抗生素菌渣堆肥进程中微生物群落的变化

将青霉素菌渣、林可霉素菌渣与牛粪等原料分别进行好氧堆肥实验,以考察堆肥过程中不同菌渣对微生物群落的影响。在堆制的41d里,根据温度变化分阶段采集堆肥样品,采用稀释倒平板法测定细菌、放线菌和真菌的数量。结果表明,菌渣不同,其堆肥中的微生物群落变化趋势不同。青霉素菌渣堆肥中细菌数量变化趋势为高一低,真菌数量变化趋势为高一低．高,放线菌数量为逐渐增加;林可霉素菌渣堆肥过程中细菌数量变化趋势为低一高一低,放线菌和真菌数量变化趋势为高．低．高。依据真菌菌落形态观察,菌渣堆肥中的真菌种类比对照牛粪堆肥单一,表明两种菌渣对堆肥中的微生物多样性均产生了不利影响。林可霉素菌渣堆肥初始时的细菌数量比对照低1个数量级,放线菌数量在整个堆肥进程中都明显低于对照,堆肥结束时,随着菌渣含量的增加,放线菌数量逐渐下降,高温期真菌数量下降幅度随着菌渣含量增加而加大,表明林可霉素菌渣对细菌、放线菌和真菌均有不同程度的抑制。堆肥化后菌渣中林可霉素残留量的减少表明,在一定条件下堆肥处理可以将抗生素菌渣无害化和资源化。     

盐酸林可霉素菌渣的厌氧处理可行性静态实验研究

采用厌氧处理可行性静态实验方法,对盐酸林可霉素菌渣废水在厌氧生物处理的毒害程度方面进行实验研究,了解基本的实验参数。结果表明,在反应器内处于完全混合均匀状态时,反应器内产气的抑制程度随着废水浓度的增加而增加。当废水的SS浓度为4 756 mg/L、盐酸林可霉素浓度为116.2 mg/L时的抑制程度为34.7%,而当废水的SS浓度为7 533 mg/L、盐酸林可霉素浓度为178.9 mg/L时的抑制程度为70.9%。     

林可霉素制药废水的臭氧氧化处理

考察了臭氧氧化对林可霉素的效价削减效果。在初始抗生素浓度为100 mg·L~(-1)时,林可霉素效价削减50%所需消耗的臭氧量为0.118 mg·mg~(-1)抗生素,降解过程符合一级降解动力学特征。进一步采用林可霉素实际废水考察了污水化学需氧量(COD)和pH对抗生素臭氧氧化处理的影响,发现废水的COD每增加100 mg·L~(-1),则单位抗生素实现50%削减需要增加的臭氧量约为1.64 mg。碱性条件下,臭氧可催化分解生成羟基自由基等活性基团而加速林可霉素的降解。同时,臭氧氧化后林可霉素生产废水的厌氧可生化性提高了98.51%。研究结果可以为林可霉素生产废水的处理技术选择提供参考。     

土霉素残留对猪粪堆肥过程中理化性质的影响

为探讨土霉素残留对猪粪堆肥过程的影响,以猪粪和锯末为原料,设置土霉素初始残留质量浓度分别为0、10、50、100、150 mg/kg的5个处理,进行为期30 d的好氧堆肥,研究土霉素对堆肥过程中温度、含水率、水溶性NH4+-N、水溶性NO3- -N、水溶性有机碳(DOC)的变化影响.结果表明:(1)土霉素残留加速了温度的下降,不利于温度的上升.(2)土霉素初始残留质量浓度为100、150 mg/kg不利于堆肥过程中水分的散失,并且会造成堆肥结束后堆体的高含水率.(3)土霉素抑制了堆肥过程中微生物对有机氮的分解及硝化细菌的硝化作用,其中150mg/kg处理的土霉素抑制作用最显著.(4)堆肥结束后,0、10、50、100、150 mg/kg处理的DOC分别为3 815.65、3 461.88、3 429.28、3 231.18、2 782.09mg/kg.0 mg/kg处理的DOC高于其他4个处理,且与150 mg/kg处理之间差异显著,表明土霉素抑制了堆肥过程中微生物对有机碳的利用,其中150 mg/kg处理的土霉素抑制作用最显著.     

生物炭添加对餐厨废弃物堆肥腐殖酸形成及微生物演替的影响

针对餐厨废弃物堆肥腐殖酸不稳定易降解的问题,研究生物炭添加对餐厨废弃物堆肥腐殖酸形成的影响。一共设置两个处理(CK,不添加生物炭;BC,按照堆体干质量添加5%生物炭),整个堆肥周期持续15 d。堆肥结束时,BC的还原糖、氨基酸、多酚分别为2.05、1.57、2.25 mg/g,分别比CK低1.97、0.68、0.43 mg/g; BC的胡敏酸(HA)、HA/富里酸(FA)(质量比)分别为17.04 mg/g、1.85,较CK提升了61.21%、110.23%。BC的气单胞菌(Aerococcus)、土地芽孢杆菌(Terribacillus)、蜡样芽孢杆菌(Cerasibacillus)、巨球菌(Macrococcus)、Tepidanaerobacter相对丰度比CK高0.30、0.04、0.01、0.01、0.03百分点,土芽孢杆菌(Geobacillus)、小多孢菌(Micropolyspora)相对丰度比CK分别低0.79、0.16百分点。结果表明添加生物炭有利于：(1)还原糖、氨基酸、多酚向腐殖酸的转化;(2)促腐微生物(气单胞菌、土地芽孢杆菌、蜡样芽孢杆菌、巨球菌、Tepid...     

餐厨垃圾和绿化废弃物混合堆肥的试用

以餐厨垃圾和绿化废弃物堆肥作为种植基质,研究了其不同堆肥比例对黑麦草(Lolium perenne L.)生长的影响。结果表明,将不同基质组分别施用后,黑麦草各项生长指标(植株高度、盖度、地上和地下生物量(干重))均良好,其中2#基质(80%土壤+20%堆肥)施用效果优于1#(90%土壤+10%堆肥)和3#(70%土壤+30%堆肥)基质。对比不同堆肥对黑麦草生长的影响发现,(80%+20%)堆肥6处理的黑麦草地上和地下生物量最大,分别约为40 g和28 g,第三茬草地上生物量(干重)与对照组相比增幅为164.3%,盖度达到了98%。本研究确定了堆肥和土壤的最佳配比以及最佳堆肥类型,不但可以解决其资源化再利用的问题,而且植物生长良好,表明该技术在城市绿化中具有一定的应用前景。     

牛粪堆肥过程中四环素类抗生素的降解及影响因素研究

为明确牛粪堆肥过程中3种四环素类抗生素(四环素、土霉素、金霉素)的降解及其影响因素,以牛粪和玉米秸秆为原料,用小型泡沫盒在恒温培养箱中进行为期40 d的堆肥试验。设置3因素3水平处理：抗生素质量浓度(25、50、75 mg/kg)、培养温度(25、35、45℃)和C/N(质量比,15、25、35),通过优化的高效液相色谱法检测堆肥过程中抗生素的降解情况。结果表明,好氧堆肥有效地降低了牛粪中四环素类抗生素的含量,残留率小于24.1%。随着抗生素浓度的增加,四环素、土霉素、金霉素的残留率均逐渐增加,并达到显著水平(p<0.05);随着培养温度的增加,四环素的残留率逐渐降低,且处理间差异显著(p<0.05);当堆体的C/N为25时,3种抗生素的残留率最低,且显著低于其他两个处理(p<0.05)。整个堆肥过程中,抗生素在第5～14天降解最快,这段时间堆体温度也相对较高,说明四环素类抗生素的降解主要发生在高温阶段。好氧堆肥处理虽然可以有效降低牛粪中四环素类抗生素的残留,但不能完全将其去除。因此,在农业生产中,需酌量使用有机肥。     

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).     

黑曲霉固态发酵三七渣产淀粉酶的研究

以三七渣为基质,采用黑曲霉固态发酵产淀粉酶,考察了硫酸铵(氮源)添加量、三七渣粒径、固体培养基含水率、发酵温度、发酵时间、菌悬液接种量等因素对产淀粉酶效果的影响,并采用正交实验对发酵条件进行了优化。单因子实验结果表明,黑曲霉固态发酵三七渣产淀粉酶适宜的硫酸铵添加量为40～60mg/g(以干药渣计),最佳三七渣粒径为100目,最适固体培养基含水率为55%,最佳发酵温度为34℃,最适发酵时间为7d,最佳菌悬液接种量为10%(质量分数)。正交实验多重比较的结果表明,优化的发酵条件为:硫酸铵添加量50mg/g,发酵温度34℃,发酵时间5d,在此发酵条件下,黑曲霉固态发酵三七渣产生的淀粉酶的酶活可达84.15U/g(以湿物料计)。     

林可霉素菌(Streptomyces lincolnensis)利用吡唑酮废水的研究

采用被吡唑酮废液驯化、分离、筛选后的林可霉素菌,并对其在摇瓶上利用吡唑酮废液中的硫酸铵发酵(7 d)生产林可霉素进行了研究。实验结果表明,废液加入培养基体积比都为1∶10,实验1中菌丝代谢和对照比正常,其中还原糖利用最快,在发酵后期为0.24 mg/L,林可霉素起步效价最低为2 100 IU/mL,与对照相比最后发酵效价降低了70 IU/mL;实验2发酵过程pH值偏低,全程为5.86～6.50,氨基氮代谢缓慢为40 mg/100 mL,最后林可霉素效价最低为4 480 IU/mL;实验3中废液在发酵进入48 h中后期的时候补入能促进菌丝体分泌,最后林可霉素为5 180 IU/mL,比对照发酵水平高出8.82%。可见实验3的实验设计有利于林可霉素菌利用吡唑酮废液生产林可霉素,为废物循环利用、变废为宝的可行性作了有意义尝试。     

Effect of inoculation methods on the composting efficiency of municipal solid wastes

Four types of inoculation methods were studied during the composting of municipal solid wastes and dry grass (MSWG). The methods included a control group as well as initial-stage, two-stage, and multi-stage inoculations. Fulvic acids were extracted from the composting materials and characterized by spectroscopic techniques. The results showed that inoculation of microbes in MSWG enhanced the biodegradation of aliphatics, proteins, and polysaccharides. The inoculation also increased the molecular weight, humic- and fulvic-like compound content, as well as humification degree of the composting products. The inoculation of microbes in MSWG significantly improved composting process and efficiency. The improvement efficiency was in the order of initial-stage < two-stage < multi-stage inoculations. Inoculation of microbes based on composting organic matter composition and temperature enhanced composting efficiency.     

Effect of turning frequency on co-composting pig manure and fungus residue

Composting of agricultural wastes not only can reduce environmental pollution caused by improper disposal, but also can recycle agricultural wastes and transform them into highly valuable products, such as fertilizers or soil conditioners, for agricultural applications. However, the composting process and final product are easily affected by the limited oxygen supply that results from insufficient aeration, especially in the center of a large-scale windrow. Hence, a pilot-scale experiment was conducted to investigate the effects of the turning frequency on the composting efficiency and compost quality of used pig manure and fungus residue. Physical and chemical characteristics were measured over the course of 63 days of composting. The data indicate that higher temperatures and more rapid moisture removal generally result from a turning treatment of once every 2–4 days than in fewer, or no, turning treatments. The total nitrogen, total phosphorus, and total potassium contents increased in all windrows as the organic matter content decreased, but both the increases and decrease were greater in windrows that were turned more frequently. The reduction of the organic matter mass by 53.7–66.0% for a turning of once every 2–8 days is significantly higher than that for the static windrow (39.1%). Although there is an increase in nitrogen mass loss with an increased turning frequency, lower nitrogen mass losses (12.7–25.7%) in all treatments were noted compared with previous studies. A final compost product with less moisture, less weight, higher nutrient content (N, P, and K), and greater stability was obtained in windrows with turning frequencies of once every 2–4 days, which is recommended when composting pig manure and fungus residue.

Implications: Composting of agricultural wastes not only can reduce environmental pollution caused by improper disposal, but recycling of agricultural wastes transforms them into highly valuable products, such as fertilizers or soil conditioners, for agricultural applications. However, the composting process and final product are easily affected by the limited oxygen supply that results from insufficient aeration, especially in the center of a large-scale windrow. Hence, a pilot-scale experiment was conducted to investigate the effects of the turning frequency on the composting efficiency and compost quality of used pig manure and fungus residue, so as to capture an operational technique suitable for the effective co-composting pig manure and edible fungi residue for a large-scale composting plant.     

接种外源微生物菌剂对香蕉茎秆堆肥的影响

为了研究接种外源微生物菌剂对香蕉茎秆堆肥的影响,本实验采用高温好氧堆肥技术,设计了对照（不接菌）、接种白腐菌及棱盖多孔菌3个处理,探讨了不同处理堆肥过程中堆体温度、水分、pH值、电导率、有机碳、C/N、发芽指数及堆肥质量的变化情况。结果表明,接种微生物菌剂处理的温度均高于对照,且高温期持续时间相对较长,以接种白腐菌处理的高温持续时间最长;接种外源微生物菌剂对堆肥含水率、pH、EC、全碳、C/N变化影响不大;与对照相比,接种白腐菌可增加全氮及全钾的含量,有利于提高堆肥产品质量;接种白腐菌处理在36 d（GI〉50%）就达到腐熟,比对照提前8 d腐熟,明显缩短堆肥腐熟时间;而接种棱盖多孔菌处理比对照推迟10 d腐熟,共需54 d不利于香蕉茎秆堆肥的进行。     

Composting duck excreta enriched wood shavings: C and N transformations and bacterial pathogen reductions

Composting of agricultural and domestic wastes is used increasingly to reduce weight, volume, and odor; destroy animal and plant pathogens; and improve the quality of end-products to be used as soil amendments and growth substrates. The objective of this study was to investigate the transformation of C and N and the survival of bacterial populations and pathogenic bacteria during in-vessel composting of duck excreta enriched wood shavings. Two feedstocks, collected on different dates, were composted (C1 and C2) in an enclosed hall system equipped with an electromechanical turner. Temperature was continuously recorded, whereas moisture content and bacterial counts were determined twice a week. Data showed that, although the N content of C2 was only half of that of C1, both materials were fully biostabilized at the end of the composting period as indicated by extractable lipid ratios. In the compost with the low C/N ratio (C1), all bacterial populations were eliminated, whereas fecal streptococci, total coliforms, and gram-negative bacteria were still present in C2 at the end of the composting period. Our results emphasize that the composting of manures and other organic wastes needs to be properly managed to stabilize C and N and to eliminate or reduce bacterial populations.     

基于PEG/DEX双水相体系的餐厨垃圾乳酸发酵

利用聚乙二醇(PEG)/葡聚糖(DEX)双水相体系分离餐厨垃圾发酵产物乳酸,分析了聚合物浓度和分子量的影响,以及餐厨垃圾多批次连续发酵时乳酸产率。实验结果表明,PEG/DEX双水相体系对乳酸菌生长影响不大,PEG和DEX浓度变化对乳酸产率、相体积比无显著影响;当DEX分子量由20 000升至40 000,乳酸生成速率由0.631 g/(L.h)降至0.518 g/(L.h),乳酸浓度由33 g/L降至22 g/L。多批次餐厨垃圾连续发酵可极大缩短发酵时间,在不投加缓冲剂的情况下,单批次乳酸产率仍大于0.30 g/g,累积产率大于0.45 g/g。     

两室堆肥生物反应装置研究

以堆肥过程中物料平衡、热量平衡以及垃圾生物发酵特性为依据,设计了二室堆肥生物反应装置,并通过堆肥试验实际检验反应装置设计的合理性.装置主要结构包括:二室堆肥发酵仓、保温层、通风供氧系统、空气加热系统以及二次污染控制系统.装置的主要特点为:两发酵仓能够独立完成堆肥发酵,也可以实现堆肥一次、二次发酵串联工艺组合;通过二次污染控制系统,可以很好地减少堆肥过程中产生的废水臭气排放;采用空气加热系统,可以快速均匀地加热堆体,以满足不同堆肥工艺的需要.装置在试验研究以及小规模垃圾堆肥处理领域有一定的应用价值.     

Dynamics of copper and tetracyclines during composting of water hyacinth biomass amended with peat or pig manure

Composting is one of the post-treatment methods for phytoremediation plants. Due to a high potential of water hyacinth to accumulate pollutants, the physicochemical parameters, microbial activity as well as fates of copper (Cu) and tetracyclines (TCs) were investigated for the different amended water hyacinth biomass harvested from intensive livestock and poultry wastewater, including unamended water hyacinth (W), water hyacinth amended with peat (WP), and water hyacinth amended with pig manure (WPM) during the composting process. Pig manure application accelerated the composting process as evidenced by an increase of temperature, electrical conductivity (EC), NH₄-N, as well as functional diversity of microbial communities compared to W and WP treatments. Composting process was slowed down by high Cu, but not by TCs. The addition of peat significantly increased the residual fraction of Cu, while pig manure addition increased available Cu concentration in the final compost. Cu could be effectively transformed into low available (oxidizable) and residual fractions after fermentation. In contrast, less than 0.5% of initial concentrations of TCs were determined at the end of 60-day composting for all treatments in the final composts. The dissipation of TCs was accelerated by the high Cu concentration during composting. Therefore, composting is an effective method for the post-treatment and resource utilization of phytoremediation plants containing Cu and/or TCs.     

Ammonia emissions from the composting of different organic wastes. Dependency on process temperature

Ammonia emissions were quantified for the laboratory-scale composting of three typical organic wastes with medium nitrogen content: organic fraction of municipal solid wastes, raw sludge and anaerobically digested sludge; and the composting of two wastes with high nitrogen content: animal by-products from slaughterhouses and partially hydrolysed hair from the leather industry. All the wastes were mixed with the proper amount of bulking agent. Ammonia emitted in the composting of the five wastes investigated revealed a strong dependence on temperature, with a distinct pattern found in ammonia emissions for each waste in the thermophilic first stage of composting (exponential increase of ammonia emitted when increasing temperature) than that of the mesophilic final stage (linear increase of ammonia emissions when increasing temperature). As composting needs high temperatures to ensure the sanitisation of compost and ammonia emissions are one of the main environmental impacts associated to composting and responsible for obtaining compost with a low agronomical quality, it is proposed that sanitisation is conducted after the first stage in large-scale composting facilities by a proper temperature control. CAPSULE: Ammonia emission pattern and correlation with process temperature are presented for the composting process of different organic wastes.     

Co-composting of distillery wastes with animal manures: carbon and nitrogen transformations in the evaluation of compost stability

The aim of this work was to study the viability of recycling the solid wastes generated by the winery and distillery industry by means of co-composting with animal manures, as well as to evaluate the quality of the composts obtained. Two piles, using exhausted grape marc and cattle manure or poultry manure, respectively (at ratios, on a fresh weight basis, of 70:30), were composted by the Rutgers static pile composting system. Throughout the composting process, a number of parameters were monitored, such as pH, electrical conductivity, organic matter, water-soluble carbon, water-soluble polyphenols, different forms of nitrogen (organic nitrogen, ammonium and nitrate) and humification indices (humification ratio, humification index, percentage of humic acid-like C, polymerisation ratio and cation exchange capacity), as well as the germination index. Organic matter losses followed first-order kinetics equation in both piles, the highest organic matter mineralisation rate being observed with exhausted grape marc and cow manure. On the other hand, the mixture with the lowest C/N ratio, using exhausted grape marc and poultry manure, showed the highest initial ammonium contents, probably due to the higher and more labile N content of poultry manure. The increase in the cation exchange capacity revealed the organic matter humification during composting. In contrast, other humification parameters, such as the humification ratio and the humification index, did not show the expected evolution and, thus, could not be used to assess compost maturity. Composting produced a degradation of the phytotoxic compounds, such as polyphenols, to give composts without a phytotoxic character. Therefore, composting can be considered as an efficient treatment to recycle this type of wastes, due to composts presented a stable and humified organic matter and without phytotoxic effects, which makes them suitable for their agronomic use.