不同基质去除水中氮、磷的作用机理及效应

对粉煤灰、矾土、活性炭、蛭石和火烧石5种基质的元素含量和表面化学性状进行了研究,并比较了这5种基质对P和NH4+-N的吸附性能。结果表明:粉煤灰呈碱性,具有较高的Fe、Ca含量,胶体氧化铁和水溶性Ca含量也最高,矾土呈酸性,Al含量和游离氧化铝含量最高,蛭石和火烧石呈中性,其中蛭石含有21.6%的Mg,活性炭比表面积最大。Langmuir等温吸附曲线方程能够对上述基质的P、NH4+-N吸附过程进行了很好的拟合,其中P理论饱和吸附量由大到小依次为粉煤灰>矾土>火烧石>活性炭>蛭石,NH4+-N饱和吸附量由大到小依次为蛭石>粉煤灰>火烧石>活性炭>矾土。双元素(P和NH4+-N)溶液下,基质对P或NH4+-N的理论饱和吸附量较单元素(P或NH4+-N)溶液下要低。在5种基质中,粉煤灰对P、NH4+-N的综合吸附能力较强,推荐其作为水体N、P污染修复的首选基质。     

钢渣对辽宁地区水稻土壤镉素吸收的影响

硅素肥料降低重金属毒性和减少重金属在植物体内积累的研究报道尚不多见。因此,开展这一领域的研究工作,将为合理应用硅素肥料修复、利用被重金属污染的土壤提供重要的理论依据。试验通过对辽宁不同地区水稻土施加钢渣,来研究钢渣对土壤吸附镉的影响。试验结果表明:施用钢渣能够增加大石桥、辽中、抚顺地区土壤对镉的吸附能力,而对盘锦、康平、苏家屯地区吸附能力影响不大;土壤对镉的等温吸附曲线,符合Langmuir等温吸附方程和Frendlich等温吸附方程,且加入钢渣前后,最大吸附量和吸附常数在不同程度上发生变化。     

Predicting potassium fertilizer requirement using exchange isotherm approach in relation to soil characteristics

Determining potassium (K) fertilizer requirement using sorption isotherms is considered more accurate than conventional soil K tests. A total of 59 surface soil samples were used to establish K exchange isotherm. To evaluate K requirement sorption test, a glasshouse experiment using perennial ryegrass (Lolium perenne, cv. Roper) was carried out on 10 soil samples. The experiment was laid out as a completely randomized design with four replications and four K levels (K₀, K₂₀, K₄₀, K₈₀). Concentrations of K in solution established by adding K in the pots estimated from the sorption curve ranged from 20 to 80 mg K l^?1 including check treatment (no K). Dry matter yield of ryegrass in most soils approached maximum as adjusted K levels were increased to 20 mg K l^?1. The amounts of K required to bring the soils to 20 mg l^?1 in soil solution varied among soils and ranged from 99 to 399 mg kg^?1, on average 205 mg kg^?1 soil. It was found that a useful regression model for the prediction of standard K requirement (K₂₀) included the combination of plant available K extracted by NH₄OAc (Av-K) and clay content: K₂₀ = ?41 ? 0.63 Av-K + 9.0 Clay (R² = 0.61, p < 0.001, n = 59).     

Glyphosate adsorption on synthetic allophanes and halloysite: Effects of pH and mineral properties

Background

Glyphosate (GLP) is a widely used herbicide with possible adverse effects on human health and the environment. In soils, GLP strongly adsorbs on clay-sized minerals, depending on pH, the amount of organic carbon, as well as the contents and properties of Al and Fe oxyhydroxides and clay minerals. Many clay-sized minerals have already been investigated regarding GLP adsorption behavior, but information on minerals commonly found in volcanic soils is still lacking.

Aim

The aim of this study was to investigate for the first time the pH-dependent adsorption of GLP on allophane and halloysite, typical minerals found in volcanic soils.

Methods

GLP adsorption was studied in batch experiments at three pH values (5, 6, and 7). Synthetic allophanes with two different initial Al:Si ratios (1.4 and 1.8) and a halloysite were used as adsorbents.

Results

The adsorption capacity (AC) increased with rising Al:Si ratio and decreasing pH. The AC of allophane was significantly higher than that of halloysite. GLP adsorption on allophane was larger than that reported for other clay minerals and Al and Fe oxyhydroxides, especially at low pH. The AC of halloysite was higher than reported for most other clay minerals.

Conclusion

Different mineral formation pathways in volcanic soils, notably the formation of halloysite versus allophanes, strongly affect the soils’ retention capacity for GLP. The high AC of allophanes may induce the low mobility of GLP in allophane-containing soils. Long-term use of GLP may accumulate the herbicide in these soils with potential effects on biodiversity and ecosystem services.     

广东省典型城市湖泊沉积物氨氮吸附特性初步研究

研究了广州及其周边典型城市湖泊沉积物对氨氮的吸附等温线及热力学参数,结果表明：该类沉积物对氨氮的吸附等温线同时满足Langmuir模型、Freundlich模型、Linear模型,其拟合的程度都达到了极其显著的效果。根据Langmuir模型计算,流花湖、逸仙湖和荔弯湖三湖泊沉积物对氨氮的吸附容量分别为500 mg/kg、416.66 mg/kg、357.14 mg/kg。以流花湖沉积物为代表研究其吸附热力学参数,结果发现氨氮的吸附过程是一个微型的放热过程。该湖泊沉积物吸附热为-5.05 kJ/mol,其吸附自由能的改变量为-967.467 J/mol。从其热力学的角度对其吸附机理做了初步的探讨。     

Moisture Adsorption Isotherms and Thermodynamic Properties of Penaeus vannamei Meat with and without Maltodextrin Addition

ABSTRACT

Moisture adsorption isotherms of freeze-dried Penaeus vannamei meat containing maltodextrin (PV-MD) and maltodextrin-free (PV) samples were determined at temperatures of 5, 15, 25, 35, and 45°C with water activity (a_w) ranging from 0.112 to 0.931. The adsorption behaviors of PV and PV-MD followed type III isotherms. The equilibrium moisture content of PV and PV-MD decreased with increasing temperature and increased with increasing a_w. The monolayer moisture content increased with the addition of maltodextrin and was observed to be 0.0611–0.0824 and 0.0734–0.1034 g water/g dry solids for PV and PV-MD, respectively. Eight models were employed to fit experimental data, and the Guggenheim-Anderson-de Boer (GAB) model achieved the best fit. For both PV and PV-MD, the differential enthalpy and entropy and integral enthalpy decreased with increasing moisture content. The integral entropy was negative in value and increased with increasing moisture content. The spreading pressure increased with increasing a_w but decreased with increasing temperature. A plot of differential enthalpy versus entropy satisfied the enthalpy-entropy compensation theory, and the adsorption behavior of P. vannamei meat was enthalpy-driven and spontaneous. Addition of maltodextrin increased the differential enthalpy and entropy, integral enthalpy, and spreading pressure, but decreased the integral entropy of P. vannamei meat.     

Effect of liming on hexazinone sorption and desorption behavior in various soils

Liming is a practice commonly used to modify soil acidity, neutralize aluminum, and increase calcium and magnesium in the soil. Liming can change herbicide retention processes and consequently weed control and potential environmental contamination. The effects of liming on the sorption and desorption of hexazinone in different soils were evaluated. Samples from seven Brazilian soils were collected and separated into two subsamples, with and without limestone incubation. Hexazinone was quantified using ultra high-performance liquid chromatography. The sorption and desorption coefficients were determined in soils using Freundlich isotherms. Increasing the pH did not alter the sorption kinetics of hexazinone in the same soil class. The shortest sorption time of hexazinone occurred in soils with higher organic matter (OM) and clay content. Liming reduced the sorption and increased the desorption of hexazinone in the soils, which was caused by the increase in pH and reduction of OM content. Although the application of limestone increased desorption, the rate at which this process occurred was less than the sorption rate of hexazinone in most cases. In alkaline soils, the recommended dose of hexazinone for pre-emergence application should be low to avoid leaching and reduce the contamination of groundwater resources.     

杭州湾典型潮滩湿地植物带沉积物磷吸附特征

利用磷酸盐吸附动力学和等温吸附实验,研究了杭州湾潮滩湿地沉积物磷素吸附特征,并分析了不同植被类型及其沉积物理化性质对磷吸附的影响。结果表明,不同沉积物磷的吸附与释放过程均包括快速吸附(0~1 h)、慢速吸附(1~16 h)和平衡(16~72 h)3个阶段,不同植物没有明显影响这一趋势。改进的Langmuir模型拟合表明,沉积物最大吸附容量(Qmax)在154.5~436.2 mg/kg间,生长植物的沉积物Qmax明显高于光滩沉积物。沉积物自带可解吸磷(NAP)较少,在1.853~4.777 mg/kg间,NAP在不同类型沉积物的分布趋势与Qmax值相似。4种植被类型沉积物EPC0值低于潮汐水体中磷酸盐浓度,扮演着"汇"的角色,EPC0在不同沉积物间差异较小。相关性分析显示,杭州湾潮滩沉积物Qmax和NAP受有机质、颗粒组成和总无机磷含量影响,其中Qmax还受电导率影响,而研究区EPC0与沉积物理化性质不存在显著相关性。植物可以通过影响沉积物的物理化学参数,从而影响磷的吸附过程。     

Evaluation of Adsorption Isotherm Models for Potassium Adsorption under Different Soil Types in Wolaita of Southern Ethiopia

Adsorption isotherm is essential for predicting its mechanisms, which are important for potassium (K) fertilizer application and to recommendation appropriate rates for acidic soils. Thus, the objective of this study was to evaluate K adsorption characteristic of the selected soils by comparing different adsorption models with soil properties of the soil in different districts (Sodo Zurie, Damot Gale, Damot Sore and Boloso Sore) in the Wolaita Zone of Southern Ethiopia. Four adsorption isotherms are: Langmuir, Freundlich, Temkin, and Van Huay were used to describe adsorption processes. Composite surface (0-20 cm) depth soil samples from four districts sites were collected. The results revealed that the K adsorption data coincide with both models with (r² = 0.99). However, Freundlich model was better in describing K adsorption than the other model. The adsorption maxima(ad_(max), distribution coefficient, buffer capacity (BC), and adsorption capacity(a_(capacity) values of soils ranged from -333 to334.5,0.54 to78.7,159.9 to 389.3, and 327 to 417mg Kkg^-1 respectively, these results showed that Sodo Zurie, Bolos Sore and Demote Sore were effective model parameters. Van Huay a_(capacity) 417mg Kkg^-1 while the bonding energy constant Langmuir is -0.075mg Kkg^-1 in Bolos Sore soil compared to other soils, which were found to be more valuable in discriminating between high K adsorption soils. Correlation between some soil properties with ad_(max) were positively a highly correlated with clay, pH, organic carbon (OC) and exchangeable potassium with r² = 0.92**, 0.93**, 0.95** and 0.96 ** respectively, but negatively correlated with bonding energy with r²= -0.79, -0.80,-0.77 and -0.72 respectively, while calcium carbonate (CaCO3) was very highly correlated with ad_(max) r²= 0.99***). The Freundlich constant, Temkin BC, and Van Hauy a_(capacity) were correlated with CaCO3 content soils with r²=0.12,-0.01,and 0.12,respectively, while slope (1/n) was significantly negatively correlated with soil cation exchange capacity (CEC), CaCO₃, clay contents and exchangeable K and Mg²⁺ with r²= 0.04, -0.67, -0.78, -0.69, and –0.69, respectively. These findings reveal the extent of K depletion in the soils of Wolaita providing a baseline for K rates required for crop production and validation of all models through real-time experiments in the field; this is recommended before the models are used on a large scale basis.     

芹菜黄酮在LSA-10树脂上的吸附特性

为了分离、纯化芹菜黄酮,比较了8种大孔树脂的静态吸附过程,筛选出了适合吸附芹菜黄酮的树脂;研究了芹菜黄酮在大孔吸附树脂上的动态吸附特性,并确定分离芹菜黄酮的适宜工艺条件.结果表明:LSA-10大孔吸附树脂对芹菜黄酮有较好的吸附分离性能,其对芹菜黄酮的静态吸附平衡时间为4 h;20℃时LSA-10树脂的吸附过程可用Langmuir吸附等温式来描述,吸附溶液适宜的pH值为5.0.操作流速、芹菜黄酮浓度、温度等工艺条件对LSA-10树脂的动态吸附动力学曲线都有影响:确定树脂柱的较佳操作条件为:流速1.0 mL/min,芹菜黄酮浓度0.4 mg/mL,温度20℃.