凹凸棒添加对有机肥发酵温度及养分的影响

为充分利用凹凸棒石的吸附性能,降低有机肥发酵过程中的碳氮损失,减少臭气排放,设置4个不同凹凸棒石添加量（0、5%、10%、15%）,探讨凹凸棒石添加量对有机肥发酵温度、养分含量及养分损失率的影响。结果显示：相比不添加凹凸棒石的对照,添加凹凸棒石可降低堆肥发酵最高温度,延长高温持续时间,降低堆体水分损失速率; 5%凹凸棒石添加可显著降低氮素损失约10个百分点,但当其添加量超过10%时,氮素损失反而增加;添加凹凸棒石显著降低了有机质含量和损失率,且凹凸棒石添加量与有机质损失率呈显著负相关关系。此外,添加凹凸棒石可提高有机肥的钾素含量,但对磷素的含量和损失无显著影响。研究表明,有机肥生产工艺中,凹凸棒石的适宜添加量应为物料总质量的5%~10%。     

EXPLORING THE RECYCLING OF MANURE FROM URBAN LIVESTOCK FARMS: A CASE STUDY IN ETHIOPIA

• Livestock manure was the main organic waste in urban and peri-urban areas.• Manure production will increase by a factor of 3–10 between 2015–2050.• Only 13%–38% of excreted N by livestock will be recycled in croplands.• Intensification of urban livestock production greatly increased N surpluses.• Reducing population growth and increasing livestock productivity needed.Urban population growth is driving the expansion of urban and peri-urban agriculture (UPA) in developing countries. UPA is providing nutritious food to residents but the manures produced by UPA livestock farms and other wastes are not properly recycled. This paper explores the effects of four scenarios: (1) a reference scenario (business as usual), (2) increased urbanization, (3) UPA intensification, and (4) improved technology, on food-protein self-sufficiency, manure nitrogen (N) recycling and balances for four different zones in a small city (Jimma) in Ethiopia during the period 2015-2050. An N mass flow model with data from farm surveys, field experiments and literature was used. A field experiment was conducted and N use efficiency and N fertilizer replacement values differed among the five types of composts derived from urban livestock manures and kitchen wastes. The N use efficiency and N fertilizer replacement values were used in the N mass flow model.Livestock manures were the main organic wastes in urban areas, although only 20 to 40% of animal-sourced food consumed was produced in UPA, and only 14 to 19% of protein intake by residents was animal-based. Scenarios indicate that manure production in UPA will increase 3 to 10 times between 2015 and 2050, depending on urbanization and UPA intensification. Only 13 to 38% of manure N will be recycled in croplands. Farm-gate N balances of UPA livestock farms will increase to>1 t·ha⁻¹ in 2050. Doubling livestock productivity and feed protein conversion to animal-sourced food will roughly halve manure N production.Costs of waste recycling were high and indicate the need for government incentives. Results of these senarios are wake-up calls for all stakeholders and indicate alternative pathways.     

添加葡萄糖对绿狐尾藻与麦麸混合青贮品质的影响

以鲜质量比7∶3的绿狐尾藻和麦麸为原料混合青贮,分别添加0%、2%、4%、6%的葡萄糖,固定添加植物乳杆菌,测定混合青贮饲料的发酵品质、营养品质及有氧稳定性。结果表明：添加葡萄糖能显著(P<0.05)降低混合青贮饲料的pH值和氨态氮与总氮质量分数之比,显著(P<0.05)提高乳酸质量分数,降低丁酸质量分数,改善青贮发酵品质;显著(P<0.05)降低粗蛋白和粗纤维质量分数,且显著(P<0.05)提高相对饲用价值;当葡萄糖添加量为4%时显著(P<0.05)降低中性洗涤纤维和酸性洗涤纤维质量分数;添加0%、2%、4%、6%葡萄糖处理的有氧稳定性分别为>360、226、>360、62 h。综合评价结果显示,鲜质量比7∶3的绿狐尾藻和麦麸混合青贮中添加2%葡萄糖,混合青贮有更好的发酵品质和营养品质及有氧稳定性。     

微生物菌剂对设施辣椒秸秆原位堆肥土壤理化性质及细菌群落的影响

为明确微生物菌剂对设施废弃秸秆参与原位堆肥的影响,以辣椒秸秆为研究对象,利用实验室常规化学分析方法,测定堆肥理化性质,并通过 16 s rDNA 高通量测序技术分析堆肥过程细菌群落。结果表明:外源微生物菌剂可显著提高堆肥期间土壤温度,提高电导率值,促进总氮的固定,有效减少堆肥中期氮素损失。不同发酵时期细菌优势菌种不同,变形菌门(Proteobacteria)、厚壁菌门(Firmicutes)、酸杆菌门(Acidobacteria)、绿弯菌门(Chloroflexi)、芽单胞菌门(Gemmatimonadetes)、拟杆菌门(Bacteroidetes)、放线菌门(Actinobacteria)和异常球菌-栖热菌门(Deinococcus-Thermus)是辣椒秸秆原位堆肥过程在门水平优势细菌。克雷伯氏菌属(Klebsiella),芽孢杆菌属(Bacillus),不动杆菌属(Acinetobacter)和假单孢菌属(Pseudomonas)是属水平优势细菌。微生物菌剂对细菌群落结构的影响主要体现在堆肥升温期和降温期。添加300 kg/hm²微生物菌剂处理堆肥最高温度比对照提高1.95 ℃,和堆肥前相比,电导率提高了1.37 ms/cm,总氮提高了24.1%,优势菌群变形菌和厚壁门在所有组内变化最显著。综上,300 kg/hm²微生物菌剂为辣椒秸秆原位堆肥最适添加量,研究结果为茄果类秸秆还田堆肥技术提供依据。     

生物炭对污泥-菌渣堆肥腐殖化与重金属钝化的影响

为探讨生物炭对市政污泥堆肥腐殖化和重金属钝化的影响,将市政污泥和菌渣按照湿质量比1:0.7进行混合,设置3个堆体进行好氧堆肥:处理组堆体分别添加混料干质量5%和10%的生物炭(记为BC5、BC10);对照组(CK)堆体不添加生物炭。结果表明:添加生物炭可延长高温时间,促进堆肥中富里酸向大分子胡敏酸转变,降低水溶性有机物含量,促进堆体腐熟。添加生物炭的堆体对重金属的钝化效果均优于CK组,BC5对可交换态Cu、Pb钝化效果较好,钝化率分别为78.12%、97.82%,BC10对可交换态Cr、Ni、Zn钝化效果较好,钝化率分别为66.64%、5.88%、19.76%;堆肥后Cu、Pb、Cr残渣态分配率增加量大小顺序为BC10>BC5>CK,Ni、Zn残渣态分配率增加量大小顺序为BC5>BC10>CK。Cu、Cr、Pb、Zn可交换态分配率均与水溶性有机物和富里酸呈极显著正相关(P<0.01),与胡敏酸呈极显著负相关(P<0.01)。研究表明,添加生物炭有利于堆体腐殖化和重金属钝化,且两者存在相关性。     

Co-application of compost or inorganic NPK fertilizer with biochar influences soil quality,grain yield and net income of rice

Most agricultural soils in sub-Saharan Africa are degraded, compromising the grain yield of rice and farmers return on investment. A 3-year field study was undertaken to explore the effect of the application of compost or inorganic NPK fertilizer applied alone or in combination with biochar on soil quality, grain yield of rice and net income. The five treatments were laid out using a randomized complete block design with four replications. The treatments were applied to supply approximately 75 kg N ha^–1. The best fertilizer input was compost+biochar which resulted in the greatest improvement in soil physico-chemical properties by reducing bulk density and increasing porosity and moisture retention, organic matter content, percent nitrogen, available phosphorus and cation exchange capacity. Apart from treatment with inorganic fertilizer alone, treated soils showed a decrease in pH. Bacterial and fungal counts and basal respiration decreased in soils in the following order: compost+biochar>compost only>inorganic NPK fertilizer+biochar>inorganic NPK fertilizer>control. The increase in pooled grain yield and net income in response to treatment followed the order: compost+biochar>NPK+biochar>NPK>compost>control. The findings suggest that the use of compost or NPK alone might improve soil quality and increase grain yield and net income, but it is greatly recommended to co-apply these fertilisers with biochar.     

Analysis of total inositol phosphates in municipal solid waste compost-treated soils by two extraction methods

 Humic substances are the most dynamic component of agricultural soils. In this study, humic substances were extracted from soils based on standard acid/base solubility and by gel filtration using Sephadex G25. Organic P is a component of humic substances, and inositol phosphates are considered to have high prominence in organic P. The objectives of the study were to determine the effects of municipal solid waste (MSW) compost on the amount of inositol phosphates (IP) present in soils, and compare methods of extracting humic substances from soils. Total IP (IP_T) in soil extracts was determined following separation using a AG-1× 8 anion exchange resin, acid digestion and ICAP analysis for P. The percentage of IP (%IP) of the total P in the soil was also determined by colorimetric analysis. The soils were part of an experiment to study the effects of three rates of MSW compost and fertilizers on three crops grown in a Pugwash sandy loam (Humo-Ferric Podzol). The data were compared using ANOVA atP≤0.05; extraction methods, fractions [humic/fulvic, high/low molecular (MW)], and five treatments (three different rates of compost, fertilizer, and untreated soil) were compared. The gel filtration method extracted significantly more IP_T and %IP than the solubility method. In the solubility method, humic and fulvic acids contained the same amounts of IP_T and %IP, while the high MW fraction always contained more IP_T and %IP than the low MW fraction in the gel filtration method. Fulvic acids and the low MW fraction contained similar amounts of IP_T and %IP. There were differences in %IP between compost-treated soils and the non-compost-treated soils, although there were no differences in IP_T due to rate of compost addition. Received: 20 October 1999     

Release of sulphate-sulphur, potassium, calcium and magnesium from spent mushroom compost under field conditions

 The release of SO₄ ^2–-S, K⁺, Ca²⁺ and Mg²⁺ from soil amended with spent mushroom compost (SMC), a byproduct of mushroom production, was measured in leachate from field lysimeters for 30 weeks. Rates of application were 0 and 80 t ha^–1 moist SMC. The SMC contained 1.7% K, 6.5% Ca, 0.4% Mg and 1.2% S (of which 87% is SO₄ ^2–-S), and has a C : S ratio of 26. The break-through curves of ion leaching were polymodal indicating the preservation of soil structure in the lysimeters and its influence on leaching. SO₄ ^2–-S release from SMC was rapid (first-order exponential) and was very similar to the release from a laboratory incubation. The release of K⁺, Ca²⁺ and Mg²⁺ was described using first/zero-order models which were also used to describe their release in the laboratory. The rate and amount of Ca²⁺ release was similar in the field and laboratory, but the amount of K⁺ (and to a lesser extent Mg²⁺) release was less in the field than in the laboratory. Recoveries of SMC applied nutrients in leachate were 80% of S (263 kg ha^–1), 3% of K (14 kg ha^–1), 16% of Ca (284 kg ha^–1) and 37% of Mg (40 kg ha^–1). Little if any S was mineralised. Using SMC could provide plants with S, K, Ca and Mg but there is potential for SO₄ ^2–-S losses via leaching. Received: 7 April 1999     

菌渣纤维素降解菌的筛选与鉴定

为了寻找高效纤维素降解菌,提高菌渣堆肥微生物发酵效果,促进菌渣高效循环利用,从不同地点堆放的杏鲍菇菌渣中采集样品,利用羧甲基纤维素钠培养基分离纤维素降解菌,结合纤维素刚果红水解圈测定、滤纸条降解试验和纤维素酶(滤纸酶FPA、内切葡聚糖酶CMCase、外切葡聚糖酶C1、葡萄糖苷酶β-Gase)活性测定,筛选到4株(FB7、CB1、BC11、BC12)具有高效纤维素降解能力的细菌,经16S rDNA序列分析,鉴定FB7、CB1为枯草芽孢杆菌,BC11为链霉菌属Streptomyces albus,BC12是丛毛单胞菌属的Comamonas_jiangduensis,其中FB7降解能力强,可将滤纸条降解成糊状(10 d),纤维素酶活力很高,摇瓶发酵4 d后FPA、CMCase、C1酶、β-Gase的酶活分别为22.81、314.50、2.78、188.09 U·g^-1。复合菌剂CB1+BC11+FB7的FPA、CMCase、C1酶、β-Gase的酶活高于其他各组合,为31.56、133.63、2.31、217.21 U·g^-1,与FB7相比分别提高了38.4%、11.2%、178%、70.3%,将复合菌CB1+BC11+FB7接种到菌渣堆肥中,与对照相比,能快速提高堆体温度,且在翻堆后能更好地维持堆温。     

蚕沙好氧堆肥腐熟度指标研究

堆肥腐熟度是衡量堆肥反应进程和堆肥产品质量的主要参数,为了探索蚕沙堆肥腐熟度的快速评价体 系,以蚕沙为主要堆肥材料,以蘑菇渣和谷壳作为调理剂,采用静态好氧堆肥模式进行3 种堆肥处理,研究蚕沙堆肥处 理过程中理化、生物学性状的变化规律,并对各指标作相关性分析。结果表明,当发芽指数逸80%,C/N 和T值分别降至 12.07和0.76,堆肥颜色呈黑色、无气味、温度降至常温时,蚕沙堆肥达到充分腐熟。因此,蚕沙堆肥处理过程中的堆肥颜 色、气味、温度、C/N、T 值及发芽指数与蚕沙好氧堆肥腐熟度紧密相关,可作为蚕沙好氧堆肥腐熟度快速评价指标。