蚯蚓粪对温室黑土土壤酶活性及细菌多样性的影响

试验研究了蚯蚓粪对黑土土壤酶活性、细菌数量及多样性的影响。共设5个处理:处理1,对照(CK),不施肥;处理2,蚯蚓粪7.5 t hm-2;处理3,蚯蚓粪15 t hm-2;处理4,蚯蚓粪30 t hm-2;处理5,蚯蚓粪60 t hm-2。结果表明,蚯蚓粪对土壤过氧化氢酶、脲酶、蔗糖酶和磷酸酶活性有促进作用,但因酶类型的不同略有差异;随着蚯蚓粪施用量的增加,土壤细菌数量呈现先升高后降低的趋势,而土壤细菌群落多样性表现为递增趋势。各处理对土壤细菌丰富度和多样性指数的影响显著高于对照,但各处理间均匀度指数无差异。聚类分析表明,处理3(蚯蚓粪15 t hm-2)与处理4(蚯蚓粪30 t hm-2)的土壤细菌DGGE图谱相似性达93.8%,并聚成一簇,说明处理3土壤细菌种类与处理4相似性最高,处理3与处理4对土壤细菌多样性指数与均匀度指数影响均无显著差异,但条带数显著增加;处理4与处理5(蚯蚓粪60 t hm-2)相似性达到78.1%,与处理1和处理2(7.5 t hm-2)的相似性只有57.3%,说明蚯蚓粪的施入导致土壤有益微生物种类和数量增加,提高土壤细菌多样性,从而使土壤酶活增强。     

高通量测序技术下连作植烟土壤细菌群落与土壤环境因子的耦合分析

为了揭示连作条件下植烟土壤细菌群落结构及其与土壤环境间的响应关系,本研究采用了Illumina平台Hiseq2500高通量测序技术,对不同施肥处理(常规施肥,蚯蚓粪肥,微生物菌肥以及蚯蚓粪和微生物菌肥混合)的漯河烟区连作植烟土壤细菌进行16S rRNA V4区测序,结合冗余分析(redundancyanalysis,RDA)研究土壤细菌微生物的群落结构组成、多样性以及与土壤环境间的相关关系.结果表明,测序质控后共获得25 203个操作分类单元(operational taxonomic units,OTUs),计1 600 239条读数.分层聚类图显示,不同施肥处理的连作植烟土壤细菌群落有较大差异,但这种差异不体现在结构多样性上.多样性指数分析表明,连作植烟土壤细菌群落易受环境变化的影响,体现出一定的时间差异性;烤烟成熟期土壤丰度指数明显升高,微生物菌肥和蚯蚓粪肥处理下土壤细菌群落丰度变化较大.主成分分析表明,不同土壤环境因子间有很强的相关关系,可以将原有的11个土壤环境因子按照强正相关关系划分为4类;RDA结果表明,土壤pH既影响土壤细菌群落的多样性,又影响土壤细菌群落的丰度;而有机质主要对土壤细菌群落丰度有积极影响.研究结果为在微生物水平上研究连作植烟障碍的形成机理提供了依据.     

牛粪及其蚓粪磷素生物化学特性分析

评估牛粪及其蚓粪磷素生物化学特性,为合理利用牛粪及其蚓粪,提高畜禽粪便磷利用效率提供理论依据。利用扩增子测序技术,研究腐熟牛粪及其蚓粪中磷含量、磷酸酶活性和解磷微生物的差异。与牛粪相比,蚓粪pH、电导率、有效磷含量、全碳含量、全氮含量、碳磷比和氮磷比均显著降低,其中pH降低0.46个单位,电导率、有效磷含量、全碳含量、全氮含量分别降低63.86%、20.99%、28.51%、45.57%,牛粪的碳磷比和氮磷比分别为蚓粪的4.20和5.52倍;但蚓粪全磷含量和碳氮比显著提高,全磷含量提高196.40%,碳氮比为牛粪的1.31倍。蚓粪中碱性磷酸酶活性较牛粪低,而酸性磷酸酶二者间无显著差异。蚓粪的细菌和真菌α-多样性均显著高于牛粪。蚓粪中解磷细菌节细菌属(Arthrobacter)和芽孢杆菌属(Bacillus)的相对丰度较牛粪显著降低;相反,其他解磷细菌和大多数解磷真菌丰度较牛粪均呈升高趋势。蚯蚓堆肥对有效磷含量的衰减作用主要取决于牛粪的化学性质和解磷微生物的丰度。     

添加腐熟粪及蜉金龟堆肥过程中碳氮转化与腐殖质的变化

利用蜉金龟(Aphodiidae)对哺乳动物粪便的喜食性,将200条蜉金龟放入400kg的新鲜牛粪(以鲜重计)中进行堆肥试验,研究堆肥过程中碳氮转化特征及腐殖质变化,并在堆肥的49d内,根据堆温采样7次,分析堆肥样品中温度、pH、氮素及腐殖质的变化情况。研究结果表明,接种蜉金龟处理的升温效率最佳,堆肥第3天时即达最高堆温(46.9℃);pH值在堆肥第35天时达到高峰,为8.88,显著高于新鲜牛粪和添加腐熟粪处理;堆肥49d后,接种蜉金龟处理的NH4+-N含量分别比新鲜牛粪和添加腐熟粪处理降低了26.4,41.9mg/kg。添加腐熟粪处理堆肥第21天时的NH4+-N含量最高,为142.7mg/kg,分别显著高于新鲜牛粪和接种蜉金龟处理28d时的42.1,27.1mg/kg;添加腐熟粪处理的NO3--N含量增幅最高,为244.2%,分别显著高于新鲜牛粪和接种蜉金龟处理104.4%,182.2%。堆肥49d与0d相比,添加腐熟粪处理的有机碳含量降幅最高,为39.9%,类胡敏酸的E4/E6值降幅最大,为19.3%。     

蚯蚓粪与土壤复配比例对基质微生物性状及韭菜生长和品质的影响

【目的】蚯蚓粪是蚯蚓消化有机废弃物产生的均匀颗粒,能够提升土壤肥力,改良土壤结构并促进作物生长。本文初探了蚯蚓粪与土壤的不同配比对基质微生物性状及韭菜生长和品质的影响,为蚯蚓粪的开发利用提供依据。 【方法】2015年4—6月在中国农业大学温室内进行盆栽试验,按蚯蚓粪、土壤质量比 (w/w) 设置4个处理,依次为:0/100% (纯土壤不添加蚯蚓粪,CK);20%/80% (T1);60%/40% (T2);100%/0 (T3)。韭菜收获后,测定了基质养分含量、微生物群落变化、韭菜生物量、可溶性蛋白总量、可溶性糖总量和叶绿素含量。 【结果】1) 随着蚯蚓粪添加比例的增加,基质中的全氮、速效钾和有机质的含量均显著提高;2)蚯蚓粪能显著促进韭菜根系生长,并改善韭菜品质。与对照相比,T1、T2和T3处理中韭菜新根比分别提高5.75%、6.39% 和22.23%;韭菜可溶性蛋白总量提升了1.84～5.97倍,可溶性糖总量提升了1.49～1.60倍 (P < 0.05);3)蚯蚓粪能显著提高基质中的细菌和真菌多样性,并显著增加细菌116、118、130、226、297片段 (P < 0.05),但减少了真菌71、91、153、351片段 (P < 0.05)。 【结论】蚯蚓粪改善了基质的微生物群落结构,提高细菌和真菌的多样性,增加养分有效性,进而促进韭菜生长并改善韭菜品质。蚯蚓粪直接用作基质的效果最好,但从经济角度考虑,蚯蚓粪与土壤按质量百分比20%/80%即可基本达到满意的效果。     

减施化肥与不同有机肥配施对稻季土壤细菌群落结构的影响

为了研究减施化肥配施不同有机肥对稻麦轮作体系稻季土壤细菌群落结构的影响，采用Illumina高通量测序技术比较了单施化肥、配施菜籽饼和配施蚯蚓粪这3种施肥模式下稻季不同土层土壤环境因子、细菌群落结构变化特征。与单施化肥相比，配施有机肥显著提高各土层土壤有机质和电导率（EC）含量，配施菜籽饼增幅较大；显著增加各土层土壤氮磷钾养分含量，配施蚯蚓粪的土壤速效氮磷钾养分含量较高。配施有机肥提高土壤细菌Sobs指数和Shannon指数；前三位优势菌门，变形菌门（Proteobacteria）、酸杆菌门（Acidobacteria）、绿弯菌门（Chloroflexi）相对丰度分别达36.24%、18.30%、13.87%；配施有机肥对相对丰度小于1%的菌门影响较大。0-5cm土层土壤细菌群落结构主要受pH、TP影响；5-10cm土层土壤细菌群落结构主要受EC，TP、pH影响；10-15cm土层土壤细菌群落结构主要受TN、pH影响。配施有机肥通过改变土壤理化性质进而影响土壤细菌群落结构，特别是稀有菌群。     

不同培肥措施对宁南旱地土壤酶活性和微生物多样性的影响

为研究不同有机肥和化肥配施对宁南旱地土壤酶活性及微生物群落的影响,探讨有机无机配施条件下土壤肥力、土壤酶活性及微生物多样性的内在联系,为建立科学合理的有机无机配施技术体系提供理论依据。试验设置不施肥(CK)、常规施肥+0.6倍腐熟牛粪(CF1)、常规施肥+腐熟牛粪(CF2)、常规施肥+秸秆还田(CFS)4个处理,通过1年田间试验,研究土壤肥力、纤维素二糖水解酶、β-葡萄糖苷酶、正乙酰葡萄糖氨基胺酶和碱性磷酸酶及土壤细菌、真菌多样性、群落结构的变化规律。结果表明,不同培肥处理较不施肥处理能够显著提高土壤养分含量,CF2处理的土壤养分最高。与CK处理相比,CF2处理的土壤有机质、有效磷、速效钾和全氮显著提高了2.22%、112.18%、52.13%和16.45%。与CK相比,CF2处理的土壤β-葡萄糖苷酶、纤维素二糖水解酶、正乙酰葡萄糖氨基胺酶和碱性磷酸酶活性显著提高了107.63%、10.72%、4.40%和39.88%。与CK相比,CF1、CF2和CFS处理均降低了土壤细菌多样性和丰富度,CF1和CF2处理增加了土壤真菌多样性和丰富度。对于微生物群落而言,CF2处理增加了土壤细菌绿弯菌门、酸杆菌门和土壤真菌被孢菌门、担子菌门的相对丰度。综上,CF1、CF2和CFS处理均可提高土壤养分含量,土壤β-葡萄糖苷酶、碱性磷酸酶活性对腐熟牛粪的响应更为敏感。土壤速效钾和有效磷是影响土壤细菌群落构成的环境因子,土壤有机质和全氮是土壤真菌群落构成的环境因子。因此,常规施肥+腐熟牛粪(CF2)处理有利于提高宁南山区的土壤肥力和维持生态系统的稳定。     

蚯蚓联合生防细菌Bacillus velezensis改善连作百合土壤细菌群落结构及防治枯萎病的效果

【目的】从土壤理化性状和微生物群落结构及多样性角度,研究蚯蚓联合生防细菌改善百合连作障碍的机理和效果,为湖南百合产业化种植提供技术措施。【方法】采用盆栽试验方法,在湖南长沙连续种植了两季百合(Lilium lancifolium Thunb.)。供试土壤为红壤,生防菌为Bacillales velezensis YFB3-1菌液(菌体浓度为10⁹ CFU/mL),蚯蚓为赤子爱胜蚓(Eisenia fetida)。试验设单施菌液(T1)、只接种蚯蚓(T2)、同时使用菌液和蚯蚓(T3) 3个处理,以不使用菌剂和蚯蚓为对照(CK)。调查了两茬百合产量和枯萎病病情指数,分析了第二茬百合根际土壤理化性质、细菌群落结构和多样性,以及连作百合产量与根际土壤理化性质、细菌群落和枯萎病的相关性。【结果】与第一茬相比,同一处理的第二茬百合产量都显著下降。两年连作百合产量都以同时使用菌液和蚯蚓(T3)处理为最高,分别为16464、15674 kg/hm²,都显著高于同年份其他处理。两年连作百合枯萎病发病率和病情指数都以T3为最低,都显著低于同年份其他处理,T3处理...     

矿物基蚯蚓粪表面特征及其对土壤Cd钝化能力的研究

针对农田土壤镉（Cd）活性高的问题,以寻求具有良好重金属钝化特性的原位修复材料为目标,该研究以铁粉、磷矿粉和牛粪混合蚯蚓堆肥所制备的矿物基蚯蚓粪为研究对象,利用系列结构表征手段对其进行基本性质表征,并进一步分析矿物基蚯蚓粪施加下土壤对Cd吸附、有效性和赋存形态的影响,最终筛选出具有良好Cd钝化效果的矿物基蚯蚓粪。结果表明,铁粉及磷矿粉的添加使矿物基蚯蚓粪中的pH值、C/N、有机质含量有所降低,但总养分含量显著增加（P＜0.05）。全自动比表面积及孔隙度、扫描电镜分析和X射线能谱分析结果表明,矿物质的添加增大了蚯蚓粪比表面积和孔容,改变了蚯蚓粪中矿物元素的占比。傅立叶变换红外光谱分析表明,矿物基蚯蚓粪中醇或羧酸类、芳香类以及多糖类物质增多,脂类和碳水化合物减少。X射线衍射分析表明,添加铁粉及磷矿粉制备出来的矿物基蚯蚓粪增加了磷酸盐、纳米零价铁等矿物组分。土壤培养和吸附解吸试验表明,施加矿物基蚯蚓粪显著提升了土壤对Cd的吸附强度,降低了对Cd的解吸率,其中以牛粪+20%铁粉+20%磷矿粉（VCFe+P）进行蚯蚓堆肥所获得的矿物基蚯蚓粪处理的土壤对Cd的吸附效果最佳,较施加纯蚯蚓粪的土壤吸附容量提升137.66%,解吸率降低7.34%～12.76%;该处理的土壤Cd钝化率高达50.02%,Tessier 形态分析结果表明,VCFe+P矿物基蚯蚓粪使交换态Cd向铁锰氧化态Cd和残渣态转化。综上,20%铁粉+20%磷矿粉+牛粪混合蚯蚓堆肥所制备的矿物基蚯蚓粪具有良好的Cd吸附表面特征和高效的Cd钝化能力,在土壤Cd污染修复方面具有较大的应用前景。     

腐熟羊粪有机肥配施无机肥对植烟土壤微生物群落结构和多样性的影响

为了探究腐熟羊粪有机肥与无机肥配施对洛阳烟区植烟土壤微生物群落结构和土壤肥力特性的影响，采用盆栽控制试验和高通量测序技术，研究了不施肥（CK）、100%无机氮肥（T0）、50%羊粪有机肥氮+50%无机氮肥（T50）和100%羊粪有机肥氮（T100）4个处理下植烟土壤细菌和真菌群落结构及多样性的差异，并结合土壤理化性质分析了土壤肥力指标与土壤微生物多样性的关系。结果表明：植烟土壤细菌优势菌门为变形菌门（Proteobacteria）、酸杆菌门（Acidobacteria）和放线菌门（Actinobacteria），土壤真菌优势菌门为子囊菌门（Ascomycota）和担子菌门（Basidiomycota）；T50处理的变形菌门、酸杆菌门和子囊菌门相对丰度最高，但放线菌门和担子菌门相对丰度最低；NMDS分析和相似性分析发现，T50处理的土壤微生物群落结构与其他处理差异显著；Alpha多样性分析也表明，T50处理土壤细菌和真菌群落的丰富度和多样性最高。不同处理土壤理化性质和土壤关键酶活性差异显著，以T50处理土壤养分含量和土壤碳氮代谢酶的活性最高；Pearson相关性分析显示，土壤碱解氮、有效磷、速效钾含量及蛋白酶和脲酶活性与植烟土壤微生物多样的关系最为密切。总之，采用腐熟羊粪有机肥和无机肥配施通过影响植烟土壤细菌和真菌群落结构和多样性，促进了土壤养分的释放和转化，有利于土壤养分的供应和土壤质量的提升，研究结果为洛阳烟区应用羊粪有机肥改良土壤提供了理论依据。     

稻秸蚯蚓堆制后的物理、化学及微生物特性变化

利用水稻秸秆与畜禽粪便（牛粪、猪粪和鸡粪）等干重混合物（RCD、RPM、RCE）接种蚯蚓（Eisenia foetida）进行堆制,研究堆肥产物的物理、化学及微生物特性变化。结果表明,蚯蚓堆制30 d后,稻秸牛粪、稻秸猪粪堆肥产物MBC含量显著下降; 3种稻秸粪便混合物经蚯蚓堆制后,堆肥产物微生物代谢熵、脱氢酶和碱性磷酸酶活性增加,尤以RCD的变化明显。稻秸牛粪、稻秸猪粪及稻秸鸡粪混合物经蚯蚓堆制后,总固形物平均重量损失分别增加6.45%、4.22%和3.82%; pH值均降低,其中RCD显著降低。蚯蚓堆制有助于提高堆肥产物全氮、全磷和全钾含量,同时使碳氮比降低。水稻秸秆混入部分畜禽粪便经蚯蚓堆制可减少堆肥时间并提高堆肥质量,混入的粪便以牛粪最好,猪粪次之,鸡粪最差。     

糠醛渣添加量对奶牛粪堆肥腐熟及氨气释放量的影响

为解决奶牛场粪污和糠醛渣的贮存及其对环境的污染问题,我们探究不同添加量的糠醛渣对奶牛粪条垛式堆肥腐熟及氨气释放量的影响,以新鲜奶牛粪和小麦秸秆为主料,分别添加质量分数为3%、6%、9%的糠醛渣进行为期35 d的堆肥试验。结果表明,当糠醛渣添加量质量分数为3%~9%时,新鲜奶牛粪和小麦秸秆堆肥的产品的含水率、pH、NH₃释放量分别比对照不添加糠醛渣下降13.86%~20.91%、1.09%~4.37%、12.86%~30.82%,种子发芽指数和C/N分别提高24.35%~43.48%、12.54%~31.22%。综上考虑认为,采用奶牛粪堆肥时,添加质量分数为3%~9%的糠醛渣,可促进堆肥物料的分解转化,加快腐熟速度,降低氨气释放量。     

Application rate and composting method affect the immediate and residual manure fertilizer value in a maize–rice–rice–maize cropping sequence on a degraded soil in northern Vietnam

A field experiment was carried out in northern Vietnam to investigate the effects of adding different additives [rice (Oriza sativa L.) straw only, or rice straw with added lime, superphosphate (SSP), urea or a mixture of selected microorganism species] on nitrogen (N) losses and nutrient concentrations in manure composts. The composts and fresh manure were applied to a three-crop per year sequence (maize–rice–rice) on a degraded soil (Plinthic Acrisol/Plinthaquult) to investigate the effects of manure type on crop yield, N uptake and fertilizer value. Total N losses during composting with SSP were 20% of initial total N, while with other additives they were 30–35%. With SSP as a compost additive, 65–85% of the initial ammonium-N (NH₄-N) in the manure remained in the compost compared with 25% for microorganisms and 30% for lime. Nitrogen uptake efficiency (NUE) of fresh manure was lower than that of composted manure when applied to maize (Zea mays L.), but higher when applied to rice (Oriza sativa L.). The NUE of compost with SSP was generally higher than that of compost with straw only and lime. The mineral fertilizer equivalent (MFE) of manure types for maize decreased in the order: manure composted with SSP?>?manure composted with straw only and fresh manure?>?manure composted with lime. For rice, the corresponding order was: fresh manure?>?manure composted with SSP/microorganisms/urea?>?manure composted with lime/with straw alone. The MFE was higher when 5 tons manure ha^?1 were applied than when 10 tons manure ha^?1 were applied throughout the crop sequence. The residual effect of composted manures (determined in a fourth crop, with no manure applied) was generally 50% higher than that of fresh manure after one year of manure and compost application. Thus, addition of SSP during composting improved the field fertilizer value of composted pig manure the most.     

不同处理对高含水率奶牛粪便好氧堆肥的影响

针对奶牛养殖场粪便含水率高,堆肥处理成本高的特点,采用以干燥玉米秸秆为调理剂,在较高初始含水率条件下（70%～80%）,进行了强制通风堆肥槽和翻转式堆肥仓的对比试验,并且探讨了晾晒脱水作为预处理对堆肥效果的影响。结果表明,各处理堆体升温迅速,且均在50℃以上维持8～12d,满足堆肥无害化的卫生标准（GB7959—1987）要求。至堆肥结束时,各处理含水率均降至40%以下,C/N均降至20以下,WSOC均低于16g·kg-1,NH4＋-N含量均低于0.4g·kg-1;除采用堆肥槽在初始含水率为65%下堆肥NH4＋-N/NO3--N〉3尚未腐熟完全外,其他处理NH4＋-N/NO3--N均小于0.5,腐熟情况较好;所有处理的GI均大于50%,其中采用堆肥槽在较高初始含水率堆肥和晾晒预处理后堆肥GI已达80%,基本消除了植物毒性。采用较为开放的堆肥槽时,以玉米秸秆作调理剂,在较高的初始含水率条件下堆肥效果更好;以晾晒脱水作为预处理后堆肥,可减少所需调理剂的用量,节约了堆肥的成本。     

牛粪堆肥化中氮素形态与微生物生理群的动态变化和耦合关系

在强制通风静态垛装置中研究了牛粪堆肥化中氮素形态和微生物生理群的动态变化。在堆制的56d里,根据堆温变化分阶段采集堆肥样品,测定各种氮素组分的含量和氮素微生物生理群的数量。结果表明,堆肥过程中,总氮减少了21．6％;有机氮是堆肥中的主要氮素形态,其含量降低了19．1％;氨基酸态氮和氨态氮的含量分别降低了20．9％和86．4％,在有机氮和总氮中的比例分别降低了2．2％和5．2％;氨基糖态氮和硝态氮含量分别增加了147％和79％,在有机氮和总氮中的比例分别增加了2倍和1．3倍。氨气的挥发占总损失的63％,高温期的释放量占总挥发量的69％。堆肥中氨化细菌数量较高,在高温期大幅度增加,其数量变化与堆肥中氨气和氨态氮含量都呈极显著正相关关系。在堆肥过程中,硝化细菌数量总体较小,在降温期增加幅度较大;反硝化细菌数量逐渐增加,堆制结束时达到堆肥初期的2．45倍;固氮菌数量总体增加1．8倍,其中降温期数量较多。堆肥过程中存在的反硝化作用,是氮素损失的另一个重要原因。     

Effect of swine and dairy manure amendments on microbial communities in three soils as influenced by environmental conditions

Understanding the impacts of manure amendments on soil microorganisms can provide valuable insight into nutrient availability and potential crop and environmental effects. Soil microbial community characteristics, including microbial populations and activity, substrate utilization (SU) profiles, and fatty acid methyl ester (FAME) profiles, were compared in three soils amended or not amended with dairy or swine manure at two temperatures (18 and 25°C) and two soil water regimes (constant and fluctuating) in laboratory incubation assays. Soil type was the dominant factor determining microbial community characteristics, resulting in distinct differences among all three soil types and some differing effects of manure amendments. Both dairy and swine manures generally increased bacterial populations, substrate diversity, and FAME biomarkers for gram-negative organisms in all soils. Microbial activity was increased by both manures in an Illinois soil but only by dairy manure in two Maine soils. Dairy manure had greater effects than swine manure on SU and FAME parameters such as increased activity, utilization of carbohydrates and amino acids, substrate richness and diversity, and fungal FAME biomarkers. Temperature and water regime effects were relatively minor compared with soil type and amendment, but both significantly affected some microbial responses to manure amendments. Overall, microbial characteristics were more highly correlated with soil physical factors and soil and amendment C content than with N levels. These results indicate the importance of soil type, developmental history, and environmental factors on microbial community characteristics, which may effect nutrient availability from manure amendments and should be considered in amendment evaluations.Mention of trade names or commercial products in this article is solely for the purpose of providing specific information and does not imply recommendation or endorsement by the US Department of Agriculture     

绿肥与化肥配施对植烟土壤微生物群落的影响

土壤微生物群落被认为是土壤生态系统变化的预警及敏感指标,指示着土壤质量的变化。本研究利用 3 年定位试验,通过测定磷脂脂肪酸(PLFAs)的含量,分析了连年绿肥和化肥配施对植烟土壤微生物群落结构的影响。研究结果表明：施肥明显地提高了土壤中 PLFAs 的种类和总量;在绿肥和化肥配施处理中,当翻压 15 000 kg/hm2 绿肥的基础上施用大于 85% 常规化肥时,明显提高了土壤中细菌、AM 真菌及微生物总的 PLFAs 含量;而当化肥的施用量减至常规施肥 70% 时,对土壤细菌、真菌及微生物总 PLFAs 含量的积累产生不利影响。从不同处理的主成分分析和聚类分析的结果可知,不同绿肥和化肥配施比例对土壤微生物群落结构变化有明显影响。经相关性分析表明,PLFA 分析方法和氯仿熏蒸法之间具有很好的一致性,且土壤速效钾和速效磷含量与革兰氏阴性菌的 PLFAs 含量呈显著相关,而与土壤真菌PLFAs 含量则无明显的相关性。     

Mitigating methane emissions from irrigated paddy fields by application of aerobically composted livestock manures in eastern China

Livestock manure heaps and wetland rice fields are major sources of CH₄ emissions. A field experiment with an associated composting study were undertaken to investigate CH₄ emissions during manure composting and subsequent land application on paddy. Over a 24‐day period in the composting experiment, CH₄ emissions from stored manure was 17 times higher than that from composting manure, indicating that composting as an aerobic process was effective in mitigating CH₄ emissions compared with manure storage, which is normally under an anaerobic environment. Stored and composted manures were subsequently applied as organic fertilizers in the field experiment. Compared with the non‐fertilized control treatment, stored and composted manures increased grain yields by 30% and 21%, respectively. During the full rice‐growing season, the cumulative CH₄ emission was 15.8 g CH₄/m² with the application of composted manure, only one‐third of that from stored manure. CH₄ emission per unit of grain yield was significantly decreased by composted manure, with a reduction of 56% from the control and 73% from stored manure. The results indicate that composted livestock manure in rice cultivation is a triple‐win option through sustaining rice yield, mitigating CH₄ emissions and re‐utilizing livestock waste.     

风干预处理对堆肥腐熟度及臭气排放量的影响

该研究以风干猪粪堆肥为处理,以新鲜猪粪堆肥为对照,在秸秆调理相同C/N基础上,对两个处理腐熟度和臭气排放进行比较分析。从温度、p H值、电导率和发芽率来看,利用新鲜猪粪和风干猪粪堆肥所得的产品均能达到腐熟和无害化标准;在硫化氢、羰基硫、二硫化碳、甲硫醚、乙硫醚、二甲二硫、甲硫醇和乙硫醇几种含硫臭气中,甲硫醚和二甲二硫占96%以上;风干猪粪堆肥比新鲜猪粪堆肥少排放71.09%的氨气,66.11%的甲硫醚和9.66%的二甲二硫。在不考虑风干环节存在的问题条件下,与新鲜猪粪堆肥相比,风干猪粪堆肥堆肥时间短,在堆肥品质提高的基础上,堆肥产品产量增加60%。通过降低水分和体积风干猪粪运输成本降低1/3,且对环境影响小,是远距离资源化处理畜禽粪便的较好途径。     

MSW Compost Reduces Nitrogen Volatilization During Dairy Manure Composting

Manures lose N through volatilization almost immediately after deposit. Attempts to control losses include the addition of a C source to stimulate nitrogen immobilization. Composting is a treatment process that recommends the addition of carbonaceous materials to achieve a C:N ratio of 30:1 to stimulate degradation and immobilize nitrogen. Dairies near cities may be able to reduce N loss from manures by composting with urban carbonaceous residues such as municipal solid waste (MSW) or MSW compost that, by themselves, have little agronomic value. Studies were conducted using a self-heating laboratory composter where dairy solids were mixed with MSW compost to determine the reduction of N loss during composting. One-to-one mixtures (v/v) of dairy manure solids and MSW compost were composted and NH₃ volatilization, CO₂ evolution and temperatures were compared to composting of manure alone. Addition of MSW compost resulted in increased CO₂ evolution and reduced N loss. Nitrogen loss from composting dairy manure alone was four to ten times greater than that from composting dairy manure mixed with MSW compost. Adjustment of the C:N ratio to 25 by adding MSW compost to manure appeared to be the major factor in reducing N losses.