滇南喀斯特地区灌木群落和人工林土壤元素化学计量特征

在云南喀斯特地区,为提升退化灌木群落的生态系统服务功能,营造了不同树种的人工林分。这些人工林分如何影响土壤化学性质还未得到充分认识。以云南泸西县灌木群落及三种常见人工林(云南松(Pinus yunnanensis)、赤杨(Alnus japonica)和侧柏(Platycladus orientalis))土壤为研究对象探讨喀斯特地区在人工林建造后土壤的13种元素全量、可利用性含量和化学计量学特征变异格局,为喀斯特石漠化治理提供理论依据。结果表明,1)基于判别分析,四种群落土壤化学计量特征可以显著区分。土壤Fe、P、K、Mn全量及交换性Ca、交换性Mg和NH_4~+-N对区分四种群落土壤贡献最大。2)四种群落之间相比,侧柏林土壤C、N、S、Na全量和NO_3~--N含量均低于其他三种群落,土壤肥力较低;赤杨林铵态氮含量最高;云南松林有效Fe、有效Cu含量/N、C素具有显著相关性,占所有元素对数的38.5%,说明该地土壤元素积累的相互依赖性。与灌木群落相比,人工林土壤元素全量和可利用性含量相关性比例均更高。这些研究结果对今后基于适地适树人工林营造、生态系统服务功能提升和经营利用,均具有重要指导意义。     

棘孢木霉挥发性次级代谢产物检测及抑菌活性分析

木霉是一类具有重要生防价值的丝状真菌。文中首先对分离自浙江省绍兴市和广东省佛山市共12株棘孢木霉Trichoderma asperellum进行平板拮抗评价,然后采用顶空固相微萃取气质联用法(HS-SPME-GC-MS)检测拮抗性较好的两株菌的挥发性次级代谢产物。结果表明,棘孢木霉ZJSX5003和GDFS1009菌丝生长迅速,对尖孢镰孢菌Fusariumoxysporum抑制率分别达73%和74%。挥发性次级代谢产物主要是醇类和酮类,其中包含异丁醇、异戊醇、3-甲基-3-丁烯-1-醇、3-羟基-2-丁酮、2,3-丁二醇和6-正戊基-2H-吡喃-2-酮(6-PAP)。进一步通过体外抑菌试验,证实6-PAP具有较好的抑制尖孢镰孢菌的效果,为开发以木霉菌代谢产物如6-PAP为主要成分的生防制剂提供指导。     

玉米联合固氮菌Kosakonia radicincitans GXGL-4A的分离鉴定与固氮特性研究

【目的】固氮微生物是生物固氮的主体,其菌种的选育更是生物固氮研究的基础。本实验室分离鉴定出一株新的固氮菌,并对其固氮相关活性进行初步研究。【方法】固氮菌采用Ashby无氮培养基进行分离纯化。通过形态特征分析、生理生化特征分析、16S r RNA基因序列分析和基因组扫描对固氮菌进行鉴定。利用靛酚蓝-分光光度法检测固氮菌的泌铵能力。固氮酶活性的测定使用乙炔还原法。【结果】从玉米根部分离到一株固氮菌株GXGL-4A,菌体短杆状,大小约为1.5μm×0.5μm,单个或常见2个菌体细胞串联在一起,革兰氏染色结果为阴性。16S r RNA基因序列分析结果表明该菌株与Kosakonia oryzae Fo8A1d 16S r RNA基因序列有95%的相似性,结合形态特征、生理生化特征和基因组扫描,将其命名为K.radicincitans GXGL-4A。对其进行固氮基因nif H的检测,经PCR扩增得到预期的296 bp条带;采用靛酚蓝-分光光度法,测得发酵液中铵态氮含量为2.5 mg/L,表明该菌株具有较好的泌铵能力。乙炔还原法测其固氮酶活性,以乙烯生产量表示,结果显示GXGL-4A菌株在无氮培养基上能够有效地还原乙炔,达到232.94 nmol C2H4/(m L·h)。【结论】菌株GXGL-4A是一株可较好地分泌铵的新的固氮菌,具有很好的研究价值。     

木霉菌生物学与应用研究——回顾与展望

本期《菌物学报》是为了庆祝第十三届国际木霉菌和粘帚霉学术研究讨会而出版的,本期共收录了14篇文章,其中综述2篇,研究论文12篇,重点反映我国近年来在木霉菌资源收集与鉴定、木霉菌系统发育、木霉菌生物技术、木霉菌生物防治机理、在农业与环境保护中应用等方面的研究进展,同时介绍国际上相关的最新研究进展,并提出今后我国木霉菌研究的发展方向。     

Research on characteristics of biomass distribution in urban forests of Shanghai metropolis based on remote sensing and spatial analysis

Aims
Monitoring and quantifying the biomass and its distribution in urban trees and forests are crucial to understanding the role of vegetation in an urban environment. In this paper, an estimation method for biomass of urban forests was developed for the Shanghai metropolis, China, based on spatial analysis and a wide variety of data from field inventory and remote sensing.
Methods
An optimal regression model between forest biomass and auxiliary variables was established by stepwise regression analysis. The residual value of regression model was computed for each of the sites sampled and interpolated by Inverse-distance weighting (IDW) to predict residual errors of other sites not subjected to sampling. Forest biomass in the study area was estimated by combining the regression model based on remote sensing image data and residual errors of spatial distribution map. According to the distribution of plantations and management practices, a total of 93 sample plots were established between June 2011 and June 2012 in the Shanghai metropolis. To determine a suitable model, several spectral vegetation indices relating to forest biomass and structure such as normalized difference vegetation index (NDVI), ratio vegetation index (RVI), difference vegetation index (DVI), soil-adjusted vegetation index (SAVI), and modified soil-adjusted vegetation index (MSAVI), and new images synthesized through band combinations such as the sum of TM2, TM3 and TM4 (denoted Band 234), and the sum of TM3, TM4 and TM5 (denoted Band 345) were used as alternative auxiliary parameters .
Important findings
The biomass density in urban forests of the Shanghai metropolis varied from 15 to 120 t·hm^-2. The higher densities of forest biomass concentrated mostly in the urban areas, e.g. in districts of Jing’an and Huangpu, mostly ranging from 35 to 70 t·hm^-2. Suburban localities such as the districts of Jiading and Qingpu had lower biomass densities at around 15 to 50 t·hm^-2. The biomass density of Cinnamomum camphora trees across the Shanghai metropolis varied between 20 and 110 t·hm^-2. The spatial biomass distribution of urban forests displayed a tendency of higher densities in northeastern areas and lower densities in southwestern areas. The total biomass was 3.57 million tons (Tg) for urban forests and 1.33 Tg for C. camphora trees. The overall forest biomass was also found to be distributed mostly in the suburban areas with a fraction of 93.9%, whereas the urban areas shared a fraction of only 6.1%. In terms of the areas, the suburban and urban forests accounted for 95.44% and 4.56%, respectively, of the total areas in the Shanghai metropolis. Among all the administrative districts, the Chongming county and the new district of Pudong had the highest and the second highest biomass, accounting for 20.1% and 19.18% of the total forest biomass, respectively. In contrast, the Jing’an district accounted for only 0.11% of the total forest biomass. The root-mean-square error (RMSE), mean absolute error (MAE) and mean relative error (MRE) of the model for estimating urban forest biomass in this study were 8.39, 6.86 and 24.22%, respectively, decreasing by 57.69%, 55.43% and 64.00% compared to the original simple regression model and by 62.21%, 58.50%, 65.40% compared to the spatial analysis method. Our results indicated that a more efficient way to estimate urban forest biomass in the Shanghai metropolis might be achieved by combining spatial analysis with regression analysis. In fact, the estimated results based on the proposed model are also more comparable to the up-scaled forest inventory data at a city scale than the results obtained using regression analysis or spatial analysis alone.     

深绿木霉中碳代谢抑制因子CRE1功能特性研究

木霉菌(Trichoderma spp.)是一种广泛存在于土壤及植物根系生境中的丝状真菌,具有拮抗植物病原真菌和促进植物生长的双重功效。碳代谢抑制子CRE1全局性调控细胞生长代谢过程,保障木霉在不同生境中的存活及拮抗病原菌特性。比较深绿木霉(T.atroviride)T23及其Cre1突变株(T23Δcre1)在不同培养基中的生长和代谢特性,结果表明:cre1基因沉默后,T23Δcre1较T23菌丝生长变慢,产孢滞后且降低一个数量级,cre1对菌丝生长和产孢的调控依赖于培养基组分。此外,cre1基因抑制几丁质酶、β-1,3-葡聚糖酶基因转录,区别性调控部分次级代谢合成的非核糖体肽合成酶NRPS和聚酮合成酶PKS基因的表达。综上,碳代谢因子CRE1作为一个多效性的转录调控因子,抑制细胞壁降解酶和代谢产物合成相关的基因表达,赋予木霉菌在环境中的适应性和竞争性,是深绿木霉T23生长的必要因子。     

玉米弯孢叶斑病菌clt-1基因生物信息学分析和启动子的功能鉴定

利用农杆菌介导的基因转化(Agrobacterium-mediated transformation,ATMT)技术构建玉米弯孢叶斑病菌突变体库,并从中筛选到了一个毒素合成相关基因clt-1。对clt-1基因编码的蛋白质进行生物信息学分析,结果表明CLT-1的分子质量为81.984 8k Da,等电点p I为8.62,不稳定指数为55.08;CLT-1是亲水性蛋白,包含1个膜外区域。在亚细胞水平上,CLT-1定位于细胞核内;在氨基酸序列方面,CLT-1含有多个苏氨酸、丝氨酸和酪氨酸激酶磷酸化位点;在功能方面,CLT-1包含BTB特征结构域,可能参与一些功能蛋白质活性的调控。利用GFP(green fluorescent protein)基因作为报告基因,构建了用于鉴定clt-1基因启动子活性的p C1300th-Pclt1-GFP真菌表达载体,采用ATMT方法转化弯孢菌萌发的分生孢子,通过PCR及GFP荧光检测clt-1基因启动子在弯孢菌中调控GFP基因表达的活性。结果表明,在共聚焦激光扫描显微镜下观察到菌丝和孢子发绿色荧光,说明弯孢菌clt-1基因启动子具有较强驱动外源gfp基因表达的活性。     

中国森林凋落量时空分布特征

通过构建全国尺度上森林叶凋落量和总凋落量与年平均温度、年平均降雨量和实际蒸散量的关系模型,应用地统计学分析方法,并结合遥感解译的森林覆盖信息,分析2001、2006和2012年中国森林叶凋落量和总凋落量的空间分布及其变异格局.结果表明: 与年平均温度和降雨量相比,区域尺度上实际蒸散量对森林叶凋落量和总凋落量有更好的解释预测关系;分布于中南地区的常绿阔叶林的年凋落量最高,为636.2 g·m^-2,分布于东北地区的温带落叶阔叶林的年凋落量范围为339～385 g·m^-2,其中,森林叶凋落量约占总凋落量的70％.2001、2006和2012年,全国森林凋落总量分别为801、865和1032 Tg,呈明显增长趋势,而基于遥感图像解译的森林年覆盖率分别为18％、20％和24％,呈增长趋势.我国人工林面积的迅速增加和林分生长,极大影响了森林凋落物量及其动态变化,进而对森林生态系统物质循环产生重要影响.     

玉米弯孢叶斑病菌ATMT突变株构建及致病力分析

利用农杆菌介导的基因转化(Agrobacterium-mediated transformation,ATMT)技术,转化玉米弯孢叶斑病菌 (Curvularia lunata),共获得转化子1 454个。对其中菌落形态、生长速率等性状有显著变化的8个突变株进行分析。通过离体叶片接种进行筛选,发现4个突变株致病性降低,2个突变株致病性增强。通过测定生长速率、产孢量及细胞壁降解酶活性发现,其中致病性减弱的突变株,其产孢量均有所下降甚至不产孢,突变株的PG酶活性普遍增强,但Cx酶活性没有明显变化,而2株强致病性突变株的Cx酶活性明显增强。