不同有机肥中磷在土壤剖面中累积迁移特征与有效性差异

为明确连续施用不同有机肥后土壤剖面中磷的分布规律和迁移特征,探讨不同有机肥磷投入下农田磷负荷.通过4 a连续田间定位试验,定量化研究连续施用不同有机肥后土壤剖面中磷的累积迁移特征与有效性差异.结果表明:(1)连续4 a施用不同有机肥后,肥料中磷主要积累在0~15 cm表层土壤,土壤全磷、速效磷含量均随土壤深度增加逐渐降低;连续4 a施用高量有机肥后,其带入的磷可明显迁移到15~30 cm土层,施用高量猪粪速效磷可迁移到60~90 cm土层.(2)连续4 a施用不同有机肥后,土壤表层中速效磷占全磷比例增加,且高用量与低用量之间差异显著.土壤剖面中速效磷占全磷比例的大小顺序为:猪粪处理鸡粪处理污泥处理磷肥处理.(3)施用鸡粪、猪粪、污泥和磷肥后土壤表层中速效磷含量随磷投入量增加呈先增加后平缓的规律.(4)本试验条件下,不同有机肥相同磷投入下对表层土壤速效磷贡献存在较大差异,表现为:猪粪鸡粪污泥.猪粪带入磷的生物有效性和移动性明显高于鸡粪、污泥和磷肥.     

有机肥替代化肥对旱地黄壤有机碳矿化及活性有机碳的影响

目前有机肥替代化肥对旱地黄壤有机碳矿化及活性有机碳的影响特征及机制还不够明确.为探究有机肥替代化肥对旱地黄壤有机碳矿化及活性有机碳的的影响,采集施肥处理为:不施肥(CK)、单施化肥(NP)、50％有机肥替代化肥[1/2(NPM)]和100％有机肥替代化肥(M)的土壤进行有机碳室内矿化培养研究,探究有机肥替代化肥条件下土...     

粪便与厨余垃圾现场处理研究

研究了粪便与厨余垃圾的源头真空管道收集及现场生物处理技术,根据系统工艺设计方案进行了分单元的小试.研究表明:真空便器的冲水量约为1L/次,破碎1kg垃圾用水0.4～0.6L;厌氧消化反应器进料粪便占40%,厨余垃圾占60%,水分控制在93%左右,C/N=25∶1左右,pH控制在6.2～7.3之间,最佳搅拌频率为6h/d,总停留时间28d;ABR反应器对混合上清液的COD去除率可达91%;用驯化得到的解磷、解钾菌株与消化污泥混合制取菌肥,解磷菌对土壤有效磷增强度67.5%,解钾菌对土壤有效钾增强度33.4%.     

钙镁磷肥对土壤Cd生物有效性和糙米Cd含量的影响

通过水稻盆栽试验,研究了施用钙镁磷肥对Cd污染稻田中Ca、Mg、Cd生物有效性的影响和种植水稻(湘晚籼12号、威优46号)后水稻各部位Ca、Mg、Cd含量的差异.结果表明,施用钙镁磷肥能显著提升土壤pH值,降低土壤TCLP提取态Cd含量,且降低效果随着水稻生育期的延长逐渐增强.与对照相比,施用0.8 g·kg-1的钙镁磷肥,使湘晚籼12号种植土壤和威优46号种植土壤TCLP提取态Cd含量在熟化期、灌浆期、分蘖期、成熟期分别下降了12.7%、15.6%、21.5%、61.9%和12.7%、72.6%、42.1%、59.7%.施用钙镁磷肥能显著增加水稻种植土壤中TCLP提取态Ca、Mg含量,降低TCLP提取态Cd含量,同时显著增加水稻各生育期各部位Ca、Mg含量并降低其Cd含量,水稻各部位中Ca、Mg含量与Cd含量均呈现负相关关系,表明外源Ca和Mg的加入对水稻累积Cd产生了拮抗作用.施用钙镁磷肥能显著降低水稻糙米中Cd含量并提高水稻产量.与对照相比,施用0.2~0.8 g·kg-1的钙镁磷肥,水稻湘晚籼12号和威优46号糙米中Cd含量分别下降了36.8%~52.6%和53.3%~75.6%.威优46号比湘晚籼12号更易将土壤Cd向水稻籽粒中转运.     

利用脱水污泥生产有机复合肥的工艺探讨

利用污水处理厂脱水污泥作为有机原料、添加适量磷酸一铵、氯化钾、尿素、硫酸铵作为无机原料，用造粒机生产颗粒状有机复混肥料是避免污泥产生二次污染实现其无害化、减量化的一条有效的最终污泥处置方法之一。作为一种有机-无机复混肥料它除了具有一般的肥效长，缓、速结合，防止土地酸化，改良土壤等特性外，最突出特点就是保水性能好。本文结合多年来的生产经验，对污泥制肥的生产工艺、工艺次序、存在问题进行了初步探讨。     

太湖流域稻田不同氮肥管理模式下的氮素平衡特征及环境效应评价

研究了不同氮肥管理模式下的稻田氮素平衡特征和环境效应.在太湖主要入湖河流直湖港下游开展了农户常规施肥处理、缓控释肥处理、有机无机肥配施处理、按需施肥处理以及化肥减量优化处理5种氮肥管理模式的田间小区试验,实测了稻季的径流和淋洗氮损失,估算了氨挥发和N₂O等气体损失,分析了不同氮肥处理下的环境排放量和氮素平衡特征.与农户常规施肥处理相比,其他处理在减少氮肥总投入量20%～40%的情况下产量与农户对照基本持平,氮肥利用率提高了14.5%～44%.不同氮肥管理模式下,缓控释肥处理和按需施肥处理的氮环境排放量最低,比农户施肥处理分别降低了52.8%和45.4%.在等氮量投入下,有机无机配施处理比纯化肥处理减少了环境氮排放量.农户施肥处理存在着明显的氮盈余,增加了麦季氮流失的风险,按需施肥处理略微出现氮亏缺,在一定程度上减少了麦季氮流失风险.新型缓控释肥处理和按需施肥处理能在不降低产量和效益的情况下,提高氮肥利用率,减少环境排放量,是值得在太湖流域推广的经济环保氮肥管理模式.     

碱性废弃物及添加锌肥对污染土壤镉生物有效性的影响及机制

采用盆栽方法,以石灰作对比研究了2种碱性废弃物(纸厂滤泥和赤泥)及添加锌肥对酸性镉污染稻田土壤的修复效应及其相关机制,同时利用大田试验进行了验证.结果表明,盆栽条件下施用石灰、纸厂滤泥和赤泥(2 g·kg^-1)后土壤 pH显著提高,在淹水平衡7 d和水稻移栽后30 d时土壤交换性钙含量显著高于不施的对照,增幅分别为33.1%～76.0%和31.0%～78.3%,同时土壤有效态镉含量显著降低,淹水平衡7 d时降幅为38.4%～45.0%,水稻移栽后30 d和60 d时降幅分别为37.4%～52.9%和33.2%～38.7%,水稻根系和糙米镉含量显著降低,降幅分别为24.0%～48.5%和26.3%～44.7%.等量碱性物质对提高土壤 pH和降低水稻镉累积的效果为石灰＞赤泥＞纸厂滤泥.纸厂滤泥和赤泥添加锌肥(0.2 g·kg^-1)对降低水稻镉累积的效果均比两者单施更明显.大田试验结果趋势基本相同,施入不同量的纸厂滤泥、赤泥及与锌肥配施后两季作物镉累积量显著减少,当季水稻糙米和第二季油菜籽粒镉含量分别较对照降低了27.1%～65.1%和16.4%～41.6%,糙米镉含量基本达到国家粮食卫生标准(GB 2715-2005).因此,对于中轻度酸性镉污染稻田土壤,利用纸厂滤泥、赤泥及与锌肥配合施用是一种可行的修复方法,通过构建与土壤镉污染程度等特征相适应的碱性废弃物用量与锌肥配施比例,可确保稻米质量安全.     

控释肥条件下沿南四湖农田水稻吸氮特征

氮素是水稻必需营养元素中限制植物生长和形成产量的首要因素,同时也是南四湖水体主要营养性污染物之一.通过施用树脂包膜控释尿素不同氮肥量处理大田试验,研究了南四湖流域鱼台农田控释肥条件下水稻生育期的吸氮特征.结果表明,树脂包膜控释尿素对水稻产量有明显的促进作用,但并不随施氮量的增加呈线性增长,施用中氮量337.5 kg/h...     

Effect of application of phosphate and organic manure-based fertilizers on arsenic transformation in soil columns

The mobility of arsenic in Cambisol under the influence of added barnyard manure and application of a phosphate solution to the soil was described on the basis of column experiments. A soil sample containing 126 mg/kg total As and 3.72 mg/kg specifically-sorbed As was extracted using demineralized water (DIW) or a 28 μmol/l phosphate solution in a column containing untreated soil and in a column with added barnyard fertilizer. The pH, Eh, alkalinity, main components, including DOC, and selected trace elements (Al, Mn, Pb, Cu, Zn, Cd, Cr, Co, Ni, Ba and As) were determined in the extracts. Hydrodynamic tests of the flow and transport of the substances in the columns were carried out. The addition of barnyard manure was manifested in elevated concentrations of the main inorganic components, DOC and Al and a decrease in the Eh value and Mn concentration. Application of a phosphate solution was manifested in a decrease in the NO₃ and SO₄ concentrations, probably as a result of the effect of increased biological fixation. The As concentration in extracts varied from 8.8 to 15.5 μg/l and was not dependent on the composition of the extracting solution or the addition of barnyard fertilizer.     

Interaction between cadmium,lead and potassium fertilizer (K<Subscript>2</Subscript>SO<Subscript>4</Subscript>) in a soil-plant system

A pot experiment was conducted to examine the influence of potassium (K) fertilizer (K₂SO₄) application on the phytoavailability and speciation distribution of cadmium (Cd) and lead (Pb) in soil. Spring wheat (Triticum aestivum L.) was selected as the test plant. There were seven treatments including single and combined contamination of Cd and Pb. CdCl₂·2.5 H₂O and Pb(NO₃)₂ were added to the soil at the following dosages: Cd + Pb = 0.00 + 0.00, 5.00 + 0.00, 25.0 + 0.00, 0.00 + 500, 0.00 + 1000, 5.00 + 500 and 25.0 + 1000 mg kg⁻¹, denoted by CK, T1, T2, T3, T4, T5 and T6, respectively. The K fertilizer had five levels: 0.00, 50.0, 100, 200 and 400 mg K₂O kg⁻¹ soil, denoted by K0, K1, K2, K3 and K4, respectively. The results showed that the K fertilizer promoted the dry weight (DW) of wheat in all treatments and alleviated the contamination by Cd and Pb. The application of K₂SO₄ reduced the uptake of Cd in different parts including roots, haulms and grains of wheat; the optimum dosage was the K2 level. K supply resulted in a significant (P < 0.05) decrease in the soluble plus exchangeable (SE) fraction of Cd and there was a negative correlation (not significant, P > 0.05) between the levels of K and the SE fraction of Cd in soil. The application of the K fertilizer could obviously restrain the uptake of Pb by wheat and there were significant (P < 0.05) negative correlations between the concentrations of Pb in grains and the levels of K in soil. K supply resulted in a decrease in the SE fraction of Pb (except the K1 level) from the K0 to K4 levels. At the same time, the application of the K fertilizer induced a significant (P < 0.05) decrease in the weakly specifically adsorbed (WSA) fraction of Pb and a significant (P < 0.05) increase in the bound to Fe–Mn oxides (OX) fraction of Pb. At different K levels, the concentration of Pb in the roots, haulms and grains had a positive correlation with the SE (not significant, P > 0.05) and WSA (significant, P < 0.05) fractions of Pb in the soil. All the K application levels in this experiment reduced the phytoavailability of Cd and Pb. Thus, it is feasible to apply K fertilizer (K₂SO₄) to alleviate contamination by Cd and/or Pb in soil. Moreover, the level of K application should be considered to obtain an optimal effect with the minimum dosage.