Histopathological studies and oxidative stress of synthesized silver nanoparticles in Mozambique tilapia (Oreochromis mossambicus)

To evaluate the potential environmental effects of engineered nano metals, it is important to determine the adverse effects of various nanomaterials on aquatic species. Adult tilapia (Oreochromis mossambicus) were maintained in 10 L glass aquaria, and exposed to a graded series of synthesized silver nanoparticles (Ag-NPs) at 25, 50 and 75 mg/L for eight days. The LC₅₀ value was 12.6 mg/L. Reduced activities of antioxidant enzymes and the contents of antioxidants were lowered in the gills and liver of fishes treated with Ag-NPs, which resulted in heavy accumulation of free radicals. Histopathological results imply that the balance between the oxidative and antioxidant system in the fish was broken down during Ag-NPs exposure. The principal concern related with the release of nanomaterials and their smaller particle may change the materials transport and potential toxicity to aquatic organisms compared to larger particles.     

纳米Fe3 O4-H2 O2 非均相Fenton反应催化氧化邻苯二酚

由四氧化三铁(Fe3O4)-过氧化氢(H2O2)构成的非均相Fenton体系主要利用H2O2分解产生的羟基自由基氧化去除难降解有机污染物.研究了邻苯二酚在纳米Fe3O4-H2O2构成的非均相Fenton体系中的催化氧化特征,同时对实验室制备的纳米级Fe3O4和商品微米级Fe3O4两种催化剂的催化活性进行比较,并考察了H2O2初始浓度对邻苯二酚的催化氧化的影响.结果表明,自制纳米Fe3O4-H2O2体系较商品Fe3O4-H2O2体系,能更快速地去除溶液中的邻苯二酚和总有机碳(TOC),邻苯二酚的去除率接近100%,同时能迅速催化H2O2分解.邻苯二酚的催化氧化反应遵循准一级反应动力学方程,H2O2的分解反应能用三级反应动力学方程较好拟合.此外,反应过程中铁释放低于0.3 mg.L-1,不足以启动均相Fenton反应,反应机制为由界面反应控制的非均相反应机制.     

不同铁氧化物对小麦幼苗镉积累的影响

小麦富镉（Cd）问题受到广泛关注,铁氧化物具备降镉潜力.通过盆栽小麦幼苗实验,分析了三氧化二铁（Fe₂O₃）、氢氧化铁[Fe（OH）₃]及拜耳法赤泥（B-RM）3种铁氧化物的降镉能力.结果显示3种铁氧化物中,Fe（OH）₃可显著降低小麦幼苗茎叶Cd含量,与对照相比降幅为16.3%~27.7%,投加量为0.5%时降Cd效果最优.Fe（OH）₃能够显著降低小麦幼苗根部向茎叶的Cd转运,投加量为10%时富集系数及转运系数最低.小麦幼苗根际土壤Fe/Cd、Cu/Cd及Zn/Cd是影响小麦幼苗茎叶Cd积累的关键因子,当Fe/Cd>25000、Cu/Cd > 50或Zn/Cd > 100时,根际土壤元素比与茎叶镉含量呈显著负相关.该比值的确定对于大田应用中钝化剂材料投加量的确定具有指导意义.     

纳米Fe/Co合金类Fenton降解盐酸四环素及影响因素

为研究纳米Fe/Co合金对含TCs（盐酸四环素）废水的类Fenton催化性能,以及催化降解体系pH、H₂O₂投加量和活性成分浸出等因素对催化性能的影响.采用液相还原法制备纳米Fe/Co合金,并通过对比试验探究其类Fenton催化性能,Fe、Co的浸出量及其表面积结构变化与活性之间的关系.添加纳米Fe/Co合金的条件下,采用单因素分析方法研究体系pH、H₂O₂投加量和初始TCs浓度分别对TCs去除率的影响.结果表明:①在纳米Fe/Co合金制备过程中,添加PVP（聚乙烯吡咯烷酮）不仅能有效防止纳米Fe/Co合金发生团聚,且促进纳米Fe/Co合金比表面积增大（BET为113.8 m2/g）.②纳米Fe/Co合金具有拓宽催化体系pH使用范围的优势;在pH为3.0~9.0范围内,纳米Fe/Co合金对30 mg/L TCs的去除率（87.2%~91.7%）远大于FeCl₂（0~30.7%）和纳米Fe的去除率（0~28.2%）;H₂O₂投加量超过150 mmol/L后,TCs的去除率达到最佳（86.2%）.③纳米Fe/Co合金催化体系中（pH为3.0~11.0）,活性成分Fe、Co浸出量分别为0.20~0.35和0.20~1.00 mg/L,均满足我国GB 3838—2002《地表水环境质量标准》,长期使用也不会造成浸出成分（Fe、Co）在环境中大量累积,对生态环境等可能造成的潜在风险大大降低.④纳米Fe/Co合金具有再利用性,催化利用4次后,对TCs的去除效果仍达50.0%以上.研究显示,纳米Fe/Co合金对去除TCs具有较高催化性能和再利用性,利于拓宽催化体系pH使用范围,具有稳定活性成分Fe、Co浓度的优势.      

Effect of phosphate on heterogeneous Fenton oxidation of catechol by nano-Fe3O4: Inhibitor or stabilizer?

The effect of phosphate on adsorption and oxidation of catechol, 1,2-dihydroxybenzene, in a heterogeneous Fenton system was investigated. In situ attenuated total reflectance infrared spectroscopy (ATR-FTIR) was used to monitor the surface speciation at the nano-Fe₃O₄ catalyst surface. The presence of phosphate decreased the removal rate of catechol and the abatement of dissolved organic compounds, as well as the decomposition of H₂O₂. This effect of phosphate was mainly due to its strong reaction with surface sites on the iron oxide catalyst. At neutral and acid pH, phosphate could displace the adsorbed catechol from the surface of catalyst and also could compete for surface sites with H₂O₂. In situ IR spectra indicated the formation of iron phosphate precipitation at the catalyst surface. The iron phosphate surface species may affect the amount of iron atoms taking part in the catalytic decomposition of H₂O₂ and formation of hydroxyl radicals, and inhibit the catalytic ability of Fe₃O₄ catalyst. Therefore, phosphate ions worked as stabilizer and inhibitor in a heterogeneous Fenton reaction at the same time, in effect leading to an increase in oxidation efficiency in this study. However, before use of phosphate as pH buffer or H₂O₂ stabilizer in a heterogeneous Fenton system, the possible inhibitory effect of phosphate on the actual removal of organic pollutants should be fully considered.     

Photoassisted Fenton degradation of phthalocyanine dyes from wastewater of printing industry using Fe(Ⅱ)/γ-Al2O3 catalyst in up-flow fluidized-bed

Fe(II)/γ-Al2O3 powders synthesized using the dipping method were produced from a mixed aqueous solution containing aluminium oxide(γ-Al2O3) and iron(II)-precursor(FeSO4), and used for photoFenton degradation of phthalocyanine dyes(PCS) under ultraviolet(UV) irradiation in an up-flow fluidized bed. The catalysts were characterized by XRD, ESCA, BET, EDS and SEM. The results showed that Fe2+ion was compounded on the γ-Al2O3 carrier. The effects of different reaction parameters such as catalyst activity, dosage and solution pH on the decolorization of PCS were assessed. Results indicated that maximum decolorization(more than 95%) of PCS occurred with20 wt% Fe(II)/γ-Al2O3 catalyst(dosage of 60 g/L) using a combination of UV irradiation and heterogeneous Fenton system. The degradation efficiency of PCSincreases as pH decreases, exhibiting a maximum efficiency at pH 3.5. The recycled catalyst was capable of repeating three runs without a significant decrease in treatment efficiency, and this demonstrated the stability and reusability of catalyst.     

反应气氛对绿色合成纳米铁的组分及其活性的影响

成本低廉和无二次污染的"绿色"合成纳米材料是发展原位纳米环境修复技术的前沿研究课题之一.本文以绿茶提取液为还原剂和稳定剂进行"绿色"合成纳米铁,探讨在不同的气氛下"绿色"合成的纳米铁颗粒的主要成分,以期为调控合成纳米铁系材料提供基础研究.首先,利用扫描电子显微镜(SEM)、X射线能谱(EDS)、X射线光电子能谱分析(XPS)和傅里叶变换红外光谱(FTIR)等表征手段对不同反应气氛下合成的纳米铁颗粒的表面微观形貌、尺寸和价态结构进行分析.结果发现,在通入N2情况下,合成的纳米铁颗粒粒径为(84.7±11.5)nm,其主要成分以纳米零价铁为主;在通入空气情况下,合成的纳米铁粒径为(117.8±26.2)nm,其主要成分是纳米零价铁、氧化铁和四氧化三铁的混合物;通入O2时,合成的纳米铁粒径为(141.2±26.3)nm,其主要成分以四氧化三铁为主.其次,评价在不同气氛条件下合成纳米铁颗粒对去除亚甲基蓝(MB)的反应活性.结果表明,在反应温度313 K下降解初始浓度为50 mg·L-1的MB溶液,反应5 min时已达到平衡,通入N2合成的纳米铁降解MB,去除率高达98.7%,而通入O2合成的纳米铁反应效率低,对MB的去除率仅为65.3%.最后,从以上发现提出不同气氛下可以调控"绿色"合成的铁系纳米材料成分,从而导致不同的纳米修复环境中污染物的能力.     

土壤锌、铜、铁、锰形态区分方法的选择

用化学连续提取的方法将土壤中的锌、铜、铁、锰依结合状态区分为交换态、碳酸盐结合态(石灰性土壤)、氧化锰结合态、有机结合态、无定形氧化铁结合态、晶形氧化铁结合态和硅铝酸盐矿物态.初步认为选定的形态及提取方法适于土壤中锌、铜、铁、锰等元素的研究.     

程序升温条件下铁及其氧化物在CO存在时对N2O的还原机理

应用热综合分析仪（TG－FTIR）研究了在还原性气氛下Fe及其氧化物对N2O的催化还原 作用。研究发现铁氧化物对氮氧化物的催化还原能力相当弱，而Fe可以高效地降低N2O分解的初始温度和提高N2O向N2的转化率。在Fe和CO的作用下，N2O的初始分解温度为920K和1000K。在1123K时，N2O的转化率达到95％和805。TG／DSC曲线表明了在Fe与N2O反应过程中CO的作用表现为通过与N2O在反应表面的竞争吸附使铁氧化物还原为金属铁，X射线衍射证明Fe与N2O反应后的氧化物为Fe2O3；扫描电镜对反应后Fe表面物理形态的研究发展，在CO作用下，Fe的表面呈松散结构，可以保证Fe对氮氧化物反应的连续进行。     

Heterogeneous Fenton-like degradation of 4-chlorophenol using iron/ordered mesoporous carbon catalyst

Ordered mesoporous carbon supported iron catalysts(Fe/OMC) were prepared by the incipient wetness impregnation method and investigated in Fenton-like degradation of 4-chlorophenol(4CP) in this work. XRD and TEM characterization showed that the iron oxides were well dispersed on the OMC support and grew bigger with the increasing calcination temperature. The catalyst prepared with a lower calcination temperature showed higher decomposition efficiency towards 4CP and H2O2, but more metals were leached. The effect of different operational parameters such as initial pH, H2O2 dosage, and reaction temperature on the catalytic activity was evaluated. The results showed that 96.1% of 4CP and 47.4% of TOC was removed after 270 min at 30°C, initial pH of 3 and 6.6 mmol/L H2O2. 88% of 4CP removal efficiency was retained after three successive runs, indicating Fe/OMC a stable catalyst for Fenton reaction. 4CP was degraded predominately by the attack of hydroxyl radical formed on the catalyst surface and in the bulk solution due to iron leaching. Based on the degradation intermediates detected by high performance liquid chromatography, possible oxidation pathways were proposed during the 4CP degradation.     

Advanced oxidation of bromide-containing drinking water：A balance between bromate and trihalomethane formation control

Addition of H2O2 has been employed to repress bromate formation during ozonation of bromide-containing source water. However, the addition of H2O2 will change the oxidation pathways of organic compounds due to the generation of abundant hydroxyl radicals, which could affect the removal efficacy of trihalomethane precursors via the combination of ozone and biological activated carbon （O3-BAC）. In this study, we evaluated the effects of H2O2 addition on bromate formation and trihalomethane formation potential （THMFP） reduction during treatment of bromide-containing （97.6-129.1 μg/L） source water by the O3-BAC process. At an ozone dose of 4.2 mg/L, an H2O2/O3 （g/g） ratio of over 1.0 was required to maintain the bromate concentration below 10.0 μg/L, while a much lower H2O2/O3 ratio was sufficient for a lower ozone dose. An H2O2/O3 （g/g） ratio below 0.3 should be avoided since the bromate concentration will increase with increasing H2O2 dose below this ratio. However, the addition of H2O2 at an ozone dose of 3.2 mg/L and an H2O2/O3 ratio of 1.0 resulted in a 43% decrease in THMFP removal when compared with the O3-BAC process. The optimum H2O2/O3 （g/g） ratio for balancing bromate and trihalomethane control was about 0.7-1.0. Fractionation of organic materials showed that the addition of H2O2 decreased the removal efficacy of the hydrophilic matter fraction of DOC by ozonation and increased the reactivity of the hydrophobic fractions during formation of trihalomethane, which may be the two main reasons responsible for the decrease in THMFP reduction efficacy. Overall, this study clearly demonstrated that it is necessary to balance bromate reduction and THMFP control when adopting an H2O2 addition strategy.     

氟吡菌胺对斑马鱼的毒性效应

采用斑马鱼胚胎发育技术和传统毒理学方法, 研究了氟吡菌胺对斑马鱼胚胎、成鱼及仔鱼的毒性效应.结果发现,氟吡菌胺对3个阶段斑马鱼均具有致死能力,对仔鱼LC50(48h)值为0.204mg/L,成鱼LC50(96h)为0.286mg/L,幼鱼LC50(96h)为1.489mg/L.研究表明,0.0596mg/L以上浓度的氟吡菌胺对斑马鱼胚胎均有一定程度的致死效应,高浓度处理组胚胎出现心包囊肿、卵黄囊不吸收、黑色素沉积少及鱼体弯曲等症状;氟吡菌胺对斑马鱼成鱼进行14d暴露后,处理组成鱼体重下降,产卵量减少,有效卵量降低; 0.0298mg/L处理组144h子代仔鱼存活率虽然比较高,但存活鱼大部分出现心包囊肿、体弯曲等畸形.上述结果说明,水体中残留的氟吡菌胺对于斑马鱼各生命阶段的生长发育均具有潜在的危害.     

纳米Fe3O4/H2O2降解诺氟沙星

采用纳米Fe3O4催化H2O2氧化降解水环境中的诺氟沙星.考察了溶液酸度、温度、催化剂和H2O2浓度对诺氟沙星降解的影响,对比不同底物在Fe3O4/H2O2体系中的降解情况,并进一步探讨了其反应机制.结果表明,溶液酸度显著影响诺氟沙星的降解率,在酸性条件下（pH=3.5）诺氟沙星的降解效率最高.诺氟沙星的降解率随纳米F...     

Fe2O3/MIL-53(Al)催化类芬顿氧化性能及其作用机制研究

以MIL-53(Al)和铁盐为原料,采用浸渍-焙烧的方法,制备了Fe_2O_3/MIL-53(Al)类芬顿催化剂.通过扫描电子显微镜(SEM)、射透射电子显微镜(TEM)、X射线衍射仪(XRD)、傅里叶变换红外光谱仪(FTIR)及X射线光电子能谱仪(XPS),对Fe_2O_3/MIL-53(Al)、MIL-53(Al)及Fe_2O_3 3种材料的理化性质进行了表征.以亚甲基蓝为相关材料催化类芬顿反应氧化性能的指示剂,考察了Fe_2O_3/MIL-53(Al)、MIL-53(Al)及Fe_2O_3 3种材料催化类芬顿反应的活性.探讨了Fe_2O_3/MIL-53(Al)催化活性强化的相关作用机制.研究结果表明,Fe_2O_3/MIL-53(Al)的物化结构特征是以赤铁矿为主的纳米Fe_2O_3颗粒均匀、离散地分布在MIL-53(Al)之上,纳米Fe_2O_3颗粒尺寸大多集中在1～5 nm.与未负载纳米Fe_2O_3相比,其分散性和颗粒尺寸都展现出潜在优越性.Fe_2O_3/MIL-53(Al)材料催化类芬顿反应降解水溶液中亚甲基蓝的效果是未负载纳米Fe_2O_3的4.8倍(以反应速率常数计),且TOC去除率亦有明显优势.自由基猝灭实验结果表明Fe_2O_3/MIL-53(Al)催化类芬顿降解污染物的主要活性氧类物质为羟基自由基.MIL-53(Al)孔结构发达、孔分布均匀及孔尺寸较小且均一等结构特征,导致负载其中的Fe_2O_3具有孔道负载量大、颗粒分布离散且均匀、颗粒粒径小且均一等特点,从而强化了纳米Fe_2O_3催化类芬顿反应氧化降解水中污染物的性能.     

Cr(VI) removal from aqueous solution with bamboo charcoal chemically modified by iron and cobalt with the assistance of microwave

Bamboo charcoal (BC) was used as starting material to prepare Co-Fe binary oxideloaded adsorbent (Co-Fe-MBC) through its impregnation in Co(NO3)2 , FeCl3 and HNO3 solutions simultaneously, followed by microwave heating. The low-cost composite was characterized and used as an adsorbent for Cr(VI) removal from water. The results showed that a cobalt and iron binary oxide (CoFe2O4 ) was uniformly formed on the BC through redox reactions. The composite exhibited higher surface area (331 m2/g) than that of BC or BC loaded with Fe alone (Fe-MBC). The adsorption of Cr(VI) strongly depended on solution pH, temperature and ionic strength. The adsorption isotherms followed the Langmuir isotherm model well, and the maximum adsorption capacities for Cr(VI) at 288 K and pH 5.0 were 35.7 and 51.7 mg/g for Fe-MBC and Co-Fe-MBC, respectively. The adsorption processes were well fitted by the pseudo second-order kinetic model. Thermodynamic parameters showed that the adsorption of Cr(VI) onto both adsorbents was feasible, spontaneous, and exothermic under the studied conditions. The spent Co-Fe-MBC could be readily regenerated for reuse.     

高浓度DDTs污染土壤机械化学球磨试剂筛选

为了筛选DDTs(包括DDT及其衍生物——DDE、DDD)高污染土壤无害化处理的机械化学球磨试剂,以某退役DDT生产场地高污染土壤为研究对象,将不添加任何球磨试剂处理作为对照,分析添加不同球磨主剂(CaO、CaO₂和Fe粉)、球磨助剂(SiO₂、Al₂O₃)组合以及双金属(Fe-Ni、Fe-Zn)试剂对土壤中DDTs的去除效果. 结果表明:①对照处理下土壤w(DDTs)随球磨时间的延长而不断降低,8 h后降至404.0 mg/kg,仍远超过GB 5085.6—2007《危险废物鉴别标准 毒性物质含量鉴别》标准限值〔w(DDTs)为50 mg/kg〕;单一添加CaO₂处理球磨8 h后,土壤及球磨剂混合物中w(DDTs)仍为118.0 mg/kg;而单一添加CaO和Fe粉处理分别于球磨4和6 h后,土壤及球磨剂混合物中w(DDTs)低于GB 5085.6—2007标准,因此,CaO和Fe粉是较好的DDTs机械化学球磨主剂. ②与单一添加CaO处理相比,在CaO中加入球磨助剂SiO₂或Al₂O₃球磨4 h后,土壤及球磨剂混合物中 w(DDTs)由28.55 mg/kg分别显著降至18.70或17.57 mg/kg,DDTs去除率由99.16%升至99.45%或99.48%. 与单一添加Fe粉处理相比,在Fe粉中加入SiO₂或Al₂O₃球磨4 h后,土壤及球磨剂混合物中w(DDTs)由193.0 mg/kg分别显著降至54.25或69.98 mg/kg,虽然仍略超过GB 5085.6—2007标准限值,但却显示出SiO₂或Al₂O₃对机械化学去除土壤DDTs具有显著的促进作用. ③Fe-Ni和Fe-Zn双金属球磨处理4 h后,土壤及球磨剂混合物中w(DDTs)分别为27.00和4.00 mg/kg,DDTs去除率分别达到99.21%和99.88%. 因此,Fe-Zn双金属作为去除土壤DDTs的机械化学球磨试剂,具有潜在的应用前景.      

纳米Fe/Co催化降解土霉素效果及影响因素研究

为探究液相还原法制备的纳米Fe/Co催化剂的类芬顿催化效果,以单因素分析法研究了pH、OTC（土霉素）初始质量浓度、H₂O₂摩尔浓度和催化剂用量对纳米Fe/Co催化剂催化性能的影响,并通过SEM（扫描电子显微镜）和BET（比表面积测试仪）对纳米Fe/Co催化剂进行表征,进一步研究了纳米Fe/Co催化剂对OTC模拟废水的催化降解效果.结果表明:①纳米Fe/Co催化剂可以有效地改善催化体系的pH使用范围,在pH为3.0~11.0范围内,纳米Fe/Co催化剂对浓度为100 mg/L OTC的去除率（94.0%）高于纳米Fe催化剂（85.0%）;低浓度OTC有利于提高污染物的去除率,而高浓度的OTC有利于提高反应速率;H₂O₂摩尔浓度为200 mmol/L时,纳米Fe/Co催化剂对OTC的去除率最高（93.8%）;纳米Fe/Co催化剂用量为6 g/L时,其对OTC的去除率最高（92.8%）.②纳米Fe/Co催化剂粒径为20~30 nm,比表面积较高,为121.3 m2/g.③纳米Fe/Co催化剂在重复利用13次后OTC去除率仍在50.0%以上,其重复利用性能良好.研究显示,纳米Fe/Co催化剂对OTC废水具有较好的催化性能、重复利用性能以及较宽的pH使用范围,可为含抗生素废水处理提供理论支撑.      

绿色合成纳米氧化铁对污染土壤中镉的钝化研究

虽然绿色合成纳米材料已成功地用于去除废水中的重金属,但利用绿色合成纳米材料钝化土壤中重金属的报道很少.本文利用植物叶提取液制备纳米氧化铁(GION),并将其用于钝化土壤中重金属镉的研究,观察中、短培养周期下对镉钝化的稳定性.实验室条件下设置50%田间最大持水量培养,对照、1%、3%、9%GION 4个处理.分别于第60、120 d采样分析土壤中镉、pH、铁、酶等相关指标的变化.结果表明,GION对土壤中镉有较好的钝化效果,60 d与120 d之间有效态镉的含量无显著差异,说明GION对土壤中镉的钝化作用随时间增长相对稳定.120 d的数据显示,相比对照组,1%、3%、9%GION处理下有效态Cd(0.1 mol·L~(-1) CaCl_2)分别降低了19.1%、16.7%、66.7%,交换态Cd(Tessier法)分别降低了12.5%、18.8%、56.3%.GION能够显著提高土壤的pH和铁的含量.pH提高能够显著降低Cd的有效性.(NH_4)C_2O_4-Fe则分别增加了0.7、1.1、1.9倍,DCB-Fe分别增加了0.4、2.9、6.0倍.另外,随培养时间的延长,(NH_4)C_2O_4-Fe和DCB-Fe增加而HCl-Fe~(2+)含量降低.说明GION影响土壤中铁物种的活性,增强其生物化学过程而转化为更加稳定的形态,该过程将改变镉在土壤中的赋存形态.通过扫描电镜-能谱(SEM-EDS)发现,GION处理残渣态中Fe的含量远高于对照组,说明镉可能随铁进入残渣态.土壤中脲酶和转化酶活性升高而过氧化氢酶则没有显著的变化.该结果说明GION降低了土壤中镉的生物有效性,土壤得以恢复,从而提升了土壤酶活性.综上所述,GION具有环境友好的特点,且对镉具有稳定的钝化作用,可作为一种良好的中低污染重金属污染土壤的修复剂.     

水分管理对稻田土壤铁氧化物形态转化的影响及其与镉活性变化的耦合关系

稻田土壤水分管理过程中铁氧化物的形态转化对土壤镉（Cd）活性和水稻Cd累积具有重要影响.以西南地区紫色水稻土为研究对象,通过室内培养试验,探讨了淹水管理方式（持续淹水,CW;干湿交替,DW）联合铁氧化物（针铁矿,G-Fe;铁粉,Fe）施用对Cd污染土壤的pH、氧化还原性质（Eh、pe+pH）、铁氧化物形态转化和Cd有效性变化的影响,分析了水分管理驱动下铁氧化物形态转化与土壤Cd活性演变的耦合关系.结果表明CW管理可显著降低土壤Cd有效性,淹水93 d后DTPA-Cd降低了17.7%~39.2%,CW联合Fe或G-Fe施用显著提升了对土壤Cd的钝化效果,其中G-Fe短期钝化效果好,淹水14 d后DTPA-Cd的含量较对照降低24.3%,而Fe则可持续钝化土壤Cd,淹水93 d后DTPA-Cd的降幅为39.2%,干湿交替下施用铁氧化物则对土壤Cd无钝化效应.相关性分析表明,无定形铁（Fe_o）的形成（P<0.01）是驱动土壤Cd有效性变化的主要原因：CW使土壤pH逐渐降低并稳定在7.4左右,且土壤保持还原状态,促进了土壤铁氧化物由结晶态（Fe_c）向Fe_o转化,进而促使Cd由可交换态向铁锰结合态转化,并最终导致Cd有效性降低;CW联合Fe、G-Fe施用显著提升了Fe_o的含量和比例,从而强化了对土壤Cd的钝化效果.研究结果揭示了水分管理联合铁氧化物施用对稻田土壤Cd活性的调控效应和机制,为Cd污染稻田土壤安全利用中水分优化管理和含铁钝化剂施用提供了科学依据.     

广西典型岩溶区农田土壤-作物系统Cd迁移富集影响因素

为揭示岩溶区农田土壤-作物系统Cd迁移富集主要影响因素,选择广西典型岩溶区根系土-水稻籽实Cd含量及土壤pH值、有机质（OM）、氧化物含量和质地数据,通过Spearman相关性分析和主成分分析（PCA）,开展了土壤理化性质对土壤和水稻籽实Cd含量的影响研究.结果表明,相比于全国土壤背景基准值,研究区土壤中总氧化铁（TFe₂O₃）、三氧化二铝（Al₂O₃）和氧化锰（MnO）相对富集,平均含量分别为20.2%、19.0%和0.2%,且区内广泛发育Fe-Mn结核;而二氧化硅（SiO₂）相对亏损,平均含量为41.0%,呈现出典型的"脱硅富铝铁"特征,表明研究区土壤经历了较强烈的风化淋溶作用.相关性分析结果显示,土壤TFe₂O₃和MnO含量分别与土壤总Cd含量和残渣态Cd百分比呈显著的正相关性,与有效态Cd含量、水稻籽实Cd含量和Cd的生物富集系数（BCF）呈显著的负相关性.PCA分析结果也显示,土壤TFe₂O₃和MnO含量是影响土壤-作物系统Cd迁移富集的主要因素,而土壤pH值、OM和Al₂O₃含量等影响程度较小,SiO₂含量和土壤质地间接地影响土壤-作物系统Cd的迁移富集.综合研究认为,土壤在交替氧化和还原条件下所形成的新生体Fe-Mn结核对Cd具有较强的吸附和固定作用,导致Cd在残渣态中相对富集,降低了土壤Cd的活动性,因此Fe-Mn结核是研究区土壤Cd生物有效性的主要影响因素.