土壤锌铁铜锰形态分布及其有效性

各土壤微量元素的形态分布特性有相似的规律，每个微量元素的各种形态都可以根据其对植物的有效性划分为两组．第一组形态分布百分率与植物有效性指数呈显著或极显著相关．第二组则呈显著或极显著负相关．因而第一组的形态为主要的有效养分源，第二组的形态很难为植物提供有效养分．减少相应元素转化成为第二组的形态和增加第一组各形态的储备容量是调节和控制土壤营养的重要措施．     

石墨炉原子吸收直接测定大气颗粒物中的铅和锰

以少量HNO_3-HF-HClO_4消解粉尘滤膜,石墨炉原子吸收法测定铅和锰,进行了最佳条件选择,采用本法测定粉尘中的铅和锰,其回收率分别为87％～98％和94％～105％,用标准加入法检验结果吻合,方法变异系数分别为铅4.1％,锰3.7％。     

碱锰型电解二氧化锰生产环境影响与环保措施

主要以某公司9000t/a碱锰型电解二氧化锰技改项目环境影响评价为例,结合验收监测数据,简要介绍碱锰型电解二氧化锰生产的环境影响与环保措施.该公司采用氧化锰矿和硫铁矿混合硫酸溶液浸出--电解的生产工艺生产碱锰型电解二氧化锰,生产过程中大气污染源主要有锅炉排放的烟气,化合、电解工序产生的硫酸雾;生产废水主要有锅炉除尘废水、漂洗水及炭黑生产废水;废渣主要是压滤锰渣.     

粉煤灰基质滤料处理含锰废水的研究

通过静态吸附试验研究了粉煤灰基质滤料对废水中Mn2+的吸附性能,主要探讨了滤料投加量、吸附时间、原水浓度、振荡频率等因素对吸附效果的影响。结果表明:随着投加量增加,Mn2+去除率提高,单位吸附量线性下降;随着吸附时间延长,Mn2+去除率提高,超过80 min后提高幅度变缓,吸附过程符合二级动力学模型;振荡频率的增大对吸附有一定的促进作用,但超过200 r/min后提高不明显。     

乳化液膜体系去除电解锰废水中的Mn~（2＋）

采用乳化液膜法处理电解锰废水,考察制乳条件和提取条件对去除效果的影响。研究结果表明最佳制乳条件为：4%（V/V）span-80做表面活性剂,3%二（2-乙基己基）磷酸酯做载体,柴油做膜溶剂,用NaOH调节内水相pH为12,制乳时间为10 min,油内比2∶1;最佳提取条件：外水相pH为6～7、乳水比1∶10、提取时间10 min。制得的乳化液膜对电解锰废水中的Mn2＋去除率可高达99.99%,出水Mn2＋浓度低于2mg/L,实现水质达标排放。     

乳化液膜体系去除电解锰废水中的Mn2+

采用乳化液膜法处理电解锰废水,考察制乳条件和提取条件对去除效果的影响。研究结果表明最佳制乳条件为:4%(V/V)span-80做表面活性剂,3%二(2-乙基己基)磷酸酯做载体,柴油做膜溶剂,用NaOH调节内水相pH为12,制乳时间为10 min,油内比2∶1;最佳提取条件:外水相pH为6～7、乳水比1∶10、提取时间10 min。制得的乳化液膜对电解锰废水中的Mn2+去除率可高达99.99%,出水Mn2+浓度低于2mg/L,实现水质达标排放。     

土壤酸化与油菜锰毒关系研究

对湖北省的主要旱地土壤种植多茬作物后油菜生产锰毒的原因进行了研究。结果表明,供试土壤pH值较原土样下降了1．0个单位。除石灰性土壤外,其它中酸性土壤交换性锰明显增加,造成油菜对锰吸收过量,同时由于吸收过程中锰铁拮抗作用的存在,植株在土壤锰毒发生后吸收的铁量下降,使体内锰铁比上升。     

Metal bioaccumulation in plant leaves from an industrious area and the Botanical Garden in Beijing

The concentrations of Fe, Mn, AI, Zn, Pb, Ni, Cr, and As were measured in soils and leaves from 21 plant species growing on hills near the Beijing Steel Factory(BSF) and 17 plant species in the Beijing Botanical Garden(BBG). The results showed that soils from BSF were Zn contaminated according to the threshold of natural background of China. There was a metal contamination of the soils by Ni,and Cr in BSF comparing with those in BBG. The comparison between concentrations of metals in leaves from both sites indicated that, in general, accumulation of metals in the leaves of the same species was significantly different between the two sites. Even within the same locality each species accumulation of metals was significantly variable. The study aimed to screen landscape plants for the capacity to clean-up toxic metals in soils, and developed an overall metal accumulation index(MAI) for leaves and then categorized the MAI that can be applied broadly in the selection of species in polluted areas. To do this, the spectrum of MAI values were divided into four classes: strongly accumulated(SA or grade I), moderately accumulated(MA or grade II), intermediately accumulated( IA or grade III), and weakly accumulated(WA or grade IV). The results showed that elemental association between Fe, AI, Ni, and As was generally highly correlated with each other in the sampling sites. This may suggest their common biochemical characteristics. Generally, those species containing strong and moderate accumulation in both sites are considered including Vitex negundo, Broussonetia papyrifera, Ulmus pumila, and Rubia cordifolia. At BSF and other industrial sites with a similar ecosystem, strong and moderate accumulation species include Sophora japonica, Ampelopsis aconitifolia var. glabra, Platycladus orientalis, Wikstroemia chamaedaphne, Cleistogenes squarrosa, Grewia biloba, and in BBG, in addition Setaria viddis, Cotinus coggygria, Lespedeza flodbunda, Rhamnus parvifolia, Lespedeza tomentosa.     

铜、锌和锰抑制蛋白核小球藻生长的毒性效应

运用评价化学品毒性藻类测试的标准实验方法 ,得到铜、锌和锰对蛋白核小球藻生长的安全浓度分别为31.8μg/L、65.0μg/L和 5.5mg/L ,抑制蛋白核小球藻生长的 96h EC₅₀ 分别为 67.3μg/L、473.0 μg/L和 17.0mg/L .实验结果表明无论从安全浓度还是从 96h EC₅₀ 考虑 ,都证明抑制蛋白核小球藻生长的毒性由大到小的顺序是铜 >锌 >锰 .不同金属离子与藻细胞的不同亲和性是导致金属离子抑制蛋白核小球藻生长毒性差异的主要原因 .     

Heavy metal accumulation and phytostabilization potential of dominant plant species growing on manganese mine tailings

Screening plants that are hypertolerant to and excluders of certain heavy metals plays a fundamental role in a remediation strategy for metalliferous mine tailings. A field survey of terrestrial higher plants growing on Mn mine tailings at Huayuan, Hunan Province, China was conducted to identify candidate species for application in phytostabilization of the tailings in this region. In total, 51 species belonging to 21 families were recorded and the 12 dominant plants were investigated for their potential in phytostabilization of heavy metals. Eight plant species, Alternanthera philoxeroides, Artemisia princeps, Bidens frondosa, Bidens pilosa, Cynodon dactylon, Digitaria sanguinalis, Erigeron canadensis, and Setaria plicata accumulated much lower concentrations of heavy metals in shoots and roots than the associated soils and bioconcen- tration factors （BFs） for Cd, Mn, Pb and Zn were all 〈 1, demonstrating a high tolerance to heavy metals and poor metals translocation ability. The field investigation also found that these species grew fast, accumulated biomass rapidly and developed a vegetation cover in a relatively short time. Therefore, they are good candidates for phytostabilization purposes and could be used as pioneer species in phytoremediation of Mn mine tailings in this region of South China.