Studies on the Effects of Vermicompost on Physicochemical Properties and Growth of Two Tomato Varieties under Greenhouse Conditions

This research was conducted to investigate effects of different vermicompost rates on breeding quality and growth of two tomato varieties. Six treatments were applied, combining vermicompost (VC) with rice husk ash (RHS) and coconut fiber (CF) with the following proportions: 3/3 VC (control treatment, T1), 2/3 VC + 1/3 RHS (T2), 2/3 VC + 1/3 CF (T3), 1/3 VC + 2/3 RHS (T4), 1/3 VC + 2/3 CF (T5), and 1/3 VC + 1/3 RHS + 1/3 CF (T6). The results demonstrated that there was significant difference between combining VC, RHS, and CF into EC and combining those into macronutrients of substrates with increasing VC mixture proportion; however, water-holding capacity (WHC), zinc (Zn), manganese (Mn), and iron (Fe) contents were significantly increased with reduced VC mixture proportion. A mixture of VC with RHS and CF made with the rate of 1:1:1 significantly influenced emergence and elongation of seedlings of both varieties. Biomass allocation was affected by VC amendments for two varieties in seedling stage and one field-grown tomato variety. The VC amendment did not affect the phosphorous (P), Fe, and Zn contents but significantly influenced nitrogen (N), potassium (K), calcium (Ca), magnesium (Mg), and Mn concentrations in the shoots. The mixture of VC with RHS and CF made with the rate of 1:1:1 was found to provide optimum conditions for seedling performance of the two tomato varieties.     

Effect of Vermicompost in Media on Growth,Yield and Fruit Quality of Cherry Tomato (Lycopersicon esculentun Mill.) Under Net House Conditions

Effects of VC application on tomato production and media properties can last for the third successive season, which was verified in this study to evaluate effects of VC application on growth, productivity and fruit quality of cherry tomato for the third season. Six treatments were designed similarly in the first and second seasons (unchanged design compared to the previous season), including: VC with rice husk ash (RHS) and coconut fiber (CF) 0% VC+ 50% RHS +50% CF (T1- control), respectively. 20%VC + 40% RHS + 40% CF(T2), 40% VC+ 30% RHS + 30% CF(T3), 60% VC + 20% RHS + 20% CF(T4), 80% VC + 10% RHS + 10% CF(T5), and 100% VC(T6). The results showed that the pH, EC, N, P, K, Ca, and Mg available in media were increased with the addition of VC. This finding revealed that the addition of VC significantly improved the physic-chemical media properties, increasing the EC and also increasing the macronutrients in the media resulting in substantial increased the yield and quality of tomato fruits. It is concluded that EC of VC was the key factor for the positive increase of the productivity and quality of tomato and the salinity (EC at 3.52 dS/m) causing restriction of water to fruits that resulted in the increase of the total soluble solids in tomato fruit and without affecting yield reduction.     

Use of Organic Materials as Growing Media for Honeydew Melon Seedlings in Organic Agriculture

An experiment was conducted to determine the possibility of using organic materials for the honeydew melon seedling production. Honeydew melon was grown in nine media with different rates of spent mushroom substrate (SMS), vermicompost (VC), cattle manure compost (CaMC), and coconut fiber (CF). Element sulfur was also added to mixtures at a rate of 1.0 g kg^?1 substrate. The experiment was arranged in a randomized complete block design with three replications. The results determined that all media had desirable physical properties. At the same rates of SMS and VC, CF supported better growth of seedling than CaMC. Seedlings treated with CF had higher morphological growth parameters. It is suggested that CF should be used as an additive for media of SMS and VC. The study clearly indicated that the growing medium with 50% SMS, 30% VC, and 20% CF gave the best condition for honeydew melon seedlings.     

Changes in the N Recovery Process from 15N-Labeled Swine Manure Compost and Rice Bran in Direct-Seeded Rice by Simultaneous Application of Cattle Manure Compost

The N recovery from ¹⁵N-labeled swine manure compost and rice bran with or without simultaneous application of unlabeled cattle manure compost was examined in a paddy field with direct-seeded rice during a 1-year period (1 crop season). In all the ¹⁵N-labeled materials including (¹⁵NH₄)₂SO₄, the processes of N recovery from the ¹⁵N materials by rice plants were different between the plots with and without application of cattle manure compost. At the tillering stage, the N recovery rates from the ¹⁵N materials in the plots with application of cattle manure compost were significantly lower than those in the plots without application of cattle manure compost. These recovery rates, however, became close and no significant differences were observed at the maturity stage. Thus, simultaneous application of cattle manure compost could impede the N recovery from swine manure compost, rice bran as well as (NH₄)₂SO₄.     

密闭式立体育秧系统水稻育苗基质配方研究

针对水稻育苗用土资源日益减少、适用于密闭式水稻立体育秧基质缺乏等制约水稻工厂化育苗技术发展的问题,该文以粉碎稻壳、粉碎玉米秸秆、珍珠岩、大田土为基质材料,设计3种单一基质CK1(100%大田土)、CK2(100%盼碎玉米秸秆)、CK3(100%粉碎稻壳)和按体积比配制的6种复合基质S1(80%粉碎稻壳+10%大田土+10%珍珠岩)、S2(60%粉碎稻壳+20%大田土+20%珍珠岩)、S3(40%粉碎稻壳+40%大田土+20%珍珠岩)、T1(80%粉碎玉米秸秆+10%大田土+10%珍珠岩)、T2(60%粉碎玉米秸秆+20%大田土+20%珍珠岩)、T3(40%粉碎玉米秸秆+40%大田土+20%珍珠岩)进行育苗试验,并分析9种基质的理化指标,结果表明,各处理的理化指标含量差异显著;添加粉碎稻壳、粉碎玉米秸秆复合基质的秧苗品质要优于单一基质;添加玉米秸秆的复合基质(T1、T2、T3)秧苗品质要优于添加稻壳的复合基质(S1、S2、S3);粉碎稻壳、粉碎玉米秸秆的添加量对秧苗生长影响较大,其添加量在60%(S2和T2)时,秧苗的各性状表现最优,其他2个处理差异不显著。以秧苗的农艺、生物量、力学性能作为评价指标,最佳的复合基质配方为处理T2。田间栽培结果表明,与常规育苗模式(普通平面大棚+自然光+大田土)对比,经T处理(密闭式立体+LED日光灯+T2基质)的秧苗在穴数上没有差异,株高平均值117.9 cm,低于对照的常规育苗平均值121.8 cm;千粒质量平均值25.35 g;其他各项指标平均值均高于常规育苗,实测增产5.9%。该研究结果可为密闭式水稻立体育秧系统高效稳定生产提供参考。     

Evaluation of Coconut Wastes as an Amendment to Acidic Soils in Low-Input Agricultural System

The effectiveness of plantation wastes along with locally available organic materials in ameliorating acidic soil was studied by conducting an experiment with coconut husk, poultry manure, vermicompost, and compared with limestone. Application of organic amendments significantly increased the soil pH, and it was greatest in poultry manure–amended soils followed by vermicompost and coconut husk + poultry manure treatments. The relative liming efficiency was greatest for poultry manure through out the observation period of 180 days. The coconut husk alone showed the least liming effect and its liming efficiency had increased when applied in combination with poultry manure and or vermicompost. This increase in soil pH was mirrored by significant reductions in exchange acidity, exchangeable aluminum (Al³⁺), diethylenetriaminepentaacetic acid (DTPA)–extractable iron (Fe²⁺), and manganese (Mn²⁺) and increases in cation exchange capacity, exchangeable bases, especially calcium (Ca), and Olsen-extractable phosphorus (P) by addition of organic amendments and lime. This study indicated the potential of using coconut husk along with poultry manure for managing acidic soils in low-input agricultural systems, especially in tropical islands.     

Effect of Organic Amendment Derived from Co-Composting of Chicken Slurry and Rice Straw on Reducing Nitrogen Loss from Urea

Co-composting of chicken slurry and rice straw with clinoptilolite zeolite and urea as additives was conducted to determine the characteristics of a compost and their effects on controlling ammonium (NH₄⁺) and nitrate (NO₃^?) losses from urea. Quality of the compost was assessed based on temperature, moisture content, ash, pH, electrical conductivity, carbon/nitrogen (C/N) ratio, NH₄⁺, NO₃^?, macronutrients, heavy metals, humic acid, microbial population, germination index, and phytotoxicity test. Moisture content and C/N ratio of the compost were 43.83% and 15, respectively. Total N, humic acid, ash, NH₄⁺, NO₃^?, phosphorus (P), calcium (Ca), magnesium (Mg), potassium (K), and sodium (Na) increased after co-composting rice straw and chicken slurry. Copper, iron (Fe), manganese (Mn), zinc (Zn), and microbial biomass of the compost were low. The germination rate of Zea mays on distilled water and Spinacia oleracea growth on peat-based growing medium (PBGM) and compost were not significantly different. Urea amended with compost reduced N loss by retaining NH₄⁺ and NO₃^? in the soil.     

Sustainability of organic fertilization of macadamia with macadamia husk‐manure compost

Abstract

Macadamia husk‐manure compost was evaluated as an organic fertilizer for the production of macadamia in an experiment over four years at irrigated and unirrigated sites on the MacFarms of Hawaii orchard. The treatments were (1) Fertilizer, a combination of solid and liquid chemical fertilizers applied based on leaf and soil analysis, (2) Compost, 10,000 kg ha^‐1 of a macadamia husk‐cattle manure compost alone applied annually between July and October, and (3) Compost+, compost plus mineral fertilizers applied based on leaf and soil analysis. In‐shell nut and kernel yield and quality were higher at irrigated than unirrigated sites, but were not significantly affected by the treatments. Change in leaf nutrient composition appears minimum except for slightly lower nitrogen (N) and boron (B) at two orchard sites for the compost treatment. Compost increased soil pH, total ion exchange capacity, soil organic matter, potassium (K), calcium (Ca), magnesium (Mg) at all sites, and sodium (Na) at irrigated sites. Soil nitrate (NO)‐N was lower in the compost treatment. Fertilization with compost was not profitable because the cost of compost application exceeded conventional fertilization cost tenfold for MacFarms, the largest macadamia farm in the United States.     

Fate of nitrogen derived from 15N-labeled plant residues and composts in rice-planted paddy soil

Pot experiments that lasted for 3 y were conducted to investigate the dynamics of nitrogen derived from plant residues (rice root, hull, straw, corn root, and rapeseed pod-wall), and composts (rice straw compost, cattle manure compost, and cattle manure sawdust compost), which were labeled with ¹⁵N. The rates of nitrogen uptake by rice (=N efficiency), denitrification, and immobilization derived from the organic materials incorporated before the first year of cultivation were investigated throughout 3 y of cultivation. At the end of the first year of cultivation, relatively high rates of N efficiency were obtained for rapeseed pod-wall (24.6%), rice straw (19.1%), and rice hull (18.6%), while corn root and cattle manure sawdust compost displayed a noticeably high denitrification rate. Corn root, cattle manure sawdust compost, rice hull, and rapeseed pod-wall exhibited remarkably high N mineralization rates ranging from 60 to 75% of the organic materials N applied. Cumulative rates of N efficiencies from the organic materials applied before the first year of cultivation fitted well to a first-order kinetic model and their asymptotes were compared among the organic materials. The asymptotic rates of N efficiency tended to depend on the rates at the end of the first year of cultivation.     

Feedstock Carbon Influence on Compost Biochemical Stability and Maturity

Quantity and quality of readily degradable carbon influences the composting process especially for compost mixture high in lignocellulotic material. Effects of carbon source on stability and maturity of compost from in-vessel systems are poorly understood. Research was conducted to investigate the effects of carbon composition of feedstock on the evolution of stability indices and reliability of maturity tests for accelerated vessel composting systems. Rice straw, sugarcane bagasse, and coffee hulls were composted in a modified rotary in-vessel composter amended with either cattle or sheep manure. Distinct evolution patterns were observed across carbon sources for temperature, with the sugarcane compost never attaining thermophilic temperatures. Time to peak temperature and return to ambient were significantly different between the rice and coffee compost. Comparatively, organic matter degradation followed a similar pattern for all carbon sources, although rice straw showed the faster degradative rate and coffee hulls the greatest overall loss. Both pH and electrical conductivity were inappropriate stability indices across carbon sources, while the NH₄⁺/NO₃^? ratio was lower than the threshold from week 1. The Solvita® maturity test was the best suited quality indicator and was related to compost respiration. The rice compost at week 12 was the only mature compost with an index value of 7. However, the coffee compost was in the curing stage with a value of 6. In vitro phytotoxicity assays on hot pepper contrasted the Sovita® interpretation for rice compost, which showed the lowest germination index. All compost had a stimulatory effect on cucumber seeds. In vivo seeding assays corroborated in vitro results with rice compost showing the greatest negative effect, augmented at 100% compost inclusion. Carbon source significantly influenced compost stability and maturity indices, which suggests that greater attention should be directed to quality indices in relation to feedstock composition.     

Effects of Food Waste Compost on Soil Microbial Populations,Tomato Yield,and Tomato Quality

A pot experiment was conducted to investigate the effects of food waste compost (FW) on soil microbial population and growth, fruit yield, and quality of tomato grown in a greenhouse compared to no fertilizer (CK), chemical fertilizer (CF), decomposed chicken manure (CM), pig manure (PM), horse manure (HM), and bull manure (BM). Results show that FW treatment had the greatest numbers of bacteria, fungi, and actinomycetes in soils and shoot biomass, fruit diameter, and fruit yield of tomato, and it increased fruit yield by 12.6, 28.5, 31.0, and 40.0% when compared to HM, CF, CM, and CK, respectively. The FW treatment also improved fruit quality, with the contents of vitamin C, soluble sugar, and organic acid and the sugar/acid ratio of 22.8 mg 100 g^?1, 3.84%, 0.50%, and 7.73, respectively. Thus food waste compost can be as an alternative to chemical fertilizer and other animal manures in vegetable cultivation.     

Comparison of different soilless media for growing gerbera under alkalinity stress condition

A factorial experiment was developed with two factors of the growing medium (v/v): 100% coconut fiber (CF), 75% vermicompost+25% perlite (VP), 25% zeolite+75% perlite (ZP), 75% peat+25% perlite (PP), 75% coco chip+25% perlite (CCP), 75% coconut fiber+25% perlite (CFP) and 100% perlite (P); and sodium bicarbonate (NaHCO₃) (0, 20 and 40 mM) involving the growth of gerbera cv. Dafne. Compared with CF substrate, NaHCO₃ in the nutrient solution caused significant decrease in vegetative and reproductive traits and nutrient concentration [especially iron, phosphorus, and magnesium (Fe, P and Mg)] in the rest of the media. The improved crop performance of plants grown onto CF substrate was attributed to their strong capacity to accumulate Fe in the aerial part under alkaline conditions and to maintain a better plant nutritional status (higher P and Mg). It is concluded that the use of CF substrate could provide a useful tool to improve alkalinity tolerance of gerbera plants under NaHCO₃ stress.     

不同施肥模式对设施菜田土壤微生物量碳、氮的影响

【目的】 本文利用天津日光温室蔬菜不同施肥模式定位试验,研究了不同施肥模式对设施菜田土壤微生物量碳、氮含量的影响,为设施蔬菜高效施肥和菜田土壤可持续利用提供依据。 【方法】 调查在第 9 茬蔬菜 (秋冬茬芹菜) 和第 10 茬蔬菜 (春茬番茄) 进行。定位试验设 8 个处理,分别为:1) 不施氮;2) 全部施用化肥氮 (4/4CN);3) 3/4 化肥氮 + 1/4 猪粪氮 (3/4CN + 1/4PN);4) 2/4 化肥氮 + 2/4 猪粪氮 (2/4CN + 2/4PN);5) 1/4 化肥氮 + 3/4 猪粪氮( 1/4CN + 3/4PN);6) 2/4 化肥氮 + 1/4 猪粪氮 + 1/4 秸秆氮 (2/4CN + 1/4PN + 1/4SN);7) 2/4 化肥氮 + 2/4 秸秆氮 (2/4CN + 2/4SN);8) 农民习惯施肥 (CF),除不施氮肥和农民习惯施肥外,其余处理为等氮磷钾处理。在不同生育时期,采 0—20 cm 土壤样品,测定土壤微生物量碳、氮含量,并分析其与蔬菜产量之间的关系。 【结果】 两茬蔬菜不同施肥模式土壤微生物量碳、氮含量总体上均随生育期的推进呈先增后降的趋势。芹菜季较高土壤微生物量碳含量出现在定植后 90 d,土壤微生物量氮较高含量出现在定植后 60 d;番茄季分别出现在定植后 20～80 d 和 60 d。芹菜季 5 个有机无机肥料配施模式土壤微生物量碳、氮含量分别在 185.0～514.6 和 34.3～79.1 mg/kg 之间,较化肥(4/4CN)模式平均分别增加 15.1%～81.7% 和 24.5%～100.0%,其中以配施秸秆模式土壤微生物量碳、氮含量相对较高,平均分别增加 62.0%～81.7% 和 81.1%～100.0%;番茄季 5 个有机无机肥料配施模式土壤微生物量碳、氮含量分别在 120.7～338.0 和 25.5～68.8 mg/kg 之间,较 4/4CN 模式平均分别增加 16.9%～86.9% 和 12.2%～109.3%,又以配施秸秆模式土壤微生物量碳、氮含量最高,平均分别增加 61.4%～86.9% 和 78.2%～109.3%。两季蔬菜不同生育期土壤微生物量碳、氮含量与当季蔬菜产量和定位试验开始以来蔬菜总产量之间均呈极显著正相关关系。 【结论】 同等养分投入量下,有机无机肥料配合施用提高土壤微生物量碳、氮的效果显著好于单施化肥,又以化肥配施秸秆效果更佳;土壤微生物量碳、氮含量与设施蔬菜产量之间呈极显著正相关关系。证明有机无机肥配施,特别是配施一定量的秸秆可有效提高土壤微生物量碳、氮含量,维持较高的菜田土壤肥力,有利于设施蔬菜的可持续和高效生产。      

Growth and yield response of lettuce to irrigation and growth media from composted sawdust and rice husk

In sub-Saharan Africa, manure and loam soil are popular growing media substrates. However, their poor physiochemical properties limit their use in growing media. Following a survey of farmers, single species sawdust, mixed species sawdust, and rice husk (RH) were selected and composted with poultry manure. Additionally, the RH was charred for use in soilless media. Objectives were to produce feedstock-specific composts and determine appropriate proportion for using them in containerized systems. Three composts produced were amended with soil in ratios of 1:1, 1:2, and 1:3 (v/v) in an initial experiment. In a second experiment (soilless), the single sawdust and RH compost were each amended with RH biochar in ratios of 1:0, 1:1, 1:2 (v/v) and subjected to half or full pot irrigation. RH compost amended soils gave the highest lettuce yield. In the soilless media, 2:1 ratio (v/v) of biochar to sawdust compost gave the highest yield.     

三种堆肥对番茄生长及青枯病防治效果的影响

合理施用堆肥能够有效地改善植物的生长条件和土壤的生态环境,从而提高植物对病害的抗性。通过盆栽试验,研究了药渣、 污泥和猪粪三种堆肥以不同比例与泥炭混合对番茄植株生长和番茄青枯病防治的影响。结果表明: 三种不同堆肥均能促进番茄植株生长,其中猪粪堆肥对番茄生长的促进效果最显著,当泥炭与猪粪的混合比例为3∶1时效果最好,当收获番茄植株时,其鲜重和干重较泥炭基础基质处理分别提高了29.8%和41.2%,污泥堆肥次之,药渣堆肥最差; 三种不同堆肥都能抑制青枯病的发生,药渣堆肥对番茄青枯病的抑制效果最明显,当泥炭与药渣的混合比例为4∶1时效果最好,在番茄植株移栽33d 时,其病情指数较泥炭基础基质降低了66.7%,污泥堆肥次之,猪粪堆肥最差。添加不同堆肥使得盆栽基质的理化性质、 酶活性和可培养微生物的数量发生了不同的变化,推测可能是上述因素的变化使其对番茄的生长和青枯病的防治效果产生了明显的差异。     

Effect of the long-term application of organic matter on soil carbon accumulation and GHG emissions from a rice paddy field in a cool-temperate region,Japan-II. Effect of different compost applications-

ABSTRACT

The influence of long-term application of different types of compost on rice grain yield, CH₄ and N₂O emissions, and soil carbon storage (0 ? 30 cm) in rice paddy fields was clarified. Two sets of paddy fields applied with rice straw compost or livestock manure compost mainly derived from cattle were used in this study. Each set comprised long-term application (LT) and corresponding control (CT) plots. The application rates for rice straw compost (42 years) and livestock manure compost (41 years in total with different application rates) were 20 Mg fresh weight ha^–1. Soil carbon storage increased by 33% and 37% with long-term application of rice straw compost and livestock manure compost, respectively. The soil carbon sequestration rate by the organic matter application was 23% higher with the livestock manure compost than with the rice straw compost. The rice grain yield in the LT plot was significantly higher than that in the corresponding CT plot with both types of compost. Although the difference was not significant in the rice straw compost, cumulative CH₄ emissions increased with long-term application of both composts. Increase rate of CH₄ emission with long-term application was higher in the livestock manure compost (99%) than that in the rice straw compost (26%). In both composts, the long-term application did not increase N₂O emission significantly. As with the rice straw compost, the increase in CH₄ emission with the long-term application of livestock manure compost exceeded the soil carbon sequestration rate, and the change in the net greenhouse gas (GHG) balance calculated by the difference between them was positive, indicating a net increase in the GHG emissions. The increase in CH₄ and net GHG emissions owing to the long-term application of the livestock manure compost could be higher than that of the rice straw compost owing to the amount of applied carbon, the quality of compost and the soil carbon accumulation. The possibility that carbon sequestration in the subsoil differs depending on the type of composts suggests the importance of including subsoil in the evaluation of soil carbon sequestration by long-term application of organic matter.     

The Effects of Different Organic Wastes on Mineral Element Content in Organic Strawberry Cultivation

In this article, five different organic waste effects on mineral uptake in growing organic strawberries was investigated. In the experiment, the impacts of different organic wastes, such as hazelnut husk (H), hazelnut husk compost (HC), rice hull (R), rice hull compost (RC), and farmyard manure on mineral element contents of strawberry cultivars ‘Camarosa’ and ‘Sweet Charlie’ were investigated. The harvesting of the plants was performed at the beginning of resting, fluorescence, and at the end of the harvest throughout the experiment in order to examine the impacts of organic wastes on mineral element contents, which were detected in the leaf samples extracted from these harvests. In this experiment, it was observed that the applications H Compost and H yielded better results than farmyard manure and other wastes regarding mineral element content. In the research, when examined pull up dates, N, P, Mg, Fe, and Mn contents were adequate, but K, Ca, and Zn contents were found to be insufficient in strawberry leaves.     

PRELIMINARY EVALUATION OF COMPOSTED PISTACHIO HULL AND RICE HUSK AS POTTING MEDIUM ON SCINDAPSUS AUREUS VEGETATIVE AND PHYSIOLOGICAL CHARACTERISTICS IN GREENHOUSE CONDITION

Pistachio hull is a horticultural waste product obtained during dehulling process of pistachio nuts. This experiment was carried out to evaluate the effects of pistachio hull and rice husk compost, as culture medium, on vegetative and physiological characteristics of pothos (Scindapsus aureus) plants. Rooted cuttings were used as plant materials and cultured in pots (40 × 30cm) filled with the following media: S₁ = 100% peat (control), S₂ = 100% rice husk, S₃ = 70% rice husk + 30% pistachio hull, S₄ = 50% rice husk + 50% pistachio hull, S₅ = 30% rice husk + 70% pistachio hull and S₆ = 100% pistachio hull. The vegetative parameters were affected by media type, so that no plants survived in 100% pistachio hull. The application of 50% pistachio hull and 50% rice husk (S₄), increased shoot fresh weight, and potassium (K) concentration of shoot and root compared to control. Fresh and dry root weight and phosphorus (P) concentration of shoot was increased with S₂ treatment (100% rice husk).     

畜禽粪便堆肥作为功能微生物载体的研究

以堆肥作为3株功能芽胞细菌液体菌剂的载体,通过优化载体含水量、温度和接种浓度等关键影响因子,以不同时间载体中有效活菌数的变化为指标,探讨堆肥代替草炭作为功能微生物载体的可行性和最适条件。研究结果表明,载体C（鸡粪）、P（猪粪）、M（1∶1鸡粪猪粪）和TP（猪粪＋草炭）在72 h内的有效活菌数均显著低于草炭;混合载体TC2（50%草炭＋50%鸡粪）和TM1（25%草炭＋75%1∶1鸡粪猪粪）的有效活菌数随着时间的延长而增加,其中72 h时TC2的有效活菌数达到11.40×109 cfu.g-1,TM1的有效活菌数达到2.64×109 cfu.g-1,均与草炭无显著差异,因此适宜代替草炭作为功能微生物的载体。采用单因素实验,载体TC2和TM1的最优化影响因子为含水量30%、吸附温度30℃、菌液接种浓度为108cfu.mL-1。     

沼液堆肥化与牛粪堆肥化的发酵特性及腐熟进程

为评价沼液作为堆肥含氮添加剂的应用效果,开发沼液的处理应用技术,以牛粪树叶堆肥为对照,将沼液和树叶混合堆制发酵,探讨其发酵特性与腐熟进程。研究结果表明,环境温度一直在10℃以下,沼液堆肥化和牛粪堆肥化均能经历35d以上的堆温超过50℃的高温发酵;而沼液堆肥化超过50℃的高温期持续时间比牛粪堆肥化少8d;经60d的发酵沼液堆肥化的半纤维素含量从发酵初期的12.14%下降到6.53%,纤维素含量由20.5%下降到9.8%;而牛粪堆肥化的半纤维素含量从12.8%下降到9.56%,纤维素含量由21.5%下降到15.9%。可见沼液堆肥化的分解更彻底。从C/N、温度、可溶性糖含量、含水量、种子发芽指数综合评价两种堆肥的腐熟度,沼液堆肥化进入腐熟状态约经30d,而牛粪堆肥化进入腐熟约需45d。