Genetic diversity and genetic differentiation of natural populations of Pinus kesiya var. langbinanensis

Genetic diversity and genetic differentiation of natural populations of Pinus kesiya var. langbinanensis were examined by means of electrophoresis technique. Analysis of 9 enzyme systems including 16 loci showed that all the three natural popu-lations of the pine were high in genetic diversity but low in inter-population genetic differentiation. The proportion of polymorphic loci is 0.667, with each locus holding 2.13 alleles, averagely. The average expected and observed heterozygosity was 0.288 and 0.197, respectively. The gene differentiation among populations was 0.052, but the mean genetic distance was only 0.015.

Genetic Analysis of Superior Clones and Identification of Specific Marker of Elite Clones of Pinus kesiya

In the present study, the genetic distances between 85 superior clones from seven natural populations of Pinus kesiya var. langbianensis were analyzed by RAPD-PCR assays, and then, a UPGMA cluster diagram was established based on the genetic distances to reveal their genetic relationship. In addition, specific markers of elite clones were identified by carefully comparing the fingerprints of the 85 clones. The results showed that the 85 P. kesiya clones were divided into three groups at a genetic distance of 0.59. Two specific markers that were able to distinguish some elite clones from others were identified. The results may provide a molecular basis for the identification and selection of elite clones of Pinus kesiya var. langbianensis.

基于SSR标记的思茅松种质资源遗传多样性分析

【目的】揭示思茅松主要分布区内11个群体共338份种质资源遗传多样性水平和遗传结构状况,为思茅松育种群体构建及高轮次遗传改良提供理论依据。【方法】用筛选出的18对引物进行SSR-PCR扩增,产物经毛细管电泳后用PowerMarker v3.25、GenALEx v6.4.1及Structure 2.3.4等软件分析思茅松种质资源的遗传多样性。【结果】18对SSR引物共检测到120个等位基因,平均每个位点的等位基因数为6.667个;种质资源的平均期望杂合度(H_(e))为0.524;平均Shannon信息指数(I)为1.016;平均多态信息指数(PIC)为0.468。思茅松种质资源的遗传变异主要来源于群体内的个体。种质资源的群体分化系数(F_(ST))平均为0.091,即群体间的遗传变异只占总变异的9.1%,分子方差分析(AMOVA)得到了同样的结果。各位点的基因流(N_(m))平均为4.627(N_(m)>1),较大的基因流减小了群体间的分化。STRUCTURE分析将338份思茅松种质资源划分为2个类群,基于Nei’s遗传距离的UPGMA聚类将11个群体划分成3组,普洱市6个群体聚为一组;西双版纳州的2个群体、临沧市和保山市的各1个群体聚为一组;德宏州的1个群体单独为一组。【结论】思茅松种质资源具有丰富的遗传多样性,遗传变异主要来源于群体内,在进行思茅松的遗传改良时,应根据其遗传结构特征,重点选择多样性高的群体,也要特别关注对群体内优良单株的选择。

思茅松EST-SSR标记在几种松属植物中的通用性分析

为验证思茅松EST-SSR标记在松属植物中的通用性,利用已获得的18对EST-SSR标记对其近缘种进行扩增。结果表明:思茅松EST-SSR标记对马尾松、高山松、油松和云南松的通用率为88.89%,多态性百分比率分别为81.25%、81.25%、75.00%和93.75%。因此,基于思茅松转录组序列SSR标记开发是可行的,思茅松EST-SSR标记对近缘种具有较高的通用性和多态性,这些引物可用于分析思茅松及其近缘种间的遗传关系。

思茅松转录组SSR分析及标记开发

基于思茅松转录组测序数据进行其SSR标记开发,为丰富思茅松SSR数据库提供参考。采用MISA软件对思茅松59 636条Unigene进行SSR搜索,共获得3 745个SSR位点,分布频率为6.28%,平均11.36 kb出现一个SSR位点。SSR重复类型以三核苷酸基序为主,其次是二核苷酸基序,所占比例分别为49%和24%,其主要重复单元分别为AGC/CTG和AT/TA。随机挑选224个位点进行引物设计及合成,琼脂糖凝胶检测发现其中29个位点具有多态性且效果良好,但仅12个位点符合SSR重复类型的倍数大小且扩增效率高于85%。利用这12对荧光标记引物,对2个居群42份样本进行遗传多样性分析,共检测到35个等位基因,多态性信息量(PIC)为0.093 2-0.480 9,平均为0.306 9。4个位点为低度多态位点(0<PIC<0.25),8个位点为中度多态位点(0.25<PIC<0.5)。这12个标记可用于思茅松遗传多样性分析、遗传图谱构建、基因定位及克隆等研究,旨为思茅松分子标记辅助育种及变异水平等研究提供技术支持。

思茅松SSR-PCR反应体系优化研究

以思茅松杂交亲本JG1号基因组DNA为模板,利用正交设计实验对影响SSR-PCR反应体系的主要因子进行了优化,建立了一套最佳思茅松SSR-PCR反应体系。结果表明:在25μL最佳反应体系中,各组分最佳含量分别为Mg^(2+) 2.0 mmol/L、DNA 60 ng、引物0.50μmol/L、Taq DNA聚合酶0.25U、dNTP 0.20 mmol/L。利用11份个体对此SSR反应体系进行验证,获得扩增谱带清晰且多态性较好,证明该体系稳定可靠。

思茅松RAPD反应体系的优化

从思茅松幼苗的嫩叶中提取基因组DNA作为模板,运用均匀设计方法,获得思茅松RAPD扩增反应的优化体系:20μL反应体系中,DNA模板用量50ng,引物浓度0.5mmol.L-1,Mg2+浓度4mmol.L-1,TaqDNA聚合酶用量2.0U,dNTP浓度0.75mmol.L-1。用19条引物进行验证,证实该体系重复性好、结果稳定。

思茅松种子园遗传多样性的RAPD分析

以思茅松无性系种子园收集的来自7个居群的85个思茅松用材林优良无性系为试验材料,使用2×Taq PCR Master Mix并利用Touchdown PCR构建思茅松RAPD-PCR反应体系。从120条引物中共筛选出适用于思茅松遗传多样性分析的20条引物进行PCR扩增,来自不同种源地7个居群的多态位点百分率PPB平均值59.48%;平均每个位点的有效等位基因数Ne平均值1.350 3;Nei’s基因多样指数H平均值0.206 3;Shannon’s多样性信息指数I平均值0.310 0。通过对7个居群的遗传距离进行分析,并构建UPGMA聚类树状图,从聚类结果看,7个居群可以划分为遗传差异较明显的3大类群。

思茅松大配子体DNA的提取及ISSR反应体系的建立

为建立思茅松大配子体ISSR分子标记的反应体系,以思茅松种子样本作为供试材料,比较不同思茅松胚乳DNA提取方法的效果,通过紫外分光度计、DNA琼脂糖电泳和PCR扩增分别予以检测并比较。结果表明SDS法优于CTAB法。同时,通过单因子分析法对ISSR-PCR反应体系中的模板DNA用量,Taq DNA聚合酶用量,Mg2+浓度,dNTP浓度、引物浓度等主要影响因子进行优化,确立适用于思茅松的ISSR分子标记反应体系。对该体系进行稳定性检验,结果表明该反应体系适合思茅松ISSR-PCR扩增。

思茅松HDR基因全长cDNA克隆与序列分析

1-羟基-2-甲基-2-E-丁烯基-4-焦磷酸还原酶(HDR)是甲基-D-赤藓醇-4-磷酸(MEP)途径中的最后一个酶,在植物萜类生物合成中起主控作用。该研究根据思茅松(Pinus kesiya var.langbianensis)树皮转录组数据分析结果,首先获得了思茅松HDR基因片段,然后根据所获得的基因片段设计特异引物,提取受伤后的思茅松树皮的RNA,并运用RT-PCR和RACE技术从思茅松树皮中克隆得到完整的HDR基因(Pk HDR)。生物信息学分析表明:克隆获得的Pk HDR1基因c DNA全长序列为1 876 bp,含有1个1 464 bp的开放阅读框(ORF),编码487个氨基酸。同源性分析结果表明:思茅松HDR蛋白与赤松(Pinus densiflora)HDR蛋白的相似性高达99%。亚细胞定位及结构域分析结果表明:思茅松Pk HDR氨基酸序列中包含转运肽序列(A1-A61)及植物HDR蛋白多个保守的功能位点(A143,A234,A288,A371)。系统进化分析结果表明:Pk HDR蛋白与赤松HDR蛋白的亲缘关系最为接近。半定量PCR检测结果表明:树皮的创伤促进思茅松HDR基因的表达。该研究成功克隆获得HDR基因,并确定其与松脂代谢密切相关,为阐明思茅松松脂生物合成机制和分子育种提供了参考。

马尾松人工林林分材种结构预测系统在R软件中的实现

本文结合程序流程图,详细介绍了基于R软件平台的马尾松人工林林分材种结构预测系统。该系统包括3个函数,分别是林分状态及间伐收获预测函数、造材函数和整合函数。程序至少需要给定立地指数、造林密度、采伐年龄和间伐水平共4个参数方可运行,并可进行批处理。系统输出主伐和间伐收获各材种单位面积出材量。实践应用显示,该系统运行效率高,可靠性好,具有很好的应用和后续开发借鉴价值。

Incorporating topographic factors in nonlinear mixed-effects models for aboveground biomass of natural Simao pine in Yunnan,China

A total of 128 Simao pine trees （Pinus kesiya var. langbianensis） from three regions of Pu＇er City, Yunnan Province, People＇s Republic of China, were destructively sampled to obtain tree aboveground biomass （AGB）. Tree variables such as diameter at breast height and total height, and topographical factors such as altitude, aspect of slope, and degree of slope were recorded. We considered the region and site quality classes as the ran- dom-effects, and the topographic variables as the fixed- effects. We fitted a total of eight models as follows： least- squares nonlinear models （BM）, least-squares nonlinear models with the topographic factors （BMT）, nonlinear mixed-effects models with region as single random-effects （NLME-RE）, nonlinear mixed-effects models with site as single random-effects （NLME-SE）, nonlinear mixed-ef- fects models with the two-level nested region and site random-effects （TLNLME）, NLME-RE with the fixed-ef- fects of topographic factors （NLMET-RE）, NLME-SE with the fixed-effects of topographic factors （NLMET-SE）, and TLNLME with the fixed-effects of topographic factors （TLNLMET）. The eight models were compared by modelfitting and prediction statistics. The results showed： model fitting was improved by considering random-effects of region or site, or both. The models with the fixed-effects of topographic factors had better model fitting. According to AIC and BIC, the model fitting was ranked as TLNLME 〉 NLMET-RE 〉 NLME-RE.〉 NLMET-SE 〉 TLNLMET 〉 NLME-SE 〉 BMT 〉 BM. The differences among these models for model prediction were small. The model pre- diction was ranked as TLNLME 〉 NLME-RE 〉 NLME- SE 〉 NLMET-RE 〉 NLMET-SE 〉 TLNLMET 〉 BMT 〉 BM. However, all eight models had relatively high prediction precision （〉90 %）. Thus, the best model should be chosen based on the available data when using the model to predict individual tree AGB.

基于GWR思茅松单木含碳量模型的构建及空间分布研究

以云南澜沧县思茅松天然林单木为研究对象,测定了解析木各个器官的含碳量,采用地理加权回归模型,以地形因子和测树学因子作为变量,对思茅松单木树枝、树叶、树干、树皮、树根和全树含碳量进行模型构建,同时构建最小二乘模型作为比较,分析模型优劣。结果表明:思茅松单木在250 m区域范围内不同器官的含碳量存在空间自相关,因此在研究思茅松单木含碳量的问题时,不能忽略空间自相关的影响。半变异函数能够定量对思茅松各器官含碳量的空间异质性进行分析,200 m范围的空间异质性主要是由随机部分引起的,在研究类似的问题时要确定适当的研究尺度。地理加权回归模型具有较好的拟合效果,各维度含碳量模型的R2均在0.8以上,虽然部分器官含碳量模型的AIC比OLS的略大,但地理加权回归模型的均方根误差均小于最小二乘模型,地理加权回归模型的残差也小于最小二乘模型的残差,模型精度优于最小二乘模型,同时说明地理加权回归模型能够有效解释最小二乘模型无法解释的空间异质性。

Growth and yield of nine pine species in Angola

A species introduction experiment including several tropical pines and eucalypts was established in 1966/1967 in the Tchianga research station in Angolan Highlands. Despite 27 years of political conflict （1975-2002） and lack of management, the research experiment has remained relatively well conserved. We measured the best conserved plots that were 41 years old in 2007 to obtain information on the growth of different pine species. We calculated stand characteristics including basal area, dominant height, mean diameter, and stand volume for Pinus patula Schiede ex Schiltdl. Et Cham., Pinus pseudostrobus Lindl., Pinus kesiya Royle ex Gordon, Pinus devoniana Lindl., Pinus chiapensis （Martinez） Andresen, Pinus elliottii Engelm., Pinus greggii Engelm. Ex Parl., Pinus montezumae Lamb. and Pinus oocarpa Schiede ex Schltdl. The growing stock volume at 41 years was the highest in P. pseudostrobus, 1,325 m3^· ha^-1, followed by P. kesiya with 1,200 m^3· ha^-1. The widely planted P. patula had growing stock volume of 892 m^3· ha-^1. P. oocarpa and P. pseudostrobus had the highest stand basal area, over 80 m^2·ha^-1. Using increment core analyses we studied the temporal development of stand characteristics. Analysis of the mean annual increment （MAI） showed that rotation lengths of 20-30 years would maximize wood production. With these rotation lengths, the MAI of P. pseudostrobus would be 35 m^3· ha^-1. Other productive species were P. kesiya, P. ooearpa and P. chiapensis. P. patula had a maximum MAI of 20 m^3· ha^-1. P. greggii had the lowest mean annual volume production, only about 13 m^3· ha^-1.

Transcriptomic and proteomic analyses of far-red light effects in inducing shoot elongation in the presence or absence of paclobutrazol in Chinese pine

In angiosperms, low red (R)/far-red (FR) ratio light increases gibberellin (GA) levels. GA signaling in conifer seedlings requires FR to promote shoot elongation and reduce the inhibition of shoot elongation induced by paclobutrazol (PAC), yet the effects of far-red light in inducing shoot elongation in the presence or absence of PAC is poorly understood. In this study, transcriptomic and proteomic analyses was used to examine the molecular mechanism of FR regulation of shoot elongation in Chinese pine (Pinus tabuliformis Carr.) seedlings in the presence of PAC. Four treatments were compared: white light + water (WW), FR + water (RW), white light + PAC (WP), and FR + PAC (RP), and 1436 differentially expressed genes (DEGs) and 450 differentially expressed proteins (DEPs) were identified in RW_WW (RW contrast WW), and 1862 DEGs and 481 DEPs in RP_WP (RP contrast WP). Metabolic and signal transduction pathway analyses of DEGs and DEPs in RW_WW and RP_WP, indicated that the former required more energy than the latter. Moreover, gibberellic acid, auxin, and brassinolide are equally important in RW_WW and RP_WP for shoot elongation, except for the ethylene pathway. Amino acid metabolism and cell wall organization were significantly enriched in RW_WW and RP_WP, respectively. In summary, RW_WW and RP_WP had different effects in secondary metabolism, energy metabolism, amino acid metabolism, cell wall organization, and hormone response. These results provide an important theoretical and reference basis for studying the regulatory effect of low R/FR and PAC in conifer shoot elongation.

SSR标记技术在思茅松亲权鉴定中的可行性研究

为验证微卫星标记技术在思茅松亲权鉴定中的可行性,选取了1对思茅松亲本以及其31个子代作为实验组,5个半同胞子代和5个与亲本无亲缘关系的子代作为对照组,采用微卫星亲权鉴定的方法,通过亲缘关系Cervus 3.0分析软件对选择的16个微卫星位点进行分析。结果显示:期望杂合度为0.024~0.500,平均值为0.391;观测杂合度为0.023~1.000,平均值为0.472。微卫星位点的累积非亲权排除概率为0.987,子代基因型符合孟德尔遗传定律。模拟鉴定及实际鉴定结果表明:在80%≤置信度≤95%的情况下,亲权鉴定率为97%;在置信度>95%的情况下,亲权鉴定率为97%。研究结果证明微卫星标记在思茅松亲权鉴定中的可行性,该方法为思茅松育种过程中亲本的识别以及家系的分析提供理论依据。

思茅松林下黄精田节肢动物群落组成结构及多样性分析

【目的】研究思茅松林下黄精田节肢动物群落组成结构及多样性,为林下黄精上害虫的综合治理和天敌资源的保护利用提供参考。【方法】2022年1—12月,以云南省普洱市澜沧县大塘子村思茅松林下黄精种植基地为调查点,采用目测法、陷阱法、黄蓝板诱捕法、马氏网诱捕及夜晚踏查相结合的方法对思茅松林下黄精田节肢动物群落进行调查,并对节肢动物群落的多样性指数、优势集中性指数、均匀度指数和丰富度指数进行分析。【结果】在思茅松林下黄精田共采集到节肢动物7纲23目98科157属192种15423头,蜱螨目节肢动物为优势类群,其个体数有3899头,相对多度为25.28%。不同功能团类群中,在个体数上表现为害虫亚群落>中性节肢动物亚群落>天敌亚群落,害虫亚群落的个体数占节肢动物群落物种个体总数的51.41%。林下黄精田节肢动物群落多样性指数、优势集中性指数、均匀度指数和丰富度指数分别为3.488、0.095、0.663和19.806。林下黄精田主要害虫有红叶螨(Tetranychus pueraricola)、黄蓟马(Thrips flavus)、螽斯类和叶蝉类等;其中,红叶螨发生期为8—12月,9月为暴发期;黄蓟马主要发生在3—6月,4月为暴发期;主要天敌为姬蜂类、茧蜂类和蜘蛛类,姬蜂类和蜘蛛类均在5月种群数量最高。【结论】云南省普洱市澜沧县思茅松林下黄精田节肢动物群落多样性丰富。应加强对红叶螨等优势害虫的监测和防控,同时加强对寄生蜂类和蜘蛛类等天敌资源的保护和利用。

云南3种松树径向生长的气候因子响应异质性

【目的】探究云南高原高山松、云南松和思茅松3种松树径向生长对区域气候因子的响应和适应性特征,为预测气候变化背景下西南林区树木生长动态及各树种地理分布区变化提供指导,为区域森林保护和管理提供理论依据。【方法】根据树木年轮学方法,采集各树种分布区内树轮样本,构建树轮宽度年表,结合各采样点1958—2018年的气温、降水、帕尔默干旱指数等气象资料,利用响应分析、多元回归分析和滑动相关分析等方法,确定影响3种松树径向生长的关键气候因子及其对气候变化的响应差异。【结果】3种松树采样点的气候均呈暖干化特征。限制松树径向生长的关键因子对高山松为当年5月降水量和1月平均气温,其对回归模型方差解释率的贡献分别达59.8%和27.5%;对云南松为上一年10月、12月和当年1月降水量,其对回归模型方差解释率的贡献分别达38.8%、15.4%和25.4%;对思茅松为当年生长季(7月)、上一年和当年生长季后期(9月)降水量,其对回归模型方差解释率的贡献分别达53.8%、30.9%和15.3%。云南松径向生长对干旱的敏感性高于高山松和思茅松。气候暖干化使高山松对生长季初期(5月)气温和降水量的敏感性增强;使云南松对生长季初期(5月)降水量的敏感性减弱,对生长季(8月)气温的敏感性增强;使思茅松对7月平均气温、平均最高温度的敏感性减弱,对上一年生长季后期(9月)降水量的敏感性增强。气候变暖使3种松树径向生长与气候因子的响应关系变得不稳定,主要发生在各采样点气候突变时间段,与区域气候波动同步,且不同树种具有一致性。【结论】高山松和思茅松对干旱的适应性强于云南松。气候变暖使气温对高海拔区高山松径向生长的促进效应减弱,使云南松对生长季初期低降水敏感转变为对生长季低温敏感;气候变暖抑制思茅松生长季充足水分条件的促生长作用,增强气候因子对径向生长影响的滞后效应,使3种松树对气候因子响应的敏感性变得不稳定。

思茅松林地上生物量空间效应分析

以普洱市森林资源调查规划数据为基础,采用空间自相关和空间异质性分析方法,对普洱市特有优势树种思茅松林地上生物量进行空间效应分析.结果显示,思茅松林地上生物量从西向东先增大后减小,从南向北逐渐增大.全局Moran’sⅠ指数为0.436,通过1%显著性水平检验,具有极显著的空间正相关,呈现明显的聚集分布.高值聚集(HH)占百分比(29.83%)最大,主要分布在中北部地区.空间异质水平随区域尺度增加逐渐增大.研究较大尺度生物量问题时,考虑到空间效应的影响是必要的.该研究为优化调节思茅松林空间结构、提高森林生态系统服务功能提供理论支撑,丰富空间效应在林业研究中的应用,具有一定的典型性和参考价值.

云南思茅松林植物区系、生活型与叶相特征分析

云南的思茅松林为我国云南省重要的战略森林资源,但其植物资源多样性未见系统报道,为揭示其区系特征及群落外貌,本研究基于144个群落调查样方数据,分析了云南的思茅松林的维管植物区系、生活型与叶相特征。结果显示:(1)云南的思茅松林群落维管植物经合计共130科440属800种,其中包括蕨类植物18科36属61种,裸子植物2科4属7种,被子植物110科400属732种,优势科为豆科、壳斗科和禾本科,优势属为榕属、锥属和柯属。(2)科属的地理成分均以热带成分占优势,且均以泛热带成分为主;温带分布型以北温带及其变型为主。未见中国特有科,中国特有属9种。寡种和单种科属占比高,一定程度表明了该群落类型对生境选择的多样化响应。从演化趋势来看,古老成分与新生类群共存。(3)生活型谱中高位芽植物为该群落优势生活型,占比为61.25%,Raunkiaer生活型谱呈“L”型。(4)植物叶相以纸质(44.00%)、单叶(74.50%)、全缘(67.75%)、中型叶(46.38%)为主。该研究结果有助于进一步认识思茅松林区系特征、为其生态保护和管理提供参考价值。