拉鲁湿地芦苇不同部位金属元素富集规律研究

通过在拉鲁湿地布设7个采样点,采集湿地植物芦苇,检测分析K、Na、Ca、Mg、Cu等23种元素在其根、茎、叶、花中的分布特征。结果表明,同一元素在芦苇不同部位及同一部位不同元素的含量、转移能力、富集能力等均差异较大。元素平均质量比范围为0.055 mg/kg(Tl)～2.20×10~4 mg/kg(Na),大部分元素在芦苇不同部位的分布符合根花叶茎这一规律;芦苇对Ca转移能力最强,对Fe的转移能力最弱;芦苇对Fe富集能力最强,特别是根部对Fe的富集系数高达506万倍。     

三峡库区柑橘对土壤重金属吸收富集特征研究

研究区域柑橘果实重金属含量符合NY/T 426-2000<绿色食品柑橘>标准,果实品质达到一级产品.土壤中重金属的含量越高,柑橘叶片、果皮、果肉的重金属含量也越高.柑橘叶片对土壤重金属铜、锌、铅、镉、镍、汞、砷、铬的吸收富集能力显著大于果皮与果肉,果皮对土壤重金属铜、锌、铅、镉、汞的吸收富集能力显著大于果肉,果肉对土壤重金属铬的吸收富集能力显著大于果皮.柑橘同一部位对土壤中不同重金属元素的吸收富集能力也存在很大的差异,柑橘叶片对土壤中不同重金属元素的富集系数大小顺序为Hg＞Pb＞Cd＞Cu＞Zn＞Cr＞As＞Ni,柑橘果皮对土壤中不同重金属元素的富集系数大小顺序为Cd＞Hg＞Cu＞Zn＞Pb＞Cr＞Ni＞As,柑橘果肉对土壤中不同重金属元素的富集系数大小顺序为Hg＞Cu＞Cr＞Zn＞Cd＞Ni＞Pb＞As.     

两种有机氯农药在污水灌溉区蔬菜中的残留及生物富集

于污水灌溉区种植的6种蔬菜中均检测出有机氯农药(OCPs),六六六(HCHs)含量高于滴滴涕(DDTs).6种蔬菜对OCPs在不同程度上有富集作用,蔬菜种类不同,对HCHs、DDTs各异构体的富集能力不同.各类蔬菜均为微污染.     

羊八井地热区典型植物对氟的吸附富集特征探究

采用水浴提取法处理羊八井地热区土壤和植物样品中可溶性氟，并用离子选择性电极法测定提取液及地热水中的氟。结果表明，地热水中氟离子最高为162 mg/L，土壤和植物中水溶性氟分别为347 mg/kg~937 mg/kg和189 mg/kg~164 mg/kg。氟离子在不同植物中的分布差异较大，嵩草属植物富集氟离子的能力最强，故可利用植物修复技术对高氟地热水、土壤净化处理，以降低氟污染。     

白马湖甲壳动物体内重金属含量调查

对白马湖3种甲壳动物体内的Pb、Cd、Cu、Cr、Zn的含量进行了调查。结果表明，Cu、Zn含量较高；同种重金属元素在不同种类的软体动物体内含量差异较大，富集能力的次序是克氏原敖虾＞日本青沼＞秀丽白虾；Cd 和 Pb 在克氏原螯虾体内的不同器官和组织中富集程度不同，其中以肌肉中含量最低，鳃中的含量居中，虾壳中的含量为最高。     

油菜对铅镉污染土壤的修复效果研究

文章通过盆栽实验分析油菜在不同浓度下对土壤中铅、镉的富集能力,分别配制Pb+Cd浓度为0mg/kg+0mg/kg、200mg/kg+5mg/kg、500mg/kg+10mg/kg、1000mg/kg+15mg/kg、1500mg/kg+20mg/kg的5种模拟污染土壤,种植油菜5个月后收获,通过测定土壤中Pb、Cd的浓度,油菜地上部分、地下部分Pb、Cd的含量,油菜各部位的转运系数和富集系数,结果表明:油菜对土壤Pb、Cd污染具有一定的耐性,在土壤Pb浓度0~200mg/kg、Cd浓度0~5mg/kg范围内,对油菜的生长有促进作用。在土壤Pb浓度200~1500mg/kg、Cd浓度5~20mg/kg范围内,对油菜的生长有抑制作用。油菜根部、茎叶中和籽粒中对Pb的富集系数分别为8.92、11.19和7.66,对Cd的富集系数分别为59.01、80.44和52.42,油菜茎叶对Pb、Cd的富集能力最强。     

蔬菜与土壤环境中铅镉含量相关性调查

通过调查5种蔬菜对铅、镉绝对吸收量以及富集系数不同,分析了蔬菜与土壤中重金属含量相关性.结果表明,各种蔬菜对镉的吸收绝对量差异明显,同类型蔬菜对铅、镉的吸收量接近.各种蔬菜对铅的富集能力排序为白菜>黄瓜>番茄>青菜>辣椒,对镉的富集能力排序为青菜>白菜>辣椒>番茄>黄瓜.蔬菜对土壤中镉的吸收能力明显大于铅.     

郑州市13种绿化带植物中铅质量比的对比研究

利用石墨炉-原子吸收光谱法测定郑州市13种绿化带植物叶片中铅质量比,结果表明:植物叶片中铅质量比范围在0.16 mg/kg~7.65 mg/kg之间。不同空间分布的植物铅质量比差异显著,总体呈现草坪植物灌木乔木的趋势;同一采样点不同植物叶片铅质量比不同;同一植物不同组织部位铅质量比也不同;其中月季花、金叶女贞、白花三叶草作为铅富集能力较强的绿化带植物,有望成为城市空气铅污染修复的理想植物材料。     

贵州省高峰村卡林型金矿苔藓植物调查及污染指示研究

为研究苔藓植物在重金属污染中的监测作用及其对重金属的富集能力,调查了贵州省喀斯特山区高峰村卡林型金矿苔藓植物的种类,并对该金矿区各生境中的苔藓植物优势种及基质进行Cu、Zn、Cd、Pb、Hg、As测定分析。利用检测数据,通过相关性分析和富集系数完成本次研究。在采集到的169份苔藓标本中,发现苔藓植物12科26属50种,优势科为丛藓科和真藓科,生活型以矮丛集型为主。该金矿2个开采点的苔藓植物科、属、种的相似性系数分别为58. 82%、55. 56%和27. 59%。2个开采点的苔藓植物与其基质的重金属含量呈现良好的正相关性,其中硬叶净口藓Cd和Zn的相关系数为0. 973和0. 892,属于显著正相关;各生境中的优势苔藓植物对Cd的富集能力最强,其中羽枝青藓和硬叶净口藓对Cd强烈富集,富集系数为16. 52和5. 58。当地硬叶净口藓对Cd和Zn污染有明确指示作用。     

上海市典型水域水葫芦中重金属含量初步研究

于2017年11月,采集了上海市苏州河华漕、松浦大桥、大泖港3个典型水域水葫芦样品,采用电感耦合等离子体质谱法和冷原子吸收分光光度法,分析了水葫芦中14种重金属含量和吸附规律。结果表明:3个典型区域中,苏州河华漕水葫芦中重金属含量最高,且Cr含量超标,不可作为饲料原料应用,松浦大桥、大泖港的水葫芦内重金属含量符合饲料卫生标准,可作为饲料原料进行应用;水葫芦对重金属的吸收含量依次为Mn> Zn> Ni> Cu> Co> V> Pb> Cr> As> Sb> Cd> Hg> Ag> Tl,对Mn具有超富集能力,可考虑作为Mn污染修复植物进行应用;水葫芦不同部位对重金属(除Hg外)的富集能力表现为根>茎、叶,不同水葫芦植株中重金属含量受生长基质、株龄、个体吸附力差异等方面的影响。     

绵阳市城区空气优化布点的模糊聚类分析

本文用规划网格高密度布点,通过一年的硫酸盐化速率的监测数据,进行模糊聚类分析。从而对绵阳市的空气监测点位进行优化,得到采样点位的最佳位置分布。通过检验,证明其技术路线是可行的。     

ACCUMULATION OF HEAVY METALS IN KIDNEY AND HEART TISSUES OF Epinephelus Microdon FISH FROM THE ARABIAN GULF

Levels of Pb, Co, Cu, Ni, Zn, Mn and Cd in the kidney and heart tissues of Epinephelus Microdon collected from the Arabian Gulf, Eastern province of Saudi Arabia, were determined by wet digestion-based atomic absorption method. The results indicated that accumulation pattern of analyzed metals in the kidney tissues followed the order; Zn > Cu > Pb > Ni > Co > Mn > Cd, with Zn at 47.73 ± 13.26 ppm and Cd at 0.41 ± 0.16 ppm. Cu, Mn, Co and Ni levels in the kidney tissues were significantly lower or within the ranges reported previously. In the heart tissue the analyzed metals followed almost the same pattern of metal accumulation; Zn > Cu > Pb > Co > Ni > Mn > Cd. The average lead (3.19 ± 2.03 ppm), nickel (1.69 ± 0.52 ppm), cobalt (1.75 ± 0.44 ppm), copper (3.96 ± 0.98 ppm) and cadmium (0.34 ± 0.23 ppm) concentrations were found high in the heart tissues whereas zinc and manganese levels were found high in kidney tissues. In general, the data indicated that marine {fish from the sampling site of Arabian Gulf are comparatively clean and unpolluted.     

Short-term influence of phosphate and nitrate on heavy metal accumulation by red alga Acrosorium uncinatum

Heavy metal accumulation (Cu, Zn, Ni, and Pb) in common marine macroalga, Acrosorium uncinatum under nutrient (phosphate and nitrate) enriched (experiment 1) and starved (experiment 2) conditions over a short exposure period (12 h) were examined in this study. Control was maintained in seawater contained nutrient solution without addition of metals and in seawater alone for experiment 1 and 2, respectively. Among the four metals studied, the accumulation of Zn, Ni, and Pb was considerably lower than Cu. The accumulation factor for all metals varies greatly in different nutrient concentrations, but it increases as the exposure of metal concentration decreases in both the experiments. The results of the present findings established that this macroalga is an accumulator of metals Cu, Zn, Ni, and Pb and have the potential to accumulate these metals even in a short time exposure period (12 h). Even though metal accumulation by A. uncinatum largely depends on the available concentration in the medium, nutrients like phosphate and nitrate can affect the accumulation significantly.     

Heavy metal bioaccumulation and metallothionein content in tissues of the sea bream Sparus aurata from three different fish farming systems

The distribution and potential bioaccumulation of dietary and waterborne cadmium and lead in tissues of sea bream (Sparus aurata), a major aquaculture species, was studied in relation to three different fish farming systems. Metallothionein levels in fish tissues were also evaluated. Results demonstrate that metal concentrations in various tissues significantly vary among fish culture systems. Different tissues show different capacity for accumulating heavy metals. The content of both cadmium and lead is not strictly correlated with that of metallothionein. Indeed, the marked accumulation of both metals in liver, as well as the high lead content found in gills and kidney, are not accompanied by a concomitant accumulation of metallothioneins in these tissues. No correlation is present between heavy metals and metallothionein content in muscle tissue. The results also demonstrate that cadmium accumulates mainly via dietary food, whereas lead accumulation is not of food origin. Noteworthy is that the concentration of the two metals found in muscle in all instances is lower than the limits established by European Union legislation for fish destined for human consumption.     

Freshwater crayfish Astacus leptodactylus (Eschscholtz, 1823) accumulates and depurates copper

Cu accumulation and depuration in various tissues of the crayfish Astacus leptodactylus was investigated. Adult specimens were exposed to 0.5, 2.5 and 5.0 mg Cu/L under static conditions for three weeks. At the end of the 3rd week the specimens were divided into three groups and left in dechlorinated water for either 1, 2 or 3 weeks for depuration. After 7, 14 and 21 days, four crayfish from each group were instantaneously sacrificed. All crayfish were dissected into their hepatopancreas, gill, abdominal muscle and exoskeleton tissues for evaluation of Cu accumulation in each. The following accumulation pattern was obtained in decreasing order; hepatopancreas > gills > exoskeleton > abdominal muscles with values of 94.13, 84.86, 66.13 and 11.43 mg/L, respectively. The observed Cu depuration throughout the study was found to be time-dependent. Based on the present work we conclude that crayfish has a great potential for rapid accumulation and depuration of Cu in fresh water.     

Estimation and analysis of terrestrial net primary productivity over India by remote-sensing-driven terrestrial biosphere model

Concentrations of cadmium, copper, and lead were determined in surficial sediments and the soft tissues (foot and gills) of swan mussel Anodonta cygnea from two sampling sites in Anzali wetland, which is an internationally important wetland registered in the Ramsar Convention. The metal contents in the mussel species from the studied region were comparable to other world areas. In most cases, the levels of the metals either fell within the range for other areas or were lower. There were significant differences between the tissues for the accumulation of Cd and Pb. Only in the case of Pb accumulation in gills significant differences between the specimens from the selected sampling sites could be observed. Age-related correlations were found in the case of Cu accumulation in foot and Cd levels in gills. No weight-dependent trend could be observed for the accumulation of the three elements. There was significant negative width-dependent relationship in the case of Cu. A significant negative correlation was also found between the maximum shell height and Cu accumulation in the gills. The only association among the elements in the selected soft tissues was found between Cd and Pb. Highly significant differences could be found between the sampling sites from the concentration of the elements in sediments point of view. The pattern of metal occurrence in the selected tissues and sediments exhibited the following descending order: Pb, Cu>Cd for gills, Cu>Pb, Cd for foot, and Cu>Pb>Cd for sediments. The mean concentrations of Cd and Pb in the sediments from the study area were higher than the global baseline values and world average shale. In the case of Cu, our results were somewhat higher than the baseline values but well below the world average shale.     

Fuzzy logic modeling of bioaccumulation pattern of metals in coastal biota of Ondo State,Nigeria

The accumulation patterns of ten metals in tissues of plant, Eichornia crassipes, and fishes, Hydrocynus forskahlii and Oreochromis mossambicus, were modeled with simple fuzzy classification (SFC) to assess toxic effects of anthropogenic activities on the coastal biota. The plant sample was separated into root, stem, and leaves and the fishes into bones, internal tissues, and muscles. They were analyzed for As, Cd, Cr, Cu, Ni, Pb, V, Fe, Mn, and Zn after wet oxidation of their dried samples. The results were converted into membership functions of five accumulation classes and aggregated with SFC. The classification results showed that there was no metal accumulation in the plant parts while the fishes were classified into low accumulation category. The internal tissues of the fishes had higher metal accumulation than the other parts. Generally, Fe and Mn had highest concentrations in the biota but are natural to the area and may not constitute significant risk. Cr had the highest transfer and accumulation from the coastal water into the aquatic lives and may be indicative of risk prone system being a toxic metal. Metal contaminations in the zone had not significantly accumulated in the biota making them less prone to risk associated with metal accumulation.     

Cadmium tolerance and accumulation of Althaea rosea Cav. and its potential as a hyperaccumulator under chemical enhancement

The role of ornamental plants has drawn much attention as the urban pollution levels exacerbate. Althaea rosea Cav. had showed its strong tolerance and accumulation ability of Cd in our previous work, thus, the effects of ethylenediamine triacetic acid (EDTA), ethylenegluatarotriacetic acid (EGTA) and sodium dodecyl sulfate (SDS) on its Cd phytoremediation capacity were further investigated in this work. It reconfirmed that the species had strong tolerance and accumulation ability of Cd. Particularly, the species can be regarded as a potential Cd-hyperaccumulator through applying chemical agents. However, different chelators and surfactants had great differences in affecting hyperaccumulating characteristics of the species. EGTA and SDS could not only increase the dry biomass of the plants, but also promote Cd accumulation in shoots and roots. On the contrary, EDTA was toxic to the species by restraining the growth of plants, although it could promote Cd accumulation in shoots and roots of the plants to a certain extent. Thus, EGTA and SDS were effective in enhancing phytoremediation with Althaea rosea Cav. for Cd contaminated soils, while EDTA is ineffective in this regard.     

Risk assessment and loading capacity of reclaimed wastewater to be reused for agricultural irrigation

The reuse of treated municipal wastewater should be one of the new water resource target areas. The suitability of the reuse of wastewater for agricultural irrigation has to consider health risk, soil contamination and the influence of the reclaimed water on crop growth. In this work the aim is to use quantitative risk analysis to assess the health effects related to reclaimed water quality and to calculate the loading capacity of reclaimed wastewater in terms of the heavy metal accumulation. The results of chemical risk assessment show there would be slightly significant health risk and what risk there is can be limited within an acceptable level. The following exposure pathway: reclaimed water-->surface water-->fish (shellfish)-->human, and arsenic risks are of more concern. In terms of reuse impact in soil contamination, the most possible heavy metal caused accumulation is arsenic. The irrigative quantity has to reach 13,300 m(3)/ha to cause arsenic accumulation. However, only 12,000 m(3)/ha is essential for rice paddy cropland. The high total nitrogen of reclaimed water from secondary treatment makes it unfavorable for crop growth. The recommended dilution ratio is 50% during the growth period and 25% during the maturity period.