嘉兰栽培及其秋水仙碱含量测定

嘉兰原属热带性地区的植物,但从云南南部引种到广州地区种植。表现生长发育良好,且其秋水仙碱含量高达0.40—0.45％。是一种有推广种植价植的药用植物。     

嘉兰块茎形成过程中物质变化的研究

嘉兰(Gloriosa superba L.)系百合科草本植物,其块茎含有秋水仙碱。本文研究块茎形成规律及其形成过程中物质变化。研究结果表明:块茎播后,新生的块茎在生长初期和后期生长速度都较慢,中期生长速度最快,也是嘉兰块茎产量形成的主要时期。块茎中营养物质主要是淀粉。新生块茎中淀粉含量,是随着新块茎的生长,其含量逐渐增高。叶片的光合速率和叶面积,从播后逐渐增加,开花前达到高峰,花后又逐渐降低。开花前如能增加光合叶面积,可为后期块茎生长提供较多物质。块茎中秋水仙碱含量是随着块茎的成熟与淀粉含量的渐增而增加,至收获期达到高峰。这一结果表明:收获未充分成熟的块茎,会降低秋水仙碱含量。     

生长光强对亚热带自然林两种木本植物稳定碳同位素比、细胞间CO2浓度和水分利用效率的影响

生长于１００％、４０％和１６％自然光下的荷木和黧蒴幼苗叶片稳定碳同位素比（δ１３Ｃ,－‰）,细胞间ＣＯ２浓度（Ｃｉ）和水分利用效率（ＷＵＥ）有一定的差别。１６％和４０％弱光下,δ１３Ｃ的负值增加－０．５４Ｊ‰到－０．８９‰。Ｃｉ增大８．１－１３．２μｉＬ－１,ＷＵＥ则下降６－２４％。结果表明,叶片的水分和气体交换特性受生长光强的调节,叶片的δ１３Ｃ值可反映其生长过程中受光的强弱状况。     

鼎湖山植被演替过程中椎栗和荷木种群的动态

 森林群落的演替过程,是以各优势种群的动态为其表现特征的。本项研究系统地研究了鼎湖山森林植被演替过程各优势种群的动态。本文研究演替顶极建群种椎栗和荷木等阳生性种群的动态,结果表明其生态位宽度在演替过程中由入侵针叶林起逐渐开始增大,至阳生性为优势常绿阔叶树阶段时为最大,此后渐渐下降,但不会下降为零。在其演变过程中,这些阳生性的种群格局由集群分布演变为趋于随机分布;其与早期先锋种马尾松树种的生态位宽度重叠值和种间联结值由高向低转变,而与中生性树种却有较高的生态位重叠值和种间联结值,但这两方面的值在后期有减弱的趋向。这些结果一方面说明该种群的先锋特性,另一方面也说明由于成熟群落的循环更新使群落结构出现不均匀与镶嵌,使这些阳生性先锋种群 在演替的后期仍以一定数量存在。     

提高CO2浓度对两种亚热带树苗生物量及叶片特性的影响

 广东鼎湖山季风常绿阔叶林的主要优势乔木树种荷木和黧蒴幼苗生长于自然光照和人工调节CO2浓度为500±50μl·L-1或空气CO2(350μl·L-1)的气罩中3个月。高CO2浓度下生长的黧蒴和荷木植株总干物质量分别增加26.6％和16.6%,根部增加量最大,地上部分所占的比例降低,根冠比上升,基径增大而株高降低。高CO2浓度下生长的叶片密度及比叶重增加,叶肉细胞间隙体积减少。单位干重的黧蒴叶片可溶性糖含量、全碳、磷、钾含量在高CO2浓度下稍为下降,果糖、葡萄糖、蔗糖、全氮、镁含量及N/C比明显降低。而全钙含量无明显变化。     

The influence of light conditions and interspecific competition on the root foraging traits and seedling growth of two tree species

Abstract

Enriched nutrient patches within natural soil represent an important source of nutrients for tree growth. In the present study, pot experiments in a heterogeneous nutrient environment were conducted to investigate the influence of light conditions and interspecific competition on the root foraging traits and seedling growth of Pinus massoniana and Schima superba. The root foraging scale and the whole-seedling biomass of both species were decreased by shading. The result of this treatment was a lower sensitivity to nutrient heterogeneity in plants that underwent the shading treatment than in plants that were exposed to full-light conditions. The above-ground biomass and whole-seedling biomass of S. superba were not affected by competition with P. massoniana. In contrast, the above-ground biomass and whole-seedling biomass of P. massoniana were negatively affected by competition with S. superba. The more rapid rate of root extension and the more efficient resource uptake of S.superba appear to explain this effect. The species-specific patterns of the influence of environmental factors on foraging ability and seedling growth should be given thorough consideration and should be applied to afforestation and to the management of tree plantations.     

施氮对木荷3个种源幼苗根系发育和氮磷效率的影响

以浙北、闽北和赣南3个木荷有代表性的种源作为试验材料,通过人工控制施氮来研究氮沉降对林地贫瘠土壤上木荷幼苗生长和氮磷效率的影响.实验分为4个处理组,分别人工喷施NH4NO3溶液0、50、100和200 kg N hm-2·a-1.结果表明:氮沉降对木荷幼苗生长产生了不同程度的促进作用.木荷幼苗根系干物质重、总长、平均直径、根总表面积和总体积增加了33％-73％,其中＞0.5mm直径的根系生长最为显著,根系呈粗壮舒张型.随氮水平的提高,氮磷吸收效率与根系总长、根系体积、根系平均直径和总表面积相关性增强.在中氮水平下,木荷幼苗根系氮吸收效率受＞0.5mm根长的作用显著,而磷吸收效率与≤0.5mm,0.5-1.0mm和≥1.0mm 3种直径根系根长均显著相关.木荷种源间差异显著,福建建瓯种源根系发达,氮磷的利用效率更高,低氮水平对其根系生长促进作用显著;浙江杭州种源在低氮水平下,地上部分生长促进作用显著,苗高和地径较对照分别增长34％和26％,而根系生长发育迟缓,对氮素响应迟钝;低氮促进江西信丰种源整体增长,但随氮水平提高,地下部生长抑制加强.     

Effect of imitated global warming on Δ<Superscript>13</Superscript>C values in seven plant species growing in tibet alpine meadows

Open-top chambers were used to estimate the possible effects of global warming on δ¹³C of seven plant species grown in alpine meadow ecosystem. The δ¹³C values of plant species were lower after long-term growth in open-top chambers. In the course of experiment, temperature significantly increased inside the chambers by 4°C. Plant species grown at a lower elevation above sea level had higher δ¹³C values as compared to those grown at a higher elevation. This was in accordance with the effect of open-top chamber on δ¹³C values in plants. Greater availability of CO₂ and lower water vapor pressure at higher temperature inside the chambers, as indicated by an increase in discrimination against ¹³CO₂, probably result in more negative δ¹³C values of plants because higher stomatal conductance increases availability of CO₂ and causes greater discrimination against ¹³CO₂. The plant species studied could be the indicator species for testing global warming by the change in carbon isotope ratios at the two growth temperatures. This text was submitted by the authors in English.