商陆对锰污染土壤的修复实验研究

商陆是在中国境内发现的多年生、草本型锰超积累植物。通过室内土培试验,评价商陆对土壤中锰的去除潜力,确定最佳收获时间,以期达到最佳的重金属污染土壤植物修复效果。结果表明:商陆能将土壤中的锰转运到地上部位,叶片中Mn含量最高,平均值为17 043 mg/kg DW,远远大于茎和根的锰含量均值;单株的平均富集量在浓度为500 mg/kg DW时达最高,一棵商陆可富集平均13 mg的Mn;动态修复中确定的最佳收获时间为60 d,不同时间收获的商陆地下部分生物量差异不明显(P0.05),地上部分则差异较大。连续收获不改变其锰生物富集能力。这表明商陆对锰有较强的富集能力,是一种优良的修复锰污染土壤的物种,对土壤重金属污染的治理及植物修复领域数据库的完善具有重要意义。     

珊瑚树（Viburnum odoratissinum）对污染土壤中镉的耐受和富集特征

通过温室盆栽试验,研究珊瑚树对土壤中镉(Cd)的耐受和富集特征。研究结果表明,珊瑚树对污染土壤中Cd具有较强的耐受能力。培养56 d内,土壤中Cd含量对珊瑚树生物量影响不明显;随着培养时间的延长(105—203 d),珊瑚树的生长明显受到土壤中Cd的抑制作用。与对照处理(土壤中Cd含量为3.6 mg/kg)相比,培养154 d后,土壤中Cd含量为24.6 mg/kg处理下珊瑚树叶片中叶绿素a、叶绿素b、类胡萝卜素和丙二醛(MDA)含量没有明显变化;培养203 d后,土壤中Cd含量为24.6mg/kg处理下珊瑚树叶片中类胡萝卜素和MDA含量无明显变化,但叶片中叶绿素a和叶绿素b含量明显受到抑制,从而导致珊瑚树叶片的生长明显受到抑制(P0.05)。培养203 d后,珊瑚树对土壤中Cd的富集系数和转运系数均大于1,表明珊瑚树对土壤中Cd具有一定的富集和转运能力。上述结果表明,珊瑚树对Cd污染土壤具有一定的生态修复潜力。     

接种耐镉细菌对青葙吸收积累土壤中镉的影响

于广东省大宝山尾矿区发现1种镉含量较高的植物——青葙(Celosia argentea),将其幼苗种植于不同浓度的镉污染土壤中培养,研究其镉吸收特性。结果表明,青葙可耐受浓度为40 mg·kg-1以上的镉污染,且植株内镉含量随土壤镉浓度的增加而升高。通过在培养基中加入不同浓度的镉(Cd Cl2·2.5H2O),从镉超富集植物龙葵(Solanum nigrum)叶片中筛选到1株耐受镉浓度达200 mg·L-1的内生细菌DE5,经生理生化试验和16S r DNA序列分析,将其鉴定为争论贪噬菌(Variovorax paradoxu),Genbank登录号为KF051781。温室内设置盆栽试验,以灌根的方式接种DE5发酵液,通过对青葙株高、生物量及镉含量的测定,研究接种内生菌对青葙吸收镉的影响,结果表明,接菌处理的青葙根部干重相比于对照增加125.0%,地上部和全株的镉吸收总量分别增加81.7%和81.1%。研究表明,青葙是一种良好的镉污染土壤修复的植物资源,接种DE5能够强化青葙的镉吸收效果,其作用效果好于浇施螯合剂EDTA,具有一定的应用潜力。     

施肥对两种苋菜吸收积累镉的影响

通过盆栽试验,研究了生长在5 mg/kg镉(Cd)污染土壤中的两种苋菜(红苋(Amaranthus Paniculatus L.)和绿苋(Amaranthus Paniculatus L.))在3种施肥处理下(N、NP和NPK)的生长状况和对Cd的吸收积累情况。结果表明,两种苋菜能够在污染土壤中正常生长,各器官中叶Cd含量最高,范围为124.1—225.9 mg/kg;根中次之,范围为57.1—100.6 mg/kg;茎中最低,范围为56.2—87.6 mg/kg;富集系数高达22.4—40.2。施加N,NP,NPK肥对两种苋菜器官中的Cd含量和生物量有显著影响。其中,施加NPK肥使红苋和绿苋的生物量分别达到不施肥(对照)处理的3.5和3.2倍,单株提取Cd的总量是对照3.2和5.0倍。综上表明,两种苋菜(红苋和绿苋)具有生物量大、易栽培、施加NPK肥能够大幅增加生物量的同时不减少器官对Cd的吸收等优点,作为Cd污染土壤的修复植物有巨大应用前景。     

鬼针草(Bidens pilosa L.)对镉污染农田的修复潜力

为探究富集植物鬼针草对镉(Cd)污染农田土壤的修复潜力,通过野外调查,原土盆栽试验和田间试验,测定鬼针草及其根系土壤Cd含量,计算鬼针草的富集系数和去除率。结果表明,野外调查中不同铅锌矿区生长的鬼针草叶片中Cd含量最大值为53.3 mg/kg。盆栽试验中,低浓度Cd土壤处理(T1),鬼针草地上部Cd的富集系数为4.70,转运系数1.59,大于1。高浓度Cd土壤处理(T2 13.4 mg/kg),其地上部Cd积累量达到43.1 mg/kg,其地上部Cd富集系数为3.51。鬼针草对Cd表现出稳定的积累特性。田间试验小区中,土壤Cd含量均值为2.66 mg/kg,鬼针草中地上部Cd含量均值为10.9 mg/kg,富集系数为4.16,使用鬼针草修复Cd污染土壤每公顷地种植一茬鬼针草的去除率为4.3%—6.2%。使用富集植物鬼针草修复农田Cd污染具有较好的工程应用前景。     

锰污染对酸模叶蓼生长、锰吸收及抗氧化物活性的影响

采用土培方法,研究了广西某锰矿区未开采区、探矿区、恢复区、开采区和尾矿坝的土壤对酸模叶蓼(Polygonum lapathifolium Linn.)的生长、Mn吸收及抗氧化酶系统的影响。结果表明,酸模叶蓼的根、茎、叶中Mn含量随着土壤Mn浓度的增加而增加,Mn含量依次为根茎叶;尾矿坝土壤中(T6处理),叶片Mn含量达到最大值5566.9 mg/kg。锰污染显著提高了酸模叶蓼叶片中H_2O_2和MDA的含量,但锰污染对酸模叶蓼的生物量无显著影响。锰污染土壤显著降低了酸模叶蓼叶片中SOD、POD、APX和As A等抗氧化物的活性,而CAT的活性则呈先上升后下降的趋势,表明Mn污染促使酸模叶蓼启动了抗氧化酶系统;Mn污染同时显著提高了酸模叶蓼叶片中-SH、GSH和PCs的含量,表明-SH、GSH和PCs在解毒酸模叶蓼Mn毒害的过程中起重要作用。     

超富集植物短毛蓼对锰的富集特征

通过野外调查和营养液培养试验,研究了锰在短毛蓼体内的富集特征和对其生长的影响.在锰含量高达2.5×105mg/kg的锰矿废弃地上短毛蓼生长良好,叶锰含量高达1.66×104mg/kg.营养液培养条件下,随着生长介质中Mn浓度的升高,短毛蓼根、茎、叶中的Mn含量逐渐增加,当锰供应水平为1.000mmol/L时,叶锰含量超过10000mg/kg;当锰供应水平为20 000mmol/L时,短毛蓼仍能生长,根、茎和叶3部分的锰含量均达到最大值,分别为9923,18112mg/kg和55750mg/kg.在所有锰供应水平下,短毛蓼茎和叶中的锰含量都比根部的高.结果表明,短毛蓼是一种锰超富集植物,这一发现为锰污染土壤的植物修复和探讨锰在植物体内的超富集机理提供了一种新的种质资源.     

4种藤本植物对锰污染土壤的耐受性及其生理响应

为筛选对Mn污染土壤具有较高耐受性的藤本植物并探讨其抗Mn生理机制,以薜荔、忍冬、五叶地锦和络石扦插苗为材料,采用模拟Mn污染土壤培养法,配置Mn含量分别为3 000mg/kg(T1)、6 000mg/kg(T2)、9 000mg/kg(T3)和12 000mg/kg(T4)的Mn污染土壤,以不加Mn的土壤为空白对照(CK),研究不同浓度Mn胁迫对4种藤本植物生物量、生长量、不同部位Mn含量、叶绿素含量、丙二醛(MDA)含量及超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)活性的影响,并对其耐性指数(Ti)、转移系数(TF)、生物富集系数(BCF)进行了比较分析。结果表明:(1)随着Mn处理浓度的升高,薜荔、五叶地锦、忍冬、络石的生物量、生长量总体呈现下降的趋势,平均耐性指数依次分别为82.48%、84.86%、89.21%和95.41%。(2)地上部分、根系的Mn含量随着Mn处理浓度的增加总体呈现升高的趋势,且根系的Mn含量都高于地上部分,TF值均小于1,地上部分和根系的BCF平均值均依次为:络石忍冬五叶地锦薜荔。(3)随土壤Mn处理浓度的升高植物叶绿素含量总体呈现下降的趋势,MDA含量持续上升,而SOD活性、POD活性、CAT活性呈先升后降的趋势,在T4处理时络石的叶绿素含量和三种抗氧化酶活性下降幅度、MDA上升幅度均低于其他3种植物。研究表明,络石较其他3种植物具有更高的Mn耐受性以及Mn转移能力和富集能力,可作为Mn尾矿污染土壤修复的潜力植物。     

镉在土壤-香根草系统中的迁移及转化特征

以无植物组处理为对照,采用盆栽试验方式探讨不同Cd浓度胁迫条件下香根草根际土壤中重金属Cd的积累、迁移及转化特征。土壤Cd处理设4个浓度梯度,分别为0、2、20、80 mg/kg土壤干重。结果表明:(1)香根草可以显著降低土壤中生物有效态Cd和总Cd含量。(2)香根草各部分Cd积累量随处理浓度的增加和处理时间的延长而增加,90 d时80 mg/kg处理组地上部分和根的Cd积累量分别高达180.42 mg/kg和241.54 mg/kg。(3)各浓度Cd处理下,富集系数随着Cd处理浓度的增加而显著降低,随处理时间的延长而升高。(4)香根草地上部分Cd含量小于根部,各处理转移系数均小于1。随着处理时间的延长,中低浓度处理组的转移系数稍有降低,高浓度处理组的转移系数则显著上升。(5)种植香根草使其根际土中残渣态的Cd转化为生物有效态Cd,提高Cd清除效率。研究结果表明,香根草能够有效地吸收土壤中的Cd,降低土壤中总Cd含量,提高土壤安全性,可作为Cd污染地区植物修复的备选物种。     

三种植物对土壤磷吸收和富集能力的比较北大核心CSCD

筛选磷富集植物是磷矿废弃地土壤与植被修复的关键。该文以向日葵(Helianthus annuus)、苏丹草(Sorghum sudanense)、南瓜(Cucurbita moschata)为研究对象,采用盆栽试验,设置5个磷浓度(0、100、300、500和700 mg·kg–1),分别在3个不同生长时段(4周、7周、10周)内采样,对这3种植物的磷吸收和富集能力进行了比较。结果表明:(1)在相同生长时间内,向日葵、苏丹草、南瓜的地上部磷含量均随磷处理浓度的升高而增大,最大值分别为9.67 g·kg–1、4.86 g·kg–1、6.32 g·kg–1;相同浓度下,向日葵地上部磷含量随着生长时间的延长呈上升趋势,苏丹草则呈下降趋势,南瓜无显著变化;(2)3种植物的地上部磷累积量均在磷处理浓度为700 mg·kg–1时,生长10周后达到最大值,分别为217.83 mg·plant–1、93.92 mg·plant–1、135.82 mg·plant–1;(3)各浓度处理下,向日葵、苏丹草的地上部磷富集系数和转移系数均大于1.00,南瓜的地上部磷富集系数和转移系数波动较大;向日葵的富集系数和转移系数最大值分别达11.39和4.09。综合比较可知,3种植物磷吸收和富集能力的大小顺序为:向日葵>南瓜>苏丹草。向日葵各项富磷特征基本符合磷富集植物的筛选标准,可作为磷矿废弃地土壤与植被修复的备选物种。     

一种新发现的镉超积累植物--钻叶紫菀(Aster subulatus Michx.)

通过野外调查和温室营养液砂培试验,发现并鉴定出钻叶紫菀（Aster subulatus Michx.）是一种新的镉（Cd）超积累植物。调查结果发现,钻叶紫菀对土壤中高含量的Cd有很强的忍耐、吸收和积累能力,其地上部茎、叶Cd含量分别为90.0-150.7mg/kg和119.8-172.6mg/kg,平均值分别为132.8mg/kg和139.2mg/kg。砂基营养液培养试验证明,钻叶紫菀对生长介质中的Cd有很强的忍耐能力,当生长介质中Cd浓度高达150mg/L时,植株仍生长正常,其株高与对照相比无显著差异;地上部Cd含量及其积累量均随生长介质中Cd浓度的增加而增加,当生长介质中Cd浓度为120mg/L时,地上部茎Cd含量和积累量达到最高值,分别为5672.50mg/kg、4.93mg/株。结果表明,钻叶紫菀是一种新的Cd超积累植物,为今后探明植物超积累Cd的机理和Cd污染土壤的植物修复提供一种新的种质资源。     

A newly found manganese hyperaccumulator—Polygonum lapathifolium Linn.

In the present work, both field investigation and laboratory experiment were carried out to testify whether Polygonum lapathifolium L. is a potential manganese (Mn) hyperaccumulator. Results from field investigation showed that P. lapathifolium had great tolerance and accumulation to Mn. Mn concentrations in leaves were the highest, varied from 6889.2 mg kg-1 dry weight (DW) to18841.7 mg kg^?1 DW with the average of 12180.6 mg kg^?1. The values of translocation factor (the concentrations of Mn in leaf to that in root) ranged from 5.72 to 9.53. Results from laboratory experiment illuminated that P. lapathifolium could grow well and show no toxic symptoms even under high Mn stress (16 mmol L^?1). Although the changes of antioxidant enzymes activities were triggered under Mn stress, the alterations of pigments were not significant (P > 0.05) as compared with control. Total plant biomass and plant height increased with increasing Mn supply. Mn concentrations in leaves and stems were constantly greater than those in roots, the ratio of concentrations in leaves to that in roots were 2.58–6.72 and the corresponding values in stems to that in roots were 1.45–3.18. The results showed that P. lapathifolium is a Mn-hyperaccumulator.     

Distribution and mobility of manganese in the hyperaccumulator plant Phytolacca acinosa Roxb. (Phytolaccaceae)

The distribution and mobility of manganese (Mn) in the hyperaccumulator plant species Phytolacca acinosa Roxb. (Phytolaccaceae) were investigated in a hydroponic system. The plants were exposed to 2 or 5 mM Mn for up to 28 days. For any given plant, the Mn content in the mature leaves (nos. 5–9) was always higher than that in the old (nos. 1–4) and young leaves (nos. 10–14). Within the different parts of a leaf, Mn was preferentially accumulated in the leaf marginal area, where the observed level was threefold higher than that in the midrib. Cross-sectional analysis of the leaf revealed that the concentration of Mn was higher in the leaf epidermis than in the mesophyll. Cell fractionation analysis with P. acinosa leaves showed that most of the Mn (78.4%) was present in the final supernatant fraction (following centrifugation at 20,000 g for 45 min). The distribution of Mn in the leaves of P. acinosa was controlled mainly by the transpiration rate. Our investigation demonstrated that Mn was readily transported from the roots to shoots of P. acinosa but that it could not be remobilized readily after it reached leaves.     

Potential of Mauritius Hemp (Furcraea gigantea Vent.) for the Remediation of Chromium Contaminated Soils

The present study was conducted to evaluate the ability of a high biomass producing, drought tolerant succulent plant Mauritius hemp (Furcraea gigantea Vent.) for its tolerance to different levels of Cr (0, 25, 50, 100 and 200 mg Cr kg soil^?1) and its potential for phytoremediation purposes. Based on the data on inhibition of the growth of plants with Cr, tolerance index and grade of growth inhibition, it was observed that the plant could tolerate up to 50 mg Cr kg ^?1 soil. Absorption of Cr from soil to plant and its translocation into plant tissues were discussed in terms of bio concentration factor (BCF), transfer factor (TF), and translocation efficiency (TE%). Cr was mainly accumulated in the roots and exclusion of Cr was found to be the principal physiological tolerance mechanism followed by a marked increase in proline, ascorbic acid, total free amino acids in the leaf tissue and malic acid in the rhizosphere samples to counter Cr stress. Based on the tissue concentration of Cr (< 300 μg g^?1 in the leaves and TF<1), it was concluded that, Furcraea gigantea could not be considered a hyperaccumulator and therefore unsuitable for phytoextraction of Cr. Nevertheless, Furcraea gigantea could be a suitable candidate for phytostablization of Cr contaminated soils.     

西沙群岛银毛树(Tournefortia argentea)的生态生物学特性

银毛树(Tournefortia argentea)为紫草科紫丹属常绿小乔木或灌木,是东半球热带海岸和海岛常见的先锋植物,具有重要的生态价值、观赏价值和食用价值。为掌握银毛树对热带珊瑚岛环境的生态适应机理,为其保护和开发利用提供基础资料,该研究以西沙群岛东岛自然生长的银毛树为对象,对其形态解剖结构、生理学特征、叶片营养元素和根际土壤的理化性质等进行了分析。结果表明:(1)银毛树具有叶表面气孔密度低、比叶面积小、海绵组织发达、枝条的空腔比高等特点,有较好的储水抗旱能力。(2)银毛树叶片表面有厚密白色绢毛覆盖,可以反射强光、降低水分散失,有利于其适应强光和干旱环境。(3)银毛树叶片的脯氨酸含量较高,能够很好地抵抗渗透胁迫,为细胞提供良好的生存环境。(4)银毛树生长的土壤呈强碱性,养分和水分含量较低,但其叶片营养元素含量正常,表明其对土壤养分的利用率高,能够很好地适应瘠薄的土壤环境。(5)银毛树木质部密度低,枝干脆弱易折,可防止被大台风连根拔起,同时枝干含水丰富,有利于其抵抗台风及树冠的快速恢复。因此,银毛树能较好适应干旱、强光和瘠薄的滨海沙滩环境,在热带珊瑚岛(礁)或滨海地区防风固沙及植被恢复方面有较好的应用前景。     

Simultaneous hyperaccumulation of cadmium and manganese in Celosia argentea Linn.

To indentify Mn/Cd co-hyperaccumulatoion in Celosia argentea Linn., 2 pot experiments were conducted using Cd/Mn-amended and real contaminated soils, respectively. The interaction between Cd and Mn with regard to their accumulation in the plants was also assessed. The results indicated that C. argentea can simultaneously hyperaccumulate Cd and Mn. The maximum Cd and Mn concentrations in leaves were 276 and 29,000 mg/kg, respectively. Mn application significantly enhanced the biomass production and Cd accumulation in shoots (p < 0.05). However, Cd addition did not reduce Mn accumulation in the plants. The interactions between Cd and Mn in C. argentea differ from what was previously found in hydroponic experiments. This species grew healthy in soils taken from a Cd/Mn-contaminated site, indicating a high tolerance to Cd and Mn. The transfer and bioaccumulation factors of Cd and Mn were greater than 1, which showed that C. argentea had potential for Cd and Mn phytoextraction. Besides its potential practical benefits, C. argentea is an important resource to study the mechanisms of Cd/Mn hyperaccumulation and tolerance in plants.     

巨大芽孢杆菌对伴矿景天修复镉污染农田土壤的强化作用

伴矿景天(Sedum plumbizincicola)是一种Cd/Zn超积累植物,常用于Cd污染土壤的植物修复。巨大芽孢杆菌(Bacillus megaterium)是一种溶磷型细菌,既可以促进植物生长,也可以提高土壤重金属生物有效性,对重金属污染土壤植物修复具有强化作用。本研究采用盆栽试验方法,分析了巨大芽孢杆菌不同接种量(10～60 mL)对伴矿景天修复Cd污染农田土壤效率的影响。结果表明: 在Cd污染农田土壤中接种巨大芽孢杆菌可以提高土壤中Cd的活性,土壤有效态Cd含量较对照(CK)增加15.0%～45.0%。与CK相比,巨大芽孢杆菌提高了伴矿景天地上和地下部的生物量,增幅分别为8.7%～66.7%和13.6%～81.8%,并显著增加了伴矿景天地上部的Cd含量,增幅在29.2%～60.4%。在种植伴矿景天并接种巨大芽孢杆菌条件下,土壤Cd去除率在26.7%～42.9%。这说明接种巨大芽孢杆菌可以促进伴矿景天的生长,增加其Cd含量,从而提高Cd污染农田土壤的修复效率。     

Manganese and iron interactions on their uptake and distribution in soybean (Glycine max (L.) Merr.)

Summary The uptake and distribution of iron and manganese were studied in a manganese-sensitive soybean cultivar (‘Bragg’) grown over a range of supply levels of these nutrients in solution culture. At high (90 and 275 μM) manganese levels, increasing the iron concentration in solution from 2 to 100 μM partially overcame the effects of manganese toxicity. Interactions between manganese and iron occurred for dry matter yields, rate of Mn absorption by the roots, and the proportions of manganese and iron transported to the tops. No interaction was observed for the rate of root absorption of iron. The percentage distribution of manganese in the plant top increased with increasing iron, despite a reduced rate of Mn uptake. On the other hand, iron uptake was independent of solution Mn concentration and increased with increasing solution Fe. Also more iron was retained in the roots at high Mn and/or Fe levels in solution. Concentrations of manganese and iron in roots, stems and individual leaves were affected independently by the manganese and iron supplyi.e. without any interaction occurring between the two elements. In general, the concentration in a plant part was related directly to the solution concentration. Symptoms resembling iron deficiency correlated poorly with leaf Fe concentrations whereas high levels of manganese were found in leaves displaying Mn toxicity symptoms.