畜禽粪便堆肥过程中碳氮保蓄效果的影响因素研究进展

作为畜禽养殖大国, 我国需要及时解决每年产生的大量畜禽粪便。堆肥化技术作为目前应用最广的粪便管理手段, 仍有严重碳氮流失、环境污染等缺陷。在综合阅读国内外数十篇文献资料基础上, 分析了pH值、通风、表面覆盖、碳氮比、水分、温度和添加剂七种因素对畜禽粪便堆肥过程中碳氮保蓄效果的影响, 重点讨论了堆肥添加剂类型及其作用机制。以期通过调节各因素以减少堆肥过程中的碳、氮素损失, 降低环境污染, 提高堆肥质量。     

添加竹炭对猪粪堆肥过程中升温脱水及氮素损失的影响

堆肥是实现畜禽粪便处理及资源化利用的有效途径,但传统堆肥过程存在升温脱水效果不佳及氮素损失的问题.本文利用猪粪进行堆肥试验,探讨了堆肥过程中添加不同比例竹炭对堆肥升温脱水及氮素损失的影响.结果表明: 与不添加竹炭的对照相比,添加竹炭处理可以使堆体升温时间缩短24～48 h,脱水率提高13.6%～21.4%,堆肥高温期持续时间延长216～264 h;添加竹炭处理可以增加堆肥铵态氮、硝态氮及总氮含量,使氮素固定率提高28.3%～65.4%.
     

畜禽粪便好氧堆肥过程氧化亚氮排放机制

好氧堆肥是实现畜禽粪便处理及资源化的有效途径,但畜禽粪便好氧堆肥过程是全球温室气体N2O的潜在来源,与全球温室效应和大气臭氧空洞等问题密切相关.随着畜禽养殖规模的扩大和畜禽粪便堆肥产量的急剧提升,畜禽粪便好氧堆肥过程N2O排放问题日趋严重,堆肥过程N2O排放机制机理研究引发学者们的关注.本文综述了畜禽粪便好氧堆肥过程中N2O的产生途径、排放规律、排放影响因素及其相关微生物学机理研究动态,总结了该过程中减排N2O的措施,并对该领域的研究趋势进行了展望.     

超高温堆肥促进氮素减损的微生物机制研究进展

堆肥中氮的循环在很大程度上依赖微生物驱动的氮素转化。传统高温堆肥最高堆温普遍在55-60℃,温度的提高有利于缩短堆肥周期和提高堆肥品质。超高温堆肥作为近年来快速发展的新兴技术,不但能突破传统堆肥工艺堆温低的局限,并且持续的超高温调控了堆肥微生物组、堆肥环境与氮素的互作,减少了氮素的损失。本文综述了堆体的氮循环过程及超高温堆肥技术在保氮方面的显著优势,以及超高温堆肥过程中具有氮代谢功能的优势微生物种群及其影响因素,重点介绍有关超高温堆肥控制氮素损失的作用机制研究进展,同时对超高温堆肥现有研究中存在的问题进行分析并探讨解决途径。     

不同微生物菌剂处理对猪粪堆肥中氨挥发的影响

研究不同微生物复合菌剂及添加比例对猪粪与木屑混合(鲜重比为鲜猪粪∶木屑9∶1)堆肥过程中NH₃挥发的影响.结果表明,在堆肥过程中,NH₃挥发主要产生在堆肥前期15 d的升温和高温期,添加3‰的微生物复合菌剂1、2和3对猪粪堆肥中NH₃挥发都有一定的抑制作用,减轻氮素损失与堆肥恶臭,添加5‰复合菌剂1有显著抑制作用（P＜0.05）.     

一株水生产碱杆菌(Alcaligenes aquatilis)的分离鉴定及其氨氧化效果

【背景】随着畜牧业的高速发展,资源化利用畜禽粪便并减少其所造成的污染是一项艰巨的任务。好氧堆肥作为一种有效利用畜禽粪便污染的途径而成为重点研究方向。【目的】通过筛选具有高效氮转化能力的微生物,用于减少好氧堆肥中氮素损失,从而提高肥力、减少污染。【方法】通过对牛粪中异养硝化细菌的分离鉴定及对氨氧化能力的研究得到氨氧化能力较强的菌株NS-1。在不同工艺参数下培养菌株NS-1,进一步研究其氨氧化能力。【结果】通过形态学鉴定及16S rRNA基因序列鉴定,最终确定菌株NS-1为水生产碱杆菌(Alcaligenes aquatilis)。试验结果表明当碳源为丁二酸钠、C/N为15、温度为35℃、pH 7.0时菌株NS-1的氨氧化能力有大幅度提升。菌株NS-1在32 h内将1 230.694 7 mg/L的氨氮完全去除,去除率达到了100%,去除速率高达38.46 mg/(L·h)。【结论】菌株NS-1优良的氨氧化能力对于减少堆肥过程中的氮素流失有重要意义,可为生产优质生物有机肥提供微生物材料和技术支持。     

保氮剂对水葫芦堆肥进程及氮素损失的影响

为研究保氮剂对水葫芦堆肥进程及氮素损失的影响,以切碎的水葫芦为原料,以硫酸亚铁、腐植酸钠、过磷酸钙按75∶20∶5质量比配制成保氮剂,进行35 d的好氧堆肥试验.试验设置占堆体总质量0%(对照,CK)、1%(PN1)、2%(PN2)、3%(PN3)的保氮剂4个处理,对堆肥过程中堆体理化性质、氮组分含量、氨挥发及氮素损失率进行监测.结果表明: 堆肥高温期,保氮剂处理的堆温明显高于CK,堆体含水量则在降温期显著低于CK(P<0.05).堆肥完成后,保氮剂处理的全氮、有机氮含量均显著增加,以PN3处理最高,其全氮、有机氮含量分别比CK高16.3%和13.2%;同时,PN1、PN2、PN3处理的氨挥发总量分别比CK低25.9%、31.5%、42.4%,氮素固定率则分别达31.3%、40.7%、72.2%.表明水葫芦堆肥过程中添加保氮剂可加快启动速度、缩短堆肥时间,并能减少氨挥发、氮素损失.总体上,以PN3处理效果最佳.     

沼渣与污泥混合高温堆肥效果及氮素控制

以锯木屑为调理剂,以Mg(OH)2与H3PO4的混合液为高温堆肥过程中的氮素抑制剂,研究沼渣与啤酒厂污泥混合堆肥效果。结果表明:混合物经好氧发酵处理后,均达到腐熟。添加氮素固定剂处理和对照处理的最高温度都可达65℃以上,在堆肥过程中添加氮素固定剂处理可提高堆体中有机物质的转化速率,对氮素的固定率达18%以上,添加固氮剂处理的堆肥结束后P元素增加了51%,堆肥品质得到了大幅度提高。堆肥过程中的物料的种子发芽指数不断提高,达到0.9;添加固氮剂的处理堆肥的种子发芽指数为1.0,明显高于对照。可见采用高温堆肥和氮素固定技术可有效地实现沼渣及啤酒厂污泥的混合资源化,该研究为后期沼渣和啤酒厂污泥堆肥的规模化应用提供了技术参数。     

畜禽粪便中抗生素抗性基因的分布特征及消减技术研究进展

随着集约化畜禽养殖业的不断发展,兽用抗生素的长期使用导致畜禽粪便抗生素抗性基因污染日益严重,对生态环境和人类健康造成严重危害。如何有效消减畜禽粪便中的抗生素抗性基因成为当前研究热点。本文系统总结了畜禽粪便中抗生素抗性基因的产生途径、分布和影响因素,并阐述了好氧堆肥、厌氧消化及其强化工艺消减畜禽粪便抗生素抗性基因的研究进展,根据现有工艺研究存在的问题展望了今后的重点研究方向,为畜禽粪便中抗生素抗性基因的消减提供理论基础和技术支撑。     

蛋鸡粪工业化堆肥过程中氨氧化菌群的群落演替

以蛋鸡粪为研究对象,考察其在工业堆肥过程中几种主要氮化物的变化,同时应用聚合酶链式反应-变性梯度凝胶电泳(PCR-DGGE)技术检测氨氧化细菌(ammonia-oxidizing bacteria,AOB)和氨氧化古菌(ammonia-oxidizing archaea,AOA)的群落结构,并通过冗余分析(redundancy analysis,RDA)探讨环境变量对AOB群落结构的影响。结果表明:整个堆肥过程中总氮损失率为30.8%;DGGE图谱展示了一个丰富的氨氧化微生物群系,共有14种AOB及13种AOA被证实,其中,Nitrosomonas和Candidatus nitrososphaera gargensis分别是AOB及AOA的优势种属,部分Nitrosomonas europaea与Nitrosomonas halophila菌株存在于整个堆肥过程;AOB群落多样性指数及丰度在整个堆肥过程中呈现先降后升的变化,而AOA群落正好与之相反;RDA分析结果表明,温度和p H对AOB群落结构具有显著的负影响(P0.05),尤其是温度对其有极显著影响(P0.01)。本研究真实地反映了蛋鸡粪在工业堆肥过程中的氮化物浓度以及氨氧化微生物群落的变化,实验数据为畜禽粪便堆肥过程的工艺优化提供了部分参考。     

Allantoin-N concentration changes and analysis of the influencing factors on its changes during different manure composting

Allantoin is one of important nitrogenous compounds in manure. In this study, the simulation experiment of aerobic composting was adopted to explore concentration changes, degradation and relevant influencing factors of allantoin-N during six manure composting. The result showed that the allantoin-N concentration was markedly different among different manures. The various livestock and poultry excreted 1.92-11.14gkg(-1) allantoin-N which accounted for 9.98-32.27% of the total excreted nitrogen. The changing trend of the allantoin-N concentration firstly increased (for 0-14 days), then decreased (for 14-70 days) during different manure composting, and the allantoin-N concentration after composting was lower than the initial allantoin-N concentration in all manure composting. During allantoin degradation for 14-70 days of composting, the half-life of allantoin-N was 57.76 days in broiler manure, 46.21 days in layer-hen manure, 27.73 days in hog manure, 25.67 days in sow manure, 38.51 days in young pig manure and 15.75 days in dairy manure, and the sequence in the half-life was chicken manure>pig manure>dairy manure. Allantoin degradation conformed to first-order kinetics. Through the correlation analysis, hippuric acid, hydrolyzable nitrogen, amino acid-nitrogen, HUN fraction, NO(3)(-)-N and total hydrolyzable nitrogen could be closely related to allantoin-N transforming during composting. Humification could be the main influencing factor for reducing allantoin-N concentration during composting.     

Evaluation of microbial population dynamics in the co-composting of cow manure and rice straw using high throughput sequencing analysis

Microbial population dynamics in co-composting of cow manure and rice straw were evaluated using 16S high throughput sequencing technology. Physicochemical factors, including temperature, pH, nitrogen contents, the ratio of carbon and nitrogen, and germination index, were also determined in this study. 16S high throughput sequencing results showed that bacterial community structure and composition significantly varied in each phase of composting. The major phyla included Bacteroidetes, Proteobacteria, Firmicutes, Actinobacteria and Planctomycetes, respectively. Bacteroidetes and Proteobacteria were the most abundant phyla in all phases, and Actinobacteria was just dominant in the mesophilic phase, while Firmicutes and Planctomycetes were ubiquitous. At the genus level, Simiduia, Flavobacterium, unclassified Chitinophagaceae and Flexibacter notably changed in each phase of composting. Bacterial community diversity in the mesophilic phase was higher than that in others based on the Shannon–Wiener index and Simpson diversity index. The ratio of carbon and nitrogen and germination index indicated that the co-composting of cow manure and rice straw reached maturation. The result of nitrogen contents showed that nitrogen loss mainly occurred in the thermophilic phase. In addition, the differences in the distributions of key OTUs between in the late thermophilic phase and the cooling and maturation phase were unobvious compared with other phase’s base on the principal component analysis. Redundancy analysis revealed that the changes of nitrogen played a predominant role in the distributions of OTUs during the composting process.     

Application of Bacillus sp. TAT105 to reduce ammonia emissions during pilot-scale composting of swine manure

Thermophilic ammonium-tolerant bacterium Bacillus sp. TAT105 grows and reduces ammonia (NH₃) emissions by assimilating ammonium nitrogen during composting of swine feces. To evaluate the efficacy of a biological additive containing TAT105 at reducing NH₃ emissions, composting tests of swine manure on a pilot scale (1.8 m³) were conducted. In the TAT105-added treatment, NH₃ emissions and nitrogen loss were lower than those in the control treatment without TAT105. No significant difference was detected in losses in the weight and volatile solids between the treatments. Concentration of thermophilic ammonium-tolerant bacteria in the compost increased in both treatments at the initial stage of composting. In the TAT105-added treatment, bacterial concentration reached ~10⁹ colony-forming units per gram of dry matter, several-fold higher than that in the control and stayed at the same level until the end. These results suggest that TAT105 grows during composting and reduces NH₃ emissions in TAT105-added treatment.     

Effect of low initial C/N ratio on aerobic composting of swine manure with rice straw

Two pilot composting experiments were conducted to investigate the effect of low initial C/N ratio on the composting of swine manure with rice straw by measuring physical and chemical parameters. The results showed that the thermophilic duration of bin 1 and bin 2 was long enough to satisfy the sanitary standard, and swine manure could reach maturity. Bin 1 containing larger amount of swine manure and less amount of rice straw showed a higher nitrogen loss (8%), shorter thermophilic phase, and longer maturity time (about 2 weeks) than bin 2. However, economical analysis showed a lower initial C/N ratio (20) could reduce 172 kg rice straw per ton fresh swine manure than a higher C/N ratio (25), and more swine manure could also be treated. Therefore, a low initial C/N ratio (20) could be suggested in the composting of swine manure with rice straw.     

Effects of sulphur and Thiobacillus thioparus on cow manure aerobic composting

A simulated aerobic composting experiment was used to explore the effects of sulphur and Thiobacillusthioparus during six manure composting treatments. The addition of sulphur led to a decrease of the pH level within the range 6-6.3, which was lower than the control treatment (CK). The concentration of ammonium nitrogen in T1 (0.25% sulphur), T2 (0.5% sulphur), T3 (0.25% sulphur + T. thioparus) and T4 (0.5% sulphur + T. thioparus) were much higher than the ammonium N in CK. The results indicated that addition of sulphur could increase the concentration of ammonium N and reduce loss of nitrogen. However, excess sulphur had a negative effect on temperature and GI. Addition of T. thioparus could increase concentration of available S, alleviate these negative influences and reduce compost biological toxicity.     

Effect of bioaugmentation and nitrogen supplementation on composting of paddy straw

A composting experiment was conducted to evaluate the effect of a hyperlignocellulolytic fungal consortium and different nitrogen amendments on paddy straw composting in terms of changes in physicochemical and biological parameters. A fungal consortium comprising four lignocellulolytic mesophilic fungal cultures was used as inoculum for bioaugmentation of paddy straw in perforated pits. The comparative effect of farmyard manure (FYM), soybean trash, poultry litter and urea on the composting process was evaluated at monthly intervals in terms of physicochemical (pH, EC, available P, C:N ratio and humus content) and biological (enzymatic and microbial activity) parameters. The compost prepared from bioaugmented paddy straw composting mixture, with poultry manure as nitrogen supplement attained desirable C:N ratio in 1 month and displayed least phytotoxicity levels along with higher production of β-1,4-Exoglucanase. The combined activity of the autochthonous composting microbiota as well as the externally applied fungal inoculum accelerated the composting process of paddy straw. Supplementation of paddy straw with poultry manure in 8:1 ratio was identified as the best treatment to hasten the composting process. This study highlights the importance of application of fungal inoculum and an appropriate N-amendment such as poultry manure for preparation of compost using a substrate having high C:N ratio, such as paddy straw.     

不同除草方式对浙西南柑橘园杂草群落及其多样性的影响

于2005年6月—2008年5月在浙江衢州市柑橘主产区,运用群落生态学方法研究了化学除草、人工除草和化学除草+人工除草3种方式对果园杂草群落及其多样性的影响.结果表明:化学除草试验区杂草为17科46种,人工除草试验区杂草为20科59种,化学除草+人工除草试验区杂草为18科51种,对照区杂草为25科75种.化学除草处理的杂草物种丰富度指数、Shannon多样性指数和Shannon均匀度指数最低,人工除草处理最高,表明化学除草对果园杂草多样性的影响最大.在浙西南柑橘园既要防除杂草,又要维持果园杂草的多样性,建议采取化学除草+人工除草的方式.     

长期施肥下灰漠土矿物颗粒结合有机碳的含量及其演变特征

采用物理分组方法分析了长期（1990-2007年）不同施肥条件下灰漠土各粒径矿物颗粒结合有机碳含量和分布差异及其随施肥时间的演变特征.结果表明：与不施肥相比,配施有机肥对增加各有机碳组分的效果最显著,并以砂粒有机碳含量的增速（0.34 g·kg^-1·a^-1）最高,对施肥最敏感;撂荒地可以显著增加不同黏粉粒结合有机碳含量;秸秆还田仅能维持各级矿物颗粒结合有机碳的含量;长期施用化肥不利于各级颗粒结合有机碳含量的增加.从分配比例来看,以粗粉粒(27.9%)和粗黏粒(27.1%)有机碳所占比例最高,是固持有机碳的重要组分;配施有机肥使砂粒有机碳比例显著提高119.4%,细粉粒和粗黏粒有机碳比例却分别降低了40.3%和37.9%,从而提高了颗粒有机碳含量（W_POC）与矿物结合有机碳含量（W_MOC）的比值,改良了土壤有机碳性质.长期配施有机肥是增加灰漠土各级矿物颗粒结合有机碳积累和提升灰漠土肥力的最佳方式.