不同铜污染土壤上海州香薷生长及铜吸收动态

盆栽试验表明,生长期内海州香薷植物体内Cu含量呈现2个随着不同处理中Cu浓度的提高而斜率递增的阶段;海州香薷植株内Cu含量对外界Cu浓度的响应曲线以200mg/kg为转折点,当Cu浓度>200mg/kg时曲线斜率显著增加。在开花初期,Cu400处理污染土壤中Cu清除量达到最大值27.2mg/盆,其污染土壤重金属去除率仅为1.30%。而盛花期,各处理污染土壤中海州香薷植物内Cu含量均明显高于开花初期,Cu400处理污染土壤中Cu清除量达到最大值143mg/盆,其污染土壤重金属去除率达6.85%,与开花初期差异显著(p<0.05)。     

海州香薷和鸭跖草铜吸收机理

研究了解偶联剂、P-型ATP酶抑制剂、离子通道抑制剂、蛋白合成抑制剂和缺铁缺锌诱导对海州香薷(Elsholtzia.splendens)和鸭跖草(Commelina.communis)铜吸收的影响。结果表明,海州香薷对铜的富集能力高于鸭跖草,但鸭跖草对铜的运输能力大于海州香薷。解偶联剂2,4.二硝基苯酚(DNP)和P-型ATP酶抑制剂钒酸钠(Na3VO4)对海州香薷和鸭跖草铜吸收均有一定的抑制作用,说明两种植物对铜可能存在主动吸收。钙离子通道抑制剂LaCl3对海州香薷铜吸收有抑制作用,而对鸭跖草铜吸收没有抑制作用;蛋白合成抑制剂放线菌酮(CHD)对海州香薷铜吸收没有抑制作用,而显著抑制了鸭跖草对铜的吸收。说明海州香薷铜吸收与钙离子通道密切相关。缺铁诱导大大提高了海州香薷与鸭跖草对铜的吸收。低浓度铜处理下,缺锌诱导对两种植物铜吸收影响不大;但高浓度铜处理下,缺锌诱导促进了铜吸收。     

不同铜水平下海洲香薷的生理特性和铜积累研究

本文研究了Cu对耐性植物海洲香薷(Elsholtzia splendens)的生长、Cu积累、叶绿素含量和根系活力的影响,探讨了后2项生理指标与海洲香薷Cu积累之间的关系。研究结果表明:1) 低浓度Cu可促进海洲香薷生长(0.31～50 mmol/L),但随着其浓度的增加出现抑制现象(75～100 mmol/L)。2)叶绿素a及叶绿素b受Cu的影响规律一致。100 mmol/L的高Cu处理可显著降低这两者含量,其余Cu处理水平没有产生显著影响。3)随着Cu浓度的增加根系活力呈现不断下降的趋势。与其余处理相比,Cu浓度高于75 mmol/L时影响达显著水平。4) 地上部和根系Cu浓度、积累量均随着Cu处理浓度的增加而增加,但地上部分Cu积累水平未达到超积累植物的要求。     

香薷植物修复铜污染土壤的研究进展

土壤铜污染有自然来源和人为来源。铜污染土壤中有机质、Fe／Al氧化物对铜的专性吸附，是影响土壤中铜生物有效性的主要因素。近年来，我国原生植物修复材料如海州香薷、鸭跖草、酸模、紫花香薷在国内铜污染土壤的研究中得到广泛应用。其中．采用海州香薷开展铜污染土壤植物修复机理和修复技术的研究，已从实验室水培、盆栽试验的生长反应特性、耐及解铜毒的生理生化反应，进展到室外大田修复的示范工程及技术推广阶段。紫花香薷在重金属复合污染土壤上，也有修复前景。开展植物修复材料的产后处置研究，综合利用和深加工，增大植物修复材料价值，对加强植物修复工程的示范和推广步伐，有重要意义。     

可降解络合剂及微生物调控对海州香薷修复污染土壤的效应

盆栽试验研究了海州香薷在Cu、Zn、Pb污染土壤上生长和对Cu、Zn、Pb的富集能力,以及调控剂EDDS、壳聚糖和微生物菌剂对海州香薷重金属吸收的影响。结果表明,Cu223mg/kg,Pb232mg/kg,Zn1068mg/kg的重金属复合污染土壤对海州香薷的生长发育没有明显影响。施用EDDS(3mmol/kg土) 微生物制剂处理组海州香薷叶片中Cu含量高达847mg/kg,Zn含量为745mg/kg;Cu吸收量高达6244μg/株,Zn吸收量为5670μg/株,叶片中Cu、Zn的含量和吸收量均极显著高于对照(p<0.01);3mmol/kg土EDDS处理海州香薷茎中Pb含量显著增加(p<0.05),茎中Pb的吸收量亦显著提高(p<0.05),茎秆中Pb的吸收量为274μg/株。微生物制剂或壳聚糖单独处理对海州香薷生长和金属元素吸收均没有明显的效果。     

铜锌铅复合污染土壤上香薷植物的生长和重金属吸收动态

盆栽试验研究了海州香薷和紫花香薷在Cu、Zn、Pb复合污染泥沙土上的重金属耐性与吸收动态。结果发现,在Cu、Zn、Pb全量分别为223、1068、232mg/kg的土壤上,两种香薷植物地上部生物量随生长时间的延长其增长趋势明显,其中叶片积累的生物量略高于茎秆积累的生物量;在整个生长期中重金属含量呈现动态变化,重金属吸收量有增加趋势。     

香薷的重金属耐性与吸收性研究

采用温室土培盆栽试验和水培试验方法,研究了重金属复合污染条件下香薷的Cu、Zn、Cd、Pb耐性和吸收性.结果表明,土培试验中,各重金属处理条件未对香薷造成毒害,香薷均生长良好,且各处理间生物量无显著差异;香薷地上部Cu、Zn、Cd、Pb浓度最高分别为12.1、100、0.83、11.3 mg/kg.水培试验条件下,Cu 50 μmol/L、Zn 200 μmol/L+Cd 10 μmol/L及Pb 100 μmol/L处理时香薷均生长良好,且生物量与对照均无显著差异,根部Cu、Zn、Cd、Pb浓度最高为2 270、1 648、1 029、25 331 mg/kg; Cu 100 μmol/L处理时香薷生物量显著低于对照,但并未死亡,该处理下香薷叶片丙二醛、还原型谷胱甘肽、可溶性糖浓度均显著高于对照.两组试验表明,香薷对Cu、Zn、Cd、Pb有极强的耐性,是一种良好的可栽种于重金属污染土壤的经济作物.     

无色菌产酸对土壤溶液重金属浓度及海州香薷重金属吸收的影响

利用培养试验和盆栽试验研究了一株无色菌(Achromatium sp.)对复合污染土壤上Cu、Zn的溶出效果及其对海州香薷(Elsholtzia splendens)生长和Cu、Zn吸收性的影响.结果表明,菌株在培养试验(pH = 4.65)中的产酸效果较盆栽试验(7.3＜pH＜8.2)更佳;土壤溶液可溶性Cu与pH显著正相关,而可溶性Zn与pH显著负相关;和对照处理相比,无色菌处理提高海州香薷的生物量和地上部Cu浓度,显著(p＜0.05)提高海州香薷对污染土壤中Cu的去除潜力.     

修复植物香薷堆肥对缺铜土壤上冬小麦生长和铜吸收的初步研究

通过堆积腐解处理生长在Cu污染土壤上的修复植物-海州香薷,将其研制成堆肥,作为基肥施用于缺Cu土壤,以矫正作物缺Cu症状。盆栽试验研究了这种堆肥对冬小麦(TriticumaestivumL.)生长和Cu吸收的影响。结果表明,施用海州香薷堆肥可显著提高生长在缺Cu土壤上的小麦的株高、生物量和籽实千粒重。与CK相比,千粒重可提高58.9%,籽实产量提高近1倍;而在这种缺Cu土壤上单纯施加N、P、K化肥,反而降低小麦生物量和籽实千粒重。可见,将Cu污染土壤上生长的修复植物海州香薷制成堆肥,施用于缺Cu土壤是一种可实现修复植物资源化的有效途径。     

不同基因型冬小麦镉累积差异及其与根系形态的关系

为了探讨不同冬小麦品种对镉吸收的差异性及其与根系形态的关系,利用水培试验研究不同浓度Cd处理下籽粒镉含量较高的新麦9817(XM)和籽粒镉含量较低的洛优9909(LY)2个小麦品种吸收、累积镉的差异及其根系形态变化特征。结果表明:同一镉浓度下,LY的生物量高于XM,且单株镉累积量高于XM,其对镉胁迫有更好的适应性。中高浓度镉(50,100μmol/L)处理下,LY根系中Cd含量高于XM,而Cd迁移系数低于XM。植株体内镉迁移系数低是造成小麦籽粒中Cd含量低的主要原因。低浓度镉(10μmol/L)胁迫对LY的粗根系的根长、根表面积、根体积有促进作用,XM则表现为抑制作用。中高浓度镉(50,100μmol/L)处理,对XM和LY根系均为抑制作用。XM植株体内镉累积量与根系总根长、根系表面积、根体积的相关系数分别为-0.868,-0.864,-0.838,均为极显著负相关;LY镉累积量与根系总长根系总根长、根系表面积、根体积均为极显著负相关,相关系数分别为-0.936,-0.933,-0.875。根系直径与镉累积量不存在相关关系。     

香薷属植物在重金属修复中的应用进展

香薷属植物应用于重金属修复经历了矿区植物资源调查和比较、室内模拟研究、田间规模修复以及修复后处置研究,已经初步形成一个植物修复技术的完整体系。在现有技术条件下,把生态修复模式、品种驯化及诱导剂"配方"应用到香薷属植物修复土壤重金属污染对提高修复效率具有重要意义。     

Copper Uptake and Tolerance in Two Contrasting Ecotypes of Elsholtzia argyi

Abstract

Information is desired on plant species that have a great potential in phytoremediation of copper (Cu) contaminated soils. Two contrasting ecotypes of Elsholtzia argyi were comparatively studied using nutrient solution culture for their growth response and uptake, distribution, and translocation of Cu. The results show that the ecotype from an old mined area (Sanmen-ecotype) had greater tolerance to Cu than that from the nonmined area (Jiuxi-ecotype) based on dry matter yield at different Cu supply levels. Inhibited root and leaf growth was noted at the external Cu levels > 50 µmol L^?1 for the Sanmen-ecotype, and at the Cu supply levels > 5 µmol L^?1 for the Jiuxi-ecotype. Stem growth was most sensitive to Cu toxicity in E. argyi, and was inhibited at the Cu levels ≥ 2.5 µmol L^?1 for Jiuxi-ecotype and ≥ 25 µmol L^?1 for Sanmen-ecotype. Root Cu concentrations were higher in Sanmen-ecotype than in Jiuxi-ecotype, but leaf, especially stem Cu concentrations were much lower in the former than in the latter. Furthermore, Jiuxi-ecotype was much more efficient than Sanmen-ecotype in the translocation of Cu from root to the shoot, and it had higher ratios of stem/root and leaf/root Cu concentration. At the Cu supply levels higher than 10 µmol L^?1, root concentrations of potassium (K), calcium (Ca), magnesium (Mg), manganese (Mn), and zinc (Zn) considerably decreased in Jiuxi-ecotype, but were not affected or even increased in Sanmen-ecotype. Zinc concentrations in the stems, particularly in the leaves of Sanmen-ecotype increased by 3 folds, but were hardly changed in Juixi-ecotype when grown at the Cu levels higher than 10 µmol L^?1. These results indicate that the Sanmen-ecotype of E. argyi is a Cu-tolerant ecotype, and its tolerance to high Cu levels was mainly related to its extraordinary capability to restrict Cu uptake, especially Cu translocation from root to the shoot, probably by competitive uptake and translocation of Zn.     

Copper Tolerance and Accumulation of Elsholtzia splendens Nakai in a Pot Environment

ABSTRACT

Elsholtzia splendens Naki has been identified as a copper (Cu) geobotanical indicator. In this study, the effects of Cu supply levels (control, 100, 200, 400, 600, 800, 1000, 1200 mg kg¹) on the growth and Cu accumulation in E. splendens were studied in one pot experiment. The results showed that no reduction in shoot height and dry weight was noted when the plants were grown at Cu supply levels up to 1000 mg kg^?1 in soil. Slight stimulation on shoot growth was noted at Cu levels ≥ 100 mg kg^?1. Copper concentration in shoots and roots increased with increasing Cu levels, and reached a maximum of 1751 and 9.45 mg kg^?1 (DW) at 1200 mg Cu kg^?1. The amount of Cu accumulated in the roots and shoots were 313 and 22 μ g plant^?1 at external Cu levels of 1000 and 800 mg kg^?1, respectively. The shoot/root Cu ratios ranged from 0.005 to 0.008 and more than 92% of the total Cu taken up by E. splendens was accumulated in roots. Furthermore, Cu concentrations in roots and shoots were significant and positively correlated with total soil Cu, water, ammonium nitrate (NH₄NO₃), ammonium (NH₄)-acetate, and ethylenediaminetetraacetic acid (EDTA) extractable Cu. These results indicate that E. splendens can considered as a Cu tolerant and accumulated plant, and root is the major part for accumulation of Cu in E. splendens.     

两种矿山生态型香薷对铜的吸收、分布和积累特性研究

Two ecotypes of Elsholtzia, Elsholtzia splendens and E. argyi, are dominant plants growing on Cu and Pb-Zn smelters, respectively. Samples of the two ecotypes and the corresponding soils from fields of a copper mining area and a Pb-Zn mining area of Zhejiang Province, China, were analyzed to investigate Cu or Zn tolerance of these two ecotypes. Effects of nine Cu levels (0, 5, 10, 20, 40, 80, 160, 240 and 320 mg Cu L^-1 as CuSO₄·5H₂O) on growth and uptake, translocation and accumulation of Cu in these two ecotypes were examined in a solution culture experiment. The experimental results showed that dry weights (DW) of shoots and roots were depressed, and growth of E. splendens was less depressed than that of E. argyi when treated with ≥ 5 mg Cu L^-1. Concentrations of Cu in shoots of E. splendens and E. argyi exceeded 1 000 mg kg^-1 DW at ≥ 40 mg Cu L^-1. The maximum Cu accumulated in the shoots of Cu-treated E. splendens and E. argyi reached 101 and 142 μg plant^-1. Furthermore, analysis of plant samples from the fields showed that these two ecotypes can tolerant excess heavy metals and produced high dry matter, and E. splendens can accumulate 11.7 mg Cu plant^-1 grown on the Cu smelter. Therefore, E. splendens and E. argyi could be good plants for phytoremediation.