稀土尾砂堆积场地种植芙蓉李的试验研究

自１９８８至１９９４年，查明稀土尾砂农业理化性质的基础上，采用不铺覆客土和不灌溉的方法，在江西省稀土尾砂堆积场地进行种植果树芙蓉李和温州蜜柑的试验。试验结果表明，芙蓉李能良好生长，增加农户收入和提高土壤肥力，改善了生态环境。     

城市垃圾肥在锡矿尾砂库植被重建中的应用

在广西大厂矿区废弃的锡矿尾砂库上进行植被的重建试验。设对照组、垃圾肥处理组和覆土组，种植固氮植物银合欢(Leucaena leucocephala)。100d时采样分析，垃圾肥处理组的银合欢生长状况最好，重金属从土壤到植物的迁移明显降低，说明在锡矿尾砂库植被重建中，可以利用垃圾肥替代土壤，银合欢可以作为锡矿尾砂库植被重建的先锋树种。     

城市垃圾肥在锡矿尾砂库植被重建中的应用

在广西大厂矿区废弃的锡矿尾砂库上进行植被的重建试验。设对照组、垃圾肥处理组和覆土组,种植固氮植物银合欢(Leucaenaleucocephala)。100d时采样分析,垃圾肥处理组的银合欢生长状况最好,重金属从土壤到植物的迁移明显降低,说明在锡矿尾砂库植被重建中,可以利用垃圾肥替代土壤,银合欢可以作为锡矿尾砂库植被重建的先锋树种。     

稀土在杉木上的应用研究

通过杉木育苗期、幼林期施用稀土的试验，结果表明，稀土可促进杉木的生长．育苗期采用稀土浸种、土壤淋施、喷施，幼林或采用稀土沾根、喷施等方法都可取得较好的效果。杉木施用稀土成本低，用工少，效果显著．可大力推广。     

稀土对沙田柚叶片营养和果实品质与产量的效应

试验结果表明，适量施用稀土可提高沙田柚树体对营养元素的吸收，促进养分平衡，从而可提高沙田柚座果率和产量，而且对柚果还有增糖降酸的效果。因此，适时适量施用稀土对提高沙田柚产量和品质均有积极的意义。     

稀土元素在土壤中迁移、转化模型的建立及验证

建立了稀土在褐土土壤中迁移、转化模型，定量评价稀土在土壤中的迁移、转化过程。模型包括土壤中稀土化学热力学平衡体系、土壤水分物理形状和土壤剖面的稀土通量。在中国农业大学内进行了田间实验，对模型进行了验证，模拟值与实测值能很好的拟合。     

海藻多糖稀土配合物对蔬菜有机磷农药残留的降解作用

以小白菜、甘蓝、芹菜为试验材料,采用大田试验研究了海藻多糖稀土配合物对蔬菜中有机磷农药残留的影响.试验结果表明,叶面喷施海藻多糖稀土配合物对小白菜、甘蓝、芹菜中毒死蜱、氧化乐果、敌敌畏等有机磷农药残留具有明显的降解作用;对甘蓝中毒死蜱和氧化乐果的降解效果优于小白菜,但对芹菜中毒死蜱的降解效果远不及甘蓝和小白菜,表现出一定的作物选择性.叶面喷施海藻多糖稀土配合物对敌敌畏等磷酸酯类有机磷农药的降解作用比毒死蜱、氧化乐果等硫代磷酸酯类有机磷农药的降解强烈,表现出一定的农药选择性;另外,喷水对叶片表面残存农药具有一定的冲洗作用,可减少叶面农药的残留量;叶面喷施海藻多糖稀土配合物对甘蓝和小白菜中有机磷农药的降解率远高于叶面喷水.以上结果表明海藻多糖稀土配合物确实具有降解有机磷农药残留的作用.在蔬菜生产中将海藻多糖稀土配合物作为农药残留降解制剂是可行的,有利于蔬菜安全生产和提高蔬菜产品的食用安全性。     

稀土肥料在农业可持续发展中的应用

阐述了农作物施用稀土肥料的效果和作用机理，提出了农业生产中合理使用稀土肥料应注意的问题，强调指出，只有在加强农田施肥和栽培管理的基础上配以高产栽培技术，按照不同农作物的生长规律和丰产规律适时适量地施用稀土肥料，才能有效地发挥稀土肥料的作用，达到以提高作物产量、改善作物品质、增强作物抗逆能力的效果。     

小球藻对水中有机酸类稀土配合物的富集

通过ＭＩＮＴＥＱＡ２程序研究了稀土有机酸类配合物在小球藻中的生物富集作用，结果表明：富集作用可用表面配合模型（ＳｕｒｆａｃｅＣｏｏｒｄｉｎａｔｉｏｎＭｏｄｅｌ）来解释，对同一稀土而言，其富集能力的大小与其有机酸１：１配合物的稳定常数呈负相关，稀土一ＥＤＴＡ，ＮＴＡ〉Ｃｉｔｒａｔｅ，Ｔａｒｔｒａｔｅ的配合物在小球藻中的富集能力小于相应的稀土离子，而稀土而与Ａｃｅｔａｔｅ的配合物要大于相应的稀土离子。     

稀土元素的脑部蓄积性、毒性及其对人群健康的潜在危害

论述了稀土元素在动物脑部的蓄积性、对脑的毒性以及稀土区人群的脑部毒性效应，分析了稀土农业应用和稀土厂“三废”对生态环境和人群健康的潜在危害。     

Geochemical distribution of trace element concentrations in the vicinity of Boroo gold mine, Selenge Province, Mongolia

The environmental impacts of Boroo gold mine project in Mongolia was evaluated by chemical characterization of trace element concentrations in water, soils and tailing dam sediment samples. The results showed that concentrations of B, Cd, Ni and Se in the water samples were within the accepted levels of the Mongolia water quality standard (MNS4586: 1998). However, the concentrations of Al, As, Cu, Mn, Fe, Pb, U and Zn were higher than the maximum allowable concentration especially in the monitoring and heap leach wells. The average concentrations of As, Cd, Cu, Ni, Pb and Zn in the tailing dam sediment were 4419, 58.5, 56.0, 4.8, 20.6 and 25.7 mg/kg, respectively. Generally, arsenic and heavy metals in the soil samples were within the acceptable concentrations of the soil standard of Mongolia (MNS 5850: 2008). The chemical characterization of As solid phase in tailing dam sediment showed that the majority of As were found in the residual fraction comprising about 74% of total As. Assessing the potential risk to humans, simple bioavailability extraction test was used to estimate bioavailability of arsenic and heavy metals, and the concentrations extracted from tailing dam sediment were; 288.2 mg/kg As, 7.2 mg/kg Cd, 41.1 mg/kg Cu, 13.5 mg/kg Pb, 4.7 mg/kg Ni and 23.5 mg/kg Zn, respectively. From these results, the Boroo gold mine project has presently not significantly impacted the environment, but there is a high probability that it may act as a source of future contamination.     

A feasibility study on bioelectrokinetics for the removal of heavy metals from tailing soil

The combination of bioremediation and electrokinetics, termed bioelectrokinetics, has been studied constantly to enhance the removal of organic and inorganic contaminants from soil. The use of the bioleaching process originating from Fe- and/or S-oxidizing bacteria may be a feasible technology for the remediation of heavy metal-contaminated soils. In this study, the bioleaching process driven by injection of S-oxidizing bacteria, Acidithiobacillus thiooxidans, was evaluated as a pre-treatment step. The bioleaching process was sequentially integrated with the electrokinetic soil process, and the final removal efficiency of the combined process was compared with those of individual processes. Tailing soil, heavily contaminated with Cd, Cu, Pb, Zn, Co, and As, was collected from an abandoned mine area in Korea. The results of geochemical studies supported that this tailing soil contains the reduced forms of sulfur that can be an energy source for A. thiooxidans. From the result of the combined process, we could conclude that the bioleaching process might be a good pre-treatment step to mobilize heavy metals in tailing soil. Additionally, the electrokinetic process can be an effective technology for the removal of heavy metals from tailing soil. For the sake of generalizing the proposed bioelectrokinetic process, however, the site-specific differences in soil should be taken into account in future studies.     

Geochemical distribution of trace element concentrations in the vicinity of Boroo gold mine,Selenge Province,Mongolia

The environmental impacts of Boroo gold mine project in Mongolia was evaluated by chemical characterization of trace element concentrations in water, soils and tailing dam sediment samples. The results showed that concentrations of B, Cd, Ni and Se in the water samples were within the accepted levels of the Mongolia water quality standard (MNS4586: 1998). However, the concentrations of Al, As, Cu, Mn, Fe, Pb, U and Zn were higher than the maximum allowable concentration especially in the monitoring and heap leach wells. The average concentrations of As, Cd, Cu, Ni, Pb and Zn in the tailing dam sediment were 4419, 58.5, 56.0, 4.8, 20.6 and 25.7 mg/kg, respectively. Generally, arsenic and heavy metals in the soil samples were within the acceptable concentrations of the soil standard of Mongolia (MNS 5850: 2008). The chemical characterization of As solid phase in tailing dam sediment showed that the majority of As were found in the residual fraction comprising about 74% of total As. Assessing the potential risk to humans, simple bioavailability extraction test was used to estimate bioavailability of arsenic and heavy metals, and the concentrations extracted from tailing dam sediment were; 288.2 mg/kg As, 7.2 mg/kg Cd, 41.1 mg/kg Cu, 13.5 mg/kg Pb, 4.7 mg/kg Ni and 23.5 mg/kg Zn, respectively. From these results, the Boroo gold mine project has presently not significantly impacted the environment, but there is a high probability that it may act as a source of future contamination.     

铜陵铜矿尾矿理化性质的变化对植被重建的影响

通过野外调查和室内分析，对铜陵不同弃置堆放时间的铜矿尾矿的理化性质及植被定居状况进行了研究。结果表明，随着堆放时间的推移，表层尾矿的稳定性增加，基质结构改善，持水肥能力提高，有机质，全氮、有效磷、速效钾、有效铜及水溶性盐类含量上升，ｐＨ值降低，有的甚至出现酸化现象。铜矿尾矿的植被定居状况与其堆放时间及理化性质的变化有着密切关系。     

Preface

The combination of bioremediation and electrokinetics, termed bioelectrokinetics, has been studied constantly to enhance the removal of organic and inorganic contaminants from soil. The use of the bioleaching process originating from Fe- and/or S-oxidizing bacteria may be a feasible technology for the remediation of heavy metal–contaminated soils. In this study, the bioleaching process driven by injection of S-oxidizing bacteria, Acidithiobacillus thiooxidans, was evaluated as a pre-treatment step. The bioleaching process was sequentially integrated with the electrokinetic soil process, and the final removal efficiency of the combined process was compared with those of individual processes. Tailing soil, heavily contaminated with Cd, Cu, Pb, Zn, Co, and As, was collected from an abandoned mine area in Korea. The results of geochemical studies supported that this tailing soil contains the reduced forms of sulfur that can be an energy source for A. thiooxidans. From the result of the combined process, we could conclude that the bioleaching process might be a good pre-treatment step to mobilize heavy metals in tailing soil. Additionally, the electrokinetic process can be an effective technology for the removal of heavy metals from tailing soil. For the sake of generalizing the proposed bioelectrokinetic process, however, the site-specific differences in soil should be taken into account in future studies.     

镉铜污染尾矿土中添加耐镉铜菌剂J5后微生物区系多样性的变化

采用酶解法和化学裂解法相结合的方法从安徽铜陵镉铜污染尾矿土中提取出土壤微生物基因组总DNA,并应用PCR-DGGE技术对比研究尾矿土中添加外源硫酸镉、硫酸铜和耐镉铜菌剂J5(Pseudomonassp.)后微生物区系多样性的变化.结果表明,尾矿土中微生物基因组总DNA分子量大小为21kb左右,未复垦的尾矿砂中微生物总DNA量较少,CdSO4处理后的尾矿土中微生物基因组总DNA量明显下降,而添加菌剂J5的尾矿土中微生物基因组总DNA量上升.DGGE电泳图谱进一步显示,尾矿土样中添加镉离子使图谱条带减少,分析表明尾矿土中的细菌种类数减少;而添加菌剂J5使图谱中条带明显增加,表明菌剂J5可提高尾矿土中土著微生物的活性和群落丰富度,可用于复合重金属污染尾矿区的生态恢复.     

紫花苜蓿改良盐渍土对土壤微生物活性和养分含量的影响

为探讨干旱地区种植紫花苜蓿改良盐渍土对土壤微生物生物量及其活性和土壤养分的影响,选择河西走廊黑河流域国有临泽农场的草甸盐土荒地作为对照,研究了种植紫花苜蓿2、3、4年后的改土效果。结果表明：与CK相比,连续种植4年后,所测定的土壤化学性质和微生物化学性质指标都发生了极显著（P〈0.01）的有利变化,电导率下降5.96 mS.cm-1,pH下降0.25,有机碳增加1.50 g.kg-1,微生物生物量碳增加48.93 mg.kg-1,微生物熵上升0.43%,荧光素二乙酸酯水解率提高10.87μg.g-1.h-1,碱解氮增加17.37 mg.kg-1,速效磷增加2.87 mg.kg-1,速效钾增加44.93 mg.kg-1。相关分析表明,微生物生物量碳、微生物熵、荧光素二乙酸酯水解率、碱解氮、速效磷、速效钾与土壤有机碳之间极显著（P〈0.01）正相关,相关系数分别为0.86、0.80、0.87、0.85、0.79、0.80,而与电导率之间极显著（P〈0.01）负相关,相关系数分别为-0.83、-0.79、-0.84、-0.86、-0.88、-0.78。研究认为,种植紫花苜蓿对草甸盐土有显著的改良效果,电导率下降,有机碳含量提高,微生物活性增强,速效养分含量增加。     

紫色土丘陵区农用地土壤水分动态变化规律研究

依据定位观测数据，对紫色土丘陵区农用地土壤水分的动态变化规律进行了初步研究。结果表明，该区农用地土壤水分的季节变化主要受降水、蒸发和土地利用状况的影响，呈现出明显的三峰三谷型；垂直梯度变化由于受降雨入渗分布与土壤水分向上蒸发的综合作用，基本表现为增长型。并利用标准差和变异系数对土壤水分的垂直梯度变化进行了具体描述和层次划分。最后，通过分析该地区典型农作物及其不同栽培方式对农用地土壤水分的影响，认为优化农作物栽培方式是提高紫色土丘陵区农用地土壤水分利用效率和减少水土流失的有效途径。     

应用生物技术改良退化土壤的效果——以黄花草木樨改良盐碱化土壤为例

通过对种植黄花草木樨样地的监测，根据土壤理化性质的变化分析了退化土壤的改良效果。结果表明，种植黄花草木樨后，土壤脱盐率较高，土壤中盐分含量、pH值、交换性钠和碱化度明显降低，有机质含量显著增加。黄花草木樨还可有效地改善土壤的通透性能，使土壤中小于0．001mm和0．001～0．005mm的粘粒减少，0．05～0．25mm的砂粒增加，土壤体积质量变小，孔隙度增大。这一生物技术具有改善土壤结构、增加土壤肥力的特点。黄花草木樨是干旱半干旱地区改良退化土壤的一种优良牧草。