组织培养暗紫贝母的药理作用

以组织培养的暗紫贝母为材料,野生暗紫贝母为对照,用不同溶剂提取,得４个化学组人 生物碱部分,总皂甙部分,水溶性部分和脂溶性部分,并以生药粉为阳性对照进行药效学试验。结果表明：组培贝母与野生贝母有相似的止咳、祛痰作用;总皂甙部分与总生物碱部分均为川贝有效活性成分,ｔ得之间无显著性差异;经ＴＬＣ是乌头总生物碱部分与总皂甙部分无化学成分重叠。     

坡向对暗紫贝母生长和繁殖特征的影响

在青藏高原东部的牛牛山和卡卡山,在其东、南、西、北4个坡面各设置一个海拔相同(3800m)的样地,每个样地中随机选择30株同龄级的暗紫贝母植株作为研究对象,然后比较各坡面的生态因子以及暗紫贝母的生长和繁殖特征。结果表明:1融雪时间、气温、土壤含水量在南北坡面间有显著的差异,但土壤p H在各坡面间无明显差异。2开始生长期、始花期和盛花期等物候阶段都是北坡最迟,南坡最早,而枯黄期在各坡面间无显著差异。3单叶面积、比叶面积和植株株高以北坡最大,南坡最小。4鳞茎生物量以南坡最大,北坡最小,东、西坡面的值介于南、北坡之间。5单粒果实的生物量在各坡面之间无明显的差异,果实生物量在地上部分中所占的比例以南坡最大,北坡最小。6单粒果实平均种子数以北坡最多,南坡最少;而种子千粒重则以南坡最重,北坡最轻。可见,坡面对暗紫贝母的生长和繁殖特征有显著的影响,尤其是在南北坡面之间大多数性状差异显著。     

遮光和施氮对暗紫贝母生长和C-N平衡的影响

为了了解暗紫贝母对资源变化的适应策略,本研究通过田间控制试验,研究了遮光和施氮对暗紫贝母生物量、生物量分配,以及叶、根C、N状态的影响。结果表明：遮光和施氮处理后,暗紫贝母生物量均减少;遮光下叶片的生物量分配相对增加,叶根生物量比显著升高（P<0.05）,但施氮处理下叶根生物量比的变化不明显;遮光和施氮后,暗紫贝母叶、根N含量均显著升高（P<0.05）,叶片和根的C：N显著降低（P<0.05）;相关分析显示,叶片N、C：N与暗紫贝母总生物量、叶根生物量比有极显著的相关性（P<0.01）。本研究表明,与生物量分配相比,C-N平衡,尤其是叶片的C：N比能更好的解释暗紫贝母对资源变化的适应。     

海拔高度对暗紫贝母叶特征的影响

为探索海拔高度对暗紫贝母(Fritillaria unibracteata)叶特征的影响,该研究在岷江上游的卡卡山北坡设置低、中、高三个海拔部位,并在高、低部位之间进行植株的移栽试验,并测定每个部位植株的叶寿命、气孔密度和长度、单叶面积及比叶面积等叶特征。结果表明:(1)叶寿命从低海拔部位的121.3 d,到高海拔部位的108.5 d,缩减了大约13 d。(2)从低海拔到高海拔,气孔密度逐渐升高,低海拔部位只有48.5number·mm~(-2),高海拔部位与之相比增加了42.8%。(3)而气孔长度则随海拔升高而降低,从低海拔部位的82.4μm到高海拔的71.3μm,降低了13.5%。(4)从低海拔到高海拔,单叶面积和比叶面积都逐渐增加,其中单叶面积由低海拔部位的1.61×10~(-4)m~2到高海拔部位的2.20×10~(-4)m~2,增加了36.6%;比叶面积则由低海拔部位的7.7×10~(-4)m~2·kg~(-1)到高海拔部位的12.5×10~(-4)m~2·kg~(-1),增加了62.3%。(5)另外,同一海拔部位的对照植株和移栽植株之间叶特征并无显著差异;植株在移栽后总是表现出移栽后所在部位对照植株的特点,而没有表现出移栽前所在部位对照植株的特点。综上结果表明,海拔高度对暗紫贝母叶特征影响显著,暗紫贝母的叶特征在海拔梯度上具有较大的可塑性。     

几种生长调节物质对北美红杉组织培养的影响

本文探讨几种生长调节物质对北美红杉组织培养的影响。实验以北美红杉 (Ｓｅｑｕｏｉａｓｅｍｐｅｒ ｖｉｒｅｎｓ)组培芽为材料 ,以改良的ＭＳ(大量元素减半 )为基本培养基 ,附加不同浓度的 6 ＢＡ、ＫＴ、ＩＢＡ、Ｔｈｉｏｌｉａｚｕｒｏｎ (ＴＤＺ)等 ,各种培养基均加 4ｍｇ·Ｌ- 1　 琼脂 ,3%蔗糖 ,ｐＨ为 5 .8～ 6.0。在自然散射光照和 2 5～ 30℃温度条件下培养 ,培养 35ｄ后调查各处理的芽增殖及长势情况。获得如下结果 :单用 6 ＢＡ处理时北美红杉的芽增殖倍数偏低 ;6 ＢＡ浓度达到 1 .5ｍｇ·Ｌ- 1 时 ,芽的增殖倍数下降 ,说明 1 .…     

有机物质对紫球藻生长的影响

研究了有机碳、氮源扩B族维生素对紫球藻生长的影响。葡萄糖促生长作用最佳,添加2％（W／V）葡萄糖时,藻细胞生长速度比对照组明显提高,培养10d收获的生物量增加92.6％,培养液中的溶解氧含量和藻体叶绿素a含量也有变化,有机氮源的利用率低,仅蛋白胨、酵母汁可被利用。维生素B2和B12也有促长作用。     

遮光和施氮对暗紫贝母形态特征和生物量分配的影响

根据最优分配理论( optimal partitioning theory,OPT),在自然环境中,由于地上和地下资源在空间上的分离,陆生植物需要调整其地上和地下部分的生物量分配以平衡对资源的吸收。研究结果[1-2]显示：在植物地上资源严重受限时,叶片的生物量分配相对增加;而地下资源严重受限时,根的生物量分配相对增加。然而,植物的生物量分配对资源的响应较为复杂。首先,除了生物量分配,形态变化也是植物调节资源吸收的重要手段,例如,植物通过增加比叶面积提高对光照的吸收,通过调整比根长响应土壤养分的变化[3-4];并且,一些植物甚至以形态响应为主,生物量分配的变化并不明显[3,5]。此外,某些植物还有一些特殊的资源平衡方式,例如,克隆植物通过构件之间的养分传输平衡资源在空间上的分配不均[6];拥有特化储藏器官的植物可依靠大量储藏物质来平衡资源在时间上的分配不均[7]。植物所具有的丰富的资源响应方式决定了其多样的资源策略。     

青藏高原东缘野生暗紫贝母生物量分配格局对高山生态环境的适应

从时空尺度研究了青藏高原东缘野生暗紫贝母(Fritillaria unibracteata)生物量分配特征对高山环境条件的生态适应。通过海拔梯度、群落类型、群落盖度、群落透光率4个变量的分析, 间接探讨了高山环境条件下水分、热量、光照和土壤养分等主要环境因子对暗紫贝母生物量分配的影响, 并主要研究了海拔梯度这一综合要素的生态效应。同时, 从时间尺度上研究了暗紫贝母不同生活史阶段的生物量分配模式, 以期了解不同发育阶段高山植物对于环境要素的适应特征。研究结果表明: 1)在一定的空间范围内, 4个环境变量中仅海拔梯度对暗紫贝母单株鳞茎生物量及总生物量的影响差异显著, 且生物量积累随海拔升高而减小。2)在空间尺度上, 海拔梯度为野生暗紫贝母生长的主要限制因子, 表明在高山地区热量条件对植物生长具有明显的制约作用, 同时不同生活史阶段的暗紫贝母其生物量分配模式对海拔梯度的响应也存在着一定的差异。2年生贝母的鳞茎生物量分配随海拔升高而降低, 叶生物量分配随之增加。3年生和4年生贝母鳞茎及叶生物量分配在不同海拔梯度上比较稳定, 而茎生物量分配随海拔升高而降低, 有性生殖(花)分配则随之而增加。各生活史阶段植株根生物量在不同海拔梯度上分配稳定。3)在时间尺度上, 不同生活史阶段贝母生物量分配模式存在显著差异。根和茎生物量分配随生活史阶段的增加而显著增加, 而鳞茎和叶生物量分配则随之显著减少。单株鳞茎生物量在3年生阶段达到最大。     

Influence of plant growth regulators, polyamines and glycerol interaction on growth and morphogenesis of carposporelings of Grateloupia cultured in vitro

The influence of the plant growth regulators 2,4-D, GA₃, BA and kinetin, and the polyamines putrescine, spermidine and spermine were tested on axenic in vitro cultures of carposporelings of Grateloupia doryphora. The auxin 2,4-D (10^-3 M) and the polyamine spermine (10^-6 M and 10^-3 M) induced a callus (disorganised cell mass that arose from the organised tissue of the carposporeling, as demonstrated by microscopic monitoring of the tissue). Putrescine and spermidine (10^-3 M) transformed the carposporelings into cell masses that produced shoots. BA (10^-3 M) and kinetin (10^-6 M and 10^-3 M) were inhibitory. In 10^-1 M glycerol-containing culture medium, which is known to induce the formation of morphogenic cell masses, the addition of GA₃ M) resulted in the inhibition of the morphogenesis (i.e. shoot emission) in the cell mass. The kinetin at 10^-6 M inhibited morphogenesis, whilst at 10^-3 M inhibited even the formation of the cell masses. The combination of glycerol (10^-1 M) and the auxin 2,4-D (10^-6 and 10^-3 M) or the polyamines putrescine, spermidine and spermine (10^-6 and 10^-3 M) resulted in a bigger size of the cell masses that led to a higher amount of shoots per cell mass than in glycerol alone. This revised version was published online in June 2006 with corrections to the Cover Date.     

The effect of herbicides,plant growth regulators and other compounds on phenylalanine ammonia-lyase activity

The in vitro and in vivo effects of a number of herbicides and plant growth regulators on phenylalanine ammonia-lyase (PAL) activity were investigated. The most elective in vitro inhibitors were product analogs, t-cinnamic and p-coumaric acids, and carbonyl reagents, hydroxylamine and nitromethane. Application of the herbicides diuron, dalapon, amiben, and chloropropham, to plants resulted in a decrease in the intracellular concn of PAL. The inhibitory effect of alachlor was found to be dose-responsive and somewhat specific. A correlation between PAL inhibition and herbicidal activity was observed for hydroxylamine. The cytokinin, pyranyl benzyladenine, (PBA) increased PAL activity in pigweed. The possibility of developing herbicides acting through PAL inhibition is discussed.     

植物激素对空心泡叶片不定芽形成的影响

空心泡是蔷薇科悬钩子属植物,属小果类果树,其聚合果肉质多浆,芳香,果味酸甜。空心泡目前尚处于野生状态,是一种很有利用前景的植物。有关悬钩子属植物组织培养已有许多报道,所有这些工作都     

金边阔叶麦冬(Liriope platyphylla Wang et Tang var.variegata Hort.)的组织培养

将金边阔叶麦冬（Liriope platyphylla Wang et Tang var.variegata Hort.)不同部位外植体块,接种于附加不同激素配比的MS培养基上,实验结果表明,取自根状茎芽点,培养基为MS BA 1.5mg/L NAA 0.5mg/L的不定芽诱导率最高（100%）,长势较旺,不定芽和愈伤组织均较多,但极易造成性状分离。用MS BA 3.0mg/L NAA 0.5mg/L液体培养可以直接“芽生芽”,避免了脱分化过程,从而稳定保持嵌合性。不定芽每月可转接1次,适宜的生根培养基为1/2MS大量 IBA 0.25mg/L。试管苗在蛭石中炼苗后即可移栽。     

山东赤松种群的个体生长规律

利用Logistic增长模型对山东赤松 (PinusdensifloraSieb .etZucc .)种群个体生长规律进行了初步研究。结果表明 ,赤松个体生长密切符合Logistic方程 ;人工林个体生长好于天然次生林 ;人工林与次生林个体生长规律一致 ;树高成熟龄和连年生长量最大时年龄出现最早 ,胸径成熟龄和连年生长量最大时年龄出现较晚 ,材积成熟龄和连年生长量最大时年龄出现最迟     

对毛芽厚朴“新变种”的看法

本文通过对厚朴、凹叶厚朴和毛芽厚朴的研究,认为毛芽厚朴的建立不可靠,应归并到凹叶厚朴中。     

Characterization of polyphenols in cell walls of cultured Populus trichocarpa tissues

The amount and composition of cell wall-bound polyphenol (lignin) in cultured Populus trichocarpa tissues which formed numerous xylem elements (xylogenic) or no xylem (non-xylogenic) were compared. Polyphenol accounted for ca 15% of the dry wt of the cell wall and did not differ significantly in amount in xylogenic and non-xylogenic tissues. The syringic acid derivatives, 3,4.5-trimethoxybenzoic acid, was identified as one of the oxidation products of methylated cell walls and was recovered in similar amounts irrespective of xylem formation. In contrast, lignin from xylogenic cultures contained more p-coumaryl alcohol derivatives and less coniferyl alcohol derivatives than lignin from non-xylogenic cultures. In this respect the lignin composition of xylogenic tissues closely resembled that from stems.     

Effects of growth regulators on fatty acids of soybean suspension cultures

Soybean suspension cultures were grown for 24 weeks in the absence of plant growth regulators and in the presence of 1 ppm levels each of an auxin (indole-3-butyric acid), a cytokinin (kinetin) and a gibberellin (gibberellic acid), individually and in all possible combinations. Cells grown in the presence of the auxin with and without gibberellin contained relatively greater amounts of palmitic and smaller amounts of polyunsaturated acids than did cells grown under other regimens. The combination of cytokinin and gibberellin caused a higher proportion of linoleic and a lower proportion of linolenic acids than in cells of the other groups. Neither of these regulators by itself produced the effect, and addition of auxin to the other two diminished the effect.     

Influence of plant growth regulators on growth, morpho-physiological characters and yield of summer sesame (Sesamum indicum L. cv. Rama) under moisture stress

Field experiments were conducted with sesame (Sesamum indicum L. cv. Rama) for two years (1997 and 1998) to study the effect of three level of irrigation (F+C, B+C, B+F+C) and two growth regulators (CCC, 200 ppm CCC; 100 ppm and BX-112, 100 ppm; BX-112, 50 ppm) on growth (root and shoot length, average number of primary branches/plant), morpho-physiological growth parameters(LAI, LAD, CGR and NAR), yield attributing parameters(average number of capsule/plant, average number of seeds/capsule) and seed yield. Irrigation at B+F+C stage showed significant effect on these parameters. Among the growth regulators, CCC, 200 ppm showed remarkable results on these parameters and seed yield. Seed yield in CCC, 200 ppm treatment was more than 53% in comparison to water soaked seeds. The interaction between irrigation and PGR showed better seed yield and it was concluded that the growth regulator CCC might be utilized for enhancement of seed yield of summer sesame under field condition.