Heterogeneity of Chlorophyll Fluorescence of Phyllostachys edulis cv.Pachyloen Leaves

[Objective] This study aimed to explore the heterogeneity of chlorophyll flu- orescence of Phyllostachys edulis cv. Pachyloen leaves. [Method] Using the chloro- phyll fluorescence system and fluorescence imaging system in the Mini-IMAGING- PAM, the chlorophyll fluorescence of Phyllostachys edulis cv. Pachyloen leaves were measured and the fluorescence parameters were calculated. [Result] The homo- geneities of the maximal quantum yield of PS II （Fv/Fm） and the leaf absorptivity （Abs） were higher, with CVs （Coefficient of Variation） of 1.58%-1.68% and 1.75%- 2.12% respectively, while the heterogeneities of the actual quantum yield （Y）, non- photochemical quenching （NPQ/4）, photochemical quenching（qP） and relative photo- synthetic rate （PS/50） were higher, with CVs of 9.60%-14.23%, 10.23%-13.02%, 11.92%-13.02% and 11.15%-17.74% respectively. The trends of heterogeneity change in Y, qP and PSI50 were basically the same with transversely higher het- erogeneity at two sides and lower heterogeneity in the middle, namely with larger CVs at the edges of leaves and smaller ones around the midrib. Longitudinally, the coefficients of variation of Y, qP and PS/50 decreased gradually （from top to bot- tom）, which indicated that the heterogeneity declined from the leaf tip to the base. The trends of heterogeneity change in PS/50 and NPQ/4 were opposite. [Conclusion] The fluorescence parameters of Phyllostachys edulis cv. Pachyloen leaves revealed different heterogeneity.

毛竹(Phyllostachys edulis)光系统Ⅰ基因LhcaPe02全长的克隆与序列分析

根据大麦Lhca2基因序列的保守区设计PCR引物,采用RT-PCR技术与RACE技术,从毛竹中克隆到捕光叶绿素a/b结合蛋白基因Lhca2全长。该基因序列从第74 bp开始到第862 bp含有1个开放阅读框和一个中止密码子,编码262个氨基酸。在5′端有73 bp的非编码区,在3′端含有234 bp的非编码区和14 bp的Poly(A)。此基因定名为LhcaPe02(GenBank:EU121593)。此外,通过DNASTAR软件预测,该基因编码的蛋白质等电点和分子量分别为6.14和28 095.11 Da,其编码的氨基酸序列与光合作用密切相关的位点包括1个硫解酶活性部位(thiolases active site),2个4Fe-4S铁还原氧化蛋白的信号区(4Fe-4S ferredoxins,iron-sulfur binding region signature)等。通过Blast比较分析,LhcaPe02序列和编码的氨基酸序列分别与玉蜀黍、大麦和水稻的相似性较高。

毛竹Phyllostachys edulis retrotransposon 7(PHRE7)转座子的克隆与鉴定

长末端重复序列(LTR)反转录转座子广泛存在于植物基因组中,本质是一段可移动的脱氧核糖核酸(DNA)序列。大多数LTR反转录转座子在外界环境变化下能够被激活转录,对环境变化做出响应。为研究毛竹基因组中的LTR反转录转座子的转录活性及在非生物环境胁迫下表达量的具体变化,克隆和鉴定了1个毛竹Phyllostachys edulis反转录转座子PHRE7。该转座子全长为6 073 bp,属于Ty1-copia家族中的Tork分支,LTR序列相似性为96.7%,插入时间为126.923万a前。对毛竹实生苗分别进行辐照(30,50,70 Gy),甲基化抑制剂(50,100,150μmol·L^-1),高温(42℃),低温(4℃),高盐(0.1,0.2,0.3 mol·L^-1)等5种不同胁迫处理,通过定量荧光聚合酶链式反应(PCR)检测,PHRE7在INT,RT和RH等3个结构域中的表达量仅在辐照及0.2~0.3 mol·L^-1高盐处理下随处理强度的上升而下降,其余所有处理(甲基化抑制剂、高温、低温、高盐0.1~0.2 mol·L^-1)的表达量都随处理强度呈上升趋势。这些结果表明:PHRE7转座子是一个具有转录活性的LTR反转录转座子,且外界非生物环境胁迫对其表达模式有较大影响,表明PHRE7转座子能够响应外界环境变化。

Factors affecting soil organic carbon in a Phyllostachys edulis forest

Phyllostachys edulis plays an important role in maintaining carbon cycling.We examined the effects of soil properties on organic carbon content in a P.edulis forest on Dagang Mountain,Jiangxi Province,China.Based on correlation and stepwise multiple regression analyses,the effects of seven soil factors on organic carbon and their sensitivities to change were studied using path and sensitivity analyses.The results revealed differences in the interconnections and intensities of soil factors on organic carbon.Soil porosity,field capacity,and ammonium nitrogen levels were the main factors affecting organic carbon in the ecosystem.Soil porosity had a strong direct effect on organic carbon content and a strong indirect effect through field capacity.Field capacity and ammonium nitrogen levels mainly affected organic carbon directly.Field capacity,soil porosity,and ammonium nitrogen content,as well as bulk density,b-glucosidase activity,and invertase activity,were sensitive factors.Polyphenol oxidase activity was insensitive.Our study provides a theoretical basis for understanding the effects of soil factors on organic carbon,which can be utilised to improve P.edulis forest management strategies and promote carbon sequestration capacities.

Modeling of the height–diameter relationship using an allometric equation model:a case study of stands of Phyllostachys edulis

Understanding the relationship between tree height （H） and diameter at breast height （D） is vital to forest design, monitoring and biomass estimation. We developed an allometric equation model and tested its applicability for unevenly aged stands of moso bamboo forest at a regional scale. Field data were collected for 21 plots. Based on these data, we identified two strong power relationships： a corre- lation between the mean bamboo height （Hm） and the upper mean H （Hu）, and a correlation between the mean D （Din） and the upper mean D （Du）. Simulation results derived from the aUometric equation model were in good agreement with observed culms derived from the field data for the 21 stands, with a root-mean-square error and relative root-mean-square error of 1.40 m and 13.41%, respectively. These results demonstrate that the allometric equation model had a strong predictive power in the unevenly aged stands at a regional scale. In addition, the estimated average height-diameter （H-D） model for South Anhui Province was used to predict H for the same type of bamboo in Hunan Province based on the measured D, and the results were highly similar. The allometric equation model has multiple uses at the regional scale, including the evaluation of the variation in the H- D relationship among regions. The model describes the average H-D relationship without considering the effects caused by variation in site conditions, tree density and other factors.

Dynamic Changes of Chemical and Mechanical Properties of Moso Bamboo (Phyllostachys edulis) Culms under Different Storage Conditions

The durability of bamboo based on its chemical and mechanical properties is a crucial consideration for the wood-based industry due to its vulnerability to insects and microorganisms.We investigated the dynamic changes of chemical and mechanical properties of Phyllostachys edulis under air-dry and water storage conditions for 3,6 and 12 months respectively.The chemical properties of P.edulis bamboo culms varied with culm age but insignificantly with culm height.The mechanical properties of P.edulis culms showed an increasing trend with culm age.Water storage condition decreased the ash,SiO2 and lignin content,but increased the ethanol-benzene extracts.It also created an anaerobic environment for bamboo culms in which only anaerobic respiration was possible contributing to reducing the content of soluble sugar and starch,thereby beneficial for decreasing the damage from insects and microorganisms.Moreover,the water storage conditions could maintain culm mechanical performance better.Therefore,the indigenous practice of local people to store bamboo culms in ponds has good science behind it and water storage practices of bamboo culms was recommended.

Changes in foliar nitrogen resorption of Phyllostachys edulis with culm development

Leaf nitrogen resorption is very important to Phyllostachys edulis development because the withdrawn nitrogen can help newly emerging and growing culms.However, few studies have focused on the ontogenetic changes in leaf nitrogen resorption of P. edulis. Here, we examined the variability in mature leaf nitrogen concentrations(Nm), nitrogen resorption efficiency(NRE) and proficiency(NRP or Ns) and leaf-level nitrogen use efficiency(NUE) of the current-, 3 rd-and 5 th-year culms in P.edulis stands under extensive management. Analyses of variance and correlation indicated that patterns of Nm,NRP, NRE and NUE were markedly affected by culm age and leaf nitrogen status. Nm, Nsand NRE were significant higher in younger(current-year) culms with 1-year lifespan leaves, while NUE was markedly higher in older(3 rd-or 5 th-year) culms with 2-year lifespan leaves. Significant linear correlations between Nmand NRP, NRE and NUE,Nmand NUE, Nsand NRE were found for each culm age,and Nmwas significantly positively correlated to NRE for all culms pooled. Higher proficiency in older culms led to higher NUE and lower NRE, these relationships can be modulated by Nm, which in turn, is restrained by leaf N availability and acquisition. Our results revealed that at the intraspecific level, P. edulis can adjust its leaf NRE, NRP,and leaf-level NUE in concert with culm development.Understanding nitrogen resorption characteristics and NUE of P. edulis can help decision-makers design appropriate deforestation strategies and achieve precise N fertilization for sustainable bamboo forest management.

Thermal Decomposition of Bamboo Phyllostachys Edulis Pretreated with Ionic Liquids-Water Mixtures

The ionic liquid (IL)-water mixture pretreated bamboo (Phyllostachys edulis) samples were applied in the research of thermal decomposition. [BMIM]Cl (1-Butyl-3-methylimidazolium chloride)- water and [BMIM]BF4 (1-Butyl-3-methylimidazolium tetrafluoroborate)-water were used in pretreatment process. Compositions of the untreated bamboo and pretreated bamboo were compared. The results of X-ray diffraction analysis (XRD) were analyzed to explain the effect of ILs mixture on cellulose crystalline structure. The pretreated cellulose with [BMIM]Cl&#45 water mixture was tend to produce the more gaseous products, which were associated with the decomposition rate. The behavior of more CO and CH4 gaseous products and less tar in the thermal decomposition products could be attributed to ILs-water mixture pretreatment process. The potential and some problems of ILs-water mixture pretreatment method applied in thermal chemical conversion methods were also discussed.

毛竹皆伐后针阔混交次生林群落短期动态

为进一步了解毛竹皆伐后,人工促进天然更新形成的针阔混交次生林群落的恢复动态,以浙江省磐安县黄檀林场为研究区,设置140 m×60 m(0.84 hm^(2))固定样地,于2022年4月和2023年10月进行2次调查,分析群落物种组成、径级结构及种群更新等方面的动态变化。结果表明:(1)2022—2023年,群落组成变化不大,仅玉兰退出群落;重要值前7位的物种均相同,且均以杉木占据绝对优势。(2)样地内木本植物个体数由836株减少到812株,其中死亡58株,新增34株(胸径≥3 cm)。(3)群落植株个体平均胸径由14.16 cm增加到14.87 cm,增加了5.0%。两期群落植株个体数径级均呈倒“J”型分布,随径级的增加个体数减少。(4)2022—2023年,样地内胸径≥3 cm的个体年均死亡率和新增率分别为4.79%和2.85%,种群年实际更新率为-1.94%,但主要物种的死亡率、新增率和种群更新差异较大。总体上群落物种组成和结构总体稳定,人工干预后恢复效果良好。

毛竹PheMADS47a基因启动子克隆及功能分析

MADS-box转录因子家族成员SVP作为开花调控网络的中枢调控因子,也可在植物芽发育中发挥作用并参与逆境及激素途径。为探究毛竹(Phyllostachys edulis)PheMADS47a基因启动子的功能,本研究克隆了PheMADS47a约2000 bp的启动子序列,构建了不同长度5′端缺失启动子(P1:1949 bp、P2:825 bp、P3:578 bp、P4:493 bp、P5:230 bp、P6:79 bp)的植物表达载体(含报告基因GUS),遗传转化至拟南芥(Arabidopsis thaliana),通过β-葡萄糖苷酸酶(GUS)染色分析其活性。结果显示,PheMADS47a基因启动子中存在脱落酸(ABA)、赤霉素(GA)、吲哚-3-乙酸(IAA)、茉莉酸甲酯(MeJA)、水杨酸(SA)等激素应答元件及低温、干旱等非生物胁迫响应元件以及众多光响应元件。在10和15 d幼苗期,除P4启动子外,其他长度的启动子片段均有活性;在23和33 d苗期,P1~P3启动子活性强。全长启动子P1驱动的GUS基因在拟南芥的根、茎、叶、花序、角果基部均有表达,而在角果和侧枝中无表达。PheMADS47a基因启动子活性明显受MeJA、SA促进,不同长度的启动子活性对ABA、GA和IAA的应答不同。不同长度的启动子活性均可被黑暗、干旱、NaCl、4℃低温抑制。推测-578~-493 bp是该启动子活性的关键区域,该启动子是MeJA诱导型启动子。本研究为应用PheMADS47a基因启动子和探究该基因的调控机制提供了理论依据。

毛竹种子形成过程中形态解剖学特征

为揭示毛竹(Phyllostachys edulis)种子生长过程中胚、胚乳、果皮及种皮的发育规律,以桂林海洋山一带的开花毛竹为材料,采集并固定不同时期的开花毛竹种子,使用石蜡制片法制片,显微镜观察胚、胚乳、果皮与种皮的结构变化。结果表明:(1)毛竹花后1 d完成受精并形成合子,合子休眠时长约为5 d。经过原胚阶段、胚芽鞘阶段、幼胚生长阶段及成熟胚阶段,花后40 d的胚发育基本成熟,其发育类型为禾本型。(2)胚乳发育早于胚的发育,其发育类型为核型胚乳,历经游离核、细胞化、细胞分化及成熟4个阶段。在细胞分化阶段胚乳细胞分化形成淀粉胚乳细胞以及糊粉层细胞,淀粉胚乳细胞主要积累淀粉粒,糊粉层细胞主要积累矿质元素、脂类及蛋白质等。(3)花后1 d的果皮细胞及珠被细胞形状规则、内含物丰富、结构完整;花后10~20 d,内、外果皮及珠被细胞层数递减,形状发生改变,中果皮细胞开始出现淀粉粒;花后20~60 d,随着胚乳细胞营养物质的积累及体积的增大,向外产生机械压力,中果皮细胞逐步消解仅剩残留的细胞壁;外果皮细胞呈长条形,细胞壁加厚,与残留的中果皮细胞壁组成保护结构;皮层在种子发育过程中主要起到合成、运输营养物质以及保护胚和胚乳发育的作用。该研究结果为完善毛竹生殖生物学相关内容以及了解竹类植物胚和胚乳的发育提供了理论依据。

硅肥和生物质炭添加对毛竹林土壤活性硅组分的影响

【目的】探究施用硅肥和生物质炭对毛竹Phyllostachys edulis人工林土壤水溶性硅、生物可利用硅、有机结合态硅、铁锰氧化物结合态硅、无定形硅(生物成因和成土成因)、总硅质量分数的影响;分析土壤水溶性硅与土壤活性硅组分和土壤特性之间的关系。【方法】遵循析因试验设计,共4个处理,分别为对照(S0B0)、施用硅肥450 kg·hm^(−2)(S_(1)B_(0))、施用生物质炭10 t·hm^(−2)(S_(0)B_(1))、硅肥和生物质炭配施(S_(1)B_(1))。【结果】硅肥提高毛竹林土壤中生物可利用硅和铁锰氧化物结合态硅。生物质炭增加无定形硅库(主效应)。硅肥和生物质炭配施提高了土壤水溶性硅。硅肥、生物质炭添加和土层深度均改变土壤活性硅组成,促进它们之间的相互转化。土壤有机碳质量分数与土壤活性硅组分存在极显著正相关(P=0.002)。此外,硅肥添加可直接和间接提高土壤水溶性硅,介导土壤硅组分之间转化,并提高土壤活性硅库容。生物质炭添加提高土壤水溶性硅积累,一方面增加植物源硅,另一方面提高土壤pH,提高成土成因无定形硅质量分数,调控土壤硅在各组分分布。【结论】施用硅肥和生物质炭促进了毛竹人工林土壤活性硅的积累,并改变了其相互转化,但其转化路径存在不同。

土壤二氧化碳及氧化亚氮排放对毛竹扩张的响应及机制

在全球变化背景下,森林土壤温室气体减排增汇研究,尤其是毛竹Phyllostachys edulis扩张林土壤温室气体排放响应研究日益增多。综述了毛竹扩张林土壤温室气体响应及其机制。毛竹依靠其强大的竹鞭迅速生长,不断向周围林分扩张,短期内即可完成生长。由于其特殊的繁殖方式及强大的扩张能力,许多邻近原生林被毛竹扩张形成混交林,逐渐演变为毛竹纯林。毛竹扩张对原生生态系统影响不断加剧,改变了生态系统物质循环过程,导致土壤碳氮输入和转化失衡,进而影响温室气体排放。氧化亚氮(N2O)和二氧化碳(CO_(2))是2种重要的温室气体,土壤是与CO_(2)及N2O排放相关的重要碳氮库,土壤理化性质、凋落物分解及土壤微生物群落结构等共同决定土壤温室气体排放。近年来,毛竹扩张面积不断增大,导致扩张区域内土壤环境不断发生改变,在一定程度上影响了N2O和CO_(2)排放。毛竹扩张后土壤pH升高,凋落物分解速率加快,土壤碳氮增加。毛竹扩张对土壤CO_(2)排放具有促进作用,扩张林土壤丛枝菌根真菌丰度增加,且通过调节氨氧化古菌、亚硝酸还原酶基因和N2O还原酶基因等N2O相关功能基因丰度影响硝化与反硝化作用,从而进一步影响土壤N2O排放。未来的研究应进一步探究其内在机制,为扩张毛竹林科学管理和温室气体减排提供理论支持。

毛竹种子发育过程中形态和生理特性变化

【目的】揭示毛竹Phyllostachys edulis种子发育过程中形态和生理特性的动态变化规律,为人工进行宏观调控、获得优质毛竹种子提供理论参考。【方法】以桂林海洋山一带的开花毛竹为材料,采集开花后不同时期的毛竹种子,对其发育过程中的形态和生理指标进行观察测定。【结果】1)花后10~30 d毛竹种子胚和胚乳细胞分裂分化活动剧烈,种子长、宽、厚等性状增长速度较快;花后40~60 d种子胚和胚乳细胞形态发育成熟,种子长、宽、厚等性状增长速度减缓。2)不同发育时期毛竹种子的可溶性糖、粗淀粉及可溶性蛋白含量存在显著性差异(P <0.05),可溶性糖与粗淀粉含量均呈单峰曲线变化,可溶性蛋白含量在4.89%~5.82%范围内波动变化。3)不同发育时期毛竹种子的活性氧含量和抗氧化酶活性具有显著性差异(P <0.05),H_(2)O_(2)含量与POD、CAT活性呈单峰曲线变化,而O_(2)^(-)含量与SOD活性变化趋势相似。4)不同发育时期毛竹种子的内源激素含量存在显著性差异(P <0.05),IAA、GA_(3)及ZR含量均呈先升后降再升的趋势,ABA含量则呈单峰曲线变化,(IAA+GA_(3)+ZR)/ABA的比值呈先降后升的趋势,在花后40 d达到最小值,为1.001。【结论】花后10~30 d抗氧化酶活性以及内源激素含量逐渐升高,有效促进毛竹种子细胞代谢与分裂分化;花后30~60 d毛竹种子的分化活动基本结束并进入营养积累阶段,该时期抗氧化酶活性和内源激素逐渐下降,营养物质含量进一步增加。

秸秆及其生物质炭输入对毛竹林土壤氨氧化微生物与氮循环相关酶活性的影响

【目的】探讨不同外源碳(玉米Zea mays秸秆及其生物质炭)输入对亚热带毛竹Phyllostachys edulis林土壤氨氧化微生物和氮循环相关酶活性的影响,以揭示其对土壤硝化作用的生物学机制。【方法】以亚热带毛竹林为研究对象,设置3个处理:对照(不施用)、施用玉米秸秆(5 t·hm^(-2))和施用玉米秸秆生物质炭(5 t·hm^(-2)),进行为期1 a的野外试验。于试验的第3个月和第12个月采集土壤样品,利用荧光定量聚合酶链式反应(qPCR)及高通量测序技术分析不同处理下毛竹林土壤氨氧化微生物群落结构特征、酶活性与总硝化速率的变化规律。【结果】与对照相比,秸秆及其生物质炭处理显著改变了土壤氨氧化细菌(AOB)丰度和群落结构(P<0.05),而对氨氧化古菌(AOA)丰度和群落结构无显著影响;秸秆处理显著提高土壤氨氧化细菌丰度及其优势菌属亚硝化螺菌属Nitrosospira的相对丰度、蛋白酶活性和脲酶活性以及总硝化速率,而生物质炭处理则使其显著降低(P<0.05)。相关性分析表明:氨氧化细菌丰度及其优势菌属亚硝化螺菌属的相对丰度、蛋白酶活性和脲酶活性与铵态氮(NH_(4)^(+)-N)、硝态氮(NO_(3)^(-)-N)、水溶性有机氮(WSON)和土壤总硝化速率呈正相关(P<0.05)。冗余分析表明:土壤NH_(4)^(+)-N、NO_(3)^(-)-N、微生物生物量氮(MBN)和水溶性有机氮质量分数对氨氧化细菌群落结构存在显著影响(P<0.05)。【结论】秸秆生物质炭输入通过降低土壤NH_(4)^(+)-N、NO_(3)^(-)-N和水溶性有机氮质量分数,从而降低土壤氨氧化细菌丰度及其优势菌相对丰度,削弱氮循环相关酶活性,进而抑制土壤硝化作用。与秸秆直接输入相比,秸秆生物质炭有利于减少毛竹林土壤氧化亚氮气体排放以及土壤氮素损失。

毛竹生物炭磁性材料对孔雀石绿染料的超声吸附

以毛竹为原料制备毛竹生物炭(PEC),采用共沉淀法制备了毛竹生物炭磁性材料(Fe_(3)O_(4)@PEC),并对其进行了FTIR、XRD和SEM表征及比表面积与孔径分析。通过单因素实验优化了Fe_(3)O_(4)@PEC吸附孔雀石绿染料的工艺条件,并对其吸附过程进行了动力学和热力学研究。研究结果表明:Fe_(3)O_(4)@PEC吸附孔雀石绿染料的最优条件为孔雀石绿质量浓度40 mg/L、溶液pH 6.5、吸附剂Fe_(3)O_(4)@PEC加入量0.4 g/L、超声吸附时间40 min、超声温度30℃、超声功率350 W。最佳条件下对孔雀石绿的吸附率高达95.01%。重复利用三次吸附率仍可达87.12%。吸附过程符合准二级动力学吸附方程和Langmuir等温吸附模型。

低温促进毛竹叶片类黄酮合成及相关基因的表达模式分析

类黄酮在植物耐低温胁迫方面发挥着重要作用,为揭示低温对毛竹(Phyllostachys edulis)叶片中类黄酮合成的影响,采用分光光度法测定了不同生长时期和低温胁迫下毛竹幼苗叶片中的类黄酮含量,通过生物信息学方法对毛竹类黄酮早期生物合成关键酶基因进行了鉴定,并用qPCR方法分析了其表达模式。结果表明,随着叶片的生长,类黄酮含量呈现先升高后降低的趋势,而低温下,功能叶片中类黄酮含量则呈现上调趋势,且在8 h时达极显著水平。在毛竹基因组中鉴定了类黄酮早期生物合成3个酶基因家族共29个成员,包括20个查尔酮合酶基因(PeCHSs)、8个查尔酮异构酶基因(PeCHIs)和1个黄酮-3-烃化酶基因(PeF3H1),这些基因的启动子中均含有响应低温及其他非生物胁迫的调控元件。PeCHSs倾向在根和叶中表达,而PeCHIs为组成型表达。在不同生长时期的叶片中,仅PeCHS1表达与类黄酮的含量变化趋势一致;而低温胁迫下,3个PeCHSs、2个PeCHIs和PeF3H1在功能叶片中呈上调表达,与类黄酮含量变化趋势一致。因此,毛竹可能通过提高类黄酮早期生物合成酶基因的表达量促进类黄酮的合成来响应低温胁迫。

黄槽毛竹叶绿体基因组及毛竹种下分类群的叶绿体基因组序列比较

【目的】对黄槽毛竹Phyllostachys edulis f.luteosulcata叶绿体基因组进行组装、注释和分析,并与其他毛竹Ph.edulis种下分类群比较叶绿体遗传信息差异和系统进化关系。【方法】利用高通量二代测序数据组装了黄槽毛竹的叶绿体基因组序列并进行了基因结构注释,通过生物信息学分析软件进行其组成、密码子偏好性、重复序列等分析。通过序列比对和系统进化分析,比较不同毛竹种下分类群的系统进化关系和基因组序列差异。【结果】黄槽毛竹的叶绿体基因组是长度为139678 bp,包含132个基因的双环DNA;包含蛋白质编码基因85个、核糖体RNA(rRNA)8个和转运RNA(tRNA)39个。该基因组的最优密码子偏好使用以A/U碱基结尾,包含49个重复序列、55个简单重复序列(SSR)位点,其中简单重复序列最多的类型为A/T。利用叶绿体基因组序列构建的系统发育分析显示:黄槽毛竹与其他毛竹种下分类群共同组成单系分支,且与毛竹原变种Ph.edulis var.pubescens亲缘关系最近。基于7个毛竹种下分类群的叶绿体基因组序列和编码基因特征分析显示:毛竹种下分类群之间存在着编码基因数量和结构差异,编码区和非编码区存在较低程度序列变异。【结论】首次对毛竹种下分类群的叶绿体基因组进行比较分析,并揭示了这些种下分类群存在着一定程度的序列差异。这些变异资料可以用于毛竹种下分类群的鉴定比较。图5表2参27.

利用主成分分析对不同覆盖时间毛竹林土壤质量进行评价——以浙江长兴毛竹林为例

为探究不同覆盖时间对毛竹(Phyllostachys edulis)林土壤理化性质的影响,选择不同覆盖时间(覆盖1 a、连续覆盖2、3 a)的毛竹林,测定并分析了不同土层深度(d)(0<d≤20 cm、20 cm<d≤40 cm)土壤理化性质的差异,将16个理化指标运用主成分分析法进行分析,用以综合评价毛竹林土壤质量。研究结果表明:毛竹林覆盖经营显著提高了表层(0<d≤20 cm)土壤含水量、最大持水量、毛管持水量、田间持水量、毛管孔隙度和总孔隙度,降低了土壤密度,土壤结构得到改善,但均随覆盖时间的增加呈降低趋势;连续覆盖2 a后,毛竹林土壤有机碳和速效养分(碱解氮、有效磷、速效钾)质量分数最高,全氮和全磷质量分数持续增加。对于较深层(20 cm<d≤40 cm)土壤,覆盖导致土壤密度增加,土壤含水量和田间持水量呈下降趋势;在连续覆盖3 a后才对其田间持水量、pH、全氮和碱解氮质量分数、全钾质量分数产生显著影响,其中全氮质量分数显著增加,田间持水量、pH、碱解氮和全钾质量分数显著降低。运用主成分分析法,得到不同覆盖时间毛竹林的土壤质量综合排序,0<d≤20 cm土层土壤质量从高到低依次为:连续覆盖2 a、覆盖1 a、连续覆盖3 a、未覆盖;20 cm<d≤40 cm土层土壤质量从高到低依次为:覆盖1 a、未覆盖、连续覆盖3 a、连续覆盖2 a。短期的覆盖经营(1~2 a)对于提升土壤质量具有促进作用,但是长期连续覆盖(≥3 a),土壤酸化程度加剧且质量显著降低。

毛竹及其2种变异类型叶结构特征研究

【目的】为了揭示毛竹(Phyllostachys edulis)及其2种变异类型厚竹(Ph.edulis‘Pachyloen’)、八字竹(Ph.edulis‘Bicanna’)叶的功能差异,及其与竹秆形态特征之间的关系。【方法】采用石蜡制片法结合显微技术观察叶片的解剖结构特性,构建其三维形态结构图,利用蒽酮比色法测定相关生理指标。观测各竹种竹秆的秆形因子变化规律,并进一步分析了叶结构与秆形特征之间的关系。【结果】毛竹叶面积、泡状面积、维管束面积更大,且具有更厚的下表皮、叶片、叶肉,其叶的结构更有利于光合作用;毛竹和厚竹叶的结构和秆形特征密切相关。【结论】毛竹叶片结构特征更有利于光合作用,积累更多物质用于竹秆生长,且毛竹和厚竹可通过改变叶片和秆形特征来权衡资源,从而维持自身正常生长。该文为进一步揭示竹子生长发育机制奠定基础,并为竹子新种质创制提供科学依据。