缩节胺和硝普钠对棉花幼苗根际土壤酶活性及细菌群落的影响

【目的】研究棉花幼苗施用缩节胺(1,1-dimethyl piperidinium chloride,DPC)和一氧化氮供体硝普钠(sodium nitroprusside,SNP)后根际土壤酶活性及细菌群落的变化,探讨与棉花幼苗生长相关的根际生物学指标。【方法】采用陆地棉品系A201进行穴盘育苗试验。于棉花1叶1心期分别在叶片均匀涂抹50 mg·L^(-1)DPC、500μmol·L^(-1)SNP,以涂抹去离子水为对照。于3叶1心期取根际土壤分析蔗糖酶、脲酶、过氧化氢酶、碱性磷酸酶活性,采用16S rRNA测序技术分析根际细菌多样性。【结果】DPC和SNP处理显著促进棉花根系生长,显著提高茎粗和植株干物质质量。DPC处理显著提高土壤脲酶和蔗糖酶的活性,SNP处理显著提高土壤蔗糖酶活性但显著降低脲酶的活性,但是DPC和SNP处理均未显著影响过氧化氢酶和碱性磷酸酶活性。DPC处理显著提高髌骨菌门(Patescibacteria)的相对丰度和土壤细菌群落的辛普森多样性指数(Simpson's diversity index),显著降低了绿弯菌门(Chloroflexi)和酸杆菌门(Acidobacteria)的相对丰度以及土壤细菌群落的香农-维纳多样性指数(Shannon Wiener’s diversity index)。冗余分析显示,DPC处理组的酵母菌科(Saccharimonadaceae)、TM7a属细菌的相对丰度比SNP处理组和对照组高;SNP处理组的纤维弧菌属(Cellvibrionaceae)细菌相对丰度高于DPC处理组和对照组;DPC和SNP处理组的根瘤菌科(Rhizobiaceae)细菌的相对丰度高于对照组,硝化螺旋菌科(Nitrospiraceae)和硝化螺旋菌属(Nitrospira)细菌的相对丰度低于对照组。脲酶活性与酵母菌科、TM7a属细菌的相对丰度呈显著正相关关系。【结论】DPC和SNP能够促进棉花幼苗根系及植株生长,并影响棉苗根际的土壤酶活性及细菌群落结构。

外源菌群煤生物气化初步研究:菌群结构、煤种及煤孔(裂)隙

以河南义马煤矿、山西山阴煤矿和双柳煤矿不同煤阶煤为研究对象,利用沼液经逐步驯化得到的外源产甲烷菌群为菌源,在千克级的水平上进行了煤生物气化模拟实验。采用16S rDNA测序对驯化得到的菌源进行初步确定,并研究了驯化菌源对不同煤种的气化效果,采用扫描电镜初步研究了驯化微生物形态与煤孔(裂)隙的可能作用。结果表明,不同煤样外源菌群煤生物气化均存在产气周期,可分为快速、缓慢和抑制3个阶段,而不同煤种气化阶段存在明显差异。16S rDNA测序结果显示,甲烷丝状菌属(Methanothrix)占0.02%,而典型的和煤的骨架芳香结构降解相关的微生物类群占约8%,表明降解步骤是煤生物气化的速控步骤。扫描电镜观察发现,驯化后的菌群以球状和杆状为主,部分微生物进入煤的孔裂隙。当以块状煤为底物长期驯化菌源时,菌群的产气效率明显降低。

阴极菌群对MFC脱氮产电及动力学影响

以硝酸盐溶液为阴极电子受体,在阴极室分别接种活性污泥菌群和反硝化菌群,分别构建了生物阴极型微生物燃料电池A-MFC和D-MFC。考察两种阴极菌群MFC的脱氮与产电性能,通过动力学模型对硝酸盐降解过程进行分析。结果表明,阴极菌群的不同会对MFC脱氮与产电性能造成影响,反硝化菌群对硝酸盐有更好的亲和能力和更大的耐受程度。

铁浓度对某铀矿浸铀菌群的影响

微生物堆浸具有技术提高铀的浸出率,缩短生产周期,节省硫酸及氧化剂,降低生产成本,减少对环境所造成的不利影响的优点。某铀矿是我国重要的铀矿山,在2009年之后,该铀矿陆续开展一系列的微生物堆浸实验和生产项目,在文章中,笔者讨论以及分析了不同浓度的亚铁和三价铁对该铀矿中浸铀菌群的影响。结果表明,低浓度的二价铁和高浓度的三价铁都有利于菌群的氧化,并且该铀矿菌群的最适总铁浓度为8 g/L。

生物挂膜填料对某铀矿浸铀菌群的影响

微生物堆浸是利用微生物的生物化学作用,选择性地将被浸矿物或其他有用矿物从矿石中浸出来的一种方法,这种方法简便,生产周期短,成本低,利用率高,减少对环境所造成的不利影响等优点。为满足微生物堆浸对细菌的需求,对细菌生长周期、活性等提出了一定的要求,在文章中,笔者讨论以及分析了两种不同的生物挂膜填料选择对该铀矿中浸铀菌群的影响。结果表明,有填料比无填料对细菌的生长更有利,不同填料对细菌的生长效果影响不同。

人工电活性微生物菌群的设计与应用

包括产电菌群和噬电菌群的人工电活性微生物菌群(synthetic electroactive microbial consortia)通过菌种间的物质能量级联反应介导化学能与(光)电能间的相互转化,其可利用底物来源广泛、双向电子传递速率快、环境稳定性强,在清洁电能开发、废水处理、环境修复、生物固碳固氮以及生物燃料、无机纳米材料、高聚物等高值化学品合成等多个领域具有广泛的应用前景。针对人工电活性微生物菌群设计、构建与应用,本文总结电活性微生物菌群界面电子传递和种间电子传递机制,概括基于“劳力分工”原理设计构建人工电活性微生物菌群物质能量级联反应基本架构,总结菌群关系与菌群生态位优化等人工电活性微生物菌群工程化策略,分类列举人工电活性微生物菌群在利用廉价生物质产电、生物光伏固碳产电,光驱噬电生物菌群固氮等相关应用。最后对人工电活性微生物菌群未来研究方向进行了展望。

驯化复合微生物菌群处理废弃钻井泥浆活性研究

【背景】油田废弃钻井泥浆含油量高,污染物复杂,环境危害严重,现有技术无法满足日益发展的石油开采行业在废弃钻井泥浆处理方面的需求。生物法处理废弃钻井泥浆,工艺简单,成本低,但也存在局限,包括广谱性差、处理周期长、原油降解率低、泥浆性质波动冲击工艺稳定性等。【目的】构建一种高活性和高环境耐受能力的微生物菌群,分析遗传稳定性和综合性能,提高废弃钻井泥浆处理技术水平。【方法】通过定向富集、诱导驯化的方法,提高活性群落对石油烃乳化降解效率,降低共代谢底物反馈抑制和群体感应系统敏感度,分析群落结构和活性成员的种群类别,分析乳化降解石油烃的活性对应关系。【结果】从含油量超过12g/kg、芳烃-胶质沥青含量超过80%、含盐量超过8g/kg的钻井废弃泥浆中富集得到1个活性微生物菌群,主要成员包括假单胞菌属(Pseudomonas)、根瘤菌属(Rhizobium)、红细菌属(Rhodobacter)和嗜碱还原硫素杆菌(Dethiobacter alkaliphilus),比例分别达27.44%、20.73%、8.54%和7.93%。在超过22代的连续驯化过程中,假单胞菌(Pseudomonas)、类希瓦氏菌(Alishewanella)和盐单胞菌(Halomonas)数量达92.72%,菌群结构和活性趋于稳定。处理钻井废弃泥浆5 d,土壤含油率由处理前的12403 mg/kg降低到处理后的42 mg/kg,综合脱油效率99.67%,石油烃降解率68.9%。分析微生物群落作用前后石油饱和土壤中的石油含量变化,原始含油量261 g/kg,处理后含油量305 mg/kg,脱油率99.88%。【结论】菌群驯化后活性稳定,耐受高盐环境能力强,在钻井废弃泥浆、含油土壤及油泥污染物处理方面具有很强的工业应用潜力。

猪用复合微生物制剂的应用前景及效果分析

复合微生物制剂由通过高科技培养与组合的活性微生物种群及其代谢物构成,它可以取代抗生素,具有增加营养、帮助消化、促进生长、提高抗病能力的功能。

Soil Cellulase Activity and Fungal Community Responses to Wetland Degradation in the Zoige Plateau, China

Four soil types(peat, marsh, meadow, and sandy) in the Zoige Plateau of China are associated with the severity of wetland degradation. The effects of wetland degradation on the structure and abundance of fungal communities and cellulase activity were assessed in these 4 soil types at 3 depths using DGGE(Denatured Gradient Gel Electrophoresis), q PCR(Quantitative Real-time PCR),and 3,5-dinitrosalicylic acid assays. Cellulase activity and abundance of the fungal community declined in parallel to the level of wetland degradation(from least to most disturbed). DGGE analysis indicated a major shift in composition of fungal communities among the4 soil types consistent with the level of degradation.Water content(WC), organic carbon(OC), total nitrogen(TN), total phosphorus(TP), available nitrogen(AN), and available phosphorus(AP) were strongly correlated with cellulase activity and the structure and abundance of the fungal community.The results indicate that soil physicochemical properties(WC, OC, TN, TP, AN, and AP), cellulase activity, and diversity and abundance of fungal communities are sensitive indicators of the relative level of wetland degradation. WC was the major factorinvolved in Zoige wetland degradation and lower WC levels contributed to declines in the abundance and diversity of the fungal community and reduction in cellulase activity.

多功能微生物制剂大棚番茄使用效果评价

以大棚番茄为供试作物,研究了多功能微生物制剂的使用效果。结果表明,使用微生物制剂可以增强土壤微生物群落的活性,有利于提高土壤肥力,还可以提高土壤对纤维素的分解能力,促进番茄植株的生长,对改善番茄品质和增产均有利。

Effect of Different Bacterial-Feeding Nematode Species on Soil Bacterial Numbers,Activity,and Community Composition

The effects of bacterial-feeding nematodes on bacterial number, activity, and community composition were studied through a microcosm experiment using sterilized soil inoculated with soil bacteria （soil suspension） and with bacteria and three species of bacterial-feeding nematodes （ Cephalobus persegnis, Protorhabditis filiformis, and Caenorhabditis elegans）. Catalyzed reporter deposition-fluorescence in situ hybridization, CO2 evolution, and denaturing gradient gel electrophoresis （DGGE） of PCR ampli- fied 16S rRNA gene fragments were used to investigate bacterial numbers, antivity, and community composition, respectively. Our results showed that bacterial numbers and activity significantly increased in the presence of bacterial-feeding nematodes, which indicated that bacterial-feeding nematodes had a significant positive effect on soil bacteria. The different nematode species had different effects on bacterial numbers and activity. C. persegnis and P. filiformis, isolated from native soil, increased the bacterial number and activity more than C. elegans. The DGGE analysis results showed that dominant bacterial species significantly differed among the treatments, which suggested that bacterial-feeding nematode species modified the bacterial community composition in soil. Further gene sequence analysis results showed that the dominant bacterial species in this study were gram-negative bacteria. Given the completely same conditions except nematode species, the varied selective feeding behavior of different nematode species was the most likely reason for the altered bacterial community composition. Overall, the alteration of bacterial numbers, activity and community composition resulting from the bacterial-feeding nematodes may ult!mately affect soil ecological functioning and processes.