四环素对人粪便好氧堆肥过程及微生物群落演替的影响

以人粪便和锯末为实验材料,研究了四环素(TC)对好氧堆肥过程中理化性质、酶活性以及微生物群落演替的影响.实验共设4个处理:CK(不添加TC)、TC100(100 mg·kg~(-1)TC)、TC250(250 mg·kg~(-1)TC)和TC500(500 mg·kg~(-1)TC).采用高通量16S rRNA基因测序技术对堆肥中微生物群落结构进行分析.结果表明,TC对堆肥理化性质的影响与其浓度有关,堆肥中TC浓度的增加显著抑制了堆肥温度的升高,增加了水溶性碳(WSC)的残留,降低了种子发芽率(GI)并抑制了脱氢酶活性(DHA).堆肥温度、WSC、GI和DHA等堆肥参数都可以用来表征堆肥的腐熟度,以上结果表明堆肥中TC浓度高达500 mg·kg~(-1)时,TC阻碍了人粪便好氧堆肥过程并影响堆肥产物的腐熟.而且,TC浓度的增加显著改变了堆肥中的微生物群落演替,降低了微生物的多样性和丰度.TC对堆肥过程和堆肥产物腐熟的主要不利影响是对微生物群落结构的干扰和对生物活性的抑制.     

污泥超高温堆肥过程中DOM结构的光谱分析

为了明确超高温堆肥新工艺在促进腐殖化进程中的优势,采用三维荧光光谱(3D-EEM)等光谱学方法研究了污泥超高温堆肥过程中DOM的结构特征及其变化规律.结果表明,堆体≥80℃的超高温阶段持续5 d(最高温度90℃),50℃以上高温阶段达到22 d,反映了堆肥过程中强烈的微生物代谢活性.E253/E203、SUVA280、S275~295等9个紫外-可见光光谱(UV-Vis)指标在0~23 d变化显著,指出DOM的芳香化和堆肥腐殖化程度逐渐增强.3D-EEM光谱结合荧光区域体积积分技术(FRI)分析指出,DOM中蛋白类物质在超高温堆肥过程的0~6 d几乎完全被降解;腐殖酸和富里酸类物质在0~23 d大量形成,堆肥在高温阶段达到完全腐熟,这与种子发芽指数(GI)在23 d所指示的腐熟度评价结果(98.5%)一致.基于多种光谱学指标的相关性分析,PⅤ,n/PⅢ,n与其它光谱学均呈现较好的相关性(r≥0.68),可以作为评价超高温堆肥腐熟度的光谱学指标.上述结果证实了超高温堆肥工艺可加快堆肥腐熟进程、缩短堆肥周期至20 d左右,在有机固废资源化领域具有极大的应用潜力.     

城市污泥堆肥对土壤温室气体排放的短期影响

采用田间试验,施用2种城市污泥堆肥（含生物质炭和不含生物质炭）,通过静态暗箱-气相色谱法研究污泥堆肥土地利用过程温室气体排放特征,探讨施用污泥堆肥的短期影响作用.结果表明,在观测时间内,N₂O排放主要集中在前3周,约占总排放量的87.9%~95.6%.N₂O排放量均随污泥堆肥施用量的增加而增加（P<0.05）,裸地N₂O排放量高于种植作物处理.施用含生物质炭污泥堆肥能减少土壤N₂O排放,且随着施用量的增加,N₂O减少量越大（P<0.05）.CH₄排放量较低,在试验前期和后期主要为负,总体表现为吸收CH₄.各处理吸收CH₄主要集中在第18d以后,其CH₄吸收量占总吸收量的52.1%~66.7%.施用含生物质炭污泥堆肥处理CH₄吸收量比不含生物质炭污泥堆肥处理低35.2%~62.2%,同时,裸地CH₄吸收量明显高于种植作物处理（P<0.05）.CO₂排放也主要集中在18d以后,约占排放总量的50.5%~61.8%.种植作物能促进CO₂的排放,种植作物处理是裸地的1.34~1.57倍.在观测时间内,污泥堆肥土地利用是CH₄的弱吸收汇,是N₂O和CO₂的排放源,施加污泥堆肥能显著增加土壤N₂O和CO₂的排放.施用生物质炭污泥堆肥短期内能够减少温室气体总排放量,温室气体减排量达到20.41%~62.51%.     

不同来源堆肥腐殖质还原菌异化铁还原能力评估与调控

通过富集不同来源堆肥过程中的腐殖质还原菌,并分析比较其异化铁还原能力差异,发现其电子转移能力从大到小依次为：蛋白类>纤维素类>木质素类.相关性分析表明,Leucobacter、Clostridium sensu stricto和Sporosarcina是极显著影响异化铁还原的腐殖质还原菌属.利用冗余分析探究关键腐殖质还原菌与堆肥过程微环境因子的响应关系,结果发现可溶性有机氮是影响这些关键腐殖质还原菌变化的主要微环境因素.在此基础上,基于堆肥微环境因子与关键腐殖质还原菌菌群结构之间的响应关系,提出一种促进异化铁还原相关的腐殖质还原菌生长的调控方法.本研究可以深入了解堆肥中影响腐殖质还原菌群落的关键因素,而且对于环境中污染物生物地球化学循环也具有重要的生态学意义.     

微生物调控对有机废物堆肥的理化性质影响研究

研究了微生物调控对有机生活废物堆肥的理化性质影响,结果表明:添加微生物处理比对照处理提前1 d进入高温分解期,且高温(>50℃)持续时间为6 d,较对照处理的长3 d;pH呈先升高后降低的趋势,微生物处理的pH值对照处理的偏低;EC值呈"M"型变化规律,微生物处理的EC值较对照高;在整个堆肥过程中微生物处理的胡敏酸E 4/E 6值都低于对照,表明添加菌剂有利于生活垃圾腐殖化;以发芽指数GI均大于80%这一标准评判,微生物处理比对照提前8d腐熟.     

An experimental study on the influence of zeolite on changes of pH and alkalinity in anaerobic treatment of compost leachate

With the increase of urbanization, municipal solid waste has also increased. Therefore, the need for solid waste management is also increasing compared with earlier decades. Composting is a good option for the recycling of solid waste; however, it produces leachate, which requires proper treatment systems to prevent environmental degradation. Due to high chemical oxygen demand (COD) concentrations in compost leachate, anaerobic treatment is the best option for handling the effluent, and an anaerobic baffled reactor (ABR) is one such anaerobic reactor that can be used for its treatment. Because of high ammonia and heavy metal concentrations, as well as the possibility of sludge washout in ABRs, it is important to use proper media, such as zeolite, which can reduce inhibition effects and sludge washout from the reactor. Anaerobic treatment, especially during the methanogenesis phase, is sensitive, and pH and alkalinity are parameters that influence the treatment. Therefore, adjusting these parameters within a normal range is very important to the proper functioning of anaerobic systems. In this study, a pilot‐scale ABR was used, and the last 4 of the 8 ABR compartments were filled with zeolite. The bioreactor was operated at hydraulic retention times (HRT) of 3, 4, and 5 days, with zeolite filling ratios of 10%, 20%, and 30%, and influent COD concentrations of 10,000, 20,000, and 30,000 milligrams per liter (mg/L). In this study, pH value was 6.43 ± 0.1, 6.96 ± 0.3, and 6.96 ± 0.25 at filling ratios of 10%, 20%, and 30%, respectively. According to the results, in all filling ratios, no significant changes were observed in the pH value when the organic loading rate increased and its amount was within a constant range. Influent alkalinity was equal to 2015 ± 510, 2884 ± 505, and 4154 ± 233 milligrams of calcium carbonate per liter (mg CaCO₃/L) at influent COD concentrations of 10,000, 20,000, and 30,000 mg/L, respectively, and in effluent, they were 2536 ± 336, 3379 ± 639, and 4377 ± 325 mg CaCO₃/L, respectively. The amount of alkalinity in the effluent increased compared with the alkalinity in the influent. The results show that the amount of alkalinity in the influent and effluent was similar, and the alkalinity enhancement was lower when the filling ratio was increased from 10% to 20%, and 20% to 30%. Comparisons of the results from zeolite with and without biofilm showed that, in cases of zeolite with biofilm, the amounts of silica and oxygen decreased and the amount of carbon increased, and it showed the formation of biofilm on the surface of zeolite. In addition, the absence of sodium in the zeolite with the biofilm indicated that sodium was exchanged with ammonium ions. According to the results, zeolite can be used in anaerobic reactors as a medium, and it also reduces fluctuations in pH and alkalinity at different organic loading rates, providing a normal range for anaerobic treatment.     

青霉素菌渣堆肥过程中青霉素钠降解菌的分离与鉴定

为了研究开发青霉素发酵菌渣堆肥资源化与无害化技术,采用传统的富集、分离、纯化等微生物学方法,在青霉素菌渣与猪粪混合堆肥过程中筛选出一株青霉素钠高效降解菌——PC-2,并对其进行形态表征和基于16S rRNA基因序列的微生物种属鉴定. 结果表明:菌株PC-2属螯合球菌属(Chelatococcus sp.),其能够利用青霉素钠为唯一碳源生长,但外加碳、氮源可显著提高菌株PC-2对青霉素钠的降解效率. 当葡萄糖为碳源、蛋白胨为氮源、菌株PC-2接种量为14%、pH为6~8时,菌株PC-2在37 ℃下振荡培养6 h,对初始ρ(青霉素钠)为400 mg/L的青霉素钠的降解率可达98%以上. 自堆肥过程中获取高效青霉素钠降解菌PC-2,预示着其在菌渣堆肥过程中的应用潜力,也有助于深入开展青霉素制药菌渣的安全有效与无害化处理处置方法的研究.      

Refuse treatment options: a case study

Records in public archives were evaluated for the period 1981-1991. Simple surveys of peoples and of technology and physical premises provided insight to gauge the attitudes of a local community in the Melbourne municipality and the Melbourne City Council towards composting of organic waste materials. There is a lag in perception and attitudes between the local community and the local government towards composting of organic refuse as a solid waste treatment option. The simple methodology of the study still made it possible to verify past and present perceptions and attitudes.     

粪便高温堆肥及其施用效果研究综述

本文综述了国内外高温堆肥系统的堆肥条件、调控方法、堆肥腐熟度指标以及农田施用效果的研究进展。尽管畜禽粪便是有机肥料的主要来源，但是其携带的大量病原菌、寄生虫卵和有毒物质是影响畜禽粪便农田利用的主要原因。好氧堆肥的主要目的是杀灭粪便中携带的有害病菌和寄生虫卵，将原料中的高分子经过微生物分解为稳定的物质。如何选择堆肥腐熟度指标和利用这些指标是判定堆肥稳定与否的重要条件。最终达到合理施用有机肥、提高作物品质、改善土壤环境质量条件的目的。     

Effect of selected and non-selected urban waste compost on the initial growth of corn

Brazil produces approximately 242,000 t of waste per day, 76% of it being dumped outdoors and only 0.9% recycled, including composting, which is an alternative still little known in Brazil. In search of a better destination for residues produced by domestic activities, composting stands as a feasible alternative. Organic compost from waste may be used for various purposes, among which are soil recovery, commercial production, pastures, lawns and reforestry and agriculture. However, the quality of the compost determines the growth and the development of plants. The effect of compost made from urban waste on corn plant (Zea mays L.) growth was investigated. Two types of compost were used: the selected compost (SC), produced from organic waste selectively collected; and the non-selected compost (NSC), taken from a 15-year-old cell from the Canabrava land-fill, located in Salvador, Bahia, Brazil (altitude 51 m, 12°22′–13°08′S, 38°08′–38°47′W). Corn was seeded in polyethylene pots, with soil-compost mixing substrate in the proportion of 0, 15, 30, 45 and 60 t ha⁻¹ equivalent doses. Chemical analyses of the compost and growth properties of the plant like chlorophyll content; height and stem diameter; aerial and radicular dry biomasses, were used to evaluate compost quality. Plants cultivated with SC presented a superior gain, being of 52.5% in stem diameter, 71.1 and 81.2% in root and stem biomasses, respectively. Chlorophyl content alterations were observed in plants from treatments using 30 t compost ha⁻¹ dose onwards. Conventional and multivariate statistical methods were used to evaluate these results. The beneficial action of organic compost in plant growth was confirmed with this research.