长期施肥改变玉米大豆轮作/连作黑土农田酸化速率和酸中和容量

为探明不同种植制度和施肥措施对黑土酸化指标的影响及酸缓冲机制,依托东北旱田黑土肥力监测长期定位试验,研究了大豆连作(CS)、玉米连作(CC)以及玉米大豆轮作下玉米施化肥-大豆施化肥(C_(CF)S_(CF))、玉米施化肥+秸秆还田-大豆不施化肥+秸秆还田(C_(CR)S_(NOR))、玉米施化肥-大豆不施化肥(C_(CF)S_(NOF))、玉米施化肥-大豆施1/2化肥(C_(CF)S_(1/2CF))以及玉米施化肥-大豆施有机肥(C_(CF)S_(DM))7个处理在第9年和第10年的土壤酸化速率(SAR)和酸中和容量(ANC)的变化,并利用二次多项式模型拟合酸滴定曲线,以pH 5.0和pH 4.5为参比计算了土壤ANC以及酸缓冲容量(ABC)。结果发现:相比于试验土壤本底值,试验第9年和第10年SAR变化幅度为-0.019~-0.097ΔpH/a,其中C_(CF)S_(DM)处理的SAR在两年中变化最小(-0.021和-0.019ΔpH/a);试验第9年C_(CF)S_(CF)、C_(CR)S_(NOR)、C_(CF)S_(NOF)、C_(CF)S_(1/2CF)和C_(CF)S_(DM)处理的土壤ANC_(pH5.0)是试验第10年的1.11~1.77倍;土壤ANC_(pH4.5)变化趋势与ANC_(pH5.0)相一致。方差分解分析显示,土壤有机质和盐基离子总量是影响土壤ANC变化的主要因素,二者分别解释了试验处理第9年和第10年土壤ANC和ABC变化的63.44%和43.67%。综上可见,施化肥降低土壤酸中和容量,加速土壤酸化,而有机肥施用可通过提高土壤有机质和盐基离子总量提高黑土酸中和容量。

pH值对有机垃圾厌氧水解和酸化速率的影响

通过易腐性有机垃圾的批式厌氧发酵实验，比较不同的发酵液pH值对水解和酸化速率的影响．结果表明，发酵液的pH值为5—7时有利于颗粒态有机物的水解；在pH值不控制及pH值为5,6，7，8条件下，微生物处于静止生长期时，水解速率常数K分别为6．81×10^-5．57×10^-4,3．51×10^-4,7．55×10^-4,2．47×10^-4h^-1．发酵液pH=7时最有利于微生物的合成代谢，从而促进碳水化合物和蛋白质的水解过程和酸化过程，表现为代谢产物如乙醇、乙酸、丁酸和氨氮的大量生成，以及其他代谢产物种类的增加；pH=5和pH=6时，反应后期能促进酸化过程；pH=8时，会抑制酸化过程；对pH值不控制时，严重抑制水解和酸化过程．

江苏省典型茶园土壤酸化速率定位研究

通过定位研究的方法,监测了江苏典型茶场代表性茶园土壤pH值、土壤质地、土壤有机质及阳离子交换量等理化性质。结果表明,江苏茶园土壤酸化趋势严重,有67%的茶园0～20cm土壤酸化速率大于0.1个pH单位/年,其中33%的茶园土壤酸化速率大于0.2个pH单位/年,50%的茶园土壤pH低于4。茶园土壤酸化以表土最为严重,且酸化速率显著大于自然土壤。茶园土壤酸化速率的大小与土壤本身的基本理化性质有关。

耕地棕壤酸碱缓冲性能及酸化速率研究

辽宁省耕地棕壤自第二次土壤普查以来酸化趋势明显,pH整体平均值从第二次普查时期的6.42降至5.73。对辽宁省4个典型地区(昌图、沈阳、瓦房店、清原)的耕地棕壤耕层(0-20cm)缓冲性能、酸化速率及其影响因素进行研究,结果表明:各地区酸碱缓冲容量变幅为29.66～39.87mmol/kg.pH unit,其中辽宁北部和中部地区酸碱缓冲容量明显高于辽南和辽东地区。酸化速率以辽南地区下降速率最快,其值为2.69H+kmol/(hm2.a),而速率最慢的地区为辽东,其酸化速率为1.44H+kmol/(hm2.a)。土壤初始pH、阳离子交换量、颗粒组成及有机质含量均是影响酸碱缓冲容量变化的主要因素。北部和中部质地以粉(砂)壤土为主,阳离子交换量、盐基饱和度及粘粒含量均高于南部和东部地区,因此缓冲性能也较强。施肥及其他人为因素对辽宁耕地棕壤酸碱缓冲容量及酸化速率的影响有待进一步研究。

污泥酸化速率影响因子的探讨

采用城市污水厂污泥作为嗜酸微生物菌株来源,通过添加一定量的单质硫,使其中的嗜酸硫杆菌群大量增殖,并使污泥pH大幅降低。取得的培养物可用于废旧干电池中重金属沥滤等的处理。由于培养物对重金属沥滤效率和污泥的酸化速率密切相关,为此进行了不同的污泥种类、加硫量、污泥浓度和曝气强度对污泥酸化速率影响的实验。实验表明,初沉泥、二沉泥和混合浓缩污泥都能迅速利用硫产酸;加硫量(以100 mL污泥计)在0.5、1.0、2.0、4.0 g时,快速酸化的趋势相同。0.5 g的加硫量显示出略微慢的酸化速率,最后达到的最低pH在1.2左右,其他三个都降至1.0以下。污泥质量分数在0.5%、1.0%、2.0%、3.0%、4.0%时,也具有相同的酸化趋势,0.5%质量分数的污泥下降速率最快,这与较低浓度下污泥对pH的缓冲能力较小有关;曝气强度在0.45 L/min和0.3 L/min差别较小,5 d内能迅速降低pH,0.2 L/min的酸化速率较慢,足够长的时间(12 d)也能将pH降至2.5左右,0.1 L/min的曝气强度的酸化速率最慢,不能达到预期的酸化效果。

酸化速率对大豆蛋白凝胶结构的调控

为探讨酸化速率对葡萄糖酸内酯诱导的大豆分离蛋白凝胶结构的影响,通过不同的保温温度制备大豆蛋白凝胶样品,将pH值、浊度、凝胶强度、保水性、频率扫描及微观结构作为测定指标,反映葡萄糖酸内酯酸化速率和大豆蛋白凝胶结构的变化情况。结果表明:随着保温温度的不断升高,葡萄糖酸内酯凝固剂的释放速率越来越快,大豆分离蛋白凝胶的pH值下降速率增大;蛋白浊度不断增加,表明蛋白聚集速率的增加,凝胶体系在越来越短的时间达到稳定状态,保温温度与蛋白凝胶的酸化速率呈正比。随着酸化速率的增加,大豆分离蛋白凝胶的凝胶强度和刚性不断提高;保水性在60℃时达到最大值;微观结构的测定结果显示,在60℃保温的大豆分离蛋白凝胶结构更均匀致密。综上,酸化速率显著影响大豆分离蛋白凝胶结构,60℃保温时的酸化速率形成最致密均匀的凝胶结构。

余江县水稻土剖面酸缓冲性能与酸化速率

为探明不同母质发育的水稻土在剖面层次上的缓冲性能特征及酸化速率大小,以红砂岩和河流冲积物母质发育的水稻土为对象,测定不同层次(0~20、20~40、40~60、60~80 cm和80~100 cm)土壤的pH、有机质、全氮、阳离子交换量和酸碱缓冲容量,定量比较不同母质和不同土层酸碱缓冲容量的变化及差异。结果表明:以红砂岩和河流冲积物母质发育的水稻土酸碱缓冲容量在0~20 cm土层比80~100 cm土层分别显著升高10.14 mmol·kg^-1和4.18 mmol·kg^-1,且随着水稻土初始pH(不加酸碱的pH)的增加,其酸碱缓冲容量也呈增加趋势。在0~20 cm土层,红砂岩母质发育的水稻土酸碱缓冲容量比河流冲积物母质显著增加7.38mmol·kg^-1;在20~100 cm土层,2种母质发育的水稻土酸碱缓冲容量无显著差异。红砂岩母质发育水稻土表层酸化速率(0.78kmol H+·hm^-2·a^-1)大于河流冲积物母质(0.36 kmol H+·hm^-2·a^-1)。水稻土酸碱缓冲容量与pH呈极显著负相关(P<0.01),与交换性盐基总量呈显著负相关(P<0.05),与阳离子交换量、有机质、全氮和交换性酸呈极显著正相关(P<0.01);水稻土pH与有机质、全氮和交换性酸呈极显著负相关,与交换性盐基总量呈极显著正相关(P<0.01),与阳离子交换量无相关性。研究表明,酸碱缓冲曲线可以很好地反映不同母质发育的水稻土在不同土层上对加酸、加碱量的敏感程度;随着土层深度的增加,2种母质的酸碱缓冲容量呈下降趋势,其中在0~20 cm土层,红砂岩母质发育的水稻土酸碱缓冲容量和酸化速率最高,其酸碱缓冲容量主要与初始pH、有机质、全氮、阳离子交换量、交换性盐基总量和交换性酸有关,且2种母质发育水稻土均处于铝硅酸盐矿物分解和交换性盐基离子缓冲阶段。

福建省安溪县茶园土壤酸化速率与改良技术

根据安溪县2008~2010年采集测试的5285个代表性耕层土壤样品系统分析安溪县茶园土壤酸度现状,并通过多点多年定位监测试验分析安溪县茶园土壤酸化速率及施用白云石粉对酸化土壤的改良效果。结果表明,安溪县茶园土壤pH值平均为4.28,pH<4.0样点占28.38%,仅有28.19%样点属于适宜水平(pH4.5~5.5),酸化情况严重;安溪县茶园土壤平均酸化速率为每年0.09个pH单位,酸化速率明显高于其他作物类型土壤。连续两年施用300 kg·hm^(-2)白云石粉,土壤pH平均提高0.94个单位,可以作为安溪县茶园酸化土壤的改良的措施。

长期不同施肥对太湖地区典型土壤酸化的影响

以太湖地区典型土壤黄泥土上26年的长期肥料定位试验为例,研究不同施肥处理对研究区耕作层土壤(0～15 cm)酸化特征及酸化速率的影响。试验采用裂区设计,主区为不施有机肥处理(C)和施有机肥处理(M),副区为不同无机肥及秸秆施用处理。研究结果显示,不同施肥处理对土壤pH和土壤酸碱缓冲容量有显著影响,增施有机肥的主区处理pH显著低于不施有机肥处理,但对应的土壤酸碱缓冲容量略有上升;副区单施尿素处理和尿素增施水稻秸秆处理pH较不施尿素对照分别下降了0.45、0.66个单位,酸碱缓冲容量分别下降1.52、0.95 mmol kg-1;各试验处理的酸化速率为H+0.61～1.74 kmol hm-2a-1,单施尿素处理高于不施尿素处理,而尿素增施有机肥或水稻秸秆的大于单施尿素处理,以尿素配施有机肥和水稻秸秆处理最高。相关分析表明,各处理土壤pH与外源氮输入量、土壤全氮及速效氮存在显著的依变关系。尿素对土壤的酸化影响与有机肥及水稻秸秆存在差异,前者在降低土壤pH的同时还导致土壤酸碱缓冲容量的降低,而增施有机肥及水稻秸秆处理土壤缓冲容量保持稳定甚至提升,但其各自对土壤酸化的具体贡献率等还需进一步研究。

施用尿素和硫酸铵对红壤硝化和酸化作用的影响

通过室内恒温培养试验,研究施用CO(NH2)2和(NH4)2SO4对初始pH值分别为5.14、4.77和4.34的红壤酸化速率和硝化速率的影响。结果表明,施用CO(NH2)2显著增加了3种红壤的硝化速率,从而显著加速土壤酸化。培养结束时,3种红壤pH值较培养过程中最高值分别下降2.14、1.23和0.56。施用(NH4)2SO4抑制了初始pH<5.0的2种红壤的硝化作用,从而显著降低这2种红壤的硝化速率和酸化速率,但显著增加了初始pH>5.0红壤的硝化速率,对其酸化速率则未见显著影响。3种红壤的酸化速率与硝化速率间存在显著线性相关关系。硝化作用是导致农田红壤pH值下降的主要原因之一,但不同氮肥对红壤硝化速率和酸化速率的影响不同。

不同利用方式下亚热带花岗岩流域元素收支平衡及其对土壤酸化的影响

选取亚热带花岗岩区不同利用方式下的3个相邻小流域(F:100%森林;FA1:82%森林+18%农田;FA2:76%森林+24%农田),通过定期监测与分析雨水和径流水的元素组成,获得了流域尺度元素的降水输入与径流输出特征,在此基础上分析了元素收支平衡及其对土壤酸化的影响。结果表明:雨水中离子输入总量为181.74 kg/(hm^2·a),夏季输入量约占全年输入量的45%,Ca^(2+)、Na^+和NH_4^+约占阳离子输入总量的80%,SO_4^(2–)和NO_3~–约占阴离子输入总量的74%。F、FA1和FA2流域径流水中离子输出总量分别为236.81,153.17和243.36 kg/(hm^2·a),夏季输出量约占全年输出量的39%~47%,Ca^(2+)和Na^+约占阳离子输出总量的81%~86%,SO_4^(2–)和NO_3~–约占阴离子输出总量的65%~70%。降水和径流水的元素收支平衡表明,F、FA1和FA2流域中SO_4^(2–)、NO_3~–、Cl~–、NH_4^+和H^+均表现为净输入,其中SO_4^(2–)的净滞留量最高,分别为13.7、30.43和20.49 kg/(hm^2·a);而Ca^(2+)、Mg^(2+)和Na^+均表现为净输出,其中Na^+的净输出量最高,分别为28.99、14.96和31.76 kg/(hm^2·a)。F、FA1和FA2流域内酸雨直接输入的H^+为818 mol/(hm^2·a),而流域内氮素转化产生的H^+分别为396、389和401 mol/(hm^2·a),占H^+输入总量的32%~33%。F、FA1和FA2流域的土壤酸化速率分别为996、1 069和1 035 mol/(hm^2·a),表明即使不考虑农业施肥的情况下农林复合流域(FA1和FA2)的土壤酸化速率仍高于森林流域(F)。

长期不同施肥方式对毛竹林土壤酸化过程的影响

在浙江省毛竹Phyllostachys heterocycla cv.Pubescens主产区的11个县(市、区)选择固定样地,对长期施用尿素、复合肥、有机肥和不施肥(对照)4种不同施肥方式的林地进行p H定位监测研究,历时10 a(2006-2015年)。结果表明,对照的土壤平均酸化速率为0.011 p H·a^(-1);长期施用尿素的平均酸化速率达0.082 p H·a^(-1),是对照的7.5倍;施用复合肥土壤的平均酸化速率为0.053 p H·a^(-1),是对照的4.8倍;施用有机肥土壤的平均酸化速率为0.019 p H·a^(-1),是对照的1.7倍,相对比施用化肥的缓慢些,但一定程度上也促进土壤的酸化进程。因此减少毛竹林地化肥的施用是控制和缓解毛竹林土壤酸化的重要手段,同时积极开展生态施肥和生态经营以实现毛竹林健康可持续发展。

嗜热链球菌胞外多糖EPS333对酸乳品质的影响

本研究以酸乳为基质,通过测试酸乳酸化速率曲线、脱水收缩敏感性、持水力、水分迁移、质构及流变特性等参数,研究了嗜热链球菌胞外多糖与市场常规应用多糖对酸乳品质的影响。研究结果表明:嗜热链球菌胞外多糖EPS333在酸乳凝胶过程中较其他几种多糖能明显减缓酸化趋势,后熟及储藏阶段减少"自由水"含量,降低流动性,改善其流变特性。

Effects of Ppc Gene Construction of Monocotyledon on Seedling Growth of Transgenic Nicotiana tabacum

To compare the transformation effects of two different forms （cDNA in monocotyledonous plant Echinochloa crusgalli, DNA in monocotyledonous plant Zea mays） of phosphoenolpyruvate carboxylase （PEPC） gene （Ppc） on the growth of transgenic dicotyledonous plant, Agrobacterium-mediated transformation of Ppc genes into Nicotiana tabacum were carried out. Transgenic leaf plates and differentiated seedling leaves were verified by GUS histochemistry, PCR, and RT-PCR. Results showed that transgenic N. tabacum with Ppc-cDNA of E. crusgalli had relatively strong differentiation ability. However, N. tabacum after transformation of complete DNA sequence of Ppc genes in Z mays had relatively poor ability of growth. The differentiated green seedlings had the phenomenon of yellowing; and photosynthesis ability of leaves was poor. This might be caused by the misidentification and wrong splicing in transcription. This indicated that the expression rate of monocotyledonous complete DNA might be reduced in the monocotyledonous cells with relatively far genetic distances. Detection results of showed that Pn in most transgenic N. tabacum with Ppc-cDNA of E. crusgalli was was higher than that in control, which preliminarily proved that PEPC of monocotyledonous plant E. crusgalli had certain regulatory effects on photosynthesis of N. tabacum.

C_a^(2+)对杂交水稻(F_1)幼苗K^+吸收和生长的影响

水稻幼苗在Yoshida,S.溶液及其缺钙溶液中培养的试验表明,Ca^(2+)促进水稻幼苗根的K^+吸收和幼苗的生长速率。杂交水稻幼苗比对照受Ca^(2+)的影响大,缺Ca^(2+)营养液比含Ca^(2+)营养液的K^+含量和酸化速率下降都慢,可见,水稻幼苗根的K^+吸收与其根的H^+分泌具有内在的相关性。

Chemical dissolution resistance of anodic oxide layers formed on aluminum

Chemically resistant anodic oxide layers were formed on pure aluminum substrates in oxalic acid-sulphuric acid bath.Acid dissolution tests of the obtained anodic layers were achieved in accordance with the ASTM B 680-80 specifications：35mL/L 85% H3PO4＋20g/L CrO3 at 38℃.Influence of oxalic acid concentration,bath temperature and anodic current density on dissolution rate and coating ratio was examined,when the sulphuric acid concentration was maintained at 160g/L.It was found that chemically resistant and compact oxide layers were produced under low operational temperature （5℃） and high current densities （3A/dm^2）.A beneficial effect was observed concerning the addition of oxalic acid （18g/L）.The morphology and the composition of the anodic oxide layer were examined by scanning electron microscopy （SEM）,atomic force microscopy （AFM） and glow-discharge optical emission spectroscopy （GDOES）.

Kinetics of esterification of methanol and acetic acid with mineral homogeneous acid catalyst

In this work, esterification of acetic acid and methanol to synthesize methyl acetate in a batch stirred reactor is studied in the temperature range of 305.15–333.15 K. Sulfuric acid is used as the homogeneous catalyst with concentrations ranging from 0.0633 mol·L-1to 0.3268 mol·L-1. The feed molar ratio of acetic acid to methanol is varied from 1:1 to 1:4. The influences of temperature, catalyst concentration and reactant concentration on the reaction rate are investigated. A second order kinetic rate equation is used to correlate the experimental data. The forward and backward reaction rate constants and activation energies are determined from the Arrhenius plot.The developed kinetic model is compared with the models in literature. The developed kinetic equation is useful for the simulation of reactive distillation column for the synthesis of methyl acetate.

Effect of chelating agent on oxidation rate of aniline in ferrous ion activated persulfate system at neutral pH

In the interest of accelerating aniline degradation, Fe2+ and chelated Fe2+ activated persulfate oxidations were investigated in neutral pH condition. Three kinds of chelating agents were selected including citric acid, oxalic acid and ethylenediamine tetraaceatate(EDTA) to maintain available Fe2+. The results indicate that the concentration of chelating agent and ferrous ion didn't follow a linear relationship with the degradation rate of aniline. A 1/1 ratio of chelating agent/Fe2+ results in a higher degradation rate compared to the results by other ratios. The oxidation enhancement factor using oxalic acid was found to be relatively low. In contrast, citric acid is more suitable chelating agent in the ferrous iron activated persulfate system and aniline exhibits a highest degradation with a persulfate/Fe2+/citric acid/aniline molar ratio of 50/25/25/1 compared to other molar ratios.

Decreased Soil Nitrification Rate with Addition of Biochar to Acid Soils

This study was conducted to investigate the effects of mixed biochar on the nitrification rate in acidic soils. A15 N tracer experiment with(15 NH4)2 SO4 was conducted to determine the nitrification rates of 4 acidic agricultural soils with p H 4.03-6.02 in Yunnan Province, Southern China. The accumulation of15 N-NO3-and nitrification rates decreased with the addition of biochar at the end of incubation, suggesting that biochar could be a nitrification inhibitor in acidic fertilized soil. Nitrification rates in soil with p H 4.03 were evidently lower than those in soil with p H 4.81-6.02 with or without biochar. Decreased nitrification rates were detected in the acidic soils with biochar. Soil p H controlled nitrification more than biochar in certain strongly acidic soils.

Non-isothermal decomposition kinetics of hydrogarnet in sodium carbonate solution

Carbonation decomposition of hydrogarnet is a significant reaction of the calcification-carbonation new method for alumina production by using low-grade bauxite.In this work,non-isothermal decomposition kinetics of hydrogarnet in sodium carbonate solution was studied by high-pressure differential scanning calorimetry(HPDSC) at different heating rates of 2,5,8,10,15 and 20 K·min^(-1),respectively.The activation energy(E_α) was calculated with the help of isoconversional method(model-free),and the reaction mechanism was determined by the differential equation method.The calculated activation energy of this reaction was 115.66 kJ·mol^(-1).Furthermore,the mechanism for decomposition reaction is Avrami-Erofeev(n=1.5),and the decomposition process is diffusion-controlled.