Effects of drought on non-structural carbohydrates and C,N,and P stoichiometric characteristics of Pinus yunnanensis seedlings

To study non-structural carbohydrate character-istics and nutrient utilization strategies of Pinus yunnanen-sis under continuous drought conditions,2-year-old seed-lings were planted in pots with appropriate water,light and moderate and severe drought treatments[(80±5),(65±5),(50±5),and(35±5)%of field water-holding capacity].Non-structural carbohydrates,carbon(C),nitrogen(N),and phosphorus(P)concentrations were measured in each plant component.The results show that:(1)With increasing drought,non-structural carbohydrates gradually increased in leaves,stems,and coarse roots,while gradually decreased in fine roots;(2)C concentrations of all were relatively stable under different stress levels.Phosphorous utilization of each component increased under light and moderate drought conditions,while N and P utilization efficiency of each plant component decreased under severe drought.Growth was mainly restricted by N,first decreasing and then increasing with increased drought;(3)There was a correlation between the levels of non-structural carbohydrates and C,N,and P in each component.Changes in N concentration affected the interconversion between soluble sugar and starch,which play a regulatory role in the fluctuation of the concentration of non-structural carbohydrates;and,(4)Plasticity analysis showed that P.yunnanensis seedlings responded to drought mainly by altering starch concentration,the ratio of soluble sugar to starch in leaves and stems,and further by alter-ing N and P utilization efficiencies.Overall,these results suggest that the physiological activities of all organs of P.yunnanensis seedlings are restricted under drought and that trade-offs exist between different physiological indicators and organs.Our findings are helpful in understanding non-structural carbohydrate and nutrient adaptation mechanisms under drought in P.yunnanensis seedlings.

Isolation of the Endophytic Fungi of Paris polyphylla var. yunnanensis and Their Effects on the Embryo Development of P. polyphylla var. yunnanensis Seeds

[Objective] This study aimed to isolate the endophytic fungi of Paris polyphylla var. yunnanensis and investigate their effects on the embryo development of P. polyphylla var. yunnanensis seeds. [Method] The endophytic fungi of P. polyphylla were isolated and identified morphologically, and their effects on the embryo development of P. polyphylla var. yunnanensis seeds were studied by using paraffin sectioning and microphotography. [Result] Nine endophytic fungi, i.e. P. polyphylla var. yunnanensis endophytic fungi PPYEF-1, PPYEF-2, PPYEF-3, PPYEF-4, PPYEF-5, PPYEF-6, PPYEF-7, PPYEF-8 and PPYEF-9 belonging to seven genera in five families, three orders were isolated from the rhizomes. Except PPYEF-4 (Cladosporium sp.), other fungi could promote the embryo development of the P. polyphylla var. yunnanensis seeds, mostly reaching the extremely significant or significant level. PPYEF-9 (Trichoderma sp.) resulted in the highest embryo length and embryo-emerging ratio. [Conclusion] This paper could provide a reference for the application of the endophytic fungi of P. polyphylla var. yunnanensis in the dormancy-breaking of P. polyphylla var. yunnanensis seeds.

RNA-seq analysis of Paris polyphylla var.yunnanensis roots identified candidate genes for saponin synthesis

Paris polyphylla Smith var.yunnanensis(Franch.) Hand.-Mazz.is a rhizomatous,herbaceous,perennial plant that has been used for more than a thousand years in traditional Chinese medicine.It is facing extinction due to overharvesting.Steroids are the major therapeutic components in Paris roots,the commercial value of which increases with age.To date,no genomic data on the species have been available.In this study,transcriptome analysis of an 8-year-old root and a 4-year-old root provided insight into the metabolic pathways that generate the steroids.Using Illumina sequencing technology,we generated a high-quality sequence and demonstrated de novo assembly and annotation of genes in the absence of prior genome information.Approximately 87,577 unique sequences,with an average length of 614 bases,were obtained from the root cells.Using bioinformatics methods,we annotated approximately 65.51% of the unique sequences by conducting a similarity search with known genes in the National Center for Biotechnology Information's non-redundant database.The unique transcripts were functionally classified using the Gene Ontology hierarchy and the Kyoto Encyclopedia of Genes and Genomes database.Of 3082 genes that were identified as significantly differentially expressed between roots of different ages,1518(49.25%) were upregulated and 1564(50.75%) were downregulated in the older root.Metabolic pathway analysis predicted that 25 unigenes were responsible for the biosynthesis of the saponins steroids.These data represent a valuable resource for future genomic studies on this endangered species and will be valuable for efforts to genetically engineer P.polyphylla and facilitate saponin-rich plant development.

云南松苗木N、P、K元素含量间异速生长关系对N、P添加的响应

为了解云南松苗木不同器官N、P、K的分布特征,分析云南松不同器官N、P、K含量间的分配差异,进一步探讨各器官N、P、K元素间的异速生长关系。采用N、P二因素三水平的方法开展不同施肥试验,并对苗木采样测定,研究云南松苗木N、P、K元素含量间异速生长关系对N、P添加的响应。结果表明,云南松苗木对N、P、K在不同器官间具有不同的分配策略,总体K变动较小,N、P波动较大且相似,在各器官中N、K分配表现为萌条>叶>茎>根;P表现为萌条>茎>叶>根。与对照相比,单施N、P和N、P配施均对云南松苗木生长的影响产生一定差异,总体来看N、P配施更能促进苗木的养分合理分配,有效缓解单施N、P对植株的限制作用,使养分处于一个平衡状态,进而促进苗木的生长。随施肥时间的推移,各器官营养元素间的异速生长关系也随之发生变化,且各器官表现为N、P的积累速度相接近,总体表现为K的积累速度低于N、P。总体而言,随施肥时间的改变,云南松苗木各器官之间元素的异速生长轨迹发生了显著变化,形成不同的营养元素分配模式。

A New Triterpene from the Orchid Pholidota yunnanensis

A new triterpene, 25-methylenecyclopholidonyl p-hydroxy-trans-cinnamate, was isolated from a orchid Pholidota yunnanensis. The structure elucidation and H, 1 13 C-NMR assignments were achieved by spectral and chemical method.

Effects of Arbuscular Mycorrhizal Fungi on the Physiology and Saponin Synthesis of Paris polyphylla var. yunnanensis at Different Nitrogen Levels

Arbuscular mycorrhizal fungi(AMF)are important members of the plant microbiome and affect the uptake and transfer of mineral elements by forming a symbiotic relationship with plant roots.Nitrogen(N),as an important min­eral element,can directly affect plant growth and development at different N levels.It has been confirmed that inoc­ulation with AMF can improve the efficiency of N utilization by plants.However,there are still fewer reports on the dynamic relationship between arbuscular mycorrhizal and plant secondary metabolites at different nitrogen levels.In this experiment,the physiological indexes and genes related to saponin synthesis were determined by applying differ­ent concentration gradients of nitrogen to the medicinal plant P.polyphylla var.yunnanensis infested by AMF as the test material.It was found that nitrogen addition increased the biomass,chlorophyll content,and nutrient content of above-and below-ground plant parts and increased the content of saponin content of P.polyphylla var.yunnanensis to some extent,but AMF inoculation increased the saponin content of P.polyphylla var.yunnanensis more significantly.AMF inoculation also promoted the expression of genes related to the saponin synthesis pathway,including 3-hy­droxy-3-methylglutaryl coenzyme A synthase(HMGS),squalene epoxidase 1(SE1),and cycloartenol synthase(CAS),which is in according with the accumulation of saponin in plants.It also may increase the saponin content of AMF plants by altering the expression of P450s and UGTs related to saponin synthesis.

云南松根际pH与不同磷水平下云南松幼苗根际pH变化

通过滇中红壤区域现实林分中不同林龄云南松根际与非根际土的pH分析和不同磷处理水平下培养的云南松幼苗根际pH的测定,探讨了云南松根际pH以及不同磷水平下云南松幼苗根际pH变化.结果表明,低磷环境下云南松根际土和非根际土的pH值在3.49～3.79之间;云南松根际土pH明显低于非根际土,二者之间的差异极显著,但在不同林龄组间差异不明显;云南松幼苗能使根系周围pH下降,随着供磷水平的降低,云南松幼苗根系使根际pH降低的能力加强.本试验对云南松的研究结果与对其它一些树种进行研究所取得的结果有所不同,根际酸化是云南松适应低磷环境的有效反应之一.

滇杨性别相关的SRAP分子标记

【目的】滇杨作为一种利用价值较高的雌雄异株树种,备受林业科学研究者的关注。由于个别不利性状的存在,限制了滇杨在生产上的有效推广。天然群体中,滇杨雌株极为罕见,导致其遗传基础较为狭窄,给其遗传改良工作带来一定的局限性。滇杨直到成年开花后,才能辨别其性别,这为研究其雌株的濒危以及雌雄植株的分别利用带来较大的困难。因此,亟需建立一种快速且准确的性别早期鉴定方法,以加速研究并解决上述问题。【方法】试验利用SRAP技术,以60株已知性别的滇杨个体为材料,筛选与滇杨性别相关的分子标记,并利用获得的SRAP标记,对30株未知性别的滇杨幼苗进行性别鉴定,并对鉴定结果的一致性进行比较。【结果】在参试的20对SRAP引物中,2对引物可在已知性别的60株滇杨植株间产生差异条带,且均为雄性相关的特异性条带。其中引物Me1可以在1 600 bp处扩增出特异性条带,而另一对引物Me10的扩增条带在710 bp处。利用这2对SRAP引物对30株苗期滇杨进行性别鉴定,2对引物所得鉴定结果完全一致。【结论】通过试验可初步认为,试验所筛选出的2对SRAP分子标记引物,可以准确对滇杨早期性别进行鉴定。研究结果可为滇杨不同性别植株的分别利用提供早期选择,也可为雌株濒危的原因提供理论参考。

NP配施对平茬后云南松苗木N、P、K化学计量比的影响

为了解NP配施对平茬后云南松(Pinus yunnanensis)苗木各器官N、P、K化学计量比的影响,分析云南松苗木不同器官(根、茎、叶、萌条)的ω(N)∶ω(P)、ω(N)∶ω(K)、ω(P)∶ω(K)化学计量比的季节变化特征,探讨各器官间N、P、K化学计量比的相关性及其变异来源。采用N、P二因素三水平的3×3回归设计开展不同施肥试验,并对苗木采样测定,研究NP配施对平茬后云南松根、叶、茎及其萌条N、P、K化学计量特征的影响。结果表明:平茬后云南松苗木不同器官的营养元素分配没有统一的规律,展现出丰富的变异。随着施肥季节的变化,ω(N)∶ω(P)在根、茎和萌条中逐渐下降,在叶中先下降后上升,但总体差异不大。单施N肥、P肥和NP配施均对云南松苗木生长的影响产生一定差异,总体来看NP配施更有利于促进苗木的生长,且以处理5(N_(1)P_(1))表现为极显著(P<0.01)。云南松苗木各器官N、P、K化学计量比主要受N×P交互作用的影响,其次是N,影响最小的是P。除在根和叶中ω(N)∶ω(P)与ω(N)∶ω(K)之间相关性发生改变之外,其余两两间的正负相关性均保持不变,而ω(N)∶ω(P)与ω(P)∶ω(K)、ω(N)∶ω(K)与ω(P)∶ω(K)的相关性均随着施肥季节的变化相关性发生改变,且相关系数降低,分别受P和K的调控。平茬改变植株体内的营养元素含量,不同施肥处理促使云南松各器官中N、P、K化学计量特征差异极显著(P<0.01)。NP配施可以有效缓解单施N肥、P肥对植株的限制作用,使养分处于一个平衡状态,从而满足植株对生长的需要。

组织培养结合秋水仙素诱导滇杨多倍体的研究

利用组织培养结合秋水仙素对滇杨进行多倍体诱导,以期获得滇杨多倍体植株。结果表明:组织培养结合秋水仙素诱导滇杨产生多倍体的较优组合为秋水仙素浓度为80 mg/L下处理30 d或在90 mg/L下处理20～30 d,此时,多倍化诱导率最高可达18.6%。对滇杨多倍体植株与正常植株进行外部形态、染色体数目及单位叶面积内气孔数目的观察,发现多倍体植株与正常株形态差异明显,染色体数目增加为76条,叶表皮气孔变大,同时,叶片中叶绿素含量约为二倍体的1.5倍。

滇杨的增殖及生根培养研究

以滇杨(Populus yunnanensis Dode)组织培养获得的不定芽为原材料进行增殖培养和生根培养,考察培养基中激素浓度对不定芽增殖和试管苗生根的影响。结果表明,MS+0.1 mg/L 6-BA+0.02 mg/LNAA是适合滇杨不定芽增殖的培养基。1/2MS培养基中添加0.02 mg/L NAA有利于试管苗的生根。

滇杨不同外植体分化培养研究

以MS为基本培养基,采取滇杨萌生出的不同外植体,附加不同浓度的激素筛选诱导分化培养方案。结果表明:滇杨叶片不定芽诱导的较优培养基为MS+6-BA 1.0 mg/L+NAA 0.05 mg/L;滇杨叶柄和嫩茎不定芽诱导的较优培养基均为:MS+6-BA 0.5 mg/L+NAA 0.05 mg/L;叶片、叶柄以及嫩茎其芽的诱导分化率分别是40%,80%,20%。试验结果可为滇杨遗传改良、种质资源保存及快速繁殖提供理论及实践指导。

滇杨组培苗的移栽技术研究

对滇杨组培苗移栽过程中的几个技术环节进行探讨。结果表明:组培苗进行移栽前预处理后再移入炼苗基质,可明显提高其成活率;炼苗基质采用化学灭茵或高温灭茵均可显著提高移栽成活率;7种炼苗基质中,以河沙︰腐质土︰蛭石=1︰1︰1组成的基质为最佳。

滇杨多倍体的诱导研究

利用组织培养技术,对滇杨进行多倍体诱导,以期获得滇杨多倍体新种质。结果表明:滇杨叶柄预培养5 d后,转接在附加有40%秋水仙素的分化培养基中诱导处理2 d,可获得较好的诱导效果,诱变率高达50.96%。MS+IBA0.10 mg/L+NAA0.10 mg/L为滇杨多倍化组培苗的最佳生根培养方案。对10株性状变异明显的多倍化滇杨植株进行染色体数目观察,发现4株为四倍体,另6株仍为嵌合体。

高山松与亲本种多种群在高海拔生境下的苗期适应性研究

为了检测高山松在高海拔生境下苗期适应性是否优于其亲本种(油松与云南松),阐明高山松相比于亲本种在其特有的高原生境下的苗期适应性特点,选择了代表高山松及其亲本种遗传变异的多个种群,在高海拔生境下对比分析了3个种13个苗期适应性性状指标。结果表明:大部分苗期适应性性状指标在种间及种内群体间差异显著,主要变异存在于种间及种内群体间,并且10月保存率、10月封顶率和二次生长率等性状方差分量大部分居于种间,种内变异稳定,是体现种间苗期适应性差异的重要指标。高山松大多数的适应性指标居于亲本种之间,其出苗率、保存率高于云南松,低于油松;封顶期晚于油松30d左右,而云南松不封顶(2年生苗部分封顶);在苗木生长表现上高山松超过亲本种,苗高、叶子红色和紫色比例也大于亲本种,且2年生苗木有二次生长;油松的封顶率和保存率为最高,云南松相应指标为最低值。这些结果表明高山松较油松有更长的生长期,比云南松有更强的适应性,是其在高海拔生境下发展成种的部分因素。

云南松根际与非根际磷酸酶活性与磷的有效性

通过对采集自滇中红壤区域的不同林龄云南松的根际与非根际土,以及不同磷补充量下根袋法培养的距云南松幼苗不同距离土壤的磷酸酶和有效磷的测定,探讨了根际与非根际土的磷酸酶变化及其与有效磷之间的关系。云南松根际及非根际都含有大量的磷酸酶,且这些磷酸酶的活性在根际土中较高。酸性磷酸酶是云南松土壤中的主要酶类,中性磷酸酶次之。培养实验结果显示,无论是根际土、近根际土还是远根际土,外界补充的磷量越低,其酸性和中性磷酸酶的活性越高,反映出磷饥饿对磷酸酶的诱导。但磷酸酶的变化同土壤有效磷的相关性不显著。因而酶数量增加不是云南松对磷饥饿的唯一适应性机制,它的变化或许只是磷胁迫下的一种症状。

棘腹蛙、棘胸蛙和双团棘胸蛙血细胞的比较研究

为棘腹蛙、棘胸蛙和双团棘胸蛙的人工饲养、两栖类血液生理学和比较细胞学研究提供基础资料,采用常规血涂片Wright染色法对水城地区的棘腹蛙(Paa boulengeri)、棘胸蛙(Paa spinosa)和双团棘胸蛙(Paa yunnanensis)的血细胞进行显微观察、形态参数测定。结果表明:3种棘蛙的血细胞在形态上区别不大,大小上存在差异。

油松×云南松人工杂种与亲本种在高山松生境下的苗期指标对比分析

在油松与云南松人工杂交并获得杂种的基础上,采用多杂交组合杂种、亲本种和高山松种子在高山松最适宜生境下(西藏林芝)进行了田间对比试验,并通过苗期的适应性指标和生长指标来论证高山松及其亲本种间生态分化及杂种高海拔特殊生境适应性的来源。结果表明:1)多数适应性指标上,油松×云南松杂种苗木与高山松表现相似;2)油松×云南松不同杂交组合苗木间的适应性指标有一定幅度变异,一些群体有更高的封顶率和保存率;3)油松苗木的适应性指标最高,云南松最低,高山松适应性指标介于两者间;4)高山松生长指标最高,油松生长指标最低;5)与亲本不同,高山松与杂种苗木在第2年均有二次生长现象,且比率相似;6)最好杂交组合苗木生长与高山松相似,高山松与人工杂种苗木在高海拔生境下表现了突出的适应性与生长综合优势,具有在该生境条件下优于亲本种的发展潜力。以上结果表明,在特定条件下种间杂种具有一定的生态适应性优势,生态选择在高山松高海拔特殊生境下进化成种的过程中起到了关键作用。

滇重楼和毛重楼花粉活力和柱头可授性的研究

用TTC法测定了滇重楼和毛重楼花粉的活力,用联苯胺—过氧化氢法测定了其柱头的可授性。结果表明滇重楼的花粉活力在散粉后第1天活力较高以后则逐渐下降,在第2天和第19天花粉活力则急剧下降,但能维持20～23d,在整个花期中基本都具有活力。毛重楼的花粉寿命约为4d,第2天花粉活力达到最大值,第3天后花粉活力急剧下降,总体活力较低。滇重楼和毛重楼的柱头在整个花期中几乎都具可授性,但滇重楼在11～13d时柱头可授性最强,毛重楼在第5天可授性最强。两种重楼植物花粉活力较高的时期与柱头可授性较强的时期不一致,但柱头可授性较强的时间与分泌黏液较多的时间基本一致。

磷胁迫和不同栽植方式下云南松幼苗生物量及其分配的变化

研究云南松与旱冬瓜混栽对磷胁迫的反应。通过温室砂培试验研究了云南松与旱冬瓜2树种不同栽植方式下云南松幼苗的生长、生物量及其分配。供试营养液为Hoagland营养液,设置了缺磷(0 mg.L-1)、低磷(31 mg.L-1)和适磷(62 mg.L-1)3个水平。结果表明:(1)磷胁迫下,纯栽植或与旱冬瓜混栽,云南松幼苗的苗高、地径、根长、地上、地下和全株干重均低于对照,在低磷胁迫时差异不显著,缺磷时差异显著(P<0.05);随着磷胁迫程度增加云南松幼苗根冠比增加。(2)不同栽植方式对云南松幼苗的影响表现为,磷胁迫下,随着旱冬瓜混栽比例(0、1、2株)增加,云南松幼苗的苗高、地径、根长、根尖数、地上、地下、全株生物量、根冠比减少。磷胁迫可降低云南松幼苗的生物量,但它可通过地上部与地下部干物质分配来适应磷营养的胁迫;苗期混交旱冬瓜对云南松幼苗的生长有一定影响,但对旱冬瓜的生长是有利的;云南松幼苗以降低地下部分的生长来适应磷胁迫下地上部分与旱冬瓜幼苗对光照和空间的竞争。