不同群落类型柔毛淫羊藿总黄酮和淫羊藿苷含量及其与土壤因子的关系

2009年8月,采用高效液相色谱法和紫外分光光度法测定了唐家河自然保护区次生落叶阔叶林红桦群落(群落Ⅰ)、常绿落叶阔叶混交林细叶青冈群落(群落Ⅱ)和常绿阔叶林油樟群落(群落Ⅲ)下生长的柔毛淫羊藿各器官的总黄酮和淫羊藿苷含量,分析其与土壤因子的关系结果表明：柔毛淫羊藿叶片中总黄酮和淫羊藿苷含量最高、茎中最低;群落Ⅰ的柔毛淫羊藿总黄酮和淫羊藿苷含量［(5.32±0.23)%和(0.47±0.05)%］均显著高于群落Ⅱ［(4.06±0.03)%和(0.32±0.01)%］和群落Ⅲ［(4.15±0.07)%和(0.28±0.09)%］;土壤氮含量和pH值对柔毛淫羊藿的总黄酮和淫羊藿苷含量影响较大,柔毛淫羊藿总黄酮和淫羊藿苷含量与土壤全氮和碱解氮呈显著负相关(P<0.05),与土壤pH值呈极显著正相关(P<0.01).土壤较低的氮供应水平和较高的土壤酸度可能使群落Ⅰ柔毛淫羊藿的总黄酮和淫羊藿苷含量增加.     

柔毛淫羊藿生物量与生殖配置研究

探索了柔毛淫羊藿在有性繁殖时期不同生境和不同发育阶段的生殖配置,以探讨柔毛淫羊藿的生物量及生殖配置的内在规律.结果如下:随着生长季节的变化,柔毛淫羊藿总生物量呈现出低-高-低的趋势,柔毛淫羊藿生物量积累最快的时间为柔毛淫羊藿花期和果期.其中地上部分生物量在不断增加,地下部分生物量变化较小,从而根冠比在有性繁殖时期逐渐下...     

川产淫羊藿属（Epimedium）药用植物的无性系构件特征和生物量配置比较

在构件水平上,对川产的3种药用淫羊藿属植物（淫羊藿（Epimedium brevicornu）、箭叶淫羊藿（E.sagittatum）、柔毛淫羊藿（E.pubescens））的无性系构件特征、克隆构型及构件生物量配置进行比较,结果表明在野生状态下：该属3个种无性系构件的形态特征差异显著,且存在较大的变异性,变异系数范围在29.29%~48.31%之间;箭叶淫羊藿更趋于“游击型”克隆构型,而淫羊藿和柔毛淫羊藿则更趋于“密集型”克隆构型;该属3个种都将高比例生物量配置到叶片或者根茎,其次为茎,再其次为根。柔毛淫羊藿具有更强的克隆繁殖能力,单位面积上各构件生物量均最大,应作为人工引种栽培的首选种。     

不同海拔高度下淫羊藿的种群年龄结构

从3个海拔高度(568、643和790m)研究了淫羊藿种群年龄结构,并对各龄级根茎数量、根茎长度、根茎生物量、分株数量、分株生物量进行测定。结果表明:海拔643m淫羊藿根茎龄级最高达10龄,海拔568和790m根茎最高龄级有9龄;3个海拔分株龄级与根茎龄级一致;海拔643m各龄级根茎数量从1龄到10龄呈下降趋势;3个海拔各龄级根茎长度、根茎生物量、分株数量、分株生物量都是2龄占优势;海拔643m各龄级根茎数量、长度、生物量和分株数量、生物量最多。海拔643m的生境最适合淫羊藿克隆生长,可以对其进行适当的采集。     

不同生境中淫羊藿克隆构型和分株种群特征

为探求淫羊藿资源的保护策略,通过野外样地调查、室内测定和统计分析等方法,对林缘旷地、林缘和林下三种不同生境中淫羊藿(Epimedium brevicornum)克隆构型及其分株种群特征进行了研究,并初步分析环境因子对淫羊藿克隆构型和分株种群特征的影响.结果表明:分枝强度、间隔子长度、分枝高度、根状茎长度及分株种群密度在3种生境中差异显著,且与生境相对光强和土壤含水量有较强的回归关系.群落相对光强、土壤含水量在淫羊藿的克隆生长过程中起着重要作用.淫羊藿以地下根茎为克隆器官进行克隆生长,有着较强的克隆构型可塑性.结合克隆植物对资源的利用策略,讨论不同生境中淫羊藿克隆构型和分株种群特征可塑性的生态适应意义及淫羊藿保护机制.     

Comparative analysis of morphological characteristics and effective composition contents of Epimedium pubescens in different habitats

采用高效液相色谱法和紫外分光光度法分别测定了不同生境中柔毛淫羊藿的有效成分,并运用oneway ANOVA统计分析了不同生境中柔毛淫羊藿有效成分的差异以及形态参数和生物量的差异.结果表明:3个生境中,相对光照强度较低的生境,其形态参数和植株各个部位的生物量均要低于光照强度相对较强的生境,但3个生境中的整体叶形基本一致;三个生境中淫羊藿总黄酮和淫羊藿苷含量在光照强度较高的生境中要大于光照较低的生境;柔毛淫羊藿植株各个部位的有效成分大小为叶＞根＞茎;在不同生境中柔毛淫羊藿叶片的黄酮和淫羊藿苷含量都能达到用药标准,其余的部位则不能达到用药标准.因此在人工栽培柔毛淫羊藿时,应模拟野外生长条件,以期提高柔毛淫羊藿质量,替代和保护野生资源.     

不同生境中柔毛淫羊藿形态特征及其有效成分差异分析

采用高效液相色谱法和紫外分光光度法分别测定了不同生境中柔毛淫羊藿的有效成分,并运用one-way ANOVA统计分析了不同生境中柔毛淫羊藿有效成分的差异以及形态参数和生物量的差异。结果表明:3个生境中,相对光照强度较低的生境,其形态参数和植株各个部位的生物量均要低于光照强度相对较强的生境,但3个生境中的整体叶形基本一致;三个生境中淫羊藿总黄酮和淫羊藿苷含量在光照强度较高的生境中要大于光照较低的生境;柔毛淫羊藿植株各个部位的有效成分大小为叶>根>茎;在不同生境中柔毛淫羊藿叶片的黄酮和淫羊藿苷含量都能达到用药标准,其余的部位则不能达到用药标准。因此在人工栽培柔毛淫羊藿时,应模拟野外生长条件,以期提高柔毛淫羊藿质量,替代和保护野生资源。     

基于居群观测的木鱼坪淫羊藿复合种形态比较和分类学启示

基于"居群"概念,对木鱼坪淫羊藿复合种(Epimedium franchetii species complex)进行了系统的标本查阅,并于花期对该复合种9个居群的野外形态进行了观测和比较研究。结果显示,竹山淫羊藿(E.zhushanense K.F.Wu et S.X.Qian)花瓣为紫红色,易于与其它物种区分;时珍淫羊藿(E.lishihchenii Stearn)在模式产地(江西庐山)的JXLS居群中有1/5的个体根茎为结节状(并非像模式种一样根茎细长),其叶背被毛细长的性状较稳定,且与木鱼坪淫羊藿(E.franchetii Stearn)叶背被粗短伏毛的性状区别明显;JXJA居群(江西靖安)地理分布靠近江西庐山,叶背被毛也与时珍淫羊藿类似,但其典型的粗壮根茎则与木鱼坪淫羊藿一致,因此将其处理为木鱼坪淫羊藿-时珍淫羊藿过渡类型;保靖淫羊藿(E.baojingense Q.L.Chen et B.M.Yang)与木鱼坪淫羊藿主要区别在于前者小叶柄、叶柄、茎和节部密被柔毛,尤以节部明显,叶背被细长毛,而木鱼坪淫羊藿小叶柄、叶柄、茎和节部均光滑,叶背被粗短伏毛;HBFX居群(湖北房县)和HBMP居群(湖北神农架)小叶柄、叶柄、茎、节部和叶背均疏被毛,被毛特征介于木鱼坪淫羊藿和保靖淫羊藿之间,因此将HBFX和HBMP居群处理为木鱼坪淫羊藿-保靖淫羊藿过渡类型。聚类分析结果表明,9个居群可划分为3类,竹山淫羊藿与其它类群种间界限明显,建议将其从木鱼坪淫羊藿复合种中分离出来;木鱼坪淫羊藿与时珍淫羊藿和保靖淫羊藿的关系复杂;保靖淫羊藿与木鱼坪淫羊藿主要是被毛上的差异,地理上存在同域分布,推测其为微生境导致的生态宗,将其处理为木鱼坪淫羊藿的变种;时珍淫羊藿与木鱼坪淫羊藿地理分布相对隔离,是由地理隔离引起的地理宗,将其处理为木鱼坪淫羊藿亚种。     

三种淫羊藿属植物的减数分裂研究

采用去壁低渗法对3种淫羊藿属(Epimedium)植物川鄂淫羊藿(E.fargesii Franch)、黔岭淫羊藿(E.leptorrhi-zum Stearn)和柔毛淫羊藿(E.pubescens Maxim)的花粉母细胞进行了减数分裂观察.结果显示,3种植物的染色体数目均为2n=12,减数分裂过程中染色体的构型和行...     

金城山柔毛淫羊藿的开花物候与生殖特性

采用实地观测的方法,对南充市金城山三个不同生境中柔毛淫羊藿的开花物候特征及其生殖特性进行了研究。结果表明:柔毛淫羊藿花期为3月上旬至4月上旬,其种群、个体、花序和单花的花期分别历时30~41、22~34、9~18和4~8 d。三个生境中柔毛淫羊藿种群的开花物候进程基本相同,均呈单峰集中开花式样,因而能够吸引更多的传粉者访问而达到生殖成功。开花物候指数与坐果数之间的相关分析结果表明,坐果数与始花日期存在显著的负相关关系,与花期持续时间和开花数均呈极显著的正相关关系。揭示了药用植物柔毛淫羊藿的开花物候特征与生殖特性。     

Investigation of the mechanism of temperature sensitivity of the electroreceptors of ampullae of lorenzini

In experiments on Black Sea skates (Raja clavata), the potential of the receptor epithelium of the ampullae of Lorenzini and spike activity of single nerve fibers connected to them were investigated during electrical and temperature stimulation. Usually the potential within the canal was between 0 and –2 mV, and the input resistance of the ampulla 250–400 k. Heating of the region of the receptor epithelium was accompanied by a negative wave of potential, an increase in input resistance, and inhibition of spike activity. With worsening of the animal's condition the transepithelial potential became positive (up to +10 mV) but the input resistance of the ampulla during stimulation with a positive current was nonlinear in some cases: a regenerative spike of positive polarity appeared in the channel. During heating, the spike response was sometimes reversed in sign. It is suggested that fluctuations of the transepithelial potential and spike responses to temperature stimulation reflect changes in the potential difference on the basal membrane of the receptor cells, which is described by a relationship of the Nernst's or Goldman's equation type.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. I. M. Sechenov, Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Pacific Institute of Oceanology, Far Eastern Scientific Center, Academy of Sciences of the USSR, Vladivostok. Translated from Neirofiziologiya, Vol. 12, No. 1, pp. 67–74, January–February, 1980.     

Principles of organization and evolution of systems of regulation of functions

Evolution of living organisms is closely connected with evolution of structure of the system of regulations and its mechanisms. The functional ground of regulations is chemical signalization. As early as in unicellular organisms there is a set of signal mechanisms providing their life activity and orientation in space and time. Subsequent evolution of ways of chemical signalization followed the way of development of delivery pathways of chemical signal and development of mechanisms of its regulation. The mechanism of chemical regulation of the signal interaction is discussed by the example of the specialized system of transduction of signal from neuron to neuron, of effect of hormone on the epithelial cell and modulation of this effect. These mechanisms are considered as the most important ways of the fine and precise adaptation of chemical signalization underlying functioning of physiological systems and organs of the living organism