长期施肥黑土微生物区系及功能多样性的变化

Black soil （Mollisol） is one of the main soil types in northeastern China. Biolog and polymerase chain reactiondenaturing gradient gel electrophoresis （PCR-DGGE） methods were used to examine the influence of various fertilizer combinations on the structure and function of the bacterial community in a black soil collected from Harbin, Heilongjiang Province. Biolog results showed that substrate richness and catabolic diversity of the soil bacterial community were the greatest in the chemical fertilizer and chemical fertilizer＋manure treatments. The metabolic ability of the bacterial community in the manure treatment was similar to the control. DGGE fingerprinting indicated similarity in the distribution of most 16S rDNA bands among all treatments, suggesting that microorganisms with those bands were stable and not influenced by fertilization. However, chemical fertilizer increased the diversity of soil bacterial community. Principal com- ponent analysis of Biolog and DGGE data revealed that the structure and function of the bacterial community were similar in the control and manure treatments, suggesting that the application of manure increased the soil microbial population, but had no effect on the bacterial community structure. Catabolic function was similar in the chemical fertilizer and chemical fertilizer＋manure treatments, but the composition structure of the soil microbes differed between them. The use of chemical fertilizers could result in a decline in the catabolic activity of fast-growing or eutrophic bacteria.     

优良植物根际促生菌的筛选及其生物学特性

为获得能应用于环保微生物肥料中性状优良的植物根际促生菌,根据菌株的固氮、溶磷和解钾能力,经过初筛和复筛从不同土壤样本中分离得到1株芽孢杆菌(Bacillus velezensis)(LPL-410.7)。全基因组分析结果显示,该菌株基因组的大小为3 907 842 bp, GC含量为46.66%,可编码3 743个基因/蛋白;生物信息学注释结果显示,LPL-410.7中与促进植物生长相关的功能基因59个,参与次级代谢产物的合成、辅酶运输和代谢、氨基酸运输与代谢等通路途径。进一步的菌株特性试验结果显示,LPL-410.7能够分泌蛋白酶及纤维素酶,并能产生相对表达量为51.78%的铁载体;采用酶联免疫吸附法检测到该菌株亦能产生植物激素吲哚乙酸、赤霉素和细胞分裂素;LPL-410.7在pH 3～10和盐质量浓度为0～15 g/L时均能存活;菌株自凝集性达到88.77%,且具有较强的自由基清除能力。全基因组分析结果与菌株解有机磷、产生促生抗病相关物质(铁载体、吲哚乙酸、纤维素酶和蛋白酶)的实际功能相符合。综合评定,贝莱斯芽孢杆菌LPL-410.7是一株优良的植物根际促生菌,具有很好的开发利用价...     

多功能根际生防促生放线菌的分离鉴定及其对辣椒的益生效果

从健康辣椒根际土壤筛选具防病促生功能的菌种并应用于生物障碍土壤,可为辣椒提质增产和根腐病的防治提供优质的菌剂资源。本研究以辣椒根腐病的病原菌——腐皮镰孢菌（Fusarium solani）为靶标菌,采用平板对峙法筛选优良生防菌株,对其固氮、溶磷、解钾、分泌3-吲哚乙酸（3-indole acetic acid,IAA）、产铁载体、产纤维素酶和蛋白酶、利用酚酸类连作障碍物质等能力进行定性和定量测定。采用形态学、生理生化及16S rRNA基因序列对分离菌株进行鉴定,并采用田间原位栽培试验检测其生防和促生效果。结果表明,从设施连作抗病辣椒根际土中获得6株具有抑菌作用的放线菌,通过定性、定量测试发现菌株G-1拮抗效果最强,其对设施蔬菜5种常见病原菌均具有较好的抑制效果,抗菌谱广,且具有分泌IAA、产铁载体、产纤维素酶和蛋白酶、溶解有机磷、利用酚酸类化感物质等特性。结合形态学、生理生化及16S rRNA进化树分析结果,将其鉴定为弗氏链霉菌（Streptomyces fradiae）。田间原位栽培试验显示,G-1菌剂对辣椒根腐病具有较好的防病作用,可显著降低根腐病的病情指数,促进辣椒根系生长,且可使辣椒增产31.04%。研究表明,弗氏链霉菌G-1具有优良的防病促生功能,其固体菌剂的田间应用对辣椒根腐病具有较好的防治效果,且对辣椒具有明显的促生增产作用,可作为辣椒益生菌剂的候选菌株资源。     

Y-S-Y12发酵液和生物质热解液混配对辣椒炭疽病的防治及作用机理

为探究解淀粉芽孢杆菌Y-S-Y12拮抗菌发酵液和生物质热解液混配对辣椒炭疽病的协同防病作用及其作用机理，对不同浓度生物质热解液、拮抗细菌Y-S-Y12菌株的发酵浓缩液及其混配溶液对辣椒炭疽病的抑菌作用进行检测，计算出毒力方程，根据EC50值将两种溶液进行混配，求得最佳配比。通过活体试验检测Y-S-Y12菌株对辣椒炭疽病果实的防治效果，测定叶片超氧化物歧化酶（superoxide dismutase，SOD)、过氧化物酶（peroxidase，POD）和过氧化氢酶（hydrogen peroxidase，CAT）活性，并探究各药剂对辣椒炭疽病病菌菌丝的细胞膜通透性、生理代谢和菌丝形态的影响。结果显示，Y-S-Y12菌株发酵浓缩液和生物质热解液以1∶9混配具有明显的协同增效作用;混配的防效显著高于单剂，防效达到79.62%，进一步说明混配具有增效作用。混剂处理的辣椒炭疽病菌菌丝中的几丁质酶活性、β-1,3-葡聚糖酶活性和蛋白酶活性显著高于对照和单剂处理，处理后菌体的保护屏障被打破，使培养液的电导率、外渗液中蛋白质和核酸含量上升。混剂处理的辣椒叶片中SOD、POD、CAT酶活性显著高于对照和单剂处理，说明辣椒植株抗病性增强。综上，Y-S-Y12菌株发酵液和生物质热解液混配对辣椒炭疽病有协同防病作用，可能是因为Y-S-Y12菌株具有破坏辣椒炭疽病菌菌丝和诱导辣椒植株抗病性作用。研究为辣椒炭疽病无公害防治提供理论依据。     

生防菌株PF-1基于全基因组数据的分类鉴定及拮抗能力分析

基于全基因组数据,确定生防菌株PF-1的分类地位,验证其对植物病原菌的拮抗作用以及挖掘其潜在的生防功能。通过全基因组中16S rRNA基因序列的系统发育分析及基因组分析方法确定生防菌株PF-1的分类地位,通过平板对峙方法研究其对马铃薯枯萎病菌和棉花黄萎病菌的拮抗能力;利用antiSMASH软件分析和预测菌株PF-1的抗生素相关基因并挖掘其生防潜力。基于16S rRNA基因序列的系统发育分析及基因组分析结果,PF-1被鉴定为防御假单胞菌(Pseudomonas protegens),同时发现PF-1基因组中存在15种次生代谢产物基因簇,具有良好的抑制病原菌生长和提高植物抗病性的能力,在农业中具有良好的应用前景。     

Root‐associated microbes in sustainable agriculture: models,metabolites and mechanisms

Since the discovery of penicillin in 1928 and throughout the ‘age of antibiotics’ from the 1940s until the 1980s, the detection of novel antibiotics was restricted by lack of knowledge about the distribution and ecology of antibiotic producers in nature. The discovery that a phenazine compound produced by Pseudomonas bacteria could suppress soilborne plant pathogens, and its recovery from rhizosphere soil in 1990, provided the first incontrovertible evidence that natural metabolites could control plant pathogens in the environment and opened a new era in biological control by root‐associated rhizobacteria. More recently, the advent of genomics, the availability of highly sensitive bioanalytical instrumentation, and the discovery of protective endophytes have accelerated progress toward overcoming many of the impediments that until now have limited the exploitation of beneficial plant‐associated microbes to enhance agricultural sustainability. Here, we present key developments that have established the importance of these microbes in the control of pathogens, discuss concepts resulting from the exploration of classical model systems, and highlight advances emerging from ongoing investigations. © 2019 Society of Chemical Industry     

菲和芘胁迫下AMF和PGPR对高羊茅生理生态的响应

旨在探究菲和芘胁迫下丛枝菌根真菌(AMF)与根围促生细菌(PGPR)对高羊茅生理生态的响应。以菲和芘1∶1混合处理浓度各0、50、100和150mg·kg^-1下对高羊茅接种AMF变形球囊霉(Gv)、PGPR荧光假单胞菌(Ps2-6)、Gv+Ps2-6和不接种对照共16个处理。结果表明,AMF、PGPR或AMF+PGPR处理均显著增加高羊茅生物量和菌根侵染率,增强植物光合作用,提高叶绿素含量,显著提高植物体内生理活性。在土壤中菲和芘100mg·kg^-1水平下,与对照相比,双接种Gv+Ps2-6处理的高羊茅叶片叶绿素a、b和总叶绿素含量分别提高57.7%、41.7%和51.8%;净光合速率(Pn)、蒸腾速率(Tr)、胞间CO2浓度(Ci)和气孔导度(Gs)分别增加70.6%、100.0%、4.5%和78.6%;最大光化学效率(Fv/Fm)和PSⅡ潜在活性(Fv/Fo)分别提高2.2%和8.8%;超氧化物歧化酶(SOD)、过氧化氢酶(CAT)活性、可溶性糖和脯氨酸含量分别是对照的1.6、1.5、2.3和2.7倍,丙二醛含量比对照下降46.0%;高羊茅株高和地上鲜重分别比对照增加63.0%和69.6%;接种PGPR处理能够增加AMF侵染率以及菌根依赖性。供试条件下,双接种Gv+Ps2-6处理增加高羊茅叶绿素含量和抗氧化能力,增强光合作用能力,降低膜脂过氧化水平,促进植物生长的作用最为显著。     

Perspectives of Using L-Tryptophan for Improving Productivity of Agricultural Crops: A Review

Plant growth regulators are biologically active signaling molecules that regulate a number of plant physiological processes. Auxin (indole-3-acetic acid) is an important plant growth regulator and is synthesized within plant tissues through L-tryptophan (L-TRP)-dependent and -independent pathways. It has been found that plants respond to exogenously applied L-TRP due to insufficient endogenous auxin biosynthesis. The exogenous application of L-TRP is highly significant for normal plant growth and development. L-tryptophan is applied through foliar spray, seed priming, and soil application. Soil-applied L-TRP is either directly taken up by plants or metabolized to auxin by soil microbiota and then absorbed by plant roots. Similarly, foliar spray and seed priming with L-TRP stimulates auxin synthesis within plants and improves the growth and productivity of agricultural crops. Furthermore, L-TRP contains approximately 14% nitrogen (N) in its composition, which is released upon its metabolism within a plant or in the rhizosphere and plays a role in enhancing crop productivity. This review deals with assessing crop responses under the exogenous application of L-TRP in normal and stressed environments, mode of action of L-TRP, advantages of using L-TRP over other auxin precursors, and role of the simultaneous use of L-TRP and auxin-producing microbes in improving the productivity of agricultural crops. To the best of our knowledge, this is the first review reporting the importance of the use of L-TRP in agriculture.     

18个茶树菇菌株的亲缘关系分析及农艺性状评价

为获得不同来源茶树菇的亲缘关系并筛选适合工厂化生产综合农艺性状较优菌株,以18株(4株野生菌株、7株栽培菌株、5株经钴60辐照诱变菌株和2株搭载神州十号的航天飞船诱变菌株)茶树菇菌株为试验材料,采用分子标记ISSR、拮抗和同工酶技术进行菌株分型和亲缘关系分析;通过分析菌盖厚度和直径、菌柄长度和直径、生育期、产量,对18...