添加蘑菇渣对落叶堆肥过程中有机物的影响

以落叶、蘑菇渣和鸡粪为原料进行好氧堆肥试验,研究蘑菇渣对落叶堆肥过程中有机物的影响.结果表明:添加蘑菇渣可以促进堆肥有机质、木质素、纤维素的分解,堆肥结束时,纤维素分解率分别为53.90%和47.29%,对半纤维素和羧基的影响不大,可以有效地提高堆肥终产品中腐殖质、游离腐植酸、总酸性基和酚羟基的含量.堆肥结束时,添加蘑菇渣和未添加蘑菇渣处理的腐殖质含量分别为260.79 g·kg-1和215.01 g·kg-1,游离腐植酸含量分别为222.23 g·kg-1和189.75 g·kg-1.红外光谱表明,添加蘑菇渣可以有效地促进碳水化合物、蛋白质、脂肪族化合物和木质素等的分解,加快堆肥稳定腐熟.     

蘑菇渣对落叶堆肥中水溶性有机物光谱学特性的影响

采用光谱分析技术研究落叶堆肥过程中水溶性有机物的组成和结构特征以及添加蘑菇渣对堆肥中水溶性有机物光谱学特性的影响.荧光光谱的结果表明,随着堆肥过程的进行,水溶性有机物的芳构化程度不断增加,生成的腐殖质类物质与土壤富啡酸相似,添加蘑菇渣会促进这一过程的进行;红外和紫外光谱进一步显示,在堆肥过程中,水溶性有机物中的碳水化合物和脂肪族化合物不断被降解,而羧基、芳香族化合物和硅酸盐类物质明显增加,添加蘑菇渣可以有效促进木质素类物质的分解,提高水溶性有机物的芳构化程度,加快堆肥腐熟.     

不同类型堆肥中腐殖酸与富里酸的光谱特性和分子量分布

以中药渣(HR)、小麦秸秆(WS)和稻壳(RH)为辅料工业化生产的鸡粪堆肥中的腐殖酸(HA)和富里酸(FA)为研究对象,系统对比分析了不同类型堆肥腐殖质(HSs)的光谱特性和分子量分布。结果表明,3类堆肥中HA的芳香性均高于FA,HR和RH堆肥中HA和FA的芳香化程度均高于WS堆肥。三维荧光区域体积积分结果显示,HA的类腐殖质含量(Ⅲ+Ⅴ,86%～91%)高于FA(56%～64%),而FA的类蛋白物质(Ⅰ+Ⅱ,28%～37%)远高于HA(5%～9%),表明HA具有更高的腐殖化程度和分子量特征;其次,RH和WS堆肥中FA分别含有更多的类富里酸和类腐殖酸,而HR堆肥中FA的类络氨酸组分更多。傅里叶红外光谱分析发现,FA比HA含有更多的酰胺和羧酸,其中HR、WS和RH堆肥中FA分别富含芳香族羧酸、酰胺和多糖结构。元素分析结果显示,与FA相比,堆肥HA具有较高的C/N比和较低的O/C比,表明HA具有更多的不饱和结构,而FA具有更多的含氧官能团。添加不同辅料的堆肥中,WS堆肥HSs的脂肪化程度最高。高效体积排阻色谱结果显示,HA比FA具有更宽的高分子量分布(>2×10⁴     

菌渣好氧堆肥过程中腐熟度指标及红外光谱的动态变化

为实现食用菌菌渣的合理处置及资源化利用,以食用菌菌渣、鸡粪和豆渣为原料,共设计3个堆肥处理(菌渣与黄豆渣混堆,C1;菌渣与鸡粪混堆,C2;菌渣直接堆制,C3),通过高温好氧堆肥方式研究堆肥过程中相关腐熟度指标及红外光谱的动态变化。结果表明,堆肥过程中温度变化经历了3个阶段,50℃以上高温持续时间均大于10 d。pH总体呈上升趋势,至堆肥结束达到8.0—9.0之间,符合腐熟堆肥的标准;EC值在1.0—2.5 mS·cm~(-1)范围内浮动,C1处理的EC值大于C3的EC值;C/N总体呈下降趋势,堆肥结束时3种处理的比值均低于20;种子发芽指数(GI)随着堆肥过程逐渐上升,至21d时,3种处理的GI值均超过50%,堆肥结束时,C3的GI值达到72.46%,C1、C2的GI值分别为81.02%和82.36%。堆肥过程中胡敏酸(HA)含量逐渐升高,富里酸(FA)的含量变化不大,3种处理胡敏酸与富里酸的比值(HA/FA)总体呈升高趋势,C1、C2和C3的HA/FA值分别由初始的2.38、2.20和2.28增加到3.92、3.22和3.82。红外光谱数据表明,随着堆肥过程的进行,多糖类物质含量减少,有机物中不饱和结构的多聚化或联合程度增大,芳香结构物质与氨基基团有所增加,说明堆肥过程中有机物质的变化规律先是大分子物质(如蛋白质、多糖类等)被降解,然后是腐殖质类物质的逐渐合成。     

石灰预处理对树叶堆肥过程中养分转化的影响

以树叶干质量的0%、1.00%、2.50%和4.00%的石灰预处理树叶,24h后分别将预处理后的树叶与鸡粪联合堆肥,研究不同用量石灰预处理树叶对树叶堆肥过程中养分转化的影响。试验在自制的堆肥反应器内进行,采用间歇式强制通风的方式,进行为期59d的堆肥试验。结果表明:石灰预处理树叶24h可以有效的降低树叶中的有机质质量分数,以4.00%的石灰预处理的树叶其有机质降幅达6.00%;石灰预处理24h后,各处理pH相差不大;EC的变化与pH相似;预处理前后,各处理总氮、总磷和总钾的质量分数相差不大。用石灰预处理后的树叶堆肥有利于堆肥有机质的降解,尤以2.50%石灰预处理的效果最好;有利于堆肥w(C)/w(N)的降低,其降低幅度与石灰用量成正比;有利于减少堆肥过程中氮素的损失,且氮素损失与石灰使用量呈反比;有利于堆肥NH4 -N质量分数的降低;提高堆肥终产品NO3--N的质量分数,其质量分数与石灰用量呈正比;有利于堆肥中钾的浓缩;对堆肥的pH、EC、w(NH4 -N)/w(NO3--N)和总磷的影响不大。综合考虑试验结果后认为,以4.00%石灰预处理的效果最为理想。     

造纸污泥堆肥与赤红壤模拟培养中活性铝释放特性

通过窜内模拟培养实验,研究赤红壤中添加富含铝盐的造纸污泥堆肥后,土壤中活性铝的释放特性.实验结果表明:模拟培养过程中,总酸溶性铝和总单核铝浓度随培养时间总体呈下降趋势,初期下降显著,且添加堆肥各处理的降幅均高于CK,其中20%PSC分别降低61.64%和60.32%,降幅最大;经过60d培养后,添加堆肥各处理活性铝浓度与CK差异不显著;添加造纸污泥堆肥后,土壤中的pH值、有机质、有效磷均显著增加,这些因素导致土壤中铝活性的降低,且总单核铝是土壤中活性铝的主要存在形态.     

发酵基质含水率对牛粪好氧堆肥发酵产热的影响

以牛粪和玉米秸秆为原料进行好氧堆肥试验,采用氧弹量热法测定发酵产热量,研究堆肥原料不同初始含水率(物料初始含水率w分别为41%、50%、55%、65%和75%)对发酵产热的影响,以及堆肥过程中有机质损失与产热的关系。结果表明,在堆肥第3天各处理(除初始含水率75%处理)温度均达55℃以上,堆肥各处理均表现为前3 d有机质降解最快,热值损失最多。物料初始含水率为41%～65%时,发酵产热量与物料初始含水率呈显著正相关。初始含水率65%对堆肥最有利,有机质损失和总热值变化最大,有机质损失29.18%,总产热量为2 236 kJ.kg-1,若所产热量全部用于去除水分,可以使堆肥物料水分完全去除。     

不同碳氮比条件下鸡粪和椰糠高温堆肥腐熟过程研究

用鸡粪和椰糠作为基本堆肥原料进行高温堆肥试验,通过控制鸡粪和椰糠的添加量调节堆体初始C/N比,研究其对堆肥过程中堆体温度、p H值、C/N比及养分全量等理化指标的影响,探究鸡粪和椰糠高温堆肥的最适C/N比。结果表明,当C/N比为25时,堆体达到最高温度(57℃),且高温持续时间最长(14 d)。堆肥过程中各处理有机质、全碳、C/N比均呈下降趋势,p H值均呈先上升后下降趋势,全氮和种子发芽指数呈上升趋势。堆肥结束后,堆体F1(初始C/N比为20)、F2(初始C/N比为25)和F3(初始C/N比为30)的C/N比分别为11.13、11.19和10.24,总养分含量w分别为7.94%、8.63%和8.29%,种子发芽指数分别为77.90%、100.65%和93.30%。     

堆肥过程中有机质和微生物群落的动态变化

利用3个容积约为50 L的平行生物反应装置研究堆肥过程中温度、湿度（水分含量）、pH值和有机质的动态变化情况。按照Van Soest方法根据有机质不同的溶解特性将其分为：溶于沸水的有机质H2O、溶于中性试剂的有机质SOLU、半纤维素（HEMI）、纤维素（CELL）和木质素（LIGN）。结果表明：反应装置内环境湿度调控在60%左右时,堆肥系统内借助生化反应,温度最高可达到约50℃。堆肥材料在反应初期呈现偏酸性（pH=6.5）,而随着反应的发生,pH逐渐变为中性或弱碱性（pH=7.4）。经过20 d的堆肥实验,有机质总量降解了约47%。在微生物作用下的各类有机质的降解率不同,按大小排序为H2O〉HEMI〉CELL〉SOLU〉LIGN,其降解率分别是85%、56%、36%、32%和27%。为了深入理解堆肥过程中有机质的降解机制,文章采用磷脂脂肪酸（PLFAs）技术对体系中的微生物群落变化进行了初步分析,发现微生物优势群落随反应温度的改变发生明显变化,在堆肥初期和堆肥中期,细菌占优势,而堆肥末期时真菌比例较高。在堆肥的过程中,革兰氏阴性菌的比例呈下降趋势,而革兰氏阳性菌的比例呈上升趋势。     

添加剂对厨余垃圾堆肥氮素转化与氮素损失的影响

采用静态好氧工艺,就不同添加剂对厨余垃圾堆肥氨挥发与氮素损失影响方面进行比较试验。试验设4个处理:A0,对照;A1,添加30 mL.kg-1(以干基计,下同)高温保氮菌剂;A2,添加1 mol.kg-1化学保氮剂;A3,同时添加30 mL.kg-1高温保氮菌剂和1 mol.kg-1化学保氮剂。堆肥结束时,与对照相比,A1、A2和A3处理堆肥全氮含量分别提高8.4%、38.4%和43.1%,有机氮含量分别提高9.9%、64.3%和68.8%,氨氮含量分别降低11.3%、86.5%和86.5%,厨余氨氮释放率分别降低13.4%、84.0%和86.5%,堆肥氮损失率分别下降17.5%、61.5%和67.2%。加入添加剂均可减少厨余垃圾堆肥氨挥发,降低堆肥氮损失。单独添加时,化学保氮剂较高温保氮菌剂作用大;但就3种处理比较而言,菌剂与化学药剂联合添加效果最好。     

堆肥处理对污泥腐殖物质组成和光谱学特征的影响

采用凝胶(Sephadex G-75)色谱、荧光光谱和红外光谱法研究了污泥堆肥的HA和FA在堆制前后的组成与结构特征变化．凝胶色谱分析表明,污泥经过63d堆腐后,HA中大分子组分含量明显提高;而FA则由不同分子量物质组成,其中小分子量物质占主要部分,在堆腐以后,FA中大分子物质含量下降30％,小分子量物质含量则相对增加．同时,荧光光谱、红外光谱的结果表明：随着污泥堆肥的进行,HA中有机物不饱和结构的多聚化或联合程度增大,芳香结构物质含量增加;但经过堆制的FA具有更多的结构简单的低分子量物质和更低的芳构化水平．     

高温堆肥碳氮循环及腐殖质变化特征研究

堆肥化处理，是指依靠自然界广泛分布的细菌、放线菌、真菌等微生物，对有机物有控制地进行生物降解，使之转化为腐殖质的生物化学处理技术。作者采用畜禽粪便条垛式高温堆肥实验方法，研究了堆肥过程中碳氮循环及腐殖质变化特征。结果表明，堆肥过程中，碳素和氮素变化最大，表现为二者总量的减少，其中以碳素总量减少较多，氮素总量次之，从而导致碳氮质量分数比降低。腐殖酸总量、胡敏酸和富里酸总量均呈下降趋势，但腐殖酸占有机碳的比例以及胡敏酸与富里酸质量分数比却在提高，速效养分含量也在升高，表明堆肥过程是一个有机质数量减少、有机质质量提高的过程。     

Characterization of fulvic acids during olive mill waste composting (Elemental,Thermal and fluorescence analyses)

Elemental analysis, fluorescence spectroscopy and differential scanning calorimetry (DSC) were applied to the study of fulvic acids isolated from different stages during olive mill waste composting. The fulvic extracted acids are characterized by a high nitrogen content and O/C ratio values that may result from the high degree of humification and the synthesis of more condensed humic complexes. This was confirmed by fluorescence spectroscopy in the synchronous-scan mode by the decrease of shoulder intensities at intermediate wavelengths indicating the increase of polycondensation and conjugation of unsaturated structures and the greater uniformity of fluorophores. Fluorescence spectra in the emission, excitation and synchronous modes became simpler with compost maturation. This was confirmed by DSC results which proved the high degree of polycondensation of aromatic nuclei of fulvic acid molecules during olive mill waste composting.     

Characterization of fulvic acids during olive mill waste composting (Elemental, Thermal and fluorescence analyses)

Elemental analysis, fluorescence spectroscopy and differential scanning calorimetry (DSC) were applied to the study of fulvic acids isolated from different stages during olive mill waste composting. The fulvic extracted acids are characterized by a high nitrogen content and O/C ratio values that may result from the high degree of humification and the synthesis of more condensed humic complexes. This was confirmed by fluorescence spectroscopy in the synchronous-scan mode by the decrease of shoulder intensities at intermediate wavelengths indicating the increase of polycondensation and conjugation of unsaturated structures and the greater uniformity of fluorophores. Fluorescence spectra in the emission, excitation and synchronous modes became simpler with compost maturation. This was confirmed by DSC results which proved the high degree of polycondensation of aromatic nuclei of fulvic acid molecules during olive mill waste composting.     

Scanning Electron Microscopy of Humic Substances Produced During Cellulose Decomposition

Humic substances (HS) produced during the aerobic decomposition of polysaccharides still need to be recognized as such and characterized. Humic (HA) and fulvic (FA) acids extracted at different time intervals during composting of cotton residues from carding, where no decomposition of lignin occurred, were investigated by scanning electron microscopy (SEM) size exclusion chromatography and infrared spectroscopy. Throughout the experiment, fulvic acids possessed a larger number of carboxyl groups but a lower number of weak acidic groups (negatively charged acid groups at pH 11) than humic acids. the number of carboxyl groups increased with time in both fulvic and humic acids, while that of phenolic groups decreased. Infrared spectra showed that the ratio between carboxyl and methyl groups decreased from 8.5 to 4 in FA after 18 days. This change corresponded with the disappearance of flat sheet structures observed by SEM at pH 6. Our results suggest that the shape of humic molecules as observed by SEM reflects the strength of hydrophilic/hydrophobic interactions with the solvent molecules. About 80% of FA molecules had a molecular weight lower than 3500 as deduced from column calibration with HS standards obtained by ultrafiltration. About 40% of humic acids were composed of small molecules; only 20% HA had a molecular weight larger than 45000. Polysaccharide-derived HS may not be limited to the high molecular weight poorly transformed fraction containing bonded polysaccharide structures, but may also consist of low molecular weight components with no structural similarity to the original material.     

溶解性有机碳的主要组成对青鳉鱼铜急性毒性的影响

为揭示溶解性有机碳(DOC)的组成对生物配体模型(BLM)预测铜的生物毒性准确性的影响,研究了不同浓度黄腐酸(FA)、腐殖酸(HA)和两者不同浓度比例混合物影响铜对青鳉急性毒性。结果表明:在相同水质条件下,黄腐酸或腐殖酸浓度增加时,铜对青鳉的LC50均增加;两者共存时,当腐殖酸质量百分比从10%增至90%时,铜对青鳉的LC50也增加。当天然水中DOC的组成不确定时,可假设HA和FA的组成比例为1∶1,此时BLM预测铜对青鳉的LC50的偏差最小。     

交替冻融对东北典型土壤腐殖质的影响

以受季节性冻融过程影响显著的东北地区的黑土、暗棕壤和水稻土为例,采用实验室模拟的方法,研究交替冻融循环过程（分别在-20℃和20℃下处理）对土壤腐殖质的影响。研究表明：交替冻融后,黑土和暗棕壤松结态腐殖质质量分数分别增加了39%和28%,HA/FA分别上升了45%和35%;水稻土松结态腐殖质质量分数和HA/FA分别下降了18%和31%。三维荧光结果进一步验证,黑土、暗棕壤在交替冻融中土壤芳香化程度增高,HA/FA上升,而水稻土则相反。黑土和暗棕壤松结态腐殖质和HA/FA升高,主要是微生物分解作用和土壤大团聚体破坏等原因造成,水稻土松结态腐殖质和HA/FA降低,主要是水稻土的缺氧环境造成。     

Turnover and loss of nitrogenous compounds during composting of food wastes

Few people have so far explored into the research of the dynamics of various nitrogenous compounds (including water-soluble nitrogen) in composting of food wastes. This study aimed to investigate the solid-phase nitrogen, water-soluble nitrogen, nitrogen loss together with ammonia volatilization in the process of food wastes composting. A laboratory scale static aerobic reactor in the experiment was employed in the composting process of a synthetic food waste, in which sawdust was used as the litter amendment. In the experiment, oxygen was supplied by continuous forced ventilation for 15 days. The results have shown that the concentrations of total nitrogen and organic nitrogen decrease significantly in the composting process, whereas NH₄ ⁺-N concentration increases together with little fluctuation in NO₃ ^?-N. After composting, the total content of the water-soluble nitrogen compounds in the compost greatly increased, the total nitrogen loss amounted to 50% of the initial nitrogen, mainly attributed to ammonia volatilization. 56.7% of the total ammonia volatilization occurred in the middle and late composting of the thermophilic stage. This suggested that the control at the middle and late composting of thermophilic stage is the key to nitrogen loss in the food waste compost.     

外源铁、磷对堆肥腐熟的影响及“腐殖酸-Fe-P”复合体的形成初探

针对堆肥过程中氮素损失严重,产品品质低下的问题,试验以FeCl3和Ca3（PO4）2（干质量比1∶1）混合物分别按10%（处理A）和15%（处理B）的比例添加到堆肥原料中,以未加任何外源物质的处理作为对照,进行添加外源铁、磷是否会促进堆肥腐熟、提高产品品质的研究。结果表明,与对照处理相比,外源铁、磷对堆肥油菜籽（Brassica napus）发芽率指数影响不大,但产品的氮素含量明显提高,分别高于对照1.42%和1.17%;外源铁、磷加速有机质的分解,有机质分解率分别高于对照处理13%和3.3%;外源铁、磷对堆肥产品腐殖酸结合的Fe含量分别为对照处理的4.4倍和1.98倍,铁结合的磷含量分别为9.12、5.91g·kg-1,对照处理仅为2.21g·kg-1,并通过相关文献讨论,提出堆肥体中可能形成了＂腐殖酸-Fe-P＂三元复合体的假设。从作用和成本上来看,处理A的添加比例较处理B合适。     

Characterization of humic substances in bio-treated municipal solid waste landfill leachate

Considerable organic matter remains in municipal solid waste landfill leachate after biological treatments. Humic substances (HSs) dominate the organic matter in bio-treated landfill leachate. In this study, the HSs from landfill leachate treated by membrane bioreactor (MBR-HSs) were analyzed via elemental analysis, ultraviolet-visible spectroscopy, Fourier transform infrared spectroscopy, and charge polarized magic-angle spinning-¹³C-nuclear magnetic resonance. The characteristic absorption in the UV wavelength range indicated the presence of high C=C and C=O double bonds within the MBR-HSs. Compared with commercial HSs, MBR-HSs had lower carbon content [48.14% for fulvic acids (FA) and 49.52% for humic acids (HA)], higher nitrogen content (4.31% for FA and 6.16% for HA), lower aromatic structure content, and higher carbohydrate and carboxylic atoms of carbon content. FA predominantly had an aliphatic structure, and HA had less condensed or substituted aromatic ring structures than natural HA. The aromatic carbon content of MBR-HSs was lower than that of humus-derived HSs but higher than that of waste-derived HSs, indicating that MBR-HSs appeared to be more similar to humus-derived HSs than waste-derived HA.