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本文根据西安夏季高温干旱、冬季严寒的气候特点,采用田间栽培、抗逆生理特性测定和抗旱形态特征比较等方法,对引种的国家三级保护植物厚朴(Magnolia officinalis Rehd.et Wils.)和凹叶厚朴(M.officinalis subsp.biloba(Rehd.et Wils.)Cheng et Law)的抗逆性进行了探讨,并用已适应西安气候多年的辛夷(M.liliflora Desr.)作对照。结果表明:两种植物均能在西安越冬,但只有在供水充足和适当遮荫条件下才能顺利越夏。凹叶厚朴的抗逆性强于厚朴,但它们的抗旱抗热性均较辛夷弱。 相似文献
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采用扫描电镜对2种厚朴基原植物(厚朴Magnolia officinalis Rehd.et Wils.、凹叶厚朴M.officinalis Rehd.et Wils.var.biloba Rehd.et Wils.)及4种近缘植物(玉兰M.denudata Desr.、紫玉兰M.liliiflora Desr.、望春玉兰M.biondii Pampan.、荷花玉兰M.grandiflora L.)的花粉形态、表面纹饰和大小进行了观察研究。结果显示:(1)6种植物的花粉粒均为单粒,具远极单萌发沟,沟长,直达两端,左右对称,异极;侧面观均为舟形,两端较尖,赤道面观为椭圆形或近椭圆形,极面观均为近圆形;外壁均具小穴状或网状纹饰。(2)厚朴的小穴状纹饰小而浅,不明显;凹叶厚朴的小穴状纹饰小但较深,也不甚明显;相比之下,紫玉兰、玉兰、望春玉兰和荷花玉兰的花粉粒表面密布不规则隆起及深穴点,明显。(3)6种植物花粉粒由大至小依次为:荷花玉兰凹叶厚朴厚朴玉兰紫玉兰望春玉兰。3种不同的花粉处理方法中,自然干燥法能清晰地观察到花粉的扫描电镜特征,此方法优于戊二醛固定法和叔丁醇真空冷冻干燥法。本研究结果为厚朴中药资源的基原植物及其近缘种鉴定提供了新的证据,也为现代植物从种及亚种级水平分类提供了参考。 相似文献
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凹叶厚朴是我国的特产,是一种珍贵的中药材,也可作为观赏树或行道树。凹叶厚朴(Magnolia officinalis var.biloba)属于木兰科(Magnoliaceae)木兰属(Magnolia)植物凹叶厚朴的染色体核型尚未见到报道。本文对凹叶厚朴的染色体进行了观察和分析。 相似文献
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陕南秦巴山区厚朴群落土壤肥力评价 总被引:8,自引:2,他引:6
以秦巴山区7个厚朴群落为对象,分析土壤养分含量的变化规律,同时对各群落土壤肥力进行评价,以期为该区土壤肥力的提高和厚朴群落配置模式的筛选提供理论依据和实践指导。结果表明,秦巴山区厚朴群落间土壤养分含量差异显著;除全磷和全钾外,随土层深度的增加,土壤有机质、全氮、碱解氮、速效磷和速效钾含量逐渐减小。厚朴群落土壤肥力综合指数从大到小依次为:4a凹叶厚朴(1.054)2a凹叶厚朴(0.882)山茱萸-凹叶厚朴混交林(0.673)7a尖叶厚朴(-0.243)7a凹叶厚朴(-0.713)杜仲-凹叶厚朴(-0.812)11a凹叶厚朴(-0.840)。因此随着林龄的增大,厚朴群落土壤肥力有下降的趋势。结合厚朴群落土壤养分差异分析和厚朴群落土壤肥力评价结果,得出山茱萸-凹叶厚朴混交林的土壤肥力相对较好,为该区植被恢复的最佳营造模式。 相似文献
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濒危植物凹叶厚朴种实特性 总被引:3,自引:0,他引:3
凹叶厚朴(Magnolia officinalis subsp.biloba)为中国二级保护植物。本文对该树种不同分布群体的种实性状进行了研究。结果表明:凹叶厚朴结实数量较少,平均结实3.19个;种实特征在不同种群间差异显著,其变异主要来源于单株间及单株内,其中果实性状的方差分量要大于种子性状,表明果实的性状较易受环境的影响;果实性状与郁闭度及土壤养分含量存在显著或极显著的相关性,种子宽与种子质量与海拔呈显著负相关,种子厚度与海拔呈极显著负相关,而与生境及土壤条件相关性并不明显。凹叶厚朴在野生状态下单株结实率低,单果出种率低是其濒危的重要原因之一。 相似文献
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艾伦强 《氨基酸和生物资源》2017,(1)
<正>厚朴(Magnolia officinalis Rehd.et Wils.)为木兰科木兰属植物,喜光照光足,凉爽湿润,适宜在海拔800~1 800m的山地生长。厚朴是国家二级保护物种,目前野生物种已很难寻觅,供商品用的均为栽培品。其干燥干皮、根皮及枝皮称厚朴,具有燥湿消痰,下气除满功能,为历版《中国药典》所收载,是常用、大宗中药 相似文献
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金沙江干热河谷山地植被恢复区土壤种子库和地上植被研究 总被引:10,自引:0,他引:10
土壤种子库在植物种群动态中起着重要作用。土壤种子库可缓解种群的灭绝过程,保存群落中植物种的表现特征,是植被天然更新的物质基础。通过对金沙江干热河谷山地植被恢复区(包括水平阶、自然坡面、沟底)和未恢复区(包括放牧地)的土壤种子库和地上植被的组成、大小及多样性进行比较研究表明,植被恢复区土壤种子库和地上植被的密度、丰富度、多样性及均匀度均大于未恢复区。恢复区地上生物量要远大于未恢复区。水平阶和各类型间的土壤种子库密度与地上植被密度差异显著。土壤种子库中草本植物占很大比例。孔颖草和扭黄茅是土壤种子库和地上植被的两大优势种,两者的个体数量、重要值及生物量最大。土壤种子库和地上植被有较高的相似性,且随着恢复程度的加深,相似性有增高的趋势;土壤种子库密度和地上植被密度之间关系可以用二次和三次曲线拟合。 相似文献
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Soil stockpiles are essential to the reclamation of large‐ and small‐scale mining and other industrial sites. However, stockpiling soils can lead to the degradation of seed banks. This study examines the diversity, composition, depth of seed storage, and relationships between the aboveground and seed bank plant communities in stockpiles and compares them to the nearby boreal forest. The seed bank and aboveground vegetation sampled at eight stockpiles and six mature forest sites were near Fort McMurray (57.337°N, 111.755°W) and Cold Lake (54.695°N, 110.730°W), Alberta, Canada. Seed bank samples were taken from the forest floor (LFH) and depths of 0–5, 5–10, 10–20, 20–30, >50 cm. Aboveground vegetation cover was also estimated at these locations. The seed bank composition was determined using the seedling emergence method in a greenhouse. Stockpile seed banks had higher seedling abundance and species richness than nearby forested sites but were dominated by grasses and non‐native forbs. Most seeds germinated from the surface layer, with 92% of seeds germinating from the LFH layers in the forested sites, and 68% from the 0 to 5 cm layer in the stockpiles. Mature forest sites had more similar aboveground and seed bank communities than the stockpiles. Overall, integrating information on seed bank and aboveground plant communities would improve reclamation decisions, rather than relying on aboveground vegetation alone. 相似文献
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Soil seed bank and aboveground vegetation within hillslope vegetation restoration sites in Jinshajing hot-dry river valley 总被引:1,自引:0,他引:1
Soil seed bank plays an important role in the composition of different plant communities, especially in their conservation. Although soil seed bank, aboveground vegetation and their relationship have been the subject of much recent attention, little is known about the size and species composition of the soil seed bank and about the aboveground vegetation in the semiarid hillslope grasslands. There is limited understanding of how these components interact to determine the importance of seed banks in regeneration. In this study, the size and species composition of a soil seed bank and aboveground vegetation have been assessed in an experiment using 36 vegetation quadrats and 108 soil samples in terrace, slope, gully, and grazing land. This land represents a range of habitats within a hillslope grassland in Jinshajing hot-dry river valley of Yunnan, China. Terrace, slope, and gully represent restored sites and grazing land typifies unrestored sites. Twenty-one taxa in the seed bank were identified with a median and median density of 7 species/m2 and 5498 seeds/m2, respectively, whereas in the aboveground vegetation, 19 species were observed with a median and median density of 6 species/m2 and 1088 plants/m2, respectively. Both seed bank density and aboveground vegetation density among grazing land, gully, slope, and terrace differed significantly. There was an absolutely high proportion of herbaceous species in the seed bank and aboveground vegetation. Gramineae predominated over both seed bank and vegetation. The most frequent seeds and plants were Bothriochloa pertusa (L.) A. Camus and Heteropogon contortus (L.) Beauv that had the highest individual number, importance value, and biomass. In the seed bank, the seeds of Bothriochloa pertusa (L.) A. Camus and Heteropogon contortus (L.) Beauv accounted for 50.68% and 33.10% of the total seeds, respectively. In the aboveground vegetation, the individual number of Bothriochloa pertusa (L.) A. Camus and Heteropogon contortus (L.) Beauv accounted for 55.66% and 29.86% of the total, respectively. The biomass of Bothriochloa pertusa (L.) A. Camus and Heteropogon contortus (L.) Beauv accounted for more than 70% of the total, reaching 206.71 g/m2 and 147.76 g/m2, respectively. Bothriochloa pertusa (L.) A. Camus and Heteropogon contortus (L.) Beauv had the highest importance value of 193.01 and 159.99, respectively. Density, biomass, species richness, species diversity, and evenness were the highest in terrace land, whereas these were lowest in grazing land. Similarities between the seed bank and the aboveground vegetation were moderately high and not very different among slope, gully, and terrace lands, while for grazing land, they tended to increase when the restorative stage progressed. This result contrasts with some other studies where the seed bank contributes very little to the seedling flora and the vegetative growth clearly overwhelms sexual reproduction. The hypothesis about significant functional correlation between soil seed bank density and aboveground vegetation density is conformed. Correlation between soil seed bank density and aboveground vegetation density can be described in quadratic and cubic curves. The strong similarity between the vegetation and the seed bank is attributed to a large proportion of the species Bothriochloa pertusa (L.) A. Camus and Heteropogon contortus (L.) Beauv., which are seed profusive and whose seeds have a significant viability in the ground. The high density, biomass, species richness, species diversity, and uniformity of the reclaimed site are related to the sufficiency of heat and water supplies for species establishment and growth in the site, which partly reflects the effective efforts for hillslope grassland restoration. It is believed that the efforts for vegetation restoration have altered the microhabitat conditions of the site and have provided a favorable habitat for species to establish and grow. 相似文献