不同土壤类型对硫酸钾镁肥中钾、镁、硫吸附特性研究

在水稻土、红壤、潮土中分别加入不同浓度的硫酸钾镁肥溶液,研究3种土壤在不同浓度硫酸钾镁肥下pH值的变化及对K、Mg、S吸附的能力。结果表明:在3种土壤中加入硫酸钾镁肥都使土壤pH值下降,下降速度是红壤>水稻土>潮土。3种土壤对K的吸附能力较强,可用一元线性方程拟合,在0~354 mg kg-1的K加入量范围内,吸附率在50.4%~74.1%;对S的相对吸附率居中,可用一元二次方程拟合,在0~311 mg kg-1的S加入量范围内,吸附率在35.6%~88.1%;对Mg的吸附能力极弱。3种土壤对K、S吸附能力大小顺序为:潮土>红壤>水稻,对镁吸附能力大小顺序为:潮土>水稻土>红壤。土壤田间施用硫酸钾镁肥量应根据不同土壤对养分的吸附能力大小进行相应的调整。     

菜园土壤锌的吸附——解吸特性研究

本文研究了菜园土壤锌的吸附 -解吸特性。实验结果表明 ,三种菜园土壤吸附Zn2 + 均随平衡液中Zn2 + 浓度的增加而增大 ,且均可用Langmuir方程和Freundlich方程来描述 ,相关系数均大于 0 .9,达极显著水平。由Langmuir方程求得的菜园土壤对Zn2 + 的最大吸附量的大小顺序为 :黄松土 >粉泥土 >江涂砂 ,但对Zn2 + 的吸附作用力强度和最大缓冲容量的顺序则相反 ,以江涂砂 >粉泥土 >黄松土。菜园土壤对Zn2 + 的解吸量随其吸附量的增加而增加 ,两者之间呈显著线性正相关。     

不同改土物料对白浆土磷吸附解吸的影响

向白浆土各层次土壤施入不同改土物料,比较不同处理土壤对 P 的吸附解吸情况.结果表明:各土层土壤对 P的吸附量均随着平衡液浓度的增加而增加;不同土层间土壤吸附 P 量大小顺序为淀积层＞混拌层＞白浆层＞黑土层;随着平衡液浓度的增大,P 吸附的增加率递减;施 Ca 加大了土壤对 P 的吸附,其中黑土层增加220.16%,白浆层增加54.50%,淀积层增加 52.36%;而施有机肥减弱了土壤对 P 的吸附,其中黑土层降低70.16%,白浆层降低45.50%,淀积层降低55.27%.Ca 有降低土壤 P 解吸率的趋势,有机肥能大幅度地提高其解吸率.     

磷和柠檬酸共存对高岭石和针铁矿吸附铅的影响

通过平衡吸附试验及矿物电动电位(Zeta电位)的变化分析,研究了磷(P)和柠檬酸(CA)共存对针铁矿和高岭石吸附铅的影响。结果表明:(1)针铁矿和高岭石对铅的吸附量随柠檬酸浓度的升高呈现"峰形"曲线变化,铅吸附量达到峰值的柠檬酸浓度均为0.5 mmol L~(-1),不同浓度磷存在下柠檬酸对矿物吸附Pb2+量有不同程度增加。(2)随着磷添加浓度的增加,两种矿物对铅吸附量均呈增加趋势,磷添加浓度分别为1 mmol L~(-1)和0.6 mmol L~(-1)时,针铁矿和高岭石吸附铅量达到平衡;当处理中添加不同浓度柠檬酸,两种矿物均表现为对铅的吸附量增加,且随着柠檬酸浓度增加促进铅吸附的作用增强,说明在磷及试验浓度柠檬酸存在下促进了矿物对铅的吸附。(3)高岭石体系中,加入磷或(和)柠檬酸后,Zeta电位-pH曲线向负值方向位移,降低程度大小顺序为1.0 mmol L~(-1) P+0.5mmol L~(-1) CA0.5 mmol L~(-1) CA1.0 mmol L~(-1) P,说明高岭石表面增加的负电荷也部分增加了其对铅的电性吸附;添加磷和柠檬酸处理针铁矿的Zeta电位显著降低,且随着体系pH的升高其Zeta电位没有明显变化,表明磷和柠檬酸均主要是通过吸附到针铁矿表面而增加对铅的专性吸附。     

柠檬酸对蒙山茶园土壤微团聚体吸附-解吸Cu2+的影响

以蒙山茶园土为对象,运用平衡液吸附法以及NaNO3溶液解吸法探讨了柠檬酸对原土及各粒径土壤微团聚体吸附-解吸Cu2+的特性,以期明确柠檬酸对土壤吸附解吸铜的过程中产生的影响。结果表明,加入柠檬酸后,随着Cu2+浓度的增加,原土和各粒径土壤微团聚体对Cu2+的吸附有所增加,吸附量大小顺序为:(0.002mm)(0.053~0.002)mm原土(2~0.25)mm(0.25~0.053)mm,与土壤微团聚体中游离氧化铁、阳离子交换量以及有机质含量大小顺序一致;柠檬酸对Cu2+的吸附既有促进作用又有抑制作用,低浓度(0~1mmol/L)的柠檬酸促进土壤微团聚体对Cu2+的吸附,而高浓度(1mmol/L)的柠檬酸则降低其吸附,吸附量在柠檬酸浓度为0.5mmol/L时达到最大;Langmuir、Freundlich、Temkin 3种方程对其等温吸附过程的拟合均达到了极显著水平(p0.01),其中以Langmuir方程的拟合效果最佳,说明加入柠檬酸后的原土及各粒径土壤微团聚体对Cu2+的吸附以单层吸附为主;随着铜浓度的上升,土壤微团聚体对Cu2+的易解吸率不断增加,柠檬酸的进一步加入使得土壤微团聚体对Cu2+的解吸率上升,而解吸大小顺序与吸附顺序相反。     

矿物对溶解性有机质及其不同组分的吸附作用

溶解性有机质(Dissolved Organic Matter,DOM)在土壤矿物表面的吸附控制着其在土壤中的迁移,会影响土壤/矿物对重金属、有机污染物等的传质过程[1～3]。已往资料揭示,土壤中黏土矿物是DOM的重要吸附质;但迄今,有关DOM在不同类型黏土矿物表面吸附的差异及机制尚很不清楚。另外,不同DOM组分在土壤矿物上的吸附各异,土壤矿物对DOM不同成分的吸附具有选择性;因此分离DOM不同组分,分别研究其在土壤矿物上的吸附有助于揭示DOM与土壤矿物的结合机理,但该研究尚待深化。此外,目前研究中DOM多以土壤中提取的为主[4],对于因污泥农用等农业管理措施而从外部引入土壤的DOM的研究还较     

纳米粘土矿物对阿特拉津的吸附-解吸特性研究

采用批量平衡实验,研究了纳米粘土矿物与原粘土矿物对除草剂阿特拉津的吸附解吸特陛。结果表明,粘土矿物对阿特拉津的吸附-解吸均能用Freundlich方程很好地拟合。随着溶液中阿特拉津浓度的增加,粘土矿物对阿特拉津的吸附量增加;粘土矿物粒径越小,吸附量越大,纳米粘土矿物的吸附量显著大于原粘土矿物。粘土矿物对阿特拉津吸附量大小顺序为：纳米SiO2）纳米蒙脱石〉凹凸棒石〉蒙脱石〉SiO2。粘土矿物对阿特拉津的解吸表现出一定的滞后效应,即粘土矿物吸附的阿特拉津越多,解吸的越少。粘土矿物对阿特拉津的解吸率大小顺序为：SiO2〉凹凸棒石〉纳米蒙脱石〉纳米SiO2〉蒙脱石。     

BS-12改性不同磁性黏土矿物对苯酚吸附及机制的比较

采用共沉淀法制备磁性海泡石（MST）、磁性沸石（MZT）和磁性凹凸棒石（MAT）,并以两性表面活性剂十二烷基二甲基甜菜碱（BS-12）对其进行改性,以X射线衍射（XRD）对不同吸附剂材料进行表征分析,通过批处理法比较了BS-12改性不同磁性黏土矿物对苯酚的吸附特征,同时考察了温度、pH和离子强度对不同磁性黏土矿物间及不同改性比例下吸附苯酚的影响。结果表明,三种黏土矿物原样和磁化样对苯酚的吸附能力分别呈NAT＞NST＞NZT、MAT＞MST＞MZT的大小顺序,磁化对凹凸棒石的苯酚吸附能力影响最大,这与Fe3O4在凹凸棒石上的覆盖度较高有关。经BS-12改性后,三种改性磁性黏土矿物对苯酚的吸附量均随改性比例的增大而增加,具有一致性;三种磁性黏土矿物中,BS-12改性对磁性海泡石的苯酚吸附能力提升最多,这与BS-12在磁性海泡石的改性率较高有关。温度和溶液初始pH值的升高不利于BS-12改性磁化样对苯酚的吸附,但离子强度的增加对BS-12改性磁化样吸附苯酚具有促进作用。BS-12改性磁性黏土矿物对苯酚的吸附以疏水分配作用为主,吸附能力取决于有机碳含量。三种改性磁性黏土矿物中,BS-12改性磁性凹凸棒石上的有机碳含量最高,对苯酚的吸附能力最强,且吸附受温度、pH和离子强度的影响最小。     

BS-12改性不同磁性黏土矿物对苯酚的吸附

采用共沉淀法制备磁性海泡石(MST)、磁性沸石(MZT)和磁性凹凸棒石(MAT),并以两性表面活性剂十二烷基二甲基甜菜碱(BS-12)对其进行改性,以X射线衍射(XRD)对不同吸附剂材料进行表征分析,通过批处理法比较不同磁性黏土矿物经BS-12改性后对苯酚的吸附特征,同时考察温度、pH和离子强度对BS-12改性磁性黏土矿物吸附苯酚的影响。结果表明,三种黏土矿物原样和磁化样对苯酚的吸附能力分别呈NATNSTNZT、MATMSTMZT的大小顺序,磁化对凹凸棒石的苯酚吸附能力影响最大,这与Fe3O4在凹凸棒石上的覆盖度较高有关。经BS-12改性后,三种改性磁性黏土矿物对苯酚的吸附量均随改性比例的增大而增加,具有一致性;三种磁性黏土矿物中,BS-12改性对磁性海泡石的苯酚吸附能力提升最多,这与BS-12在磁性海泡石的改性率较高有关。温度和溶液初始pH的升高不利于BS-12改性磁化样对苯酚的吸附,但离子强度的增加对BS-12改性磁化样吸附苯酚具有促进作用。BS-12改性磁性黏土矿物对苯酚的吸附以疏水分配作用为主,吸附能力取决于有机碳含量。三种改性磁性黏土矿物中,BS-12改性磁性凹凸棒石上的有机碳含量最高,对苯酚的吸附能力最强,且吸附受温度、pH和离子强度的影响最小。     

川西黄壤磷和氟在不同处理条件下的竞争吸附特征

本研究利用响应面模型分析不同比例生物质炭、初始p H、初始磷浓度以及初始氟浓度下川西黄壤磷和氟的竞争吸附特征,以为土壤氟固定和土壤施肥技术提供新思路。研究表明:在竞争作用下,不同处理条件对磷的吸附量影响大小顺序为:初始氟浓度pH初始磷浓度生物质炭比例;对氟的吸附量影响大小顺序为:初始氟浓度初始磷浓度pH生物质炭比例。考虑到各因素之间的交互作用,根据响应面模型得出在pH、生物质炭比例、初始磷浓度、初始氟浓度等因素的共同影响下的最优反应条件为:p H 5.0、生物质炭比例2.9%、初始磷浓度144.0 mg/kg、初始氟浓度178.8 mg/kg,在此条件下模型预测的磷、氟的吸附量分别为949.6 mg/kg、1 622.0 mg/kg。     

山东主要果园土壤的粘土矿物组成及其吸附特性

研究了山东主要果园土壤中粘土矿物的组成、类型及其对P、K和Cu、Zn、Pb金属元素的吸附特性。结果表明：山东主要果园土壤的粘土矿物类型存在着明显的差异,淋溶较强,酸度较大的棕壤（简育湿润淋溶土）中粘土矿物以高岭石占优势,对P的吸附较强,但对K＋吸附固定较弱。含游离C aCO3较高的潮土（淡色潮湿雏形土）和褐土（简育干润淋溶土）,对P有较强的吸附和沉淀作用,使土壤磷的有效性降低。而砂姜黑土（钙积潮湿变性土）由于含有较高的蒙脱石和1.4 nm过渡矿物,对K＋具有很强的吸附和晶穴固定作用,因此砂姜黑土中磷肥和钾肥的有效性均较低,在施肥上应采取集中施肥和保持较湿润土壤环境等措施,以提高养分有效性。砂姜黑土和潮土对Cu、Zn、Pb金属元素的吸附显著地大于棕壤和褐土,主要的影响因素是不同土壤的粘粒含量和粘土矿物的类型的差异。同一土壤对Pb的吸附量远远大于对Zn和Cu的吸附量,主要取决于金属元素本身的化学性质和胶体的吸附特性。     

STUDIES ON SOIL COPPER

Adsorption isotherms were determined for the specific adsorption of copper by soils and soil constituents. Adsorption was found to conform to the Langmuir equation. The Langmuir constants, a (adsorption maximum) and b (bonding term), were calculated. Soils were found to have specific adsorption maxima at pH 5.5 of between 340 and 5780 μg g^?1, and a multiple regression analysis revealed that organic matter and free manganese oxides were the dominant constituents contributing towards specific adsorption. Adsorption maxima for soil constituents followed the order manganese oxides > organic matter > iron oxides > clay minerals, which supported the findings for whole soils. The cation exchange capacities (non-specific adsorption) of the test soils were found to be far greater than the specific adsorption maxima. However, evidence suggests that, for the relatively small amounts of copper normally present in soils, specific adsorption is the more important process in controlling the concentration of copper in the soil solution.     

可溶性有机碳在典型土壤上的吸附行为及机理

定量分析可溶性有机碳(DOC)在不同土壤上的吸附行为可为DOC在不同地区土壤中的去向及污染风险评估提供理论基础。本研究以河南潮土(包括砂质、壤质和黏质3种质地)、江苏黄泥土、江西红黏土和海南砖红壤等典型土壤为吸附介质,采用一次平衡法比较了DOC在不同土壤中的吸附容量及平衡液中DOC的结构变化。结果表明,供试土壤对DOC的吸附可用修正的Langmuir模型拟合。最大吸附量(Q_(max))从高到低依次为红黏土(2 892.67 mg/kg)、砖红壤(1 969.77 mg/kg)、黏质潮土(1 803.03 mg/kg)、黄泥土(1 003.84 mg/kg)、壤质潮土(989.31 mg/kg)和砂质潮土(441.18 mg/kg)。黄泥土的亲和系数(k)最大(2.53×10~(–3)),其次为砖红壤、红黏土和3种潮土。吸附后,除砂质潮土和壤质潮土外,其他土壤平衡液的芳香性均降低。相关性分析表明无定形氧化铝显著影响了Q_(max),而氧化铁的形态(无定形、络合态和低结晶态)决定了k值大小。红黏土、砖红壤和黄泥土更容易吸附DOC中的芳香族成分,主要吸附机制可能为配位体交换;砂质潮土和壤质潮土主要为阳离子架桥,而黏质潮土同时存在这两种吸附机制。     

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.     

Non-exchangeable potassium release and its removal in foot-hill soils of North-west Himalayas

In the present investigation, soils representing ten locations and three agro-climatic zones of foot-hills of north-west Himalayas were studied to assess Non-exchangeable Potassium (NEK) reserves, its release and influence of K-fixing capacity and clay minerals on NEK release. Maximum release of non-exchangeable K was obtained in temperate zone soils (295 mg kg^− 1) followed by intermediate zone (227 mg kg^− 1) and sub-tropical zone soils (106 mg kg^− 1), having relative soil quality index (RSQI) values of 85, 80 and 65, respectively. The quantitative analysis of clay minerals, through XRD technique, revealed that the temperate soils have more illite (averaging 62%) which holds well as a reason for high NEK reserves of 1556 mg kg^− 1 in these soils in comparison to intermediate (having illite averaging 53%) and sub-tropical (having illite averaging to 49%) soils having NEK amounting to 1022 and 918 mg kg^− 1, respectively. In order to study the NEK removal from the soils under investigation, maize was grown as a test crop and potassium was applied through four treatments having four levels of K (0, 15, 30 and 60 mg kg^− 1) applied as KCl. The crop demonstrated significant response in terms of dry matter yield up to 30 mg kg^− 1 in sub-tropical and intermediate soils while no such response was obtained in temperate soils. The percent NEK removed by maize crop from NEK reserves was 14, 25 and 20% in sub-tropical, intermediate and temperate soils, respectively. The information about NEK release, its removal as well as its relationship with K fixing capacity, clay minerals and RSQI can be used for understanding the K buffering potential of soils especially under adverse soil and climatic conditions that prevail in southwest India. Besides, the regression equations developed can be used for predicting NEK release on the basis of K fixing capacity and clay mineralogical composition.     

土壤胶体对蛋白质的吸附

土壤有机-无机复合体是土壤肥力的物质基础之一,不仅依随成土过程而发生变化,人类耕作利用也可产生影响。     

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。     

解钾细菌与黏土矿物协同促进玉米生长提高土壤养分有效性

为了揭示解钾细菌在西北矿区浅埋古河道土壤中对植物生长和土壤养分利用的影响,通过日光温室短期盆栽的方式,以不同黏土矿物配比的人工培土为基质模拟古河道不同质地土壤,以西北地区常见农作物玉米为宿主,研究解钾细菌在人工培土基质中的微生物数量变化规律,以及二者协同作用对玉米生长和矿质养分吸收的影响。结果表明:1)土壤黏土矿物含量增大有利于提高土壤解钾细菌数量,促进微生物活性。当黏土矿物质量分数为68%,速效钾质量分数约170 mg/kg时,解钾细菌数量最大;2)玉米地上部分干质量、根冠比、根系活力随黏土矿物含量增大而增大,以解钾细菌作用下黏土矿物质量分数68%的玉米生长效果最佳;3)在解钾细菌作用下,植物氮磷钾积累量和土壤养分利用的最佳土壤黏土矿物质量分数为45%、68%和75%,土壤钾素、氮素和磷素最大利用率分别达到65%、53%和17%;4)解钾细菌在土壤钾素含量低时促进土壤磷素吸收,土壤钾素过量时,促进土壤氮磷钾的吸收,提高土壤养分利用率。因此,土壤黏土矿物与解钾细菌相互作用,而且积极影响植物生长和土壤养分的吸收利用,这对进一步探寻适合矿区浅埋古河道土壤的微生物复垦技术,深入改良和开发矿区退化土壤具有重要意义。     

Effect of soil composition on adsorption of lead as reflected by a study on a natural forest soil profile

The adsorption characteristics of lead on each genetic horizon of a natural brown forest soil profile were studied to recognize the possible immobilizing effect of a mineralogical diverse soil profile in the case of a possible lead contamination. Lead adsorption experiments were carried out on whole soil samples, soil clay fractions, as well as on their carbonate and organic matter free variant. TEM-EDS analyses were performed to characterize the adsorption capacity of individual mineral phases. The most important lead adsorbents in order of importance are the organic matter, the clay minerals, and the iron oxides. The most significant process is the ion exchange of calcium by lead with the respect to adsorption. The organic matter adsorbs more lead than clay minerals, and clay fractions adsorb more lead as compared to the whole soil samples. Among mixed layer clay minerals, those containing swelling component have the highest lead adsorption capacity, but the exact distinguishing of the individual clay mineral particles with the respect to their adsorption capacity is not possible. The calcite influences the lead adsorption through its buffering capacity: high calcite content results in lead precipitation. Soils characterized by high amount of organic matter, swelling clay mineral accumulation horizon and calcareous subsoil are suitable medium to immobilize a significant lead pollution.