深山含笑的组织培养和快速繁殖

组织培养深山含笑的实验结果表明：利用休眠芽和种子萌发时实生苗的上胚轴及下胚轴为外植体均能诱导出愈伤组织和不定芽,其中无菌实生苗的上胚轴最易诱导出不定芽,无菌实生苗的下胚轴最易诱导出愈伤组织。外体植体在ＭＳ＋１．０－２．０ｍｇ Ｌ＾－１ ２,４－Ｄ培养基上只产生愈伤组织;在ＭＳ＋３．０ｍｇ Ｌ＾－１ ＢＡ＋０．２ｍｇ Ｌ＾－１ ＮＡＡ培养基上产生较多的不定芽和较多的愈伤组织;在ＭＳ＋２．０ｍｇ Ｌ＾     

几种含笑属(木兰科)植物的花粉形态

含笑属（Ｍｉｃｈｅｌｉａ）４种花粉光镜下形态相似。ＳＥＭ下观察,黄兰（Ｍ．ｃｈａｍｐａｃａ）和金叶含笑（Ｍ．ｆｏｖｅｏｌａｔａ）表面雕纹为小穿孔,苦梓含笑（Ｍ．ｂａｌａｎｓａｅ）为小穴,野含笑（Ｍ．ｓｋｉｎｎｅｒ－ｉａｎａ）为细皱纹,较粗糙。ＴＥＮ下观察,４种花粉外壁均可分为覆盖层、柱状层和基层。其中黄兰的柱状层结构较原始,金叶含笑的较进化。花粉形态在一定程度上可反映类群的系统演化。     

Comparative Anatomical Studies on the Vessel Elements of Chinese Magnolia and Michelia

This paper deals mainly with comparative studies on elements of secondary xylem in 39 species of Chinese Magnolia and Michelia. The former plants present longer and slender vessels. Most of them have simple perforation and only a few scalariform perforation plates. In contrast, most of the Michelia species possess scalariform perforation plates and only one with simple perforation. The scalariform perforation plates of Magnolia species, if present, exhibit more bars than that of Michelia With few exceptions, there is no spiral thickening on the vessel wall in Magnolia, whereas in Michelia it is lust the opposite. In addition, some other differences in vessel elements between these two genera are also discussed.     

紫花含笑（♀）、灰岩含笑（♂）及其杂种F1代花粉萌发试验研究

对紫花含笑(Michelia crassipes)、灰岩含笑(M.calcicola)及其杂种F1代花粉生活力进行了研究,为基于紫花含笑和灰岩含笑杂种F1代的含笑属观赏植物新品种培育与种质创新提供科学数据及研究资料.研究发现,亲本(紫花含笑和灰岩含笑)新鲜花粉萌发率均可达90％以上,杂种F1代花粉萌发率从38％到79％不等,平均为57.7％,低于双亲.亲本及其杂种F1代花粉萌发的最适温度为25℃,温度过高花粉管的伸长受到抑制,并导致花粉管顶端破裂.亲本及多数杂种F1代的新鲜花粉在100 g/L和150 g/L的蔗糖浓度下萌发率都较高;经-20℃贮藏后的花粉对蔗糖浓度的敏感性要高于新鲜花粉.杂种F1代及其亲本的花粉在离体培养中均会出现双萌发管现象.番红染料对液体培养基中的花粉有致死和染色作用,有利于统计杂种F1代及其亲本的花粉萌发率.     

LED光质及光周期对香子含笑幼苗生长和光合特性的影响

香子含笑(Michelia gioii)为我国珍贵阔叶树种,在用材、香料、景观等方面具有重要价值。为了进一步培育优良苗木和开发利用其非木质资源,该研究将香子含笑幼苗放置在由2个光周期(12、16 h·d^-1)和4种光质(R:B=8:1、R:B=6:1、R:B:P:G =8:1:1:1、R:B:P:G=6:1:1:1,其中R、B、P、G分别代表红光、蓝光、紫光、绿光)两两组合成、光照强度一致的8个光照条件下生长。结果表明:(1)香子含笑幼苗的苗高和地径增长量、叶长宽比、最大净光合速率、暗呼吸速率及光补偿点在12 h·d^-1光周期R:B=6:1光质下最高,叶面积和叶绿素含量在16 h·d^-1光周期R:B:P:G=6:1:1:1光质下最高。(2)16 h·d^-1光周期处理下的苗高增长量、叶面积、质量指数、叶绿素a+b含量、叶绿素a/b比值、类胡萝卜素含量和光饱和点均高于12 h·d^-1光周期。(3)在红蓝组合光质基础上添加紫、绿光提高了幼苗的质量指数,并影响光合色素的合成和积累;(4)光质R:B=6:1与R:B=8:1相比,更具有促进香子含笑幼苗苗高、地径、叶片生长及提高光合作用的潜力。综上结果认为,对于促进香子含笑幼苗生长和进行光合作用,光周期为 16 h·d^-1光质为R:B:P:G=6:1:1:1光照条件的潜力较大,其次是光周期为12 h·d^-1光质为R:B=6:1的光照条件。     

观光木群落优势树种生态位和种间联结

为了解君子峰自然保护区极小种群观光木群落的种间关系和生态联系,加强观光木野生资源的保护,对群落优势树种的生态位特征和种间联结性进行研究。结果表明: 观光木、浙江润楠、木荷、赤杨叶的生态位宽度优势明显,是主要建群种;20个优势树种的190组种对中,有50.5%的种对生态位重叠值大于0.5,物种间生态位分化程度一般;观光木与其他19个物种生态位重叠度普遍较高,当资源不足时,有竞争风险;优势树种的总体联结性表现为显著正联结,群落处于相对稳定的演替后期;χ²检验、联结系数和Pearson相关系数检验结果均显示,种间联结性的显著率极低,种间独立性较强;种间联结性与生态位重叠之间呈正相关。君子峰观光木群落较为成熟,资源利用充分,种间关系稳定,为促进观光木种群恢复和壮大,可适当限制与观光木生态位重叠度大、有显著负联结的种群规模,提高与之有正相互作用的物种比例,为观光木营造良好的生境。     

Genome differentiation in Magonoliaceae as revealed from meiotic pairing in interspecific and intergeneric hybrids

The cross compatibility within and between Yulania Spach and Michelia L.(Magnoliaceae) is relatively good and various such hybrids,obtained by conventional artificial hybridization,are available.The aim of the present study was to determine the extent of genome differentiation between the species involved in these crosses through the observation of chromosome pairing during meiosis in pollen mother cells (PMCs) of the hybrids.Chromosome pairing behavior was studied in five species (2n =38) and two interspecific hybrids of Michelia,eight species (2n =38,76 and 114) and 10 interspecific hybrids of Yulania,and three intergeneric hybrids between Michelia and Yulania.The results showed that chromosome pairing was normal with bivalent formation in diploid parental species and in interspecific hybrids.In addition to bivalents,multivalents were encountered in polyploid parental species and polyploid interspecific hybrids.In the intergeneric hybrids between a tetraploid Yulania and two diploid Michelia,19 chromosomes,most likely originating from Michelia,were unable to synapse from zygotene to metaphase I.Meiotic chromosome pairing indicated a high degree of homology between species within Michelia and Yulania and less homology between the genomes of these two genera.The differentiation of morphological characters and the distinctness of natural distribution also support the conclusion that these two genera are likely independent monophyletic groups.This suggests that the two genera were split at early evolution of Magnoliaceae and the overlapping characteristics in external morphology and internal structures of the two genera may be the result of parallel evolution or ancient common ancestry.     

江西中南部观光木种群及所在群落特征研究

采用样地调查法,对赣中南观光木种群及群落特征进行了研究。结果表明:观光木种群分布格局呈集群分布,径级结构为衰退型。观光木所在群落有维管植物60科94属112种,植物生活型以高位芽植物为主,占总种数的69.64%。植物区系起源古老,成分复杂,具有明显的热带性质。群落除Pielou指数较高外,其它各种多样性指数偏低,各样地间多样性指数有一定的差异;测度观光木所在群落物种多样性时,4种多样性指数未表现出相同的趋势,Simpson指数和Pielou指数在群落不同层次的变化规律为:灌木层>草本层>乔木层,Shannon-wiener指数和物种丰富度指数在群落不同层次的变化规律为:灌木层>乔木层>草本层。观光木本身的生物学特性和人类掠夺式的破坏是导致观光木种群濒危的主要原因。     

深山含笑叶过氧化物酶对双酚A清除效应研究

深山含笑是一种常绿乔木,具有较好的园林观赏价值,其叶片在每年春天新旧叶交替时,会陆续凋落而不能实现其经济价值;我们前期研究发现深山含笑成熟叶片具有较高的过氧化物酶活性,而过氧化物酶在内分泌干扰物生物酶法降解途径中发挥着重要作用。为充分开发深山含笑叶的经济价值,提高资源的利用效率,我们对深山含笑叶过氧化物酶进行了纯化并初步研究了其性质;在此基础上,进一步研究了深山含笑叶过氧化物酶在降解环境污染物双酚A上的特性。结果显示,经过非离子表面活性剂(吐温-80)抽提、双水相萃取、DEAE-Sepharose离子交换层析,首次从深山含笑叶片中快速分离提纯结合态过氧化物酶,相对可溶性过氧化物酶纯化倍数为55. 2倍,回收率为19%。该酶的比活力为18 999 U/mg蛋白,以愈创木酚为反应底物的最佳pH值为4. 5,最适温度为50℃;具有较宽的pH稳定范围,热稳定性较好,60℃以下不易失活。深山含笑叶过氧化物酶对BPA具有良好的清除能力,在pH4～7,温度30～40℃,H2O2/BPA摩尔浓度之比达0. 8条件下,经过3 h,10 000 U/L POD对0. 2 mmol/L BPA清除率达90%以上,深山含笑过氧化物酶在酚类物质生物酶法催化降解途径中具有潜在的重大利用价值。     

红花深山含笑形态变异与繁殖应用

红花深山含笑是2007年发现并快速繁殖应用的木兰科种类。本文在野外调查的基础上,结合文献资料,对红花深山含笑的发现历程、形态性状变异、繁殖推广应用现状进行分析。结果表明,红花深山含笑是优良的乡土树种,发现时野外数量极少;实生苗间存在一定的性状差异,是资源开发的优良种质资源;目前红花深山含笑繁殖主要以嫁接为主,通过正确的嫁接方法及良好的后期管理可有效繁殖苗木。