氧化/磺化腐殖酸对潮土中Cu、Zn、Fe、Mn有效性的影响

【目的】研究比较改性腐殖酸对潮土微量元素有效性的影响及其作用机理,以期为开发提高微量元素有效性的专用腐殖酸功能材料提供科学依据。【方法】采用土壤培养法,将腐殖酸 (HA)、氧化腐殖酸 (YHA) 和磺化腐殖酸 (SHA) 分别按30、100、300 mg/kg用量与干土混匀装入培养瓶中,调节含水量至田间持水量的60%,置于25℃人工气候箱中进行恒温培养,并保持土壤湿度恒定。分别在培养第3、7、15、30、60天取样,测定土壤有效铜、锌、铁、锰含量。【结果】三种腐殖酸对土壤Cu、Zn、Fe、Mn有效性的影响大小依次为HA>YHA>SHA。施用30～300 mg/kg 腐殖酸 (HA) 可显著提高土壤有效铜含量,特别是在15～30天内,土壤有效铜含量提升幅度可达51.3%,明显优于氧化腐殖酸和磺化腐殖酸;施用三种腐殖酸30～300 mg/kg可在15天内增加土壤有效锌含量,其中以腐殖酸 (HA) 效果最好,土壤有效锌含量增幅可达11.8%～20.3%,优于氧化腐殖酸、磺化腐殖酸;30～100 mg/kg用量下,施用腐殖酸 (HA) 可在15天内使土壤有效锰含量提升5.6%,效果优于氧化腐殖酸和磺化腐殖酸,300 mg/kg用量下,磺化腐殖酸可使土壤有效锰含量提升13.6%;施用30～300 mg/kg的腐殖酸 (HA) 一周后,土壤有效铁含量提高4.3%～7.2%,磺化腐殖酸或氧化腐殖酸用量分别在30 mg/kg和300 mg/kg时可提高土壤铁有效性。【结论】施用腐殖酸可显著提升潮土铜的有效性,但对潮土锌、锰、铁有效性的影响呈现出阶段性变化,不同结构腐殖酸对潮土微量元素有效性的影响差异较大,以HA对元素有效性的影响最大。因此,腐殖酸应用于提升微量元素有效性时,需考虑腐殖酸本身性质及施用时期等因素。     

Oxidative Degradation of EDTA in Aqueous Solution by the Bimetallic Fe–Cu

Water, Air, &; Soil Pollution - The sorption behaviors of brilliant blue FCF dye by natural clay and modified with iron chloride were determined. The materials were characterized by X-ray...     

外源油菜素内酯介导Cu胁迫下番茄生长及Cu、Fe、Zn的吸收与分配

为了探索外源油菜素内酯对番茄Cu胁迫的缓解效应及机理,采用营养液水培的方法,以‘改良毛粉802F1’番茄为材料,研究外源2,4-表油菜素内酯(2,4-EBR,简称EBR)对Cu胁迫下番茄生长及矿质元素吸收的影响。结果表明:外源EBR能够缓解Cu胁迫对番茄植株的生长抑制。与Cu胁迫处理相比,喷施EBR的番茄叶绿素含量和生物量分别提高39.6%和20.0%,差异均达显著水平;Cu胁迫条件下,外源EBR显著降低番茄根系对Cu的吸收与转运,提高叶片中因Cu过多而降低的Fe、Zn含量,有效调控Cu、Fe、Zn的化学提取态和亚细胞分布水平,降低Cu在细胞内的生物毒性,使之向着有利于番茄生长的方向发展,从而保证Cu胁迫下植株正常的生理生化代谢。Cu胁迫提高了番茄叶片和根系各种化学形态的Cu含量,而外施EBR降低了番茄叶片中除NaCl提取态Cu以外的其他各种形态Cu含量。Cu胁迫下易移动态Cu在叶片中的比例升高,而根系中却下降;外施EBR后,番茄植株中难移动态和易移动态Cu的所占比例接近CK,说明Cu胁迫下EBR对Cu的番茄体内分配具显著调控作用。     

三江平原白浆土中Fe、Mn、Cu和Zn生物有效性的研究

在三江平原上,测定 42 个小区中玉米、大豆、小麦籽实 Fe、Mn、Cu 和 Zn 含量和土壤中各形态 Fe、Mn、Cu 和Zn含量.通过相关分析和通径分析,探讨了土壤中各形态Fe、Mn、Cu 和 Zn 的生物有效性,旨在为该地区合理施用微量元素提供科学依据.试验结果表明,玉米、大豆和小麦籽实含 Fe、Mn、Cu 和 Zn 量与土壤中有效态和交换态 Fe、Mn、Cu和Zn含量呈显著或极显著正相关.有机态 Fe、Mn、Cu 和 Zn含量与玉米、大豆和小麦籽实Fe、Mn、Cu 和 Zn含量也有很好的相关关系.交换态对有效态 Fe、Mn、Cu 和 Zn 影响最大,其次是有机质结合态.铁锰氧化物结合态 Fe、Cu 对有效态 Fe、Cu 及碳酸盐结合态 Mn、Zn 对有效态 Mn、Zn 具有一定正效应.而残留态 Fe、Cu 对有效态 Fe、Cu 和铁锰氧化物结合态 Mn 对有效态 Mn 产生负效应.     

Peroxicoagulation and Solar Peroxicoagulation for Landfill Leachate Treatment Using a Cu–Fe System

Leachates, particularly those from mature landfills, are difficult to treat by biological processes because of their high toxicity and low biodegradability. Therefore, the development of new treatment technology is necessary. The treatment of landfill leachate by peroxicoagulation and solar peroxicoagulation using a batch electrolytic reactor with a Fe cathode and a Cu anode is proposed. The tested operational variables included pH (2.8 and 8.2), current density (11 and 16 mA cm^?2), treatment time (5, 10, 15, 20, 25, and 30 min), and presence of solar ultraviolet (UV) light and were collected using a compound parabolic collector. The optimum conditions were a pH, current density, and treatment time of 2.8, 16 mA cm^?2, and 10 min, respectively. The presence of UV did not have a significant effect. The chemical oxygen demand and biochemical oxygen demand removed were 62.3% and 55.5%, respectively. The results of UV-visible absorption, fluorescence, and Fourier transform infrared spectroscopy measurements confirm the oxidation process.     

Cu/Pb/Zn/Cd在石英砂中的迁移实验及模拟

通过稳定流混合置换实验,研究了孔隙水流速和pH变化对Cu/Pb/Zn/Cd在石英砂中迁移行为的影响,获得了示踪剂Br-和Cu/Pb/Zn/Cd的穿透曲线(BTCs);并通过室内批量平衡实验获得吸附系数,进而计算出阻滞因子Rd。基于这些实验结果,借助CXTFIT2.1软件,用平衡CDE模型拟合了Br-的BTCs,得到了弥散系数D;在此基础上应用CDE非平衡模型拟合Cu/Pb/Zn/Cd在不同流速和pH条件下的BTCs,并预测了平行实验和不同埋深处Cu/Pb/Zn/Cd浓度的动态变化。结果表明,Cu/Pb/Zn/Cd的迁移能力随流速的增大而增强,而随pH的增大而降低;化学非平衡的两点模型能较好地模拟本文实验条件下Cu/Pb/Zn/Cd的迁移过程。     

Factors affecting DTPA‐extractable Zn,Fe, Mn,and Cu from soils

Abstract

Tests were made to determine the effects of grinding, type of extraction vessel, type of shaker, speed of shaking, time of shaking, time of filtering, soil to solution ratio and other variables on DTPA‐extractable Zn, Fe, Mn, and Cu from soils.

Time of grinding, force of grinding, and the quantity of soil being ground greatly affected the amount of extractable Fe. At the lower grinding force, the quantity of soil being ground only slightly affected extractable Fe, but at the higher grinding force, more Fe was extracted from the smaller sized samples especially at the longer grinding period. Extractable Zn was also increased by longer grinding time and greater grinding force, but increases were much less than increases for Fe. Increasing grinding time tended to increase extractable Mn. The effects of grinding on Cu was inconclusive. Increasing the ratio of extractant to soil increased the amount of extractable Fe from soils and tended to increase Zn, Mn, and Cu but to a lesser extent. Both shaker speed and type of extracting vessel affected the ex‐tractability of all nutrients except Cu. Greatest differences between extracting vessels occurred at the lowest shaker speed, while these differences were smaller or disappeared at the higher shaker speeds. The more thorough the mixing of soil and extracting solution, the higher were the levels of extractable Fe and Mn. A reciprocal shaker extracted more Fe and Mn from soils than a rotary shaker. The rate of dissolution of all four nutrients by DTPA was greatest during the first 5 minutes of extraction. There were large and significant correlation coefficients between levels of nutrients extracted after 15 or 30 minutes of shaking and those extracted after 120 minutes. The findings indicate that the levels of micronutrients extracted under one set of conditions can be related to levels extracted under other conditions by use of a simple linear regression equation for each nutrient.

The results of this study demonstrate the importance of standardizing the methods of preparation and extraction of soils used in the DTPA micronutrient soil test. A standard method for soil grinding and extraction is proposed for DTPA soil test.     

甘肃主要农业土壤中Cu、Zn、Mn、Fe的形态及有效性研究

本文对甘肃省主要农业土壤中Ｃｕ、Ｚｎ、Ｍｎ、Ｆｅ的形态及其有效性进行了研究。结果表明，供试土壤的全Ｃｕ含量范围为２２－２４ｍｇ／ｋｇ，全Ｍｎ为５４２－７７２ｍｇ／ｋｇ，全Ｆｅ为３５６８５－３８３５５ｍｇ／ｋｇ。四种元素均以灌漠土的含量最低，褐土最高。土壤中Ｃｕ、Ｚｎ、Ｍｎ、Ｆｅ的大部分以残留矿物态和氧化铁结合态存在。生物试验和统计分析表明，Ｃｕ、Ｚｎ、Ｍｎ、Ｆｅ的交换态和松结有机态对植物最为有效，     

西昌市土壤Fe、Mn、Cu、Zn有效性评价及其影响因素分析

在分析西昌市土壤微量元素Fe、Mn、Cu、Zn有效含量状况及其分布特征的基础上,从成土母质、土地利用方式、有机质和pH等4个方面探讨其对土壤微量元素有效含量的影响。结果表明:西昌市土壤有效Fe含量丰富,有效Cu和Zn略低且分布不均,有效锰有32.18%的土壤缺乏。成土母质是重要的影响因素,第四纪紫色洪冲积物发育的土壤Fe、Mn、Zn有效含量较高,二迭纪岩浆岩洪冲积物发育的土壤有效Cu含量较高,坡残积物发育的土壤4种微量元素有效态含量均较低;水田土壤各元素有效含量均大于旱地;有机质与有效Fe、Cu间显著正相关;pH值在中性偏碱时,有效Cu和Zn含量较低。     

黄土高原地区长期施用微肥土壤Cu、Zn、Mn、Fe含量的时空变化

以19年微肥定位试验为基础,研究了长期施用微肥条件下冬小麦土壤Cu、Zn、Mn、Fe含量的时空变化。结果表明,长期施用微肥能增加土壤耕层相应微量元素含量,施铜肥的土壤耕层有效Cu含量增加5倍以上;施锌肥的土壤耕层有效Zn含量增加3.58倍。从剖面变化看,不同处理土壤有效Cu的变化趋势一致,且耕层以下各土层有效Cu含量低于耕层,土壤有效Zn的变化趋势与之相似;土壤有效Mn在80cm土层含量较高,80cm以上以及下面的土层中Mn含量明显低于80cm土层,在土壤剖面上有效Mn存在淋溶和累积现象。施用不同微肥对土壤有效Fe含量的影响各不相同。     

黄土和塿土中Fe, Mn, Cu和Zn向植物根部移动的机理

The pot experiments were conducted in the artificial climate laboratories to determine the relative importance of mass flow and diffusion in supplying Fe, Mn, Cu and Zn to wheat, soybean and maize plants growing in loessal soil and lou soil. It was found that the calculated relative contribution of mass flow of iron, manganese, copper and zinc to plant uptake varied from 5% to more than 100%, depending on the crop species and soil types as well as plant growth stage, soil moisture, atmosphere humidity, etc. The results also showed that the major transportation mechanisms of these micronutrients in soil-root system varied with the crop and its growth, climate and soil, significantly. In general, mass flow was more important for Cu and Zn and diffusion was more significant for Fe and Mn at the seedling stage.     

Effects of Several Metals on Both Fe(III)‐ and Cu(II)‐Reduction by Roots of Fe‐Deficient Cucumber Plants

Abstract

The ferric‐chelate reductase induced by Fe deficiency is also able to reduce other ions such as Cu²⁺. This Cu(II)‐reduction has been less studied and it has been suggested that Cu²⁺ ion rather than Cu²⁺‐chelate serves as the substrate. Ferric‐chelate reductase activity is inhibited by some metals, but the mechanisms implicated are not known. In the present work we use Fe‐deficient cucumber seedlings to study the interactions of Cu²⁺, Ni²⁺, Mn⁴⁺, and Fe³⁺ on both Fe(III)‐reduction and Cu(II)‐reduction activities. The response of Cu(II)‐reduction activity to Cu concentration, in the presence or absence of citrate, was also studied. Results showed that inhibition of the ferric‐chelate reductase activity by Cu²⁺ or Ni²⁺ could be partially reversed by increasing the concentration of Fe‐EDTA. The Cu(II)‐reduction activity was even stimulated by Fe‐EDTA or Ni²⁺; it was inhibited by a high concentration of Cu²⁺ itself; and it was not affected by the absence of citrate. Mn⁴⁺ caused a moderate inhibition of both Fe(III)‐reduction and Cu(II)‐reduction activities. Results agree with the hypothesis that free Cu²⁺ ion is the substrate for Cu(II)‐reduction and suggest that the mechanisms involved in Fe(III)‐reduction and Cu(II)‐reduction could have some differences and be affected by metals in different ways. The mode of action of metals on the reductase activity are discussed, but they are still not well known.     

旋耕刀Fe/WC/CeO2等离子堆焊层制备及其组织性能

针对农业触土部件因耐磨性能差、冲击韧性低而导致刀具寿命短、失效频繁等问题,采用等离子堆焊技术在Q235钢基材上成功制备了Fe/WC/CeO2金属陶瓷复合涂层,分析了CeO2对Fe/WC/CeO2金属陶瓷复合涂层性能的影响及其对涂层的作用机理。以堆焊电流、堆焊速度、送粉速率、堆焊距离为试验因素,磨损量为评价指标,通过正交试验优化了Fe/WC/CeO2等离子堆焊层制备工艺参数：堆焊电流50 A,堆焊距离5 mm,堆焊速度15 cm/min,送粉速率25 g/min。利用扫描电子显微镜、X射线衍射仪、能谱仪分析了堆焊层显微组织、物相组成,采用维氏显微硬度计、摩擦磨损试验机、冲击试验机、土槽试验台等测试了堆焊层显微硬度、耐磨性和冲击韧性,利用电化学工作站分析了堆焊层的耐蚀性。结果表明,堆焊层与基体呈良好的冶金结合,涂层主要有鱼骨状、长杆状、球状、六方形状等组织构成,堆焊层主要由γ-Fe、Fe-Cr-Ni固溶体、WC、M7C3、Cr7C3、Cr23C6、W2C等物相组成。与Fe/WC堆焊层相比,Fe/WC/CeO2堆焊层平均显微硬度提高22%,冲击韧性提高29%,耐蚀性提高15%。土槽试验与田间试验表明,与65Mn旋耕刀相比,Fe/WC/CeO2堆焊层旋耕刀的磨损量分别降低71%和65%;与Fe/WC堆焊层旋耕刀相比,Fe/WC/CeO2堆焊层旋耕刀的磨损量分别降低17%和15%。Fe/WC/CeO2堆焊层具有较好的耐磨、耐蚀和耐冲击综合性能,研究结果可为犁铧、深松铲等农业触土部件强化提供参考。     

Cd/Cu/Pb对磺胺嘧啶在土壤中吸附迁移的影响

通过室内批平衡实验和土柱出流实验,探讨了不同浓度镉(Cd)及相同浓度的Cd、铜(Cu)、铅(Pb)对磺胺嘧啶在土壤中吸附、迁移的影响,并分别用Freundlich、Langmuir、Linear方程及Hydrus-1D中的单点和两点吸附模型模拟其在土壤中的吸附、运移过程。结果表明:当Cd浓度为10.0mg·kg~(-1)时促进磺胺嘧啶的吸附;Cd浓度为1.0、300.0mg·kg~(-1)时抑制磺胺嘧啶吸附;Cd浓度为100.0 mg·kg~(-1)时对磺胺嘧啶的吸附无影响;300 mg·kg~(-1)的Cd、Cu、Pb存在时,磺胺嘧啶吸附量大小顺序为:CdCuPb。土柱出流实验中,当Cd浓度为10.0mg·kg~(-1)时,磺胺嘧啶在土柱中的迁移速度最慢,其他浓度对迁移影响不明显;Cd、Cu、Pb相比较而言,Cu存在时磺胺嘧啶的迁移最快,Cd存在时迁移最慢。在对静态吸附特征的拟合过程中,Linear方程拟合效果最好,决定系数R~2均在0.98以上;Hydrus-1D模拟时,两点模型可更好地拟合磺胺嘧啶的运移特征,R~20.907,均方根误差RMSE0.051,瞬时吸附f所占分数较高,说明磺胺嘧啶在迁移过程中存在较大程度的瞬时吸附。     

不同pH/离子强度时Cu/Cd复合污染土壤解吸和迁移特征

重金属污染土壤在用固化/稳定化技术修复后,若外部环境发生变化,失去活性的重金属会否再次释放出来并在土壤中迁移,造成污染风险,是一个值得探讨的重要科学问题。为揭示不同化学因素对污染土壤中重金属活化及迁移过程的影响,通过室内土柱实验,研究了不同离子强度、pH及阳离子类型（Ca2+、Na+）下Cu2+、Cd2+在土壤中的解吸及迁移行为。结果表明：总体而言,离子强度增大,Cu2+、Cd2+淋出浓度峰值也随之增大;此外,在CaCl2淋溶阶段,0.005、0.01、0.05、0.1 mol·L-1 CaCl2时,Cu2+、Cd2+解吸量依次增加,且Cd2+的解吸量高于Cu2+,而0.5 mol·L-1 CaCl2时抑制了Cd2+的解吸,且Cu2+的解吸量高于Cd2+。pH减小时,Cu2+、Cd2+解吸量增大,即偏酸性的环境有利于Cu2+、Cd2+的解吸;但从Cu2+、Cd2+浓度峰值来看,pH为3时的Cu2+、Cd2+浓度峰值反而小于pH为4、5时。Ca2+较Na+更有利于Cu2+、Cd2+的解吸,但在0.005 mol·L-1时,NaCl溶液更有利于Cu2+的解吸,并且去离子水淋溶阶段Cu2+浓度要高于CaCl2淋溶阶段;此外,离子强度为0.005、0.05和0.5 mol·L-1 NaCl的三种情况下均出现了土壤颗粒的出流,且0.05和0.5 mol·L-1 NaCl时,存在流速下降的现象。     

Effect of wetting and drying on DTPA‐extractable Fe,Zn, Mn,and Cu in soils

Abstract

The study reported herein was intended to determine the effect of (i) wet‐incubation and subsequent air‐drying, and (ii) oven‐drying on DTPA‐Fe, Zn, Mn, and Cu.

Analysis of wet‐incubated soils showed significant decreases in DTPA‐Fe, Mn, and Cu at the 1% and Zn at the 10% level of probability. Air‐drying of these moist‐incubated soils increased the levels of Fe, Zn, and Cu to values close to their original levels. Levels of Mn sharply deviated from their original values after air‐drying of incubated soils. Correlation coefficients (r) between the amounts of extractable nutrients in original air‐dry soils and wet‐incubated soils were 0.54, 0.87, 0.91, and 0.13 for Fe, Zn, Cu, and Mn, respectively. Oven‐drying increased the levels of DTPA‐extractable micronutrients from 2 to 6 fold.     

硒对镉胁迫下寒地水稻Cd、Zn、Fe、Cu、Mn含量的影响

研究了镉胁迫下施硒后水稻各器官Cd、Zn、Fe、Cu、Mn含量的变化,并探讨了施硒对缓解镉胁迫下水稻养分吸收的可行性。采用人工模拟镉胁迫的盆栽试验方法,研究不同镉浓度(0,2,4,8mg/kg土壤)下,施硒(0,0.07,0.14mg/kg土壤)对水稻不同器官Cd、Zn、Fe、Cu、Mn含量的影响。结果表明:(1)随着土壤镉浓度的增加,水稻各器官镉含量均增加,不同器官镉含量表现为根系茎鞘叶片精米。(2)相同镉浓度下,随着硒浓度的增加,各器官中镉含量下降,Se2(0.14 mg/kg)优于Se1(0.07 mg/kg)处理。Cd1(2mg/kg)浓度时,Se2处理精米镉含量比Se0降低31.5%(P0.01)。(3)镉胁迫下,施硒对水稻各器官中Zn、Fe、Cu、Mn含量影响不同。相同镉浓度下,随着硒浓度的增加,叶片Zn含量下降,Fe含量增加;茎鞘Zn、Fe含量下降,而Cu含量增加;根系Zn、Cu含量下降,而Fe、Mn含量增加;精米Zn、Mn、Cu、Fe含量增加。其中Cd2(4mg/kg)浓度时,与Se0处理相比,Se2处理茎鞘Zn含量降低了36.2%;叶片和根系Fe含量增加了15.4%和11.4%;精米Zn、Mn、Cu、Fe显著含量增加,分别增加了43.3%,15.8%,52.6%,20.5%(P0.01)。施硒能显著降低镉胁迫下寒地水稻镉含量,Cd1浓度下,施硒后精米镉含量下降幅度最大;镉胁迫下施硒影响水稻对Zn、Fe、Cu、Mn的吸收,尤其Cd2浓度下,施硒对精米Zn、Mn、Cu、Fe含量影响较大,Se2处理效果最佳。     

盐角草Cu/Zn-SOD基因的克隆及耐盐性分析

盐角草(Salicornia europaea)是一种典型的耐盐植物,为了研究盐角草Cu/Zn-SOD基因在的盐胁迫耐受中的机制,本研究利用已知植物Cu/Zn-SOD基因的保守序列设计简并引物,采用RACE技术的方法从盐角草中扩增获得Cu/Zn-SOD基因。使用生物学软件分析其氨基酸序列,并进行同源性比对。构建原核表达载体,转化大肠杆菌(Escherichiacoli),使目的蛋白在重组菌中表达,并分析了不同盐浓度并含有抗生素的液体LB培养基中菌的生长情况,IPTG诱导表达,通过测定OD600值来分析Cu/Zn-SOD基因的耐盐功能。结果通过简并引物PCR扩增和RACE技术,克隆出盐角草Cu/Zn-SOD基因。盐角草Cu/Zn-SOD基因(GenBank登录号:JQ074238.2)全长为660bp,开放阅读框长为459bp,推测编码152个氨基酸,蛋白分子量约为15.1kD,其氨基酸序列与碱蓬(Suaedasalsa)的序列相似性为96%,与黄灯笼辣椒(Capsicum chinense)的序列相似性为88%。生物学软件分析表明Cu/Zn-SOD蛋白可能存在于细胞质。构建原核表达载体pET-Cu/Zn-SOD和对照pETDuet-1,转化大肠杆菌BL21中。蛋白经IPTG诱导表达。经SDS-PAGE蛋白电泳检测发现表达蛋白条带大小与预期一致,说明目的蛋白成功表达。耐盐性分析表明重组菌BL21(pET-Cu/Zn-SOD)在高盐度培养基中的生长明显优于对照菌BL21(pETDuet-1),说明盐角草Cu/Zn-SOD基因可能在盐胁迫逆境中起到耐受性作用。     

粉煤灰中重金属Pb/Cr/Cu在土壤——小白菜中的迁移与形态转化

以两种粒径粉煤灰与莱西棕壤按不同比例混匀后连续进行了四批次小白菜生长周期试验,采用欧共体标准物质局提出的三步提取法(简称BCR法)研究施灰土壤中铅(Pb)、铬(Cr)和铜(Cu)四种化学形态的转化特征,并通过计算小白菜对重金属的富集系数和转移系数,分析土壤重金属在小白菜中的迁移特性与生物利用率。结果表明:在小白菜种植的整个周期,各处理施灰土壤中Pb、Cr和Cu均以残渣态为主,含量随种植批次增加而减少;Pb、Cr的可提取态含量占15%以上,乙酸溶解态含量随种植批次增加而增加,Cu的可提取态含量占55%以上,乙酸溶解态含量随种植批次增加而减少。小白菜对三种重金属的富集能力表现为:CuCrPb,且均小于临界值1,因此,相较Pb和Cr,Cu的生物利用性更强。小白菜由根部向地上可食部分转移系数大于1,转移能力表现为:CrCuPb,因此Cr在小白菜中迁移能力更强。