复合微生物菌剂对污泥堆肥的作用效果研究

为了研究复合微生物菌剂对污泥堆肥的作用效果,以消化污泥、锯末和回流堆肥为原料,接种不同剂量(0、0.2%、0.5%)的复合微生物菌剂进行室外露天堆肥,分析了温度、含水率、pH值、全碳(TC)、全氮(TN)、种子发芽指数(germination index,GI)的动态变化,结果表明:各堆体温度保持在50℃以上的时间均超过7 d,满足堆肥卫生标准;接种复合微生物菌剂的堆体升温速率和温度最高值均大于未接种堆体,接种复合微生物菌剂有利于增加堆体水分散失量,加快堆体有机质降解速度,降低堆体氮的损失量,提高GI值;其中微生物菌剂接种量为0.5%的堆体,接种处理对水分散失、氮损失的控制和GI值的增加效果较明显.     

外源菌剂对餐厨垃圾和污泥联合堆肥酶活性及微生物的影响

以餐厨垃圾和污泥(质量比1∶1)混合物为底物,以不接种微生物为对照,以添加外源菌剂和腐熟堆肥为两个处理,研究外源菌剂对联合堆肥过程中酶活性和腐熟期微生物的影响。结果表明,外源菌剂可促进堆体升温并延长高温期,可显著提高纤维素酶、过氧化氢酶、脲酶、蛋白酶的活性,4种酶的峰值分别为377.294 U/g、83.107 mL/(g·h)、0.763 mg/(g·d)和147.411 U/g。采用高通量测序技术分析发现,添加外源菌剂降低了腐熟期细菌、真菌的群落多样性,但提高了真菌群落丰富度。门水平上,各堆体细菌和真菌的优势群落种类差异较小,仅相对丰度变化较大;属水平上,添加外源菌剂使堆体中优势细菌占比更均匀,优势真菌主要为土壤伊萨酵母菌(Issatchenkia)、念珠菌(Candida)、未分类真菌(Unclassified Fungi)等。采用FAPROTAX工具对细菌功能分组,各堆体相对丰度较高的功能菌以化能异养、有氧化能异养、硝酸盐还原等为主,然而添加外源菌剂和腐熟堆肥使芳香族化合物的降解功能菌相对丰度分别提高了8.0倍、7.4倍。     

城市垃圾厌氧干发酵非甲烷菌群分布变化研究

为研究非甲烷菌的菌群分布随时间、空间变化对厌氧干发酵的影响,以城市垃圾为原料进行分析,同时测定pH值。结果表明,启动阶段好氧及兼性厌氧细菌属优势菌,其中产酸菌增殖速率高于氨化细菌,7 d达最大值2.95×109MPN/mL,是启动阶段降解有机质的主要菌群,而氨化菌在15 d达最大值1.93×108MPN/mL。随后厌氧细菌快速增殖并保持稳定,且仍是产酸菌占优势,15 d达最大值1.55×1010MPN/mL。厌氧纤维素降解菌增殖较慢,发酵30 d不足105MPN/mL,说明原料中纤维素降解在厌氧发酵后期。空间方面,好氧及兼性厌氧产酸菌在顶部中心最活跃,最大值是底部中心的1.4倍;厌氧产酸菌集中在底部,最大值是顶部的1.2倍。好氧氨化菌在中部中心增殖最多,厌氧氨化菌在中部边缘达最大值1.95×108MPN/mL。纤维素降解菌在底部开始增殖。研究为提高干发酵反应效率和合理设计干发酵反应器提供有效参考数据。     

低温型复合发酵菌剂接种鸡粪堆肥的效应

以鲜鸡粪为主要材料,进行了低温启动型复合发酵菌剂在低温环境下的堆肥发酵试验,研究分析了发酵过程堆肥的温度、水分、pH值、C/N、灰分、NH~+_4-N和有机质含量的变化。结果表明:在15℃条件下,研制的发酵菌剂可使鸡粪堆肥在24 h内启动发酵,提早启动2 d以上,堆温达到50℃以上的时间提前5 d左右,维持55℃以上高温达到14 d,低温启动效果明显,且堆温较高;可加快堆肥物料水分的挥发,降低C/N比,发酵15 d后种子发芽指数达到80.4%,比对照提前12 d,发酵进程显著加快;虽然堆肥有机质的损失率略高于对照,但全氮的损失率却低于对照,堆肥铵态氮的含量提高70.2%,保氮效果显著。     

不同菌种组合对发酵残余物好氧堆肥进程及氮素变化的影响

适宜菌剂组合对于初始电导率(Electronic conductivity,EC)较高的发酵残余物二次干化腐熟效果具有重要影响。通过在发酵残余物(猪场沼渣、城市生活污泥)好氧发酵过程中添加不同菌种组合,研究堆肥腐熟指标变化,特别是不同形态氮素指标变化,以期更好提升发酵残余物的干化和腐熟程度。结果表明:F3菌剂组合处理高温期达16 d,最高温度为69.5℃,最早进入腐熟阶段,全氮损失比例最少,为8.72%;对照组在高温期(14 d、69.3℃)及全氮损失比例(9.21%)指标上仅低于F3处理组,表明自然堆体存在耐盐菌种;在促进堆肥腐熟效果方面,霉菌起着关键的作用,堆肥后期酵母菌的存在促进堆体腐熟度的提升;菌种比例和种类的合理设置对于堆体腐熟度提高的重要性要高于活菌添加量;在堆肥保氮过程中,真菌(霉菌和酵母菌)起着重要作用。F3处理(即芽孢杆菌∶霉菌∶酵母菌=1∶2∶2),是实现发酵残余物快速高效堆肥的理想菌剂配方,其他复配菌种组合保氮效果改良侧重点各不相同。     

生化黄腐酸投加量对木薯渣堆肥效果的影响

为了明确不同生化黄腐酸投加量对木薯渣堆肥效果的影响,以木薯渣、干鸡粪和烟杆粉为原料,设置了T1(堆肥原料+1‰生化黄腐酸)、T2(堆肥原料+2‰生化黄腐酸)、T3(堆肥原料+3‰生化黄腐酸)和CK(不添加生化黄腐酸的堆肥原料)4个处理,测定不同堆肥处理对温度、含水率、淀粉、水溶性碳(DOC)、纤维素、半纤维素、木质素含量以及一些腐熟程度指标的影响。结果表明,添加生化黄腐酸能促进堆体升温,有效降低堆体含水率,能使堆肥过程中淀粉、DOC、纤维素、半纤维素的降解率分别提高5.95%、5.29%、7.35%和4.95%,并且腐熟程度指标的变化也表明添加生化黄腐酸能有效促进堆肥腐熟程度,缩短腐熟周期。4个处理的总体堆肥效果表现为:T2T1T3CK,说明添加2‰的生化黄腐酸的堆肥效果最好。     

复合腐秆菌剂对稻草腐熟过程的影响

为了研究复合腐秆菌剂对稻草好氧堆肥的影响,采用好氧堆肥技术,设计了不接菌(对照)和接种复合菌剂2个处理,探讨堆肥过程中堆体温度、pH、有机质、C/N、发芽指数的变化。结果表明,接种复合腐秆菌剂堆体初期温度上升迅速,最高温度达到60℃,高温发酵阶段维持了12 d;与对照相比,接种复合腐秆菌剂对pH值、容重与孔隙度、有机质、C/N变化影响不大;但增加堆体全氮的含量,提高堆肥产品的质量,种子发芽率在第20天迅速上升,最大值为93%。显然接种复合腐秆菌剂促进好氧堆肥迅速起温,提高了堆肥的腐熟质量。     

高蛋白含量餐厨垃圾水解真菌的筛选和应用

从足癣患者病灶部位分离及筛选出12株真菌,其中4株真菌在蛋白质培养基和淀粉水解培养基菌落水解圈直径与菌落直径比(D/d)表现突出。经ITS-5.8S r DNA鉴定分别为Tritirachium oryzae,Paecilomyces sp.,Aspergillus puniceus,Septoriella oudemansii。优化4株真菌的最适发酵温度,并选出优良菌株用于高蛋白含量餐厨垃圾(A)降解。液体发酵结果表明,温度和菌株对游离氨基氮和还原糖产量有显著影响,47℃为最适发酵温度,并且Aspergillus puniceus、Septoriella oudemansii显著优于其他真菌。因此,分别接种Aspergillus puniceus,Septoriella oudemansii以及Aspergillus puniceus和Septoriella oudemansii复合菌株到餐厨垃圾(B),预先进行固态发酵,5 d后进行液态发酵。24 h后发酵液中还原糖的浓度达到最大值,分别为12 080、9 832和13 123 mg·L~(-1),发酵108 h后游离氨基氮浓度达到最大值,分别为3 660、2 821和3 375 mg·L~(-1)。研究表明,Aspergillus puniceus和Septoriella oudemansii复合菌株对还原糖产量有一定的促进作用,但是不利于游离氨基氮的产生。Aspergillus puniceus为最佳菌种,可以应用于高蛋白含量餐厨垃圾的生物降解和高附加值产品的开发等相关方面的研究。     

一种除臭复合菌剂的功能菌鉴定

根据微生物之间协同关系的微生态理论筛选、组合获得一种由6株功能菌组成的除臭复合菌剂,该复合菌剂对粪便原位除臭效果良好,对综合恶臭的平均去除率为54.97%,最大去除率为72.95%。通过16 S r DNA、18S r DNA和26S r DNA D1/D2区序列同源性分析,菌剂中的6种微生物为罗伦隐球酵母菌(Cryptococcus laurentii)、Bacillus safensis、枯草芽孢杆菌(Bacillus subtilis)、卷枝毛霉(Mucor circinelloides)、发酵乳杆菌(Lactobacillus fermentum)和沼泽红假单胞菌(Rhodopseudomonas palustris),鉴定结果表明,复合菌剂中有酵母菌、芽孢杆菌、霉菌、乳酸菌及光合菌,这些功能菌属于当前生物除臭复合菌剂中的主流菌群。     

高效堆肥菌种的筛选及在城市污泥堆肥上的应用

分离筛选出了4株猪粪堆肥菌种,初步的分类鉴定表明它们均属于芽孢杆菌属.利用这些菌种制成混合菌剂,并进行城市污泥堆肥对比试验,结果显示,接菌处理在各项堆肥指标上明显优于未接菌的空白处理,自制菌与酵素菌在堆肥过程中具有非常相似的发酵能力,均能加快堆肥的升温速度,提高堆肥的最高温度,加快物料含水率的下降.说明自制菌不但可以应用于猪粪的堆肥发酵,在城市污泥高温堆肥方面也有很好的应用潜力.     

纤维素降解细菌筛选及降解特性分析

基于获得高效纤维素降解细菌的目的,通过LB培养基的培养以及刚果红培养基的筛选,从牛粪堆肥中筛选获得2株高效纤维素降解细菌。经鉴定,分别为枯草芽胞杆菌(Bacillus subtilis)和地衣芽胞杆菌(Bacillus licheniformis)。所筛选得到的菌种具有很高的滤纸降解能力,可在6d内使滤纸剧烈崩溃,振摇成均匀糊状;其中,地衣芽胞杆菌的羧甲基纤维素钠酶活峰值在发酵第4天达到峰值(237U/g)。     

PLA对土壤微生物生长的影响及PLA的生物降解性

从不同土壤环境中筛选出的4类不同土壤微生物91株,分别标记为细菌、固氮菌、分解纤维素菌和放线菌。然后通过将定量的聚乳酸（PLA）分别加入对应液态培养基中,恒温（30℃）摇床培养,连续测定这4类不同的土壤微生物对PLA的降解性能以及该种聚合物对各种微生物生长的影响。结果表明,虽然在自然界中PLA的降解率比较高,但不同类型的土壤微生物对PLA的降解性能却存在明显个体差异。在测试期内,放线菌对于PLA的总降解率最高;而细菌中RB-4的日降解率最高,达到3%左右;纤维分解菌HX-8及固氮菌RG-28的日降解率能达到2.4%。PLA降解产物对于细菌及纤维分解菌的抑制性普遍较强。     

Response of the bacteria and fungi of two soils to the sulfonylurea herbicide cinosulfuron.

Changes in aerobic bacteria and autotrophic nitrifier numbers, and in respiration and nitrification in two soils treated with cinosulfuron at 42 (field rate) and 4200 microg/kg were studied after 1 and 4 weeks of incubation under laboratory conditions. Only nitrification at 1 week was slightly inhibited by the cinosulfuron treatment, even at the field rate. In vitro toxicity tests carried out in agar media on representative aerobic bacteria, fungi and Azotobacter strains isolated from the two soils, as well as on nine collection soil bacteria, showed that only a very high cinosulfuron concentration (100 mg/l) can have negative effects on the growth of a limited number of soil heterotrophic microorganisms, under conditions similar to those of soil environment. The absence of three branched-chain amino acids increased bacterial sensitivity, thus showing the importance of the chemical conditions and suggesting acetolactate synthase enzyme blockage as the toxicity mechanism. It is concluded that cinosulfuron has a negative effect on only a few aspects of the microbial community in soil ecosystems, even at concentrations higher that those currently in use.     

Biodegradability of organic nanoparticles in the aqueous environment

Synthetic nanoparticles have already been detected in the aquatic environment. Therefore, knowledge on their biodegradability is of utmost importance for risk assessment but such information is currently not available. Therefore, the biodegradability of fullerenes, single, double, multi-walled as well as COOH functionalized carbon nanotubes and cellulose and starch nanocrystals in aqueous environment has been investigated according to OECD standards. The biodegradability of starch and cellulose nanoparticles was also compared with the biodegradability of their macroscopic counterparts. Fullerenes and all carbon nanotubes did not biodegrade at all, while starch and cellulose nanoparticles biodegrade to similar levels as their macroscopic counterparts. However, neither comfortably met the criterion for ready biodegradability (60% after 28 days). The cellulose and starch nanoparticles were also found to degrade faster than their macroscopic counterparts due to their higher surface area. These findings are the first report of biodegradability of organic nanoparticles in the aquatic environment, an important accumulation environment for manmade compounds.     

钻井废水的生物强化处理简

从受钻井废水污染的土壤样品中筛选菌株进行生物处理实验,确定7株菌进行菌剂配伍。通过正交实验剔除可能有抑制作用的菌株,并确定菌剂各组成菌株的最佳配比,制成复合微生物菌剂。考察5种添加物对菌剂的影响,结果显示,当硫酸铵的添加量为20 mg/L时降解率为60%,高于其他添加物。生物强化实验结果显示,投加菌剂的反应器对钻井废水的平均降解率为42%,比未投加菌剂的对照实验的平均降解率（16%）高,而且耐冲击负荷性和降解性能稳定性优于对照实验。     

Microbial activity during composting of anthracene-contaminated soil

Microbial activity of an anthracene-spiked soil mixed with kitchen waste during laboratory composting at 56-59 degrees C was studied using an in-vessel technology. The effect of old compost containing acclimated microorganisms on the composting efficiency was also investigated. Microbial succession, microbial enzyme activity, microbial diversity and anthracene removal rate were analyzed during 42 days of composting. The results demonstrated that inoculating with old compost increased the amounts of thermophilic microorganisms, but did not significantly increase anthracene removal. A microbial succession from mesophilic bacteria to thermophilic bacteria and thermophilic actinomycetes was observed during composting. Polyphenol oxidase activity decreased while catalase activity varied irregularly. Microbial diversity increased drastically when temperature elevated from 35 to 56 degrees C, but decreased when temperature maintained at 56-59 degrees C.     

The addition of modified attapulgite reduces the emission of nitrous oxide and ammonia from aerobically composted chicken manure

The acceleration of the composting process and the improvement of compost quality have been explored by evaluating the efficacy of various additives, inoculating with specific microorganisms and the application of various biosurfactants. The magnesium-aluminum silicate attapulgite is a low-cost potential composting additive, but its effects on aerobic composting are unknown. This study investigated the effects of attapulgite application on compost production and quality during the aerobic composting of chicken manure. Addition of attapulgite significantly increased the temperature (p < 0.05) while it reduced compost total organic carbon (TOC) and seed germination indices (GIs) throughout the process. Its addition enhanced nitrate concentrations, promoted organic matter degradation, increased seed germination indices, and accelerated the composting process. Interestingly, attapulgite addition did not increase the population of ammonia-oxidizing bacteria. These results suggest that attapulgite is a good additive for the composting industry.

Implications: We investigated the addition of two forms of attapulgite during aerobic composting of chicken manure to determine their effects under strict composting environmental parameter control. Our results provides primary evidence that attapulgite may have potential for application in the composting industry.

All treatments showed no increase within the first 15 days. However, emissions increased for all treatments within 15–45 days, reaching approximately 6300, 2000, and 4000 mg/m² from the control, artifactitious attapulgite, and raw attapulgite treatments, respectively.     

微生物调控对牛粪堆肥的生物特性影响

研究了微生物调控对牛粪堆肥生物特性的影响.结果表明:(1)与对照相比,接菌(添加HM菌剂)处理可使牛粪堆肥提前2d进入高温期,高温持续时间延长2d.即接菌处理的堆肥温度在第4天达到50.5℃,并保持50℃以上的温度14 d;而对照在第6天达到50.0℃,并保持50℃以上的温度12 d.(2)2种处理堆肥的pH总体呈先升高后降低的趋势,接菌处理的堆肥pH上升幅度不大,比对照低0.1～0.5个pH单位.(3)接菌处理有利于提高牛粪堆肥的纤维素酶、蔗糖酶、脲酶活性水平和峰值.(4)脲酶活性与其他因素之间呈显著负相关(p＜0.01),而温度、pH、蔗糖酶活性和纤维素酶活性之间呈显著正相关(p＜0.01).     

Removal of DEHP in composting and aeration of sewage sludge

The potential of composting and aeration to remove bis(2-ethylhexyl) phthalate (DEHP) from municipal sewage sludge was studied with two dewatered sludges: raw sludge and anaerobically digested sludge. Composting removed 58% of the DEHP content of the raw sludge and 34% of that of the anaerobically digested sludge during 85 days stabilisation in compost bins. A similar removal for the anaerobically digested sludge was achieved in a rotary drum in 28 days. Less than 1% of DEHP was removed with the compost leachate. Although DEHP removal was greater from raw sludge compost than anaerobically digested sludge compost, the total and volatile solids removals were on the same level in the two composts. In the aeration of raw sludge at 20 degrees C the DEHP removals were 33-41% and 50-62% in 7 and 28 days, respectively. Both composting and aeration are concluded to have the potential to reduce the DEHP contents typically found in sewage sludges to levels acceptable for agricultural use.     

Bioavailability and degradation of phenanthrene in compost amended soils

Bioavailability in soil of organic xenobiotics such as phenanthrene is limited by mechanisms of diffusion of the xenobiotics within soil micropores and organic matter. The agricultural utilization of compost may reduce the risk connected to organic xenobiotic contamination by means of: (i) a reduction of the bioavailable fraction through an increased adsorption and (ii) an enhanced degradation of the remaining bioavailable fraction through an inoculum of degrading microorganisms. Aim of this work is to test this hypothesis by assessing the effects of compost amendment on the bioavailability and degradation of phenanthrene in soil. Experiments were carried out in both sterilized and non-sterilized conditions, and chemical and microbiological analyses were carried out in order to determine the extent of degradation and bioavailability and to monitor the evolution of the soil micro flora in time. Bioavailability was assessed in sterilized microcosms, in order to assess the physical effects of compost on aging processes without the influence of microbial degradation. Results showed that bioavailability is significantly reduced in soils amended with compost, although no differences were found at the 2 doses of compost studied. In non-sterilized soils the amount of phenanthrene degraded was always higher in the amended soils than in the non-amended one. Microbiological analyses confirmed the presence of a higher number of phenanthrene degraders in the amended soils and in samples of compost alone. These results suggest that compost induces the degradation in soils of easily degradable compounds such as phenanthrene, when the proper bacteria are in the compost; more resistant xenobiotics may instead be trapped by the compost organic matter, thus becoming less available.