匍匐茎草本蛇莓克隆构型对土壤水分的可塑性反应

克隆植物构型的可塑性有可能促进它对斑块性分布土壤水分资源的利用,因而可能具有生态学意义。在田间实验中,匍匐茎草本蛇莓（Duchesnea indica Focke)经历了不同土壤水分水平（土壤最大含水量的40%,60%,80%,100%等）处理,以研究土壤水分对蛇莓克隆构型的影响,结果表明：间隔子长度,分株密度,分枝角度和分枝强度呈二次曲线变化,土壤含水为最大含水量的80%的生境为最适,在不同土壤水分水平生境中,蛇莓克隆构型相关特征的可塑性变化可用动态Logistic模型进行模拟和预测,拟事效果较好,结合植物对环境异质性的利用对策,对所揭示的蛇莓克隆构型可塑性进行了讨论。     

匍匐茎草本蛇莓克隆构型对土壤养分的可塑性反应

克隆植物构型的可塑性可使它在养分斑块性分布的环境中,相应地调整对土壤养分的获取对策,因而可能具有重要的生态学意义。在一项田间实验中,匍匐茎草本蛇莓(Duchesnea indica Focke）经历了不同土壤养分水平（高、中、低和对照）处理,以研究土壤养分对蛇莓克隆构型的影响。结果表明：随着土壤养分水平的增加,间隔子的长度和分枝角度均逐渐降低,而分枝强度和分株密度增加。在不同养分水平生镜中,蛇莓克隆构型相关特征的可塑性变化可用动态Logistic模型进行模拟和预测,拟合效果较好。结合植物对环境异质性的利用对策,对所揭示的蛇莓克隆构型可塑性进行了讨论。     

匍匐茎草本蛇莓克隆构型对土壤水分的可塑性反应

克隆植物构型的可塑性有可能促进它对斑块性分布土壤水分资源的利用,因而可能具有生态学意义.在田间实验中,匍匐茎草本蛇莓(Duchesnea indica Focke)经历了不同土壤水分水平(土壤最大含水量的40%、60%、80%、100%等)处理,以研究土壤水分对蛇莓克隆构型的影响.结果表明:间隔子长度、分株密度、分枝角度和分枝强度呈二次曲线变化,土壤含水为最大含水量的80%的生境为最适.在不同土壤水分水平生境中,蛇莓克隆构型相关特征的可塑性变化可用动态Logistic模型进行模拟和预测,拟合效果较好.结合植物对环境异质性的利用对策,对所揭示的蛇莓克隆构型可塑性进行了讨论.     

匍匐茎草本蛇莓克隆构型对不同海拔的可塑性反应

克隆植物构垢可塑性可使它在不同海拔的环境中通过克隆生长,调整其对不同海拔的资源获取对策,因而具有重要的生态学意义。在一海拔高度实验中,铺匐茎草本蛇莓（Duchesnea indica)经历了不同海拔（400、800、1200和1600m)处理,以研究不同海拔对蛇莓克隆构型的影响。结果表明,随着海拔的增加,间隔子长度,分株密度,分枝角度和分枝强度呈二次曲线变化,在不同海拔生境中,蛇莓克隆构型相关特征的可塑性变化可用动态Logistic模型进行了模拟和预测,拟合效果良好,结合植物对环境异质性的利用对策,对所揭示的蛇莓克隆构型可塑性进行了讨论。     

蛇莓克隆构型对光照强度的可塑性反应

克隆植物构型的可塑性反应可能是它在资源斑块性状分布的环境中获取资源对策的重要方面,因而可能具有重要的生态学意义。在一田间实验中,匍匐茎草本蛇毒（Duchesnea indica Focke）经历了不同相对光照强度的处理,以研究光照强度对蛇莓克隆构型的影响。结果表明：随着相对光照强度的增加,间隔子的长度逐渐降低,分枝角度、分枝强度和分株密度呈二次曲线变化。结合植物对环境异质性的利用对策,对的揭示的蛇莓克隆构型可塑性进行了讨论。     

克隆植物蛇莓基株的分子鉴定

采用随机扩增序列区间(ISSR)分子标记技术对蛇莓基株进行鉴定,结果表明6个ISSR引物在22个分株中共扩增出62个条带,每个引物扩增的条带数为4～16条,平均每个引物扩增的条带数为10.3条。采用6种引物对22个克隆分株的DNA扩增共产生28种带谱类型,其中有9种带谱为特异性带谱。综合分析这些带谱,确知这22个克隆分株分属16个基株。由带型可知,通过6个引物中的4种引物就可以把所有的基株鉴定出来,表明ISSR技术在分子水平上鉴定蛇莓的克隆基株是一种行之有效的方法。同时每个引物扩增出来的条带的多态性比例也比较高,平均达到90.3%。     

葡匐茎草本蛇莓对基质分条件的克隆可塑性

为了研究葡匐茎草本植物对基质养分供应水平的克隆可塑性,在一栽培实验中葡茎草本植物蛇莓（Ｄｕｃｈｅｓｎｅａ ｉｎｄｉｃａ Ｆｏｃｋｅ）经历了高、中、低养分（Ｎ,Ｐ,Ｋ）水平的环境处理。实验表明,蛇莓植株生物量在较高养分条件下较高养冠比在低养分条件下最大,高欠之,中养分量小;对铺匐茎的生物量投资在中养分条件下最大;对叶柄的生物量投资没有对养分处理发生反应。蛇莓植株在人工养分下比在高养分和中分条件下形成     

艾纳香野生种群克隆多样性及克隆结构研究

艾纳香是具有克隆生长习性的多年生宿根性草本植物,其广布于中国南部,为了更有效地保护和合理利用艾纳香资源,本文利用RAPD分子标记技术,对4个野生艾纳香种群进行了克隆结构和克隆多样性(单克隆种群或多克隆种群)进行了初步研究。结果表明:(1)10对10bp随机引物共检测到70条谱带,其中多态带为60条,占85.71%,检测到64个基因型,且全部为局限基因型;(2)与Ellstrand Roose(1987)总结的克隆多样性平均值(PD=0.17,D=0.62)相比艾纳香的种群克隆多样性水平稍高,Simpson指数平均为0.973,基因型比率PD平均为0.800;(3)遗传一致度和遗传距离分析表明,4个艾纳香野生种群被分成两组,一组是海南的所有种群,另外一组是云南类群。     

Effects of organ removal on trade‐offs between sexual and clonal reproduction in the stoloniferous herb Duchesnea indica

Resource allocation patterns and trade‐off between sexual and clonal reproduction in clonal plants have been extensively studied, but little is known about effects of organ removal on the trade‐offs in clonal plants. To examine the effects, we conducted an experiment with the stoloniferous herb Duchesnea indica in which we removed plant organs like roots, flowers, or fruits. Removing roots significantly increased number of ramets and biomass allocation to stolons, but decreased number of fruits. Removing flowers or fruits greatly increased number of ramets and biomass allocation to stolons and roots, but decreased spacer length, number of fruits, and fruits set. Onset and median date of flowering phenology of D. indica shifted after flowers, fruits, or roots were removed. These results may indicate that removing organs can affect trade‐off between sexual and clonal reproduction of D. indica.     

机械刺激对匍匐茎型植物蛇莓(Duchesnea indica)克隆可塑性的影响（英文）

机械刺激(mechanical stimuli, MS)在自然界的分布较为普遍,然而关于机械刺激对匍匐茎型克隆植物影响的研究相对较少。为此,实验对匍匐茎型克隆植物蛇莓(Duchesneaindica)进行了对照(无机械刺激)、克隆片段顶部刺激、半克隆片段刺激和整克隆片段刺激共四个水平的机械刺激处理,通过研究蛇莓克隆生长的响应,探讨机械刺激对其作用机理。结果表明:与对照相比,机械刺激导致蛇莓产生较多的分株、较多的匍匐茎、短而细的叶柄及较多的根生物量分配。同时,不同作用位点的机械刺激对各生理生长指标的效应差异并不显著。另外,通过对各生长指标表型可塑性指数的分析发现,分株数具有较高的可塑性指数。上述实验结果表明,蛇莓可以较好地适应机械刺激干扰的生境,其分株数可以作为其响应程度的较好的指示指标。     

Adaptive plasticity in response to light and nutrient availability in the clonal plant Duchesnea indica

克隆植物蛇莓对光照强度和养分条件的适应性可塑性 表型可塑性可帮助植物缓冲环境压力并使其表型与当地环境相匹配,但目前仅少数性状的可塑性被广泛认为是适应性的。为充分理解可塑性的适应性意义,仍需进一步研究更多的植物功能性状及其环境因子。本研究将匍匐茎克隆植物蛇莓(Duchesnea indica)的21个基因型种植于不同的光照和养分条件下,并利用选择梯度分析检测了形态和生理可塑性对光照强度和养分有效性变化的适应性值。在遮荫条件下,蛇莓适合度(果实数、分株数和生物量)降低,节间缩短变细,成熟叶叶绿素含量降低,但叶柄长度、比叶面积、老叶叶绿素含量均增加。在低养分条件下,植株叶柄缩短,叶面积缩小变厚,叶绿素含量降低,但果实数量和根冠比增加。选择梯度分析表明,叶柄长度和老叶叶绿素含量对光照变化的可塑性是适应性的,老叶和成熟叶叶绿素含量对养分变化的可塑性也是适应性的。因此,不同性状的可塑性适应值取决于特定的生态背景。该研究的发现有助于理解克隆植物表型可塑性响应环境变化的适应性意义。     

Environmentally-induced functional specialization for locally abundant resources in the stoloniferous herb Duchesnea indica

Reciprocally patchy environments, where the availability of two resources are patchily distributed and negatively correlated in each patch, are common in many ecosystems. Interconnected ramets of clonal plants can specialize in the uptake of locally abundant resources. Ramet pairs of the stoloniferous herb Duchesnea indica were grown in reciprocally patchy environments i.e., one ramet of a pair was grown in the high light but low water patch (high light patch) and the other in the low light but high water patch (high water patch). Biomass allocation pattern (root-shoot ratio), morphological traits (leaf area and root length) and physiological traits (photosynthetic rate and chlorophyll content) were altered in a way that potentially enables ramets to enhance the capture of the locally abundant resource (i.e., increase the capture of light resource in the high light patch and of water in the high water patch). As a result,biomass and number of ramets in the connected ramet pairs were greatly improved. Functional specialization of ramets, modified by clonal integration, may have contributed greatly to the growth increase of D. indica in the reciprocally patchy environment.     

Extraction of crude polysaccharides from Duchesnea indica (Andrews) Focke: optimization by response surface methodology

A full set of optimization procedure was applied to the extraction of anti-viral polysaccharides from Duchesnea indica (Andrews) Focke. By Plackett–Burman factorial design, three parameters (extraction time, extraction temperature, and ratio of water to raw material) were identified as significant to the extraction yield. However, no significant parameters had been identified for antiviral activity. A three-level-three-factor Box–Behnken factorial design was then employed to further optimize the extraction condition. The experimental data were fitted to a second-order polynomial equation using multiple regression analysis and also examined using appropriate statistical methods. This led to the construction of a response surface indicating the optimal values for each parameter and response studied. Concerning the extraction yield, an extraction at 98.51?ºC for 6.16 h with a ratio of water to raw material of 30.94 mL/g was found to be optimal. Under the optimized conditions, the experimental yield was 6.430 ± 0.078%, which was well matched with the predicted yield of 6.509%.     

Differential effects of clonal integration on performance in the stoloniferous herb Duchesnea indica, as growing at two sites with different altitude

Clonal integration may be adaptive and enhance the genet performance of clonal plants. Degree of clonal integration may differ between different environments . Here, a container experiment was used to determine how clonal integration affected the performance of the stoloniferous herb Duchesnea indica at two sites with different altitude along the transitional zone between the Qinghai-Tibet plateau and the Sichuan basin of Southwest China. In the experiment, the stolon between partially shaded two ramets experienced severing and intact treatments.We predicted that clonal integration would increase performance of whole clonal fragments and their shaded clonal parts at both sites. In both arctic and alpine environments, clonal plants may form highly integrated plant units (group of ramets).We predicted again that the reduction due to stolon severing in performance of whole clonal fragments and their shaded clonal parts would be greater at the site with high altitude than one with low altitude. The results indicated that the benefit for the shaded clonal parts and whole clonal fragments due to clonal integration was only observed at the site with high altitude. The results suggest that the performance of Duchesnea indica tends to be more responsive to the stolon severing at the site with high altitude than one with low altitude and support the second prediction. In addition, the effects of conditions of the sites and clonal integration on local morphological traits of ramets may be adaptive, five morphological traits of ramet-level (length of petiole, mean stolon internode length, specific petiole weight, specific stolon internode weight and specific leaf area) were investigated. Altogether, the results suggest that clonal integration might help D. indica plants to successfully inhabit the high-altitude habitat of the Qinghai-Tibet plateau of Southwest China, providing new evidences for the notion that clonal integration is an adaptive trait in stressful environments.