Comparative Study of Contents of Four Tropane Alkaloids in Cultural and Wild Anisodus tanguticus

To assess the medicinal value of cultural Anisodus tanguticus,the contents of four bioactive tropane alkaloids,anisodine,anisodamine,scopolamine and atropine,in cultural and wild materials were determined by the HPLC method.The results showed that content of each alkaloid in the aboveground parts of cultural and wild samples was lower than that in roots,and this explained why it was not the whole plant but the root that was used as medicinal materials.The content of each alkaloid in the roots of one-year cultural material was lower than that in the two-year plants.The discrepancy of the total of four alkaloids between one-year and wild plants is not significant.Moreover,the total of four alkaloids,and the contents of anisodine,scopolamine,and atropine in two-year plants were higher than those in wild plant.Thus there is medicinal value in the cultivated A.tanguticus as well as wild A.tanguticus,especially in the two-year cultural A.tanguticus.

Genetic variation in the endangered Anisodus tanguticus (Solanaceae), an alpine perennial endemic to the Qinghai-Tibetan Plateau

We used random amplified polymorphic DNA markers (RAPDs) to assess genetic variation between- and within-populations of Anisodus tanguticus (Solanaceae), an endangered perennial endemic to the Qinghai-Tibetan Plateau with important medicinal value. We recorded a total of 92 amplified bands, using 12 RAPD primers, 76 of which (P = 82.61%) were polymorphic, and calculated values of H-t and H-sp of 0.3015 and 0.4459, respectively, suggesting a remarkably high rate of genetic variation at the species level. The average within-population diversity also appeared to be high, with P, H-e and H-pop values of 55.11%, 0.1948 and 0.2918, respectively. Analyses of molecular variance (AMOVA) showed that among- and between-population genetic variation accounted for 67.02% and 32.98% of the total genetic variation, respectively. In addition, Nei's coefficient of differentiation (G(ST)) was found to be high (0.35), confirming the relatively high level of genetic differentiation among the populations. These differentiation coefficients are higher than mean corresponding coefficients for outbreeding species, but lower than reported coefficients for some rare species from this region. The genetic structure of A. tanguticus has probably been shaped by its breeding attributes, biogeographic history and human impact due to collection for medicinal purposes. The observed genetic variations suggest that as many populations as possible should be considered in any planned in situ or ex situ conservation programs for this species.

Floral organogenesis and development of two taxa of the Solanaceae - Anisodus tanguticus and Atropa belladonna

Floral organogenesis and development of two Solanaceae species, Anisodus tanguticus and Atropa belladonna, were studied by using scanning electron microscopy (SEM) as part of a project on systematics and evolution in the tribe Hyoscyameae. These two species share the following common characters of floral organ initiation and development: (1) initiation of the floral organs in the two species follows Hofmeister's rule; (2) the mode of corolla tube development belongs to the "late sympetaly" type, namely, petals are initiated separately and later become joined by fusion of their basal meristem, then rise together and form a corolla tube; (3) primordia of the floral appendages are initiated in a pentamerous pattern and acropetal order: sepals are initiated first, followed by the petals and stamens, and finally the carpels. The whorl of five stamen primordia forms almost simultaneously and originates opposite the sepal primordia, but initiation of the sepal primordia shows different modes in the two species. The sepal primordia of Anisodus tanguticus have simultaneously whorled initiation, while those of Atropa belladonna have helical initiation. The systematic significance of the present results in the genera Anisodus and Atropa is discussed in this paper.

茄科天仙子族：结构、分化和系统关系

本文研究了茄科天仙子族7属以及有亲缘关系的颠茄属、茄参属和枸杞属的形态学、解剖学、孢粉学、种子形态学、胚胎学、花器官发生、分子系统学和分支系统学;论述了它们的结构、分化和系统关系。主要内容包括： 1．解剖学 在光学显微镜和扫描电镜下，观察了茄科天仙子族(Hyoscyameae)7属21种及邻近4属4种共25种植物的叶表皮特征，结果表明：气孔器在各种植物的上、下的表皮均有分布，多为无规则型，也有不等细胞型;叶表皮细胞形状有不规则形、十字形、近长圆形和不规则多边形，垂周壁较平直或各种波状。叶表皮气孔器外拱盖内缘近平滑、浅波状或波状;角质膜多为具条纹，也有同时具条纹和颗粒或鳞片，偶尔仅具颗粒和鳞片或光滑。气孔器类型可以作为区分部分属的依据之一。颠茄叶表皮细胞形状和垂周壁式样在一些属和种中有一定的规律性，并与外部形态、孢粉学性状或地理分布相关;叶片表面角质膜的特征对属和种的划分也有一定意义。 2．种子形态学 在扫描电子显微镜下首次全面研究了天仙子族及颠茄属和茄参属等共10属25种植物的种子形态学特征，结果表明： 该族植物种子表面纹饰有脑纹状或近脑纹状和网状两大类，除了山莨菪属Anisodus和Hyoscyamus.pusillus 外，其余类群均为网状。外种皮细胞形状和周壁式样有两大类，一类为多边形至近圆形，等径，周壁近平直，另一类为形状不规则，常不等径，周壁为各式波状;外种皮细胞周壁内侧有皱波状、瘤状、小颗粒、片状或小刺等各式附属物。各属植物的种子大小、形状及种脐着生位置的系统学意义不大。但是，种脐突出与否、种子外种皮细胞形状和周壁式样，尤其是周壁内侧附属物等性状具有较大的分类学意义。 3．孢粉学 在扫描电镜下研究了该族7属及其它3属共10属23种植物的花粉形态学特征。结果表明：天仙子族的花粉粒形状为球形、近球形、扁球形和长球形;萌发孔类型有无萌发孔、不规则的拟孔、3沟、4 沟、3- 4沟、散沟和3孔沟;外壁纹饰为小刺状、瘤状、各式条纹状、条纹-穴状、条纹-网状、皱波状、细网状和网状。沟膜近光滑、具小颗粒、具小刺状突起或具瘤状突起。各属植物的花粉形态在萌发孔的有无、萌发孔的类型和外壁纹饰等方面有较大的差异，可以作为探讨属间分类和系统关系的重要依据。天仙子族植物花粉萌发孔的演化趋势为：无萌发孔→ 3、4沟→3孔沟。无萌发孔的山莨菪属是原始类群，三孔沟的马尿泡和天仙子等属是进化类群。 4．胚胎学 本论文首次研究了天仙子族山莨菪Anisodus tanguticus的胚胎学特征，结果表明：山莨菪的小孢子形成为同时型，腺质绒毡层;胚珠半倒生，单珠被，薄珠心;蓼型胚囊;其胚胎发生类型可能为茄型;胚乳形成为细胞型。山莨菪的胚胎学性状与马尿泡十分相似。胚胎学证据支持山莨菪属与马尿泡属关系密切的观点。 5．花器官发生 首次全面研究了天仙子族的山莨菪属（山莨菪）、马尿泡属（马尿泡）、天仙子属（天仙子）及其邻近2属共5种植物的花器官发生特征，结果表明：山莨菪和天仙子的5个花萼裂片原基突起最早发生，且几乎是近同时环状发生，其排列方式从花发育早期直至花成熟后始终为轮状排列。而马尿泡和颠茄首先是5个花萼裂片原基突起依次螺旋状发生，但在其5个花萼裂片原基都出现后，其排列方式仍为轮状排列。不同之处是：马尿泡的花萼裂片原基在其花冠裂片原基刚刚不明显地发生时，就已经在基部联合并形成了一个环，而颠茄的花萼裂片原基直到雄蕊原基突起开始发生并较明显时，花萼裂片原基仍然是分离的，当花顶的中央开始出现很不明显的雌蕊原基的凹陷时，花萼裂片原基才开始联合。青海茄参与其它4种植物的不同之处在于柱头2裂或3裂，而后4者的柱头均为2裂。花器官发生的特征表明马尿泡与天仙子和山莨菪的关系较近。 6．基于叶绿体DNA trnL-F序列和核糖体DNA ITS序列的初步分析 以宁夏枸杞作为外类群，对代表天仙子族及其邻近3属的10种植物的ITS区和trnL-F序列进行了测定，将这两个序列结合构建系统树。将gaps作为fifth base处理时，马尿泡属和茄参属构成最基部的一支，赛莨菪属和天仙子属构成一支然后与泡囊草属构成姐妹群，另外一支由天蓬子属、颠茄属和山莨菪属组成，其中天蓬子属与颠茄属构成一支后与山莨菪属构成姐妹群。分子证据只是一个尝试，还不足以说明天仙子族各属的系统关系。 7．分支分析 以枸杞属为外类群，基于形态学、叶表皮、种子形态学、孢粉学等特征对天仙子族7属及颠茄属和茄参属进行了分支分析。结果表明：目前公认的天仙子族7属构成一个单系类群，而颠茄属和茄参属并没有包括在内，它们两者构成一支，并与天仙子族形成姐妹群的关系。这与该族传统的分类结果相一致。 8．天仙子族的分化和系统关系 基于上述研究结果，结合天仙子族各属的现代地理分布，讨论了各属的分化和系统关系。认为根据传统分类包括有7个属的天仙子族是一个自然的单系类群，目前还没有足够的证据说明是否应该将颠茄属和茄参属放在天仙子族中。

山莨菪(茄科)的传粉生物学

茄科的多数种类具有自交不亲和的特点,主要通过异花传粉结实;但是,一些物种或者物种内的部分种群或者个体却高度自交亲合,转变为自交的繁育系统.该科植物山莨菪(Anisodus tanguticus)主要分布在青藏高原,开花较早,比其他晚开花的植物种类更加缺少有效的异花传粉昆虫.我们选择了位于不同海拔高度的2个种群进行比较研究,主要目的是检验该物种的繁育系统是否在极端环境下由于传粉者的缺乏而发生了部分改变.研究发现,山莨菪的花不完全雌性先熟,柱头和花药间的平均距离随着花开放时间的延长而不断缩小,但两者在多数花的单花花期结束时并没有发生接触.因此,山莨菪花主要表现为适应异花传粉的雌雄异位特征.然而,少数花 (4.9%)的柱头和花药发生接触,为"自动自交"的传粉解除了空间隔离.2个种群的多数个体存在自交不亲和机制,应具有异花传粉的繁育系统;但是部分个体具有明显的自交亲和能力,为自交提供了生理基础.高海拔种群的传粉昆虫主要是厕蝇(Fannia sp.),它们在不同植株间的活动能够保证异花传粉结实;同时该种群的部分个体存在"自动自交".低海拔种群的主要访花昆虫是蚂蚁,它们在花内的活动导致花粉在同一朵花内传递,而引起"协助自交";而异花传粉昆虫厕蝇的访花频率则较高海拔种群低.两个种群的结实均由于异花传粉者不足而受到传粉限制.因此两种不同类型的自交机制为该早期开花植物异花访花昆虫的不足提供了一定程度上的繁殖补偿.

唐古特山莨菪抗氧化系统成分对环境变化的响应

对西宁地区唐古特山莨菪（Anisodus．tanguticus．）抗氧化系统成分的季节变化及日变化的研究发现：抗氧化物质谷胱甘肽和类胡萝卜素的含量在生长的前3个阶段变化趋势一致，由低升高再降低；日变化显著差异；抗氧化酶的活性表现不一致，过氧化物酶、过氧化氢酶和抗坏血酸过氧化物酶的活性随生长进程表现出降低-升高-降低的变化趋势，均为枯黄期活性最低；日变化活跃，但是没有明显的规律性；超氧化物歧化酶活性在营养生长初期最高并且日变化幅度大，其他时期日变化不大；丙二醛含量在返青期上午较高而在午后迅速降至最低水平；营养生长初期和后期的含量低，日变化差异不大；枯黄期的含量总体表现出较高的水平。研究结果表明抗氧化物质和抗氧化酶在不同生长季节具有协同性和互补性，山莨菪在不同的生长期可能存在不同的抗氧化机制。

高山植物唐古特山莨菪和唐古特大黄对强太阳辐射光能的利用和耗散特性

以西宁地区人工栽培的唐古特山莨菪（Anisodus tanguticus）和唐古特大黄（Rheum tanguticum）为材料，比较研究了两典型高山植物对青藏高原强太阳辐射光能的利用和耗散特性。PSⅡ反应中心的最大光化学效率（Fv／Fm）、实际光化学量子效率（ФPSⅡ）和光合功能的相对限制（L（PDF））的分析表明，强太阳辐射会导致光合作用的光抑制，但并不造成PSⅡ反应中心的不可逆破坏。猝灭分析表明，唐古特山莨菪的光化学猝灭系数（qp）显著小于唐古特大黄，非光化学猝灭（NPQ）和（qN）则相反（P〈0．05），意味着唐古特山莨菪将PSⅡ反应中心吸收的过剩光能以热耗散等非光化学过程消耗的能力大于唐古特大黄，因而降低了用于光化学反应的份额。qN的3组分中，QNf所占比例较大；尽管相对份额很小，中午强光下两高山植物的qNs都有增大趋势，表明它在过剩光能的非光化学耗散中也起重要作用。NPQs和qNs的日变化趋势很相似；同样，MPQF为NPQ的主要组分，且唐古特山莨菪的NPQF和qNF显著大于唐古特大黄（P〈0．05）。唐古特山莨菪PSⅡ天线色素吸收光能中分配于光化学反应的相对份额（P）始终低于唐古特大黄，而用于天线热能耗散的相对份额（D）则大于唐古特大黄，两者都具有极显著差异（P〈0．01）。以上结果表明，唐古特山莨菪的垂PSⅡ较唐古特大黄小是因为PSⅡ天线色素吸收的光能中分配于光化学反应的相对份额或光化学猝灭的比例较小，而分配于天线热耗散的相对份额或非光化学过程的比例较大的缘故。唐古特山莨菪的NPQ和qN较大，与NPQF和qNf以及NPQs和qNs都显著大于唐古特大黄有关（P〈0．05）。

青藏高原几种典型高山植物的光合特性比较

选用西宁地区人工栽培的高山植物唐古特大黄（Rheum tanguticum）、山莨菪（Anisodus tanguticus）和麻花艽（Gentiana straminea），比较了3种高山植物之间光合作用的光响应和CO2响应特性，叶片光合色素以及UV—B吸收物质的差异；并以低海拔植物菘蓝（Isatis indigotica）为对比，分析了高山植物与低海拔植物的差异。结果表明：与低海拔植物菘蓝相比，3种高山植物光合作用的表观量子效率（AQY）都偏低；唐古特大黄叶片的AQY、羧化效率（CE）和光呼吸速率（Rp）都很低，净光合速率（Pn）的光响应曲线在全日照光辐射范围内并没有达到完全饱和，这与单位面积叶片具有较高的光合色素以及UV—B吸收物质有关；麻花艽植物与唐古特大黄一样，具有较高的UV-B吸收物质和光合色素含量，但其Rp较高，加之Pn受气孔限制较为明显，故其光合作用的饱和光强很低，Pn相对于其它3种植物也较低；山莨菪与低海拔植物菘蓝的光合特性很相似，都具有较高的AQY和CE。这些结果表明，3种高山植物的光合特性有较大差异，但并没有一致的相对于低海拔植物的共性。4种植物Pn的胞间CO2浓度（G）响应曲线在CO2饱和点以后都表现为无机磷（Pi）再生限制，其吃的变化与CO2饱和点以后的最大Pn的变化基本一致。

山茛菪中4种生物碱含量与海拔关系的研究

山莨菪Anisodus tanguticus (Maxim.) Pascher系茄科植物，俗称樟柳参，藏医音译唐冲那保，山莨菪作为传统的藏药，具有麻醉、解痉、镇痛、镇静、解磷中毒等多种功效。其有效成分主要是托烷类生物碱，如东莨菪碱（scopolamine)、山莨菪碱（anisodamine)、阿托品（atropine)、樟柳碱(anisodine)等。研究4种托烷类生物碱含量随海拔的变化，对控制药用植物原料的质量、开发药用植物资源和生物资源可持续利用等均具有重要意义。为此我们对此进行了研究。

瑞香狼毒（Stellera chamaejasme L.）对高寒草甸系统生长和非生长季节碳氮循环的影响及其花粉化感效应

瑞香狼毒（Stellera chamaejasme L.）是瑞香科（Thymelaeaceae）狼毒属的一种多年生野草，有毒。据调查，从20 世纪60 年代开始至今，狼毒在青藏高原东缘的高寒草甸上不断蔓延、密度不断变大，在一些地段甚至成为优势物种。有关狼毒在高寒草甸蔓延的生态系统效应的研究尚未见报道。本文从系统碳、氮循环的角度，分别研究狼毒在生长和非生长季节对高寒草甸生态系统的影响。同时，从花粉化感的角度，深入研究狼毒对当地同花期物种有性繁殖的影响。系统地研究高寒草甸生态系统物质循环过程，特别是非生长季节微生物和土壤碳氮库的动态变化，有助于揭示狼毒在系统物质循环方面的“物种效应”以及这种效应的季节变化，为丰富有关高海拔生态系统，特别是其非生长季的物质循环的科学理论做出贡献。同时，碳氮循环和花粉化感的研究还有助于深刻地理解狼毒作为一种入侵性很强的杂草的特殊的蔓延机制，从而为狼毒的有效防治、高寒草甸的科学管理提供依据。 针对狼毒在青藏高原高寒草甸上蔓延的生态系统碳氮循环方面的影响，开展以下2 方面的研究：（1）在生长季，研究松潘县尕米寺附近（北纬32°53'，东经103°40'，海拔3190 m）的两种地形（平地和阳坡）条件下狼毒对土壤碳氮循环影响及可能的原因。狼毒和其它几个主要物种（圆穗蓼（Polygonummacrophyllum D. Don var. Macrophyllum），草地早熟禾（Poa pretensis L.），四川嵩草（Kobresia setchwanensis Hand.-Maizz.），鹅绒委陵菜（Potentilla anserina L.var. anserine）和鳞叶龙胆（Gentiana squarrosa Ledeb.）的地上凋落物产量以及地上凋落物和根的化学组成被测量。在有-无狼毒斑块下，各种土壤的库（比如，铵态氮、硝态氮、无机磷和微生物生物量）和周转率（包括净矿化、净硝化、总硝化、反硝化和微生物呼吸速率）被测量和比较。（2）在非生长季节，尤其是春季冻融交替期，选取了两个研究地点——尕米寺和卡卡沟（北纬32°59'，东经103°41'，海拔3400 m），分别测定有狼毒和无狼毒斑块下土壤微生物生物量碳和氮、可溶性有机碳和氮以及铵态氮和硝态氮的动态变化。同时，分别在上述两个地点有-无狼毒的样地上，研究6 个主要物种（狼毒、圆穗蓼、草地早熟禾、四川嵩草、鹅绒委陵菜和鳞叶龙胆）从秋季开始、为期1 年的凋落物分解过程。 针对狼毒花粉化感对同花期其它物种可能的花粉化感作用开展以下工作：在实验室中，用一系列浓度的狼毒花粉水浸提液对与它同花期的其它物种以及自身花粉进行测试，测定花粉萌发率；在野外自然条件下的其它物种的柱头上施用上述浓度的狼毒花粉水浸提液，观测种子结实率，同时，观察狼毒花粉的种间花粉散布数量。 生长季节的研究结果表明，狼毒地上凋落物氮含量比其它几个主要物种更高，而木质素-总氮比更低。狼毒显著地增加其斑块下表层土壤中有机质的含量，而有-无狼毒的亚表层土壤在有机碳和总磷方面没有显著差异。狼毒表土中硝态氮含量在平地和阳坡比无狼毒土壤分别高113%和90%。狼毒表土中微生物生物量碳和氮量显著高于无狼毒表土。无论是平地还是阳坡，狼毒土壤的总硝化和微生物呼吸速率显著高于无狼毒土壤；而它们的反硝化速率只在平地有显著的差异。狼毒与其它物种间地上凋落物的产量和质量的差异可能是导致有-无狼毒土壤碳氮循环差异的原因。我们假设，狼毒可能通过增加贫氮生态系统土壤中的有效氮含量提高其入侵能力。 非生长季的研究结果表明，在青藏高原东缘的高寒草甸上，土壤微生物生3物量在11 月的秋-冬过渡期达到第一个峰值；在春季的冻融交替期，微生物生物量达到第二个峰值后又迅速降低。无机氮以及可溶性有机碳氮与微生物生物量有相似的变化过程。微生物碳氮比呈现显著的季节性变化。隆冬季节的微生物生物量碳氮比显著高于生长旺季的微生物碳氮比。这种变化可能暗示冬、夏季微生物的群落组成和对资源的利用有所不同。有-无狼毒斑块下土壤微生物和土壤碳、氮库一般只在秋-冬过渡期有显著差异，有狼毒土壤微生物生物量和土壤碳、氮库显著高于无狼毒土壤；而在之后的冬季和春季没有显著差异。所有6 个物种凋落物在非生长季分解率为24%-50%，均高于生长季的10%到30%。其中在秋-冬过渡期，凋落物开始埋藏的两周时间内，分解最快，达10%-20%。不同物种凋落物全年的分解率和分解过程有显著差异。圆穗蓼在全年的分解都较缓慢（非生长季26%，生长季15%），草地早熟禾和四川嵩草等全年的分解速率比较均匀（非生长季和生长季均为30%，非生长季略高），而狼毒在非生长季分解较快（约50%），而在接下来的生长季分解变得缓慢（约12%）。所有物种的凋落物氮含量在非生长季下降，而在随后的生长季上升。 实验室的花粉萌发试验证明，狼毒花粉对自身花粉萌发没有自毒作用，而其它受试的所有物种（圆穗蓼，秦艽（Gentiana macrophylla Pall. var. fetissowii），湿生扁蕾（Gentianopsis paludosa (Hook. f.) Ma var. paludosa），鳞叶龙胆，椭圆叶花锚（Halenia elliptica D. Don var. elliptica），蓝钟花（Cyananthus hookeri C. B.Cl. var. grandiflorus Marq.），小米草（Euphrasia pectinata Ten.），川西翠雀花（Delphinium tongolense Franch.），高原毛茛（Ranunculus tanguticus (Maxim.)Ovcz. var. tanguticus）和鹅绒委陵菜）的花粉萌发率随着狼毒花粉浸提液浓度的增加呈显著的非线性降低。大约3 个狼毒花粉的浸提液就可以抑制受试的多数物种的50%的花粉萌发。在鳞叶龙胆和小米草柱头上狼毒花粉的数量分别为5.76 个和3.35 个。狼毒花粉散布数量的差异最可能的原因在于是否有共同的传粉昆虫。花的形状（辐射对称VS 左右对称）、植株或花的密度以及花期重叠性可以部分解释这种差异。在野外试验中，我们发现6 个物种（秦艽、湿生扁蕾、鳞叶龙胆、椭圆叶花锚、蓝钟花和小米草）的种子结实率随狼毒花粉浸提液浓度的增加呈显著的非线性降低。鳞叶龙胆和小米草柱头上狼毒花粉的数量（分别是5.76 个和3.35 个）分别达到了抑制它们63%和55%种子结实率的水平。因此，狼毒对鳞叶龙胆和小米草可能存在明显的花粉化感抑制作用。狼毒周围的物种可能通过花期在季节或昼夜上的分异避免受到狼毒花粉化感的影响或者通过无性繁殖来维持种群繁衍，因此狼毒通过花粉化感作用对其周围物种繁殖的影响程度还需要进一步地研究。如果狼毒的花粉化感抑制作用确实存在，那么它可能成为一种自然选择压力，进而影响物种的进化。 Stellera chamaejasme L., a perennial toxic weed, has emerged and quicklydominated and spread in the high-frigid meadow on the eastern Tibetan Plateau ofChina since the 1960s. In the present study, effects of S. chamaejasme on carbon andnitrogen cycles on the high-frigid meadow on the eastern Qinghai-Tibetan Plateau ingrowing and non-growing season, and its pollen allelopathic effects on the sympatricspecies were determined. The present study that focused on carbon and nitrogencycles, especially on microbial biomass and pools of carbon and nitrogen innon-growing season, could profoundly illuminate plant-species effects on carbon andnutrient cycles and its seasonal pattern and help to understand spread mechanism ofS. chamaejasme as an aggressive weed. The present study also contributed to furtherunderstand carbon and nutrient cycles on alpine regions in non-growing season andprovide a basis on weed control of S. chamaejasme and scientific management in thehigh-frigid ecosystem. Effects of S. chamaejasme on carbon and nitrogen cycles on the high-frigidmeadow on the eastern Qinghai-Tibetan Plateau were determined. The study couldbe divided into two parts. (1) In the growing season, we quantified the effects of S.chamaejasme on carbon and nitrogen cycles in two types of topographic habitats, theflat valley and the south-facing slope, where S. chamaejasme was favored to spreadlitter and root were measured to explain the likely effects of S. chamaejasme on soilcarbon and nutrient cycles. The sizes of various soil pools, e.g. nitrite, ammonium,inorganic phosphorus and microbial biomass, and turnover rates including netmineralization, gross nitrification, denitrification and microbial respiration weredetermined. (2) In the non-growing season study, microbial biomass carbon andnitrogen, soluble organic carbon and nitrogen, ammonium and nitrate weredetermined through the non-growing season, especially in the processes offreeze-thaw of spring in two high-frigid sites, i.e. Kaka valley and Gami temple, onthe eastern Qinghai-Tibetan Plateau. Meanwhile, litter decomposition of six commonspecies, including Stellera chamaejasme L., Polygonum macrophyllum D. Don var.Macrophyllum, Poa pretensis L., Kobresia setchwanensis L., Potentilla anserina L.var. anserine and Gentiana squarrosa Ledeb., were also examined under theabove-mentioned experimental design through one whole-year, which began in theautumn in 2006. In the study of pollen allelopathy, several work, including in vitro study oneffects of extract of pollen from S. chamaejasme on sympatric species and pollenfrom itself, field experiments on effects of pollen extract with the same regime ofconcentrations on seed set and field observation on heterospecific pollen transfer ofS. chamaejasme to six of those sympatric species has been done. The results in the growing season showed that aboveground litter of S.chamaejasme had higher tissue nitrogen and lower lignin: nitrogen ratio than thoseco-occurring species. S. chamaejasme significantly increased topsoil organic matter,whereas no significant differences were found for organic C and total P in subsoilbetween under-Stellera and away-Stellera locations. The nitrate in Stellera topsoilwas 113% and 90% higher on the flat valley and on the south-facing slope,respectively. Both microbial biomass C and N were significantly higher in Stelleratopsoil. Gross nitrification and microbial respiration were significantly higher inStellera topsoil both on the flat valley and on the south-facing slope, whereassignificant differences of denitrification were found only on the flat valley. Thedifferences in the quantity and quality of aboveground litter are a likely mechanismresponsible for the changes of soil variables. We assumed that S. chamaejasme couldenhance their spread by increasing nutrient availability in N-deficient ecosystems. The results in the non-growing season showed that microbial biomass achievedthe first summit in late autumn and early winter on the eastern Qinghai-TibetanPlateau. In the stages of freeze-thaw of spring, microbial biomass firstly achieved thesecond summit and subsequently sharply decreased. Inorganic nitrogen, solubleorganic carbon and nitrogen had a similar dynamics with that of microbial biomass.Ratio of microbial biomass carbon and nitrogen had an obviously seasonal pattern.The highest microbial C: N were in the non-growing season, which weresignificantly higher than those in the growing season. The seasonal pattern inmicrobial biomass C: N suggested that large changes in composition of microbialpopulation and in resources those used by microbes between summer and winter.Generally, microbial biomass and pools size of carbon and nitrogen in Stellera soilwere significantly higher than those under adjacent locations in late autumn andearly winter, but there were not significant differences in winter and in spring. Litterof all the focal species (Stellera chamaejasme L., Polygonum macrophyllum D. Donvar. Macrophyllum, Poa pretensis L., Kobresia setchwanensis Hand.-Maizz.,Potentilla anserina L. var. anserine and G. squarrosa Ledeb.) decomposed about24%-50% in the non-growing season, which were higher than those in the growingseason (ranged from 10% to 30%). Litter decomposed 10%-20% within the first twoweeks in late autumn and early winter. Significant differences in the whole-yeardecomposition rate and in the processes of decomposition were found among species.Polygonum macrophyllum decomposed slowly through the whole year (26% and15% in the non-growing season and in the growing season, respectively). Certainspecies, such as P. pretensis L. and K. setchwanensis, decomposed at a similar rate(30% both in the non-growing and in the growing season, slightly higher in the8growing season than those in the growing season), whereas S. chamaejasmedecomposed more rapidly (about 50%) in the non-growing season and subsequentlydecomposition became slow (about 12%) in the growing season. Litter nitrogencontents of all the focal species firstly decreased in the non-growing season and thenincreased in the growing season. In vitro experiments of pollen allelopathy, the results showed that pollen from S.chamaejasme was not autotoxic, whereas pollen germination in all the sympatricspecies (Polygonum macrophyllum D. Don var. Macrophyllum, Gentianamacrophylla Pall. var. fetissowii, Gentianopsis paludosa (Hook. f.) Ma var. paludosa,Gentiana squarrosa Ledeb., Halenia elliptica D. Don var. elliptica, Cyananthushookeri C. B. Cl. var. grandiflorus Marq., Euphrasia pectinata Ten., Delphiniumtongolense Franch., Ranunculus tanguticus (Maxim.) Ovcz. var. tanguticus andPotentilla anserina L. var. anserina) decreased nonlinearly as the increasingconcentrations of extract of pollen from S. chamaejasme. Pollen Extract of threepollens from S. chamaejasme generally inhibited 50% pollen germination of most ofthe focal species. 5.76 and 3.35 pollens from S. chamaejasme were observed in fieldon stigmas of G. squarrosa and E. pectinata, respectively. Differences inheterospecific pollen transfer of S. chamaejasme could be attributed to the primaryreason whether they shared common pollinators. Flower morphology (e.g.zygomorphic or actinomorphic), plant or floral density and concurrence in floweringphonologies could explain, in part, the differences in heterospecific pollen transfer.In field experiments, the results showed that seed set in six sympatric species(Gentiana macrophylla Pall. var. fetissowii, Gentianopsis paludosa (Hook. f.) Mavar. paludosa, Gentiana squarrosa Ledeb., Halenia elliptica D. Don var. elliptica,Cyananthus hookeri C. B. Cl. var. grandiflorus Marq. and Euphrasia pectinata Ten.)decreased nonlinearly as the increasing concentrations of extract of pollen from S.chamaejasme. According to the nonlinear curves, the amounts of pollens from S.chamaejasme on stigmas of G. squarrosa and of E. pectinata (i.e. 5.76 grains and3.35 grains, respectively) could reduce 63% and 55% seed set of G. squarrosa and ofE. pectinata, respectively. Thus, allelopathic effects of S. chamaejasme on G.squarrosa and E. pectinata could be realistic. The sympatric species of S.chamaejasme could avoid pollen allelopathy of S. chamaejasme to sustainthemselves. This highlights the need to study how much pollen allelopathy in S.chamaejasme influences the sympatric species through divergence in seasonal ordiurnal flowering phonologies or through asexual reproduction. If pollen allelopathyin S. chamaejasme was confirmed, it could be as a pressure of natural selection andthus play an important role in species evolution.