Mapping out the reaction network of humin formation at the initial stage of fructose dehydration in water

The formation of humins hampers the large-scale production of 5-hydroxymethylfurfural(HMF)in biorefinery.Here,a detailed reaction network of humin formation at the initial stage of fructose-to-HMF dehydration in water is delineated by combined experimental,spectroscopic,and theoretical studies.Three bimolecular reaction pathways to build up soluble humins are demonstrated.That is,the intermolecular etherification of β-furanose at room temperature initiates the C12 path,whereas the C-C cleavage of a-furanose at 130-150℃ leads to C11 path,and that of open-chain fructose at 180℃ to C11' path.The successive intramolecular dehydrations and condensations of the as-formed bimolecular intermediates lead to three types of soluble humins.We show that the C12 path could be restrained by using HCl or AlCl_(3) catalyst,and both the C12 and C110 paths could be effectively inhibited by adding THF as a co-solvent or accelerating heating rate via microwave heating.

Effects of Fe3+ and Ca2+ on sorption of phenanthrene by Humin in karst soil,Southwest China

Humin(HM) is the main organic matter component to af fect the migration and transformation of polycyclic aromatic hydrocarbons(PAHs) in soil. The study on infl uence of the morphology change of inorganic ions on the adsorption of PAHs in soil and its organic matter is still rare at microscopic scale. In this paper, yellow soil humin(YS-HM) and lime soil humin(LS-HM) were chosen as samples, then Fe^(3+) and Ca^(2+) were added into samples to facilitate the precipitation by changing the existing conditions of ions, and the mechanism by which inorganic precipitation changed adsorption capacity of karst soil was analyzed from the microscopic scale. The results showed that the adsorption capacity of HM reduced with the inorganic precipitation increasing. The precipitation of Ca^(2+)and Fe^(3+) both reduced the adsorption capacity of YS-HM and LS-HM by 61.71% and 71.83% on average, respectively. The results of scanning electron microscope-energy dispersive spectrometry(SEM-EDS) and pore analysis showed that the HM porosity decreased after formation of Ca^(2+) and Fe^(3+) precipitation. According to the value of Freundlich parameter n, it may be because the precipitation or colloid of Ca^(2+) and Fe^(3+) fi lled micropores and covers high-energy adsorption sites of the HM. This research provides theoretical support for studying the PAHs migration and bioavailability of Calcium-rich in karst soil.

泥炭土腐殖酸环境室内模拟试验研究

为能提供一种贴合天然环境的泥炭土腐殖酸环境,通过在冲洪积黏性土中掺入胡敏酸(Humic Acid, HA)试剂和富里酸(Fulvic Acid, FA)试剂人工制备泥炭土试样,并将试样浸泡在富里酸液中来模拟泥炭土腐殖酸环境。采用腐殖酸含量检测试验、扫描电镜(Scanning Electron Microscope, SEM)、X射线衍射(X-Ray Diffraction, XRD)、X射线荧光光谱(X-Ray Fluorescence spectroscopy, XRF)和无侧限抗压强度(qu)试验来评估模拟效果及可行性。结果表明,在pH值为6.0的浸泡液中浸泡90 d后,试样中富里酸实测质量分数超过了初始掺量,而胡敏酸的实测质量分数相较于初始掺量表现出波动性。试样中孔隙随着腐殖酸掺量的增加而逐渐发育连通,试样所含的原生矿物主要为石英和云母,主要元素为O、Si、Al和Fe。通过与天然泥炭土环境对比分析,揭示了模拟的腐殖酸环境在微观特征上与天然腐殖酸环境具有相似性。宏观力学试验结果表明,模拟试样的qu随腐殖酸掺量的增加而降低,对比分析显示模拟试样的力学性能与天然泥炭土的力学性能接近。以上结果表明,采用所提出的方法可以模拟出与天然泥炭土环境相近的泥炭土腐殖酸环境。

长期施用生物炭对棕壤养分及腐殖质组分的影响

【目的】研究长期施用生物炭对棕壤养分含量及腐殖质组分含量的影响,为评价生物炭在提高土壤肥力水平和调控土壤腐殖质组成及稳定性方面的长效作用提供科学依据。【方法】以生物炭田间定位试验为基础,采用随机区组设计,设置4个施炭量处理:0(CK)、15.75 t·hm^(-2)(BC1)、31.50 t·hm^(-2)(BC2)和47.25 t·hm^(-2)(BC3),分别测定生物炭施用4年和8年后土壤有机碳(SOC)、氮磷钾速效养分、氮磷钾全量养分以及土壤富里酸(FA)、胡敏酸(HA)和胡敏素(HM)含量。【结果】施用生物炭可提高SOC含量,BC1、BC2、BC3处理SOC含量较CK处理提高了37.35%—72.97%。施用生物炭显著提高了土壤速效钾(AK)含量,与CK处理相比,BC1、BC2和BC3处理土壤AK含量较CK处理分别提高了11.67—14.00、19.33—22.33和12.33—35.33 mg·kg-1。施用生物炭对土壤全氮(TN)、碱解氮(AN)、全磷(TP)、速效磷(AP)和全钾(TK)含量影响不大(除个别处理)。施用生物炭显著提高了土壤HA、可溶性腐殖质(HE)和HM含量。与CK处理相比,BC1、BC2和BC3处理土壤HA含量分别提高了39.68%—40.91%、30.91%—50.79%和34.55%—57.14%。BC1、BC2和BC3处理土壤HE含量较CK处理分别提高18.02%—29.74%、16.81%—30.48%和15.92%—24.91%。与CK处理相比,BC1、BC2和BC3处理土壤HM含量分别提高了48.39%—58.94%、13.57%—89.23%和82.36%—105.82%。施用生物炭4年后对土壤FA含量无显著影响,但施用生物炭8年后显著提高了土壤FA含量,BC1、BC2和BC3处理较CK处理分别提高了22.01%、30.19%和18.24%。在2016年,各施炭处理提高了土壤HA/HE和HA/FA,但降低了HE/HM,但在2020年,仅BC1处理显著提高了土壤HA/FA,BC3处理显著降低了HE/HM。通过冗余和相关分析表明,SOC、TK、AK、TP和AP与腐殖质组分含量存在显著的正相关关系;SOC和TK与土壤腐殖质的稳定性呈显著正相关关系,但土壤SOC、AK、TP和AP与土壤腐殖质的活性呈显著负相关关系。【结论】长期施用生物炭可改善土壤养分状况,主要表现在提高SOC和AK含量;长期施用生物炭可提高土壤腐殖质组分的含量,主要表现在提高土壤HA和HM含量,但对土壤腐殖质稳定性的影响会随时间推移被减弱;土壤养分含量与土壤腐殖质组分含量及稳定性存在显著正相关关系。

丙酮盐酸混合液提取土壤腐殖质组分的光谱学特征

采用丙酮盐酸混合液提取土壤胡敏酸(HA)和胡敏素(HU)组分,利用元素分析、紫外-可见漫反射光谱和红外光谱进行结构表征。元素分析表明,HA中C、H、N和S含量均高于HU,O含量低于HU。原子比分析表明HA的缩合度相对较高,分子结构相对复杂,HU的缩合度相对较低,分子结构相对简单。紫外-可见漫反射光谱分析表明,由于腐殖质(HS)的组成复杂,多种官能团互相干扰,HA和HU紫外-可见漫反射光谱无明显特征峰,吸光度值随着波长的增加呈下降趋势,且HA包含的吸光有机成分较多,化学组成较复杂。HA和HU紫外特征参数SUV254和E4/E6比较分析表明,与HU相比,HA芳香性较大,腐殖化程度较高。红外光谱分析表明,HA和HU具有相似的红外光谱,各研究对象特征吸收峰的吸收强度不同,其中开垦黑土20~40 cm和未开垦灰土18~37 cm土层HA的振动幅度较大,说明其包含的酚类化合物、含羟基化合物、脂肪族化合物和羧酸,以及含羰基的醛、酮、醚等化合物的含量较多。开垦黑土10~20 cm土层和未开垦灰土18~37 cm土层HU在各特征吸收峰振动幅度较大,说明其包含的酚类化合物、羧酸、脂肪烃和糖类化合物含量较多。红外光谱各吸收峰强度比较分析表明,开垦后黑土HA和HU酚类化合物、羟基官能团和脂肪族化合物等含量增加,而开垦后灰土HA和HU酚类化合物、羧酸和脂肪族化合物含量下降,表明开垦对黑土土壤有机质影响相对较小,并且在一定程度上增加了土壤有机质含量,而促进了灰土土壤有机质的分解。综上所述,丙酮盐酸混合液提取法为HS生物化学和生理活性的研究提供了新的技术手段,为合理利用土壤资源提供理论依据。

胡敏素对土壤-水稻系统砷镉迁移转化的影响效应与机制

砷(As)和镉(Cd)在稻米中积累导致人体健康风险的问题已经引起全球范围的广泛关注。水稻生长过程中不同的水分管理和有机质的添加对水稻吸收砷和镉有重要的影响,但其中的机制还未被系统阐述。因此,本文主要探究了不同水管理条件下添加腐殖质对水-土-铁膜界面砷和镉含量及形态变化的影响,结果发现淹水还原条件下胡敏素的添加能进一步促进砷的还原,增加水稻各部分对砷的积累。然而,加入胡敏素后能促进镉的固定,进一步减少水稻各部分对镉的积累。

Extraction and Characterization of Humic Acids and Humin Fractions from a Black Soil of China

Twenty-three progressive extractions were performed to study individual humic acids (HAs) and humin fractions from a typical black soil (Mollisol) in Heilongjiang Province, China using elemental analysis and spectroscopic techniques. After 23 HA extractions the residue was separated into high and low organic carbon humin fractions. HA yield was the highest for the first extraction and then gradually decreased with further extractions. Organic carbon (OC) of the humin fractions accounted for 58% of total OC …

Characteristics of humin fractions associated with inorganic minerals obtained by NaOH,and NaOH assisted with anthraquinone extraction procedures

The differences in XRD patterns, elemental compositions, FT-IR spectra and TG-DSC curves of extract residues obtained by NaOH, and NaOH assisted with anthraguinone （AQ） extraction procedures were studied. The extract residues are mainly comprised of humin fractions associated with inorganic minerals. XRD analysis shows that there is no typical peak of organic carbon because those organic humin fractions appear as a highly disordered substance. The peak of quartz is dominant. The elementary analysis shows that assistant AQ in NaOH solution can break the link of organic humic substances with inorganic minerals. And aromatization degree of humin fractions obtained by NaOH is smaller than that obtained by NaOH assisted with AQ. FT-IR analysis displays that various groups exist in those two humin fractions obtained by different extraction procedures. There are some differences in FT-IR curves between two humin fractions. TG-DSC analysis shows that thermal decomposition occurs during the heating of testing samples. By contrast, the humin fractions associated with inorganic minerals obtained by NaOH possess a higher thermal decomposition range.

Adsorption mechanism of Cd(Ⅱ)by calcium‑modifed lignite‑derived humin in aqueous solutions

Lignite-derived humin(CHM)was extracted from raw coal in Heihe City,China,producing calcium-modifed lignite-derived humin(Ca-CHM)by Ca(OH)_(2).The physical and chemical performances of CHM and Ca-CHM were analyzed with SEM,^(13)C spectra and XPS techniques.The results show that Ca-CHM exhibited weaker aliphatic,more aromatic polar compared with CHM,which improves the adsorption capacity for Cd(Ⅱ).XPS analysis indicates that Ca(Ⅱ)has been loaded onto Ca-CHM successfully after modifcation.This batch adsorption experiments report the adsorption performance of CHM and Ca-CHM for Cd(Ⅱ).The adsorption process of CHM and Ca-CHM for Cd(Ⅱ)conform to pseudo-second-order model,which is chemical adsorption,and the adsorption data presented good fts to the Langmuir model.The maximum adsorption amount(Q_(m))of Cd(Ⅱ)onto CHM and Ca-CHM by the Langmuir model is 15.29 mg/g and 41.84 mg/g,respectively.Based on the results of SEM,^(13)C spectra,and XPS analysis,we concluded that the main adsorption mechanism of Ca-CHM on Cd(Ⅱ)was ion exchange of Cd(Ⅱ)for Ca(Ⅱ),static-adsorbed and surface complexation.Therefore,Ca(Ⅱ)can be loaded on the surface of Ca-CHM by chemical modifcation,improving the adsorption capacity of materials in aqueous solutions.

Catalytic hydrotreatment of humins into cyclic hydrocarbons over solid acid supported metal catalysts in cyclohexane

Humins are common undesirable sideproducts during many acid-catalyzed reactions in renewable biomass platform conversion. However, few studies have been reported to the efficient utilization of humins.For the first time, the selective catalytic conversion of biomass-derived humins into cyclic hydrocarbons with high conversion rate and selectivity is presented using a home-made Ru/W-P-Si-O bifunctional catalyst. The multistage polymerization structure of humins was studied through controlled experiments.Results show that the CAC bond network can be efficiently depolymerized at a mild reaction temperature of 340–380 °C, catalyzed by the cooperative catalysis of nano-Ru particles and porous strong Lewis solid acid. Particularly, 95.4% conversion of humins was achieved under the optimal condition with up to 88.3%yield of cyclic hydrocarbons. The detailed composition after liquefaction was also analyzed. This study paves the way for the efficient production of cyclic and aromatic hydrocarbons from furan-derived humin polymer through Lewis acid-catalyzed Diels–Alder reactions between furan rings.

Characterization of Soil Humin by Acid Hydrolysis

Studies were conducted to characterize soil humin by acid hydrolysis. Two humin samples collected from two different types of soil, namely chernozem and laterite, which are widespread over a vast area from the north to south of China, were hydrolyzed under reflux with 0.5M H\-2SO\-4 or 3M H\-2SO\-4 for 4 h. The results showed that \{25%-29%\} of organic carbon and \{46%-54%\} of organic nitrogen could be hydrolyzed by \{0.5M\} H\-2SO\-4; \{36%-40%\} of organic carbon and \{93%-97%\} of organic nitrogen hydrolyzed by 3M H\-2SO\-4. The C/N ratio in hydrolyzed organic matter is lower than that in soil humin and that in organic matter hydrolyzed by 3M H\-2SO\-4 is lower than that in organic matter hydrolyzed by \{0.5M\} H\-2SO\-4. The proportion of nitrogen hydrolyzed from humin is markedly larger than that from the original soil and also markedly larger than that from humic acid fraction. Only \{3%-7%\} of nitrogen in humin exists in a relatively stable form, which is not easy to hydrolyze. There is little nitrogen that occurs in the form of heterocyclic rings in humin. Incubation experiments showed that the newly formed organic matter can be hydrolyzed more easily.

胡敏素-锰氧化物复合材料对铅的吸附特征研究

以矿源煤基胡敏素(Humin,HM)为基体,用不同浓度KMnO_(4)溶液制备改性胡敏素材料胡敏素-锰氧化物复合材料(HMM),考察了HMM用量、初始pH对重金属的吸附效果影响;利用吸附动力学和吸附等温线以及扫描电镜(SEM)、红外光谱(FT-IR)等对其进行表征分析,探索了HMM对重金属的吸附机理。结果表明,HM表面负载MnO_(x)后增加了HM的表面吸附位点,随KMnO_(4)浓度的升高,HMM对Pb^(2+)吸附效果略有升高,吸附动力学遵循准二级动力学模型,化学吸附占主导作用;吸附等温线符合Langumir模型方程,0.05HMM对Pb^(2+)的最大吸附量Qm为397.911 mg/g,是HM的2.5倍;通过改性提高了HM对Pb^(2+)的吸附能力以及吸附的稳定性。

金属元素Ni和V吸附作用对胡敏素结构的影响

贵州下寒武统牛蹄塘组黑色页岩富集了以Ni、V为主的伴生元素,并且富有机质,目前金属元素Ni、V与有机质的共富集机制尚不清楚,但有机质在金属离子的富集、迁移和转化的过程中具有重要作用。探究金属元素作用对有机质结构的影响有助于准确地认识有机质和金属元素的共富集机制。本文以胡敏素为研究对象,分别与Ni、V两种金属标准溶液混合后恒温振荡,通过元素组成、X射线光电子能谱(XPS)和固体核磁共振碳谱(^(13)C-NMR)由表到里揭示金属溶液作用前后胡敏素结构的变化特征。结果表明:胡敏素的元素组成以C、O为主,Ni、V两种金属溶液作用后,均造成胡敏素中O和S元素的相对含量减少,C和N元素的相对含量增加。XPS测试显示,胡敏素表面的C元素主要以芳香碳形态赋存,O元素则主要以羟基氧形态赋存;对于不同赋存形态的C元素,Ni、V金属溶液作用后对其影响趋势一致,均使芳香碳、羟基碳和羰基碳减少,主要破坏芳香碳(C-C/C-H)单键;而对于不同赋存形态的O元素,Ni金属溶液作用后则使羟基氧和羧基氧减少,使其中的富氢富氧官能团脱出,V金属溶液作用后则使羰基氧和羧基氧减少,破坏其中的羰基双键(C=O)。^(13)C-NMR测试显示,作用前后的胡敏素有机质芳香结构主要以单环或者双环结构存在,两种金属溶液均能使氧接芳碳(f^(P)_(ar))和桥接芳碳(f^(B)_(ar))中的富氧富氢官能团从芳环中脱出、胡敏素中脂链长度变短、有机碳的稳定性降低、活性有机碳含量减少以及疏水程度变小。通过对比分析表明,胡敏素对Ni、V金属元素具有一定的氧化能力,两种金属溶液作用后均能使胡敏素中C、O元素的赋存形态发生改变,Ni金属溶液主要影响脂肪碳结构,V金属溶液则主要影响芳碳结构。

上海市沪闵高架快速路大修施工期间交通组织研究

沪闵高架大修是2021年“迎七一”交通保障的重要项目之一,需在确保项目按时完工的前提下,最小化封道期间的交通不利影响。将研究对象按工程特性分为“一般路段”和“特殊节点”2类。“一般路段”所需施工时间较短,在现行日常养护10 d一周期封闭的基础上,创新性提出5 d为一周期封闭一侧、一段的方法,以减少封闭区长度;对于“特殊节点”存在长时间、连续作业的施工要求,以定量数据为支撑,制定前后翻交的精细化交通组织方案,并通过仿真分析不同阶段施工期间交通影响,提出相应施工期间交通组织的配套措施。沪闵高架快速路大修施工封道交通组织研究是对现状日常封道施工交通组织的一次创新探索,也为其他类似项目的实施提供一定借鉴。

土壤胡敏素各组分数量及结构特征初步研究

土壤胡敏素(HM)是与矿物质紧密结合的腐殖物质,具有碱不溶性及大分子结构的特性,并呈现不均一性,被认为是土壤中的惰性物质。由于HM的非溶解性和结构复杂性,目前国内外学者对于HM结构特征的研究还很少。对加入大量有机物料培养后新形成的HM数量及性质的研究尚未见报道。本研究选用风沙土、草甸土、黑土、黑土底土加玉米秸秆培养土为材料,根据Pallo分组法,将土壤HM分为铁结合胡敏素(HMi)、粘粒结合胡敏素(HMc)和不溶性胡敏素(HMr)三个组分;对自然土壤中HM各组分以及加入玉米秸秆后新形成的HM各组分的数量及结构特征进行初步研究,为丰富腐殖质化学提供基础性资料。实验结果表明:在自然土壤HM各组分中以HMr为主,其次是HMi,含量最少的是HMc。通过HMi和HMc的光学性质比较得出HMi的分子结构较简单,HMc分子结构相对较复杂,加玉米秸秆培养后新形成的HMi、HMc的分子结构比自然土壤中的简单。红外光谱结果表明,与自然土壤相比加玉米秸秆培养后新形成的HMi、HMc的脂族性最强,自然土壤中HMi、HMc的脂族性强弱顺序为:风沙土>黑土>草甸土。

土壤有机质级份的红外和热重特性

用红外分析(FTIR)和热失重分析法对从三种不同利用方式下的黄泥土中提取出的FA,HA及用酸性二甲基亚砜(DMSO)和HF HCl两种方法提取胡敏素的元素组成及结构特征进行分析,结果表明:胡敏素占腐殖质总碳的60—70%,FA和HA分别占10%和15%左右;不同利用方式下土壤的DMSO humin,HF humin1,HF humin2在波数2930/1640处的吸收强度比分别为1.18—1.44,0.32—0.43,0.37—0.41;DMSO humin在78—86℃和264—282℃出现了主要的失重峰,HF humin1和HF humin2的主要失重峰在333—338℃和438—458℃之间,FA和HA的主要失重峰分别在300℃和359℃左右,说明用DMSO提取的胡敏素脂肪族类物质较多,缩合程度较低;而用HF HCl提取的则含较多的芳香族类物质,缩合程度较高.

胡敏素对Pb^(2+)吸附的响应面优化及机理

采用Box-Behnken响应面优化实验设计对胡敏素吸附去除水中Pb^(2+)的过程进行了优化,设定吸附时间、吸附剂用量、pH值、温度和Pb^(2+)初始浓度5个影响因素,建立了吸附率与上述因素之间的二次多项式模型,确定了最优吸附条件,对吸附过程的等温模型、热力学特性及吸附机理进行了研究.研究表明吸附剂用量、pH值、温度和Pb^(2+)初始浓度为显著因素.胡敏素对Pb^(2+)吸附的最优条件为:吸附时间85min、投加量1.2g/L、pH=4.7、温度44.5℃、Pb^(2+)初始浓度202mg/L.最优条件下,实测Pb^(2+)吸附率可达92.59%.胡敏素对Pb^(2+)的吸附符合Langmuir等温线方程,最大吸附量为170.28mg/g;计算得知胡敏素吸附Pb^(2+)的热力学状态函数ΔG^0、ΔS^0和ΔH^0分别为-29.30^-24.21k J/mol、126.70J/(mol·K)和13.59k J/mol,吸附过程为吸热过程.胡敏素表面的羰基、羟基、氨基和羧基等活性基团可以和Pb^(2+)发生配位络合作用,Ca、Na和Mg等离子与Pb^(2+)发生离子交换作用.研究结果表明,胡敏素作为一种极具潜力的绿色廉价吸附剂,可用于处理含Pb^(2+)废水.

土壤粗胡敏素对铜离子的吸附作用及其影响因素

以暗棕壤为供试土壤,应用批量平衡法,研究了不同pH、离子强度、温度、Cu2+浓度和反应时间条件下,粗胡敏素(CHM)对Cu2+的吸附作用,并与相应胡敏酸(HA)的吸附作用进行了比较.结果表明:pH为2～4时,CHM对Cu2+的吸附率较低;随着pH的提高,吸附率增大;pH=7时,吸附率接近100%.随离子强度(0.01～1.00mo·lL-1)增加,CHM对Cu2+的吸附量下降,其对Cu2+的吸附包括电性和专性吸附2种作用.随温度(25～45℃)的升高和Cu2+浓度(0～1000mg·L-1)的增加,CHM对Cu2+的吸附量增加,并与Langmuir方程拟合程度最好,25℃和45℃时的最大吸附量分别为12.61mg·g-1和14.31mg·g-1·CHM对Cu2+的吸附动力学过程可划分为快速(0～120min)和慢速(120～1440min)反应阶段,抛物线扩散方程拟合效果最好.与HA相比,CHM对Cu2+的吸附规律与HA相似,但其吸附量低于HA;表观热力学参数(ΔG、ΔH、ΔS)表明,CHM对Cu2+的吸附是自发、吸热和熵增加的过程,Cu2+在CHM上的吸附力大、活动性小、不易解吸,而在HA上的吸附力小、活动性大、容易解吸;活化能(E)和活化热力学参数(ΔG#、ΔH#、ΔS#)表明,CHM对Cu2+吸附所需能量多、活化熵高、吸附速率小,而HA对Cu2+吸附所需能量少、活化熵低、吸附速率大.

土壤胡敏素研究进展

土壤有机质是土壤的重要组成部分,在土壤肥力和生态环境等方面都具有重要作用。作为土壤有机质主体的腐殖物质的研究,一直受到各国学者的普遍重视。在土壤腐殖物质3组分中,以往的研究主要集中于可溶性的胡敏酸和富里酸,而对不溶性的胡敏素则较少涉及。从分离、结构和作用3个方面,综述了土壤胡敏素的研究现状和最新进展,并对今后的研究方向进行了展望,以促进胡敏素研究的继续深入开展。提出近期的研究重点主要包括:(1)比较不同分离方法获得的土壤胡敏素的差异,以达到方法上的可比性和统一性,同时提出更适宜的分离方法;(2)通过多种分析测试手段的相互补充验证,以获得对土壤胡敏素结构本质更加明确、清晰和深入的认识;(3)加强土壤胡敏素肥力和环境作用的研究,尤其应重视从分子水平上探明其构效关系,为生产实践和应用提供理论依据。

腐殖质与铀和超铀元素相互作用的研究进展

腐殖质是一类广泛存在于自然界中的高分子有机化合物,能与放射性核素相互作用,从而影响其在自然环境中的化学形态、迁移沉降、氧化还原行为等。本文介绍了目前国内外关于腐殖质与铀和超铀元素相互作用的研究现状和进展,并对存在的问题及今后的发展方向进行了初步讨论。