土壤对铜离子的专性吸附及其特征的研究

供试土壤专性吸附铜的等温线均符合Langmuir方程。红壤吸附量最低,砖红腹与黄泥土最大吸附量相近,但在铜浓度低时砖红壤吸铜量远低于黄泥土,而在高浓度则反之。土壤专性吸附铜是在溶液中Na⁺浓度比Cu²⁺高8.3—100倍条件下,Na⁺离子仍不足以与之竞争的那些专性吸附点所吸持的铜。按其解吸条件区分为松结合铜(可为N NH₄Cl解吸)和紧结合铜(仅能为0.1 N HCl解吸)两种。紧结合铜受平衡溶液铜浓度影响很小,所占据的吸附点对Cu²⁺有较强亲和力。松结合铜则随平衡铜溶液浓度增大而增加,符合Langmuir方程。对于砖红壤和黄泥土,在铜浓度低时紧结合铜>松结合铜;浓度高时则反之。红壤专性吸附铜始终以松结合铜为主。三种土壤比较,紧结合铜是砖红壤>黄泥土>红壤;松结合铜则是黄泥土>砖红壤>红壤。造成这些差别的原因可能与土壤性质、氧化物、有机质和粘土矿物组成等不同有关。用平衡法研究三种土壤专性吸附铜在不同浓度NH₄Cl和HCl溶液中的解吸表明,可进一步区分为三或四种不同的结合状况。红壤对铜吸附容量最小,且最易解吸。     

Phosphorus Adsorption Saturation of Ferrihydrate as an Index of Phosphorus Availability to Paddy Rice

ABSTRACT

The characteristics of phosphorus (P) sorption/desorption of artificially synthesized ferrihydrate and the relationship between P adsorption saturation of ferrihydrate, rice growth, and P uptake by rice (Oryza sativa L.) were studied. The results obtained from experiments showed that the artificially synthesized ferrihydrate had a very large adsorption potential to P, with 45045 μg P g^?1 of maximum adsorption capacity (Qm). Phosphorus adsorption isotherm of ferrihydrate could be fitted very well with the Langmuir equation. Desorption of P adsorbed by ferrihydrate was controlled mainly by P adsorption saturation of ferrihydrate. Phosphorus adsorbed by ferrihydrate with saturation of less than 30% was hardly desorbed. Phosphorus desorption slowly increased with the increase of P saturation from 30% to 60%, but sharply increased with P saturation of greater than 60%. Thus it could be seen that P adsorption saturation should be a key factor affecting the availability of P adsorbed by iron oxides and be a better index than the quantity of oxalate-extractable P in estimating P phyto-availability in flooded soils. A Bioassay using rice indicated that 50% of P adsorption saturation could be used as a critical index for diagnosing status of P supplied by ferrihydrate-bonded P at the tillering stage of rice.     

Improvement of the desorption of the herbicide norflurazon from soils via complexation with beta-cyclodextrin

The effect of beta-cyclodextrin (beta-CD) on the removal of the herbicide norflurazon (NFL) from soils has been investigated. The interaction of NFL with beta-CD in solution yielded the formation of a water-soluble inclusion complex at 1:1 stoichiometric ratio, which gave an increase in NFL solubility. Desorption studies of NFL previously adsorbed on six soils of different characteristics have been performed in the presence of 0.01 M beta-CD or 0.01 M Ca(NO(3))(2) as extractant solutions. Positive hysteresis was observed in all soils when 0.01 M Ca(NO(3))(2) solution was used, indicating that desorption of NFL from these soils was not completely reversible. On the contrary, the application of beta-CD solutions to soils where NFL had been previously adsorbed increased very much its desorption, and a negative hysteresis was obtained for all soils studied; that is, more NFL was desorbed with respect to NFL adsorption isotherm. A clear relationship was observed between the physicochemical characteristics of the soils and the beta-CD concentration necessary to remove the herbicide, the percentages of desorption observed for each soil being inversely related to the values obtained for the Freundlich sorption capacity parameter of the herbicide, K(f). In general, high desorption yields can be obtained with very low beta-CD concentrations, which is an important advantage from an economic point of view, although in those soils that present an extremely high NFL adsorption, higher amounts of beta-CD should be used. The results obtained indicate the high extracting power of beta-CD toward the herbicide previously adsorbed on the soils and the potential use of beta-CD for in situ remediation of pesticide-contaminated soils.     

萘和p,p′-DDE在典型包气带介质上的吸附动力学及吸附-解吸特征

选取3种典型包气带土壤为吸附剂,萘和p,p′-DDE为吸附质,研究了其吸附动力学特征及吸附解吸规律。实验结果显示,初始浓度越大,吸附到达平衡所需时间就越短。数据拟合结果表明,单一级次的动力学方程难以描述两种吸附质的吸附动力学特征,分析认为土壤对有机污染物的吸附过程不是单一反应,而是有机污染物在无机矿物、无定型有机碳和凝聚型有机碳上同时进行吸附反应的复合结果。萘与p,p′-DDE的吸附、解吸过程均表现出非线性,Freundlich方程的吸附指数n在不同程度上偏离1;两种污染物在土样中的吸附过程不完全可逆,Kow、初始浓度以及土壤有机碳含量（fo）c的差异都影响其在土壤不同组分上的吸附百分比,进而影响解吸率。萘更多地吸附在无机矿物表面及无定型有机碳上,随着初始浓度的增大（37.7~780.9μg.L-1）,解吸率可从10%左右增至近85%;而当初始浓度为37.7μg.L-1时,随foc的增大（0.01%~0.65%）,解吸率由12.39%降至3.90%。p,p′-DDE则更多地吸附在凝聚型有机碳上,解吸率随浓度的变化（11.0~275.1μg.L-1）仅在1%~5%内波动,当初始浓度为11.0μg.L-1时,解吸率随foc的增大由4.49%降至1.06%。两者解吸率都和foc呈负相关关系。     

湖北恩施几种典型土壤对氟的吸附与解吸特性

采用室内试验方法,研究了恩施六种土壤氟吸附的特性。结果表明:(1)不同土壤的吸附量差异很大,表现为黄粘泥水田土>红粘壤土>泥质岩黄壤土>红砂泥水田土>中性紫色土>黑色石灰土;同一土壤的吸附量随氟离子初始浓度的增大而增大。不同土壤的解吸量在低浓度时差异不明显,高浓度时表现为黄粘泥水田土、红粘壤土、泥质岩黄壤土、红砂泥水田土>中性紫色土>黑色石灰土;同一土壤的解吸量随氟离子初始浓度的增大而增大。(2)Langmuir公式可以很好地描述土壤氟吸附的特性,Freundlich公式能够较好地描述土壤对氟的吸附。(3)去除铁、铝氧化物后土壤氟吸附量明显降低;草酸能够促进土壤对氟的吸附;共存PO43-能够抑制土壤对氟的吸附。     

紫色水稻土的有机金属-矿物胶体复合物对磷的吸附、解吸特征

The kinetic characteristics of P adsorption and desorption by organo-mineral colloidal complexes (OMC) were studied using acid, calcareous and neutral purple paddy soils taken from Chongqing and Sichuan, China. The results showed that the P adsorption capacity of the organo-mineral colloidal complexes differed with the soil tyes, being higher for the acid and calcareous purple soils than for the neutral purple soils. Partial removal of the organic matter increased the adsorption capacity of the colloidal complexes. A very significant positive correlation was found between the amounts of P desorbed from OMC and the P saturation degrees. The P adsorption reaction was quick at the early stage and slowed later. The raise of temperature increased P adsorption capacity and P adsorption rate of the colloidal complexes. The adsorption processes could be described by the Elovich equation.     

毒死蜱有毒代谢物3,5,6-TCP在土壤中的吸附-解吸研究

应用OECD106批平衡方法,研究了毒死蜱的有毒代谢物3,5,6-TCP在6种典型土壤中的吸附-解吸行为。结果表明：Elovich方程、双常数方程和抛物线扩散方程能较好地拟合3,5,6-TCP在第四纪红土、黑土、黄壤和褐土中的吸附动力学过程,而对紫色土和潮沙土的拟合度较低（拟合相关系数小于0.85）;应用Freundlich方程和线性方程拟合第四纪红土、黑土、黄壤和褐土的经验常数nfads均小于1（非线性吸附）,而紫色土和潮沙土的nfads值则接近于1（线性吸附）;3,5,6-TCP在6种土壤中解吸的滞后系数H值均大于1,即解吸速率大于吸附速率。6种土壤对3,5,6-TCP的吸附常数Kfads从1.37-6.74μg1-n·fmLn·fg^-1,吸附系数Kd值从0.50-1.30mL·g^-1,其中第四纪红土和黑土对其吸持力较强（Kd〉1）,因而更应注意环境安全;其他4种土壤的Kd值则均小于1,淋溶风险较大。     

玉米秸秆水溶性物质对白浆土吸附锌离子的影响

应用平衡吸附法,研究外源玉米秸秆水溶性物质(WSS)对白浆土吸附Zn2+的影响,影响因素主要包括温度(298 K和318 K)、WSS浓度和接触时间(1～1 440 min)。结果表明:(1)不同温度条件影响下,白浆土对Zn2+的吸附热力学曲线主要包括起始的快速升高、中间的吸附平台和继续升高直至平衡3个阶段,经历电性吸附向配位吸附转变,最终促使二者共存。Langmuir方程能较好描述白浆土对Zn2+的吸附特征,升高温度有利于提高白浆土对Zn2+的最大缓冲容量,另外,白浆土对Zn2+的吸附是非自发、吸热且混乱度增加的过程。(2)玉米秸秆WSS的加入可有效抑制白浆土对Zn2+的吸附固定,减少两者的亲和力,降低白浆土对Zn2+的吸附强度,增大Zn2+在土壤溶液中的移动,有利于提高其植物有效性。(3)随玉米秸秆WSS浓度的增大,白浆土对Zn2+的吸附强度逐渐降低,可采用线性方程较好描述。(4)白浆土对Zn2+的动力学吸附主要包括短期快速吸附和长期慢速吸附两个阶段,第一阶段两个处理的吸附率分别达79.51%和96.80%。玉米秸秆WSS的加入可有效提高短期快速吸附阶段白浆土对Zn2+的吸附率,但同时WSS的加入却减少了白浆土对Zn2+的吸附固定。Elovich和双常数方程描述白浆土对Zn2+的吸附有较为明显的优势,WSS的添加扰乱了白浆土对Zn2+的动力学吸附过程。     

白浆土对腐殖酸的吸附等温线和动力学研究

白浆土是吉林省和黑龙江省东部地区的主要农田土壤之一,研究白浆土对腐殖酸的吸附作用,可为探究白浆土的固碳潜力提供理论依据。采用批量平衡法,分析不同有机碳含量的白浆土及其组分(包括去有机质土壤、粉粒、黏粒)对腐殖酸的吸附动力学和等温吸附特性。结果表明:随吸附时间的延长,白浆土及其各组分对腐殖酸的吸附量逐渐增加;整个吸附动力学过程可划分为快速(0～30 min)和慢速(30～480 min)反应阶段,伪二级动力学方程的拟合效果优于Elovich、双常数和伪一级动力学方程。白浆土及其各组分对腐殖酸的吸附量随腐殖酸初始浓度的增加逐渐增大,Langmuir方程的拟合效果通常优于Freundlich方程和Temkin方程。随白浆土有机碳含量的增加,其对腐殖酸的最大吸附量分别为26.9,24.1,15.6 mg/g。而白浆土不同组分相比,最大吸附量的顺序依次为黏粒>去有机质土壤>粉粒,黏粒对腐殖酸的吸附量分别是原土的2.15～3.88倍,去有机质土壤的1.61～2.21倍,粉粒土壤的7.90～8.65倍。有机碳含量低的白浆土对腐殖酸具有更强的吸附能力,黏粒含量高的白浆土对腐殖酸的吸附潜力更大。     

磷的吸附对老成土和淋溶土中Cu、Zn离子吸附-解吸及其有效性的影响

Surface charge,secondary adsorption-desorption and form distribution of Cu^2 and Zn^2 in Ultisols and Alfisols having adsorbed phosphate were studied by potentiometric titration,adsorption equilibrium and sequential extraction method,respectively,The soil surface negative charges increased whereas the amount sequential extraction method,respectively.The soil surface ngative charges increased whereas the amount of positive charges decreased with increase of P adsorbed,The soil secondary adsorption capacity for Cu^2 and Zn^2 was positively significantly correlated with the amount of P adsorbed by the soils,which could be described by the Langmuir equation.The amounts of Cu^2 and Zn^2 desorption from soils were decreased after P adsorption by the soils and the relationship between them was linear,After the soils adsorbed P,form distribution of Cu^2 and Zn^2 in soils changed remarkably.