滇龙胆不同部位裂环烯醚萜类物质含量比较分析

采用高效液相色谱法,对云南临沧云县滇龙胆不同部位龙胆苦苷、獐牙菜苦苷、当药苷含量进行分析.结果显示:(1)龙胆苦苷、獐牙菜苦苷、当药苷在滇龙胆根、茎、叶、花中均有分布;龙胆苦苷、獐牙菜苦苷在根部含量较高,分别为(35.88±5.89)mg/g和(1.35±0.33)mg/g;当药苷在花部含量最高,为(0.97±0.24)mg/g.(2)不同部位有效成分间具有显著(P<0.05)或极显著(P<0.01)的相关性.(3)相同海拔条件下,不同栽培方式下滇龙胆根部龙胆苦苷含量差异不显著(P>0.05),但茎部、叶部獐牙菜苦苷含量差异显著(P<0.05).     

条叶龙胆根培养物中龙胆苦苷的产生和含量

条对龙胆愈伤组织中龙胆苦苷含量较低,根的分化可以提高龙胆苦苷的含量。培养的离休根中龙胆苦苷的含量则更高。随着继代次数的增加,愈伤组织中龙胆苦苷含量下降快,而分化根的愈伤组织和离体培养根中龙胆苦苷含量下降较慢。在愈伤组织的液体培养中,1/2MS培养基附加低浓度的植物激素,龙胆苦苷含量有所提高。植物激素配比促进愈伤组织中分化根的形成,也促进龙胆苦苷的产生;但促进愈伤组织的生长时,不利于龙胆苦苷产生。在离体根培养中,添加 1mg/L的金雀花碱,促进龙胆苦苷的产生,含量可达1.48％,明显高于愈伤组织(0.52％)和分化根的愈伤组织(0.65％),也高于试管苗根的龙胆苦苷含量(1.01％)。     

滇龙胆中萜类物质积累的动态变化

滇龙胆（Gentiana rigescens）为传统中药材。采用单因素方差分析比较不同生长季节滇龙胆的根部及茎叶部位龙胆苦苷、獐牙菜苦苷及当药苷含量的动态变化。结果表明,在不同生长季节,滇龙胆的根部与茎叶部位3种有效成分的含量具明显差异。龙胆苦苷主要积累于根部;獐牙菜苦苷、当药苷主要积累于茎叶部位。相关性分析表明,龙胆苦苷含量受气候因子的影响,月平均温度与茎叶部位龙胆苦苷含量呈极显著负相关（R=-0.57,P〈0.01）,月降水量与根部、茎叶部位龙胆苦苷含量呈显著（R=-0.48,P〈0.05）或极显著（R=-0.74,P〈0.01）负相关;根中当药苷含量与獐牙菜苦苷含量呈极显著正相关（R=0.62,P〈0.01）,茎叶部位獐牙菜苦苷含量与当药苷含量呈显著正相关（R=0.38,P〈0.05）。研究结果表明,滇龙胆中龙胆苦苷含量受降水量和温度的影响;龙胆苦苷、獐牙菜苦苷及当药苷的含量变动具相关性;9-11月较适宜滇龙胆药材的采收。     

红外光谱技术在滇龙胆栽培方式选择上的应用

该研究采用傅里叶变换红外光谱结合化学计量学,对条播、撒播、剪根后移栽、扦插和剪枝后移栽的滇龙胆进行了分析,以筛选滇龙胆的最佳栽培方式。结果表明:(1)不同栽培方式的滇龙胆原始谱图在峰形、峰位和峰强上有一定差异;用小波去噪法对光谱进行优化处理并进行偏最小二乘判别分析(Partial least squares discriminant analysis,PLS-DA),能较好地区分不同栽培方式的滇龙胆样品,PLS-DA二维得分图显示同一栽培方式的样品聚在一起,表明相同栽培方式的滇龙胆化学组成和含量差异较小;播种滇龙胆样品(条播和撒播)距离较近,移栽滇龙胆样品(剪根、扦插和剪枝)距离较近,而播种和移栽滇龙胆样品距离较远,表明栽培方式对滇龙胆化学成分的积累有影响。(2)滇龙胆四种主要成分总含量大小依次是剪枝剪根撒播条播扦插,除剪根后移栽,剪枝后移栽滇龙胆中四种主要成分总含量显著高于其他栽培方式下的滇龙胆(P0.05),剪枝后移栽滇龙胆质量最佳。(3)以液相数据为参考值,采用正交信号校正—偏最小二乘回归模型预测不同栽培模式滇龙胆中龙胆苦苷、马钱苷酸、獐牙菜苦苷和当药苷的含量。校正集和验证集的决定系数(R2)均大于0.90,校正均方根误差、交叉验证均方差和预测均方根误差均小于1.65,模型相关性和预测效果好,该方法对红外光谱分析在中药领域的推广应用提供了参考。     

藏药提宗龙胆和线叶龙胆花中四种苦苷类成分的HPLC测定

应用HPLC分析方法同时测定藏药提宗龙胆和线叶龙胆两种植物花中落干酸、獐牙菜苦苷、龙胆苦苷、獐牙菜苷4种苦苷类成分的含量.采用Econosphere C18色谱柱(250×4.6 mm,5 μm),以甲醇-0.5%乙酸为流动相进行梯度洗脱,流速为1.0 mL/min;检测波长为245 nm.结果表明,除提宗龙胆中未检出獐牙菜苦苷外,其它成分均在两种植物中存在,但含量存在一定的差异.     

农林复合系统滇龙胆茎叶化学计量特征研究

以农林复合系统种植的滇龙胆(Gentiana rigescens Franch.ex Hemsl.)为材料,采用高效液相色谱法建立不同栽培系统滇龙胆茎、叶的色谱指纹图谱,并测定其主要活性成分马钱苷酸、獐牙菜苦苷、龙胆苦苷和当药苷含量,研究不同栽培系统滇龙胆茎、叶化学计量特征。采用相关性分析、指纹图谱相似度分析、偏最小二乘判别分析(PLS-DA)、变量投影重要性准则(VIP)等方法进行化学数据分析。结果显示,滇龙胆主要活性成分马钱苷酸含量为(1.85±0.92)mg/g~(7.43±7.64)mg/g,獐牙菜苦苷含量为(1.03±0.17)mg/g~(1.58±0.50)mg/g,龙胆苦苷含量为(15.28±11.34)mg/g~(24.59±7.84)mg/g,当药苷含量为(4.10±1.64)mg/g~(31.67±22.70)mg/g,且叶片中4种活性成分的总含量高于茎;不同栽培系统中,与尼泊尔桤木间作的滇龙胆茎、叶活性成分总含量最高,而与核桃间作的滇龙胆茎、叶活性成分总含量最低。相关性分析显示,植株相同部位和不同部位间的环烯醚萜和裂环烯醚萜含量呈显著(P0.05)或极显著(P0.01)正相关。指纹图谱相似度分析表明,不同栽培系统滇龙胆茎指纹图谱相似度介于0.989~0.992之间、叶指纹图谱相似度为0.988~0.996,相同部位样品化学成分种类相似。PLS-DA分析结果表明,茎和叶片整体化学计量特征具有明显差异;单作及林药间作的样品被区分为不同类群,不同间作模式下滇龙胆茎、叶化学成分具显著差异,叶片高效液相色谱指纹图谱可用于区分不同栽培系统滇龙胆样品。本研究结果可为农林复合系统滇龙胆有效成分含量研究及滇龙胆资源的合理开发利用提供科学依据。     

野生坚龙胆及其组培苗中龙胆苦苷的含量分析

利用含有α-萘乙酸(NAA)、6-苄氨基嘌呤(6-BA)和激动素(KT)等激素的MS固体培养基,对野生坚龙胆进行组培苗诱导培养。同时,应用高效液相色谱技术对野生坚龙胆和其组培苗的根、茎和叶中的龙胆苦苷进行含量分析和比较研究。结果发现,野生坚龙胆中的龙胆苦苷主要储存于根部,而组培坚龙胆中龙胆苦苷在根中的含量甚微,主要集中在茎、叶部位,且在出根初期组培坚龙胆叶中的龙胆苦苷含量近似于或略大于野生坚龙胆根中的含量。研究结果提示,坚龙胆中的绿色组织是龙胆苦苷合成的部位,这些部位同时具有龙胆苦苷的储藏功能。     

栽培条叶龙胆根中龙胆苦苷含量差异的研究

采用高效液相色谱法,测定栽培条叶龙胆根中龙胆苦苷的含量,结果表明:花末期(9月3日)龙胆苦苷含量高于果期(9月18日)和枯萎期(10月10日);同一根系中二龄根的含量显著高于一龄根;有性后代个体之间龙胆苦苷含量差异显著,对条叶龙胆进行高含量育种研究是可行的。     

龙胆苦苷纳米乳的制备工艺及质量安全性评价

通过筛选最佳处方制备龙胆苦苷纳米乳,并对其质量安全性进行评价;基于单因素考察及伪三元相图法,筛选得到龙胆苦苷纳米乳制剂的处方为:龙胆苦苷,乙酸乙酯,聚氧乙烯醚(35)蓖麻油,无水乙醇,水,其质量比为1.77∶7.66∶5.94∶11.91∶72.71,龙胆苦苷纳米乳平均粒径为23.08 nm;建立高效液相色谱法测定龙胆苦苷纳米乳中龙胆苦苷的含量,方法的专属性良好,线性范围0.00428~0.214 mg/m L;不同温度、光照和湿度条件下含量无明显变化,稳定性良好;小鼠急性毒性实验结果表明属于实际无毒范围;本研究研制的龙胆苦苷纳米乳制备工艺简单,为提升龙胆苦苷口服生物利用度及扩大临床应用前景提供参考依据。     

龙胆酵素的发酵工艺优化及其生化功效研究

以龙胆草为发酵底物,龙胆苦苷为评价指标,采用正交实验优化龙胆酵素的发酵工艺,用高效液相色谱(HPLC)分析龙胆酵素中龙胆苦苷含量,并评估其生化功效。结果表明,最优龙胆酵素发酵工艺为菌株组合酿酒酵母加植物乳杆菌1∶1、接种量10%、发酵温度30℃、发酵时间72 h。在此优化工艺条件下,发酵液龙胆苦苷含量达到(1 823±21)μg/mL,其透明质酸酶抑制率、DPPH、·OH和O2-·自由基的清除能力分别达到89.2%、77.5%、70.2%和74.1%,表明该工艺的发酵液具有很好的抗敏和自由基清除功效。     

Seedling vigour and the early growth of transplanted rice (Oryza sativa)

Previous studies suggest that the positive response of transplanted rice (Oryza sativa L.) to nursery fertiliser application was due to increased seedling vigour or possibly to increased nutrient content. This paper presents results of two glasshouse experiments designed to test the hypothesis that seedling vigour was responsible for the response of transplanted seedlings to nursery treatments. The aim of the present study was to explore the concept of seedling vigour of transplanted rice and to determine what plant attributes conferred vigour on the seedlings. Seedling vigour treatments were established by subjecting seedlings to short-term submergence (0, 1 and 2 days/week) in one experiment and to leaf clipping or root pruning and water stress in another to determine their effect on plant growth after transplanting. Submerging seedlings increased plant height but depressed shoot and root dry matter and root:shoot ratio of the seedling at 28 days after sowing. After transplanting these seedlings, prior submergence depressed shoot dry matter at 40 days. Nursery nutrient application increased plant height, increased root and shoot dry matter, but generally decreased root:shoot ratio. Pruning up to 60% of the roots at transplanting decreased shoot and root dry matter, P concentration in leaves at panicle initiation (PI) and straw dry matter and grain yield at maturity. By contrast, pruning 30% of leaves depressed shoot and root dry matter by 30% at PI, and root dry matter and straw and grain yield by 20% at maturity. The combined effects of leaf clipping and root pruning on shoot, root and straw dry matter were largely additive. It is concluded that the response of rice yield to nursery treatments is largely due to increased seedling vigour and can be effected by a range of nutritional as well as non-nutritional treatments of seedlings that increase seedling dry matter, nutrient content, and nutrient concentration. Impairment of leaf growth and to a lesser extent root growth in the nursery depressed seedling vigour after transplanting. However, rather than increasing stress tolerance, seedling vigour was more beneficial when post transplant growth was not limited by nutrient or water stresses.     

不同培育时间侧柏种基盘苗根系生长和分布

以3月直接在培养池中播种培育的侧柏种基盘苗作对照,将同期播种的侧柏种基盘苗进行悬空培养,于6月、8月和10月分别移栽到培育池(分别称为种基盘苗、6月移栽苗、8月移栽苗、10月移栽苗),并于翌年3月挖根,研究不同培育时间对移栽后侧柏幼苗根系生长和分布的影响。结果表明:苗木株高、根分布最大深度、根和地上部干重由大到小依次为:6月移栽苗>8月移栽苗>种基盘苗>10月移栽苗。根冠比由大到小依次为6月移栽苗>8月移栽苗>10月移栽苗>种基盘苗,但除了种基盘苗与6月移栽苗之间差异性显著外,其它处理之间差异性不显著。随着悬空培育时间的延长,空气断根限制了侧柏主根的生长,促进了侧根生长,降低了主侧根长度比。但经悬空培育后,任何处理的移栽苗都没有发生根系盘绕现象,移栽后主根的再生没有受到影响。     

Late Transplanting and the Yield of Phaseolus vulgaris L.

The prediction that very high seed yields of dry beans (Phaseolusvulgaris L.) would be produced by the delayed transplantingof large plants has been tested in a factorial experiment withfour dates of transplanting and eight plant populations. Therewere significant differences in yield between transplantingdates and between population densities, and there was a significantdate-density interaction. At low plant densities (up to about30 plants m^–2) the three transplanted treatments yieldedless than the hand-sown controls, and late transplanting yieldedless than early. At the highest density the situation was reversed;all three transplanted treatments out-yielded the controls andlate transplanting tended to out-yield plants transplanted early.The biggest yield was 340 g seed m^–2 from a transplantedcrop grown at 35 plants m^–2. The data on yield fitted a modified rectangular hyperbola ofthe form where y is yield per unit area, p is the number of plants perunit area, t is the number of days between sowing and transplanting,and B_o, n, m, and p are arbitrary parameters. This equationaccounted for 91 per cent of the variation in yield with t andp. It is suggested that late transplanting had adverse effects,due to transplanting ‘shock’ and which were mostmarked at low plant densities; and beneficial effects, ascribableto an effect on plant ‘plasticity’, which were mostmarked at high plant densities. Possible physiological mechanismsof these effects are discussed. Phaseolus vulgaris, yield, density, transplanting     

Reduction of generation time in Eucalyptus globulus

The plant growth retardant paclobutrazol was applied by foliar spray to seedlings of Eucalyptus globulus (Labill.) to determine its effects on reproductive activity. It was shown to induce flowering in vegetatively juvenile seedlings and increase reproductive activity in vegetatively adult material. The former case represented a 50% (three year) reduction in generation time for commercial seedlings. Paclobutrazol treatment did not appear to have a negative effect on any aspect of reproductive development, germination of new seed, or early seedling growth, while having a distinct positive effect on reproductive output. This suggests that paclobutrazol may be an effective tool enabling tree breeders to reduce generation time and increase reproductive output in E. globulus. Foliar spraying during autumn was shown to be an effective means and timing of paclobutrazol application, with results evident in the following flowering season. Considerable persistence of paclobutrazol effects was noted in the second season after application. Pot size and growth temperatures also play roles in determining the extent of new reproductive activity each season in E. globulus seedlings.     

不同栽培措施对凤丹容器苗生长及生理的影响

分别采用不同基质配比(即泥炭和珍珠岩体积比分别为1：0、2：1和3：1)、不同促侧根措施(包括主根截短和200 mg·L-1 IBA溶液灌根单一措施以及上述2种单一措施的复合措施)和不同栽培容器(包括穴盘、营养钵和无纺布育苗袋)对凤丹( Paeonia ostii T. Hong et J. X. Zhang)容器苗进行培育,分析了容器苗的形态指标、单株质量、根冠比及部分生理指标的差异,并在此基础上筛选出适宜凤丹容器苗培育的栽培措施。分析结果表明：在泥炭-珍珠岩(体积比3：1)混合基质中,凤丹容器苗的单株侧根数、单株地下部鲜质量和干质量、根冠比以及叶片的总叶绿素含量、可溶性糖含量和含水量均显著高于其他基质。采取主根截短单一措施或复合措施后,容器苗的单株叶面积、单株侧根数、单株地下部鲜质量和干质量、根冠比及叶片含水量均显著高于对照(不做任何处理)和采取200 mg·L-1 IBA溶液灌根单一措施的容器苗,其中,采取复合措施的容器苗大部分指标最高。在无纺布育苗袋和营养钵中栽培的容器苗的株高、根颈直径、单株侧根数以及叶片的总叶绿素含量、可溶性糖含量和含水量显著高于在穴盘中栽培的容器苗;其中,在无纺布育苗袋中栽培的容器苗的单株侧根数以及叶片的总叶绿素含量和含水量均最高,且这3个指标显著高于在营养钵中栽培的容器苗。研究结果显示：不同栽培措施对凤丹容器苗的生长及生理均有一定影响,总体上看,对根系的单株侧根数、主根长、地下部质量和根冠比以及叶片的叶面积、总叶绿素含量、可溶性糖含量和含水量的影响均较大。根据实验结果,初步筛选出适宜凤丹容器苗培育的栽培措施,即用无纺布育苗袋,以泥炭-珍珠岩(体积比3：1)混合基质为栽培基质,实施主根截短和200 mg·L-1 IBA溶液灌根复合措施。     

广东松幼苗存活率和生长特征的初步研究

2006年5月至2008年7月,在南岭国家级自然保护区测定了不同年龄、不同种植方式的广东松(Pinus kwangtungensis)幼苗的存活率、株高和基径等指标,以期为国家保护植物广东松的保育提供资料。结果表明,实验期间袋栽苗存活率下降明显,从开始时的100%下降到结束时的50%;裸植苗与移植苗的存活率从100%下降到80%左右。总月均株高、基径的增量,袋栽苗、裸植苗、移植苗依次为1.01、1.39、2.76cm;0.17、0.20、0.64mm。年均株高、基径增值,移植苗、裸植苗、移植苗依次为32.91、17.22、12.77cm;7.64、2.31、2.0mm。随着年龄的增长,各组幼苗的株高和基径增长均加快,株高与基径之间存在着极显著的线性相关关系,广东松幼苗至10a生仍属快速生长期。     

Investigating the Role of Endophytic Fungi in <Emphasis Type="Italic">Gentiana scabra</Emphasis> bge. by Cross-Growth Period Inoculation

Gentiana scabra Bge. (gentian) is a Chinese medicinal plant. Endophytic fungi from the roots of gentian were isolated and cross-growth period inoculation was performed to study the roles of three Trichoderma spp. strains (F1, F2, and F9) in their original host plant. In treatments inoculated with F1, F2, and F9, gentiopicroside content increased 33.6, 23.7 and 13% than that in the control. Strains F1, F2, and F9 could also improve polysaccharide content by more than 6.6, 18.7 and 30% compared to the control. The incidence of spot blight in gentian inoculated with F1, F2, and F9 decreased by 31.2, 26.7 and 8.5%. Inconsistent changes in the activity of the three enzymes (superoxide dismutase, catalase and peroxidase) were observed when the plants were attacked by pathogens or inoculated with fungi. High enzymatic activity did not reflect mild disease. Cross-growth period inoculation, which takes into account the original living environment (gentian plant as “substrate” and different microorganisms as symbionts) of endophytic fungi, provides a new idea for studying effects of endophytes on their original hosts. This is the first research about the role of endophytic fungi in Gentiana scabra bge. in vivo.     

不同育秧方式和插植密度下晚籼稻群体动态结构的研究

不同育秧方式和插植密度下晚籼稻群体动态结构存在差异。旱育秧群体分蘖速度快,分蘖能力强。稀植可促进个体分蘖多发、有效穗数增多,但旱育稀植并无分蘖早发的优势。旱育稀植使主茎基部叶片变短而上部叶片变长,生育后期叶面积消长平稳,地上部干物质积累较多。旱育秧、稀植都使主茎叶总数增多,全生育期延长。     

Restoring Populations of the Endangered Plant Scorzonera humilis: Influence of Site Conditions,Seed Source,and Plant Stage

Changes in land‐use have resulted in the decline of many formerly common plants of nutrient‐poor grasslands in Europe. Recently, extensification schemes have been applied at sites in order to restore former habitat conditions. However, the establishment of rare and endangered plants is often severely limited by the lack of propagules both in the seed bank and in the surrounding landscape. For such species deliberate introductions may be necessary to overcome these limitations. In a 7‐year study, we assessed the importance of gaps created by sod cutting, of plant stage, and of plant origin for the restoration of populations of Scorzonera humilis, a threatened long‐lived plant of nutrient‐poor, wet grasslands. The effect of gaps on seedling emergence and survival varied strongly among the 12 sites. Gaps increased survival at nutrient‐rich, but reduced it at nutrient‐poor sites. Remarkably, young plants grown for only 5 weeks in the laboratory and transplanted into the same sites had much higher survival than seedlings from seeds sown and there were no differences in survival between nutrient‐rich and nutrient‐poor sites. The field performance of the plants from the various populations of origin varied depending on the site into which they were transplanted, indicating genotype by environment interactions and genetic differentiation among populations, but there was no home‐site advantage. While sowing only succeeded in producing adult plants in five sites, transplanting succeeded at 10 sites. Our results suggest that transplanting young plants could be a much more effective and faster way to establish new populations than sowing seeds.     

鹤望兰开花结果特性

鹤望兰在亚热带厦门地区引种露地栽培,观察结果表明,实生苗始花期为4年生,全年开花,夏、秋季为盛花期,冬季产花量少。每枝花序均可产生多个果实,每个果实有种子10粒以上,果实成熟期80~140d。并观测了株高生长与种子发芽特性