温和高温胁迫处理过程中,茎和叶片的色素含量和组成随时间变化趋势基本一致,但茎的变化幅度明显低于叶片.与此类似,茎和叶片叶绿素荧光参数在不同温度处理过程中的变化趋势一致,但是茎各指标的变化幅度普遍小于相应叶片的变化幅度:低温下,茎的ФpsⅡ和ETR较对照最大降低44%,而叶片降低超过60%;高温下,茎的ФpsⅡ和ETR较对照下降16%～57%;而叶片则下降50%～80%.其产生原因在于:在温度胁迫条件下,叶片获取光能用于光化学过程的份额(qP)大幅下降,用于热耗散的份额(NPQ)大幅上升,茎的情况相反,所获取光能用于光化学电子传递的份额较常温下更多、用于热耗散的减少,这使得茎的耗散速率(HDR)升高的幅度显著低于叶片的升高幅度(p<0 05).综合3个温度的测定结果,茎的叶绿素含量相当于叶片的1/3～1/6,茎的叶绿素a/b较叶片低20%左右,但是光合电子传导速率ETR与叶片相当,这使得茎的光合色素利用效率ETR/Chl远高于叶片.叶片和茎叶绿素荧光参数在不同温度处理下变化趋势一致、但叶片的变化幅度远大于茎的这一响应差异,使得在适宜温度下紫茎泽兰叶片光合对整体光合贡献增大,而在温度胁迫条件下茎的光合贡献增大,这种策略使得这一植物在适宜生境下通过叶片光合、快速生长迅速占据生境,而在逆境条件下茎等非同化器官光合贡献增加,有利于其在逆境中的保存.