养猪场沼渣制备包膜缓释肥理化性质表征

文章以分散式养猪场沼渣为应用研究对象,以8%聚乙烯醇为包膜材料,改性斜发沸石为肥料载体和缓控释材料调理剂,通过添加不同沸石量制备3种复混包膜缓释肥。利用红外光谱、扫描电镜及三维荧光对3种缓释肥的进行表征。结果表明:添加改性沸石的复混包膜肥除了增加显著的沸石红外特征谱外,其余红外光谱图差异不明显,表明添加沸石对有机质(富里酸和腐殖酸)结构和化学键型并未产生明显的影响,即不影响沼渣理化性质;添加改性沸石可以使聚乙烯醇完整的覆盖在肥料表面,膜壳更加平整光滑,膜层更加致密;三维荧光光谱显示复混包膜肥Ⅰ浸出富里酸和腐殖酸浓度最大,复混包膜肥Ⅲ浓度最低,表明添加沸石有减缓肥料养分释放的效果。该研究对于利用养猪场沼渣制备包膜缓释肥有一定的参考价值。     

Dietary clinoptilolite influences antioxidant capability and oxidative status of broilers

Natural clinoptilolite has been shown to have positive effects as an antioxidant, which means it traps free radicals in its complex structure, inactivating and eliminating them. Synthetic or modified clinoptilolite delays lipid peroxidation with water-soluble peroxyl radicals, and reduces the catalytic production of radicals to protect the organism. The objective of this study was to evaluate the effect of natural clinoptilolite and modified clinoptilolite on the antioxidant status of broilers. The antioxidant capability of natural clinoptilolite or modified clinoptilolite is exerted, at least in part, by increasing glutathione content in liver and intestinal mucosa, the superoxide dismutase, and glutathione peroxidase activity in serum, liver, and intestinal mucosa. In addition, to enhance broiler performance, there is a reduction of the concentration of malondialdehyde in serum, liver, and intestinal mucosa.     

天然沸石改良苏打盐碱土吸附机理的探讨——Ⅰ.天然沸石对苏打盐碱土中主要盐分吸附规律的研究

本文是利用天然沸石对苏打盐碱土中存在的主要钠盐的吸附规律的研究,探讨了在不同时间的条件下,沸石对不同浓度的4种钠盐的吸附规律。     

斜发沸石对苏淮育肥猪血液生化指标和肠道形态的影响

旨在研究基础日粮中添加不同水平的斜发沸石对苏淮育肥猪血液生化指标、肠道形态的影响,为斜发沸石在苏淮猪生产中的应用提供数据参考。选择体重(50±2)kg、健康的苏淮阉公猪40头,随机分为对照组、试验Ⅰ组、试验Ⅱ组、试验Ⅲ组共4个处理组。试验预饲期10 d,所有猪自由采食对照组基础日粮;正试期64 d,对照组饲喂基础日粮,试验Ⅰ至Ⅲ组分别在基础日粮中添加0.5%、1.0%、2.0%的斜发沸石。结果:随斜发沸石水平增加,血清免疫球蛋白G(IgG)、肠道黏膜分泌型免疫球蛋白(sIgA)和肠道黏膜IgG含量升高。随斜发沸石水平增加,血清碱性磷酸酶含量升高;血清甘油三酯含量先升高后降低。随斜发沸石水平增加,平均红细胞血红蛋白浓度含量升高;红细胞分布宽度变异系数降低。随斜发沸石水平增加,十二指肠隐窝深度降低;空肠绒毛高度和空肠段绒毛高度/隐窝深度有升高的趋势。试验表明,在各组日粮消化能和粗蛋白均满足且一致的情况下,添加适宜比例斜发沸石对改善猪的机体血液及肠道免疫功能有积极作用。综合考虑以上检测指标变化规律及斜发沸石添加成本,建议斜发沸石的适宜添加比例为1.0%。     

Minimizing ammonia volatilization from urea,improving lowland rice (cv. MR219) seed germination,plant growth variables,nutrient uptake,and nutrient recovery using clinoptilolite zeolite

The anionic nature and high cation exchange capacity (CEC) of clinoptilolite zeolite can be exploited to reduce ammonia (NH₃) loss from urea and to improve soil chemical properties to increase nutrient utilization efficiency in lowland rice cultivation. A closed-dynamic airflow system was used to determine NH₃ loss from treatments (20, 40, and 60 g clinoptilolite zeolite pot^?1). Seed germination study was conducted to evaluate the effects of clinoptilolite zeolite on rice seed germination. A pot study was conducted to determine the effects of clinoptilolite zeolite on rice plant growth variables, nutrient uptake, nutrient recovery, and soil chemical properties. Standard procedures were used to determine NH₃ loss, rice plant height, number of leaves, number of tillers, dry matter production, nutrient uptake, nutrient recovery, and soil chemical properties. Application of clinoptilolite zeolite (15%) increased shoot elongation of seedlings and significantly reduced NH₃ loss (up to 26% with 60 g zeolite pot^?1), and increased number of leaves, total dry matter, nutrient uptake, nutrient recovery, soil pH, CEC, and exchangeable Na⁺. Amending acid soils with clinoptilolite zeolite can significantly minimize NH₃ loss and improve rice plant growth variables, nutrient uptake, nutrient recovery, and soil chemical properties. These findings are being validated in our ongoing field trials.     

Application of Surfactant-Modified Clinoptilolite in Peat Substrate on the Growth of Orthosiphon stamineus

ABSTRACT

This study covers the application of surfactant-modified clinoptilolite (SMC) in peat substrate on the growth of Orthosiphon stamineus. SMC added in peat substrate may increase nutrient availability to O. stamineus by controlling anionic nutrients (phosphate and nitrate) leach to the environment. The modification of clinoptilolite (Cli) by using hexadecyltrimethyl ammonium surfactant alters the surface charge of Cli from negative to positive which is likely to attract anions when applied in the substrates. In leachate study, there was a higher amount of phosphate^? and nitrate released (19.67 and 139.00 mg/L, respectively) by the commercial propagating substrate (PS) in the first day of the experiment. However, the application of Cli and SMC in peat substrate significantly reduced the concentrations of both nutrients, especially when 20% of the SMC was added in the peat substrates. There were significant differences in the growth parameters of O. stamineus, particularly those grown in 10% Cli-amended peat substrate. Results of leachate and plant growth studies indicate that Peat + 20% SMC could be a potential substrate to replace the commercial PS as it reduces the release of phosphate and nitrate, at the same time allows maximum uptake of nitrogen and phosphorus, which promotes the growth and development of O. stamineus.     

NH4+-K+ co-loaded clinoptilolite as a binary fertilizer

ABSTRACT

Understanding the potential of clinoptilolite (CLI) for adsorption of NH₄⁺ and K⁺, providing appropriate fertilizer formula, and evaluation of the produced zeolitic nutrient sources (ZNSs) to meet the plant need are the main objectives of this study. Three ZNSs (NH₄⁺-saturated, K⁺-saturated and dual-purpose NH₄⁺-K⁺ saturated CLI) were produced, assessed, and compared with commercial N and K fertilizers (CFs) on corn growth in a greenhouse. The results indicated that CLI can potentially adsorb both NH₄⁺ and K⁺ to the maximum values of 25.00 mg-NH₄⁺ g^?1 and 47.61 mg-K g^?1, respectively, and chemisorptions mainly followed the process of adsorption. Saturation of zeolite by NH₄⁺ and K⁺ occurred after 10 and 15 d which lead to ZNSs with 2% and 5% of N and K, respectively. NH₄⁺-K⁺ saturated CLI contained 1% N and 1% K. The greenhouse experiment showed no significant difference between ZNSs and CFs on plant growth. However, the application of both N and K in the form of zeolitic sources significantly increased the uptake of N by the plant. The highest uptake of K (2.05 g pot^?1) occurred in plants supplied with both natural zeolite and CFs. The present results may benefit the future utilization of ZNSs in environmental friendly farming practices.     

Experimentation Study on the Adsorption Capability About the Ammonia Nitrogen From Water Using Clinoptilolite

The absorption capability, the regeneration capability and the influencing factors of the clinoptilolite to ammonia nitrogen are studied through static state test ,dynamic test and regenerative test. The experiment result indicates that the saturated adsorptive quantity of clinoptilolite in the static state is 3 100 mg/100 g,when the concentration of ammonia nitrogen is 35 mg/L, the saturated adsorptive quantity in the dynamic state is about 2 200 mg/100 g, and was 20, 23 and 27.5 times of the pulverous active carbon's, the granular active carbon's and the diatomite's respectively. The mixed solution of NaCl+NaOH (the weight proportion is 3:7) could be repeatedly used three times as the regeneration reagent of clinoptilolite, and the effective life is exceeded 140 h. Clinoptilolite has important practicality when it is used to dispose the wastewater containing ammonia nitrogen.     

斜发沸石吸附NH_4~＋-N的活化与再生方法研究

采用实验方法研究了斜发沸石在静态和动态条件下对中低浓度含NH4＋-N废水的吸附性能,包括沸石的几种活化方法比较、沸石对NH4＋-N的吸附效果和沸石的再生效率。静态吸附实验结果表明,沸石对NH4＋-N的快速吸附等温过程符合Langmuir方程,其表达式为q=0.0764Ce（/1＋0.0328C）e。几种活化方法比较的结果表明,加热蒸汽活化效果明显,其饱和吸附量较天然沸石提高26.24。汽提的再生方法可以让饱和沸石得以部分再生,一次再生的效率为80.98,二次再生的效率为65.37。动态吸附试验在停留时间30min,水力负荷1.2m.3m-.2h-1,进水浓度为3.5~4mg.L-1的工况下,水土比为25,处理出水满足地表水IV类标准（NH3-N≤0.5mg.L-1）,继续运行到水土比为96时吸附能力被穿透。同时比较了水力负荷为1.2、1.8m3.m-.2h-1和不同滤床填料深度条件下的处理效果。一系列实验证明,利用斜发沸石净化低浓度含NH4＋-N废水具有良好的应用前景。     

Amending Chemical Fertilizers with Rice Straw Compost and Clinoptilolite Zeolite and Their Effects on Nitrogen Use Efficiency and Fresh Cob Yield of Zea mays L.

A field study was carried out from April 2014 to August 2014 for two consecutive planting cycles of Zea mays L. on Nyalau Series (Typic Tualemkuts) to determine the short-term effects of co-application of chemical fertilizers, rice straw compost, and clinoptilolite zeolite on (i) ammonium adsorption and desorption, (ii) nitrogen, phosphorus, and potassium uptake and use efficiency, and (iii) yield of Zea mays L. (cobs). Amending urea with rice straw compost and clinoptilolite zeolite improved nitrogen use efficiency because of temporary adsorption and desorption of ammonium on the exchange sites of compost and clinoptilolite zeolite. Combined use of chemical fertilizers, rice straw compost, and clinoptilolite zeolite enhanced uptake of nitrogen, phosphorus, potassium, calcium, and magnesium. Co-application of chemical fertilizers, rice straw compost, and clinoptilolite zeolite can improve the availability of soil nutrients. This approach can also improve nutrient use efficiency and yield of Zea mays L.