Phytoremediation for phenanthrene and pyrene contaminated soils

Phytoremediation of soil contaminated with phenanthrene and pyrene was investigated using twelve plant species. Plant uptake nd accumulation of these chemicals were evaluated. At the end of the experiment(45 d), the remaining respective concentrations of soil henanthrene and pyrene in spiked vegetated soils, with initial phenanthrene of 133.3 mg/kg and pyrene of 171.5 mg/kg, were 8.71-16.4 nd 44.9-65.0 mg/kg, generally 4.7%-49.4% and 7.1%-35.9% lower than their concentrations in the non-vegetated soils. The loss f phenanthrene and pyrene in vegetated spiked soils were 88.2%-93.0% and 62.3%-73.8% of the added amounts of these ontaminants, respectively. Although plant uptake and accumulation of these compounds were evident, and root concentrations and RCFs(root concentration factors; defined as the ratio of PAH concentrations in roots and in the soils on a dry weight basis) of these compounds ignificantly positively correlated to root lipid contents, plant uptake and accumulation only accounted for less than 0.01% and 0.23% of the nhanced loss of these chemicals in vegetated versus non-vegetated soils. In contrast, plant-promoted microbial biodegradation was the ominant mechanism of the phytoremediation for soil phenanthrene and pyrene contamination. Results from this study suggested a easibility of the establishment of phytoremediation for soil PAH contamination.     

Enhancing plant-microbe associated bioremediation of phenanthrene and pyrene contaminated soil by SDBS-Tween 80 mixed surfactants

The use of surfactants to enhance plant-microbe associated dissipation in soils contaminated with polycyclic aromatic hydrocarbons(PAHs) is a promising bioremediation technology. This comparative study was conducted on the effects of plant-microbe treatment on the removal of phenanthrene and pyrene from contaminated soil, in the presence of low concentration single anionic, nonionic and anionic-nonionic mixed surfactants. Sodium dodecyl benzene sulfonate(SDBS) and Tween 80 were chosen as representative anionic and nonionic surfactants, respectively. We found that mixed surfactants with concentrations less than 150 mg/kg were more effective in promoting plant-microbe associated bioremediation than the same amount of single surfactants. Only about(m/m) of mixed surfactants was needed to remove the same amount of phenanthrene and pyrene from either the planted or unplanted soils, when compared to Tween 80. Mixed surfactants( 150 mg/kg) better enhanced the degradation efficiency of phenanthrene and pyrene via microbe or plant-microbe routes in the soils. In the concentration range of 60–150 mg/kg, both ryegrass roots and shoots could accumulate 2–3 times the phenanthrene and pyrene with mixed surfactants than with Tween 80. These results may be explained by the lower sorption loss and reduced interfacial tension of mixed surfactants relative to Tween 80, which enhanced the bioavailability of PAHs in soil and the microbial degradation efficiency. The higher remediation efficiency of low dosage SDBS-Tween 80 mixed surfactants thus advanced the technology of surfactant-enhanced plant-microbe associated bioremediation.     

金发草对土壤中菲、芘的修复机制

采用盆栽试验法,研究岩生植物金发草(Pogonatherum paniceum L.)对土壤中芘、菲的去除效果与修复机制.结果显示,在试验浓度范围(20～322 mg·kg^-1)内,种植金发草能有效去除土壤中芘、菲污染. 70 d后,菲、芘去除率分别为50.97%～86.77%、 46.45%～76.7%;比对照1(加0.1% NaN₃)高63.56%、 58.6%,比对照2(无NaN₃)高46.09%、 42.92%.金发草能吸收、富集部分菲和芘,根、茎叶组织中菲、芘含量随菲、芘添加浓度的升高而增大,且根部大于茎叶部、芘大于菲,但生物浓缩系数却逐渐减小.修复过程中,非生物因子、植物代谢、富集、微生物降解对菲的去除率分别为5.1%、 0.32%、 4.22%、 17.47%,对芘的去除率分别为2.56%、 4.27%、 2.01%、 15.68%;植物-微生物间的交互作用对菲、芘的去除率分别为41.56%、 36.64%.说明植物-微生物交互作用是金发草修复土壤中菲芘污染的主要机制.     

溴化十四烷基吡啶对黑麦草吸收土壤中菲的影响

研究了澳化十四烷基吡啶(Myrlstylpyridinium bromide,MPB)对黑麦草吸收土壤中菲的影响.结果表明.由于MPB能显著增强吸附固定土壤中的菲,限制其从土壤固相向土壤水相迁移,从而可降低土壤水相中菲浓度,导致黑麦草吸收积累菲的程度降低.在两种不同菲污染水平的土壤中,MPB添加浓度为0～600 mg·kg-1时,黑麦草根系和茎叶中菲含量均随MPB添加量的增加而降低.当MPB添加浓度为600 mg·kg-1时.黑麦草根系菲含量分别为0.12 mg·kg-1和0.35 mg·kg-1,分别比对照低了77.0%和53.3%;茎叶中菲含量为0.12 mg·kg-1和0.26 mg·kg-1,分别比对照低了64.7%和50.9%.     

苜蓿对多环芳烃菲污染土壤的修复作用研究

采用盆栽试验方法,研究了苜蓿(Medicago sativa L.)对多环芳烃菲污染土壤的修复作用.结果表明,多环芳烃菲对苜蓿的生长具有抑制作用,土壤中菲初始浓度越高抑制作用越明显.445.22 mg/kg条件下苜蓿茎叶和根的生物量最小,仅为无污染对照土壤的57.31%和31.20%.经过60 d的修复试验,苜蓿能够明显促进土壤中菲的降解.根际和非根际土壤中菲的去除率分别为85.68%～91.40%和75.25%～86.61%.同处理中根际土壤中菲残留浓度低于非根际土壤,而脱氢酶活性高于非根际土壤.无论是在非根际还是根际土壤中随着菲初始浓度增大,菲降解率和脱氢酶活性降低.脱氢酶活性与降解率的关系表明,脱氢酶活性与菲降解率显著正相关.所以植物根系的存在能够有效促进土壤中多环芳烃菲的降解.     

典型土壤中多环芳烃纵向迁移过程模拟研究

选择北京潮土、清源潮棕壤、江西红壤和黑龙江黑土4种典型土壤,采用土柱淋滤模拟实验方法,以菲和芘为代表,对比考察多环芳烃在不同土壤中的纵向迁移过程,综合分析土壤基本理化性质对多环芳烃纵向迁移过程的影响。结果表明:土壤细颗粒(0～20μm)含量和土壤有机质是制约多环芳烃在土壤中纵向迁移的主要因素,容重和阳离子交换量对该环境过程影响不大。淋滤结束后土柱中多环芳烃残留量监测结果显示:北京潮土中,菲和芘的平均浓度最低,分别为8.81,9.94 mg/kg;黑龙江黑土中,两者的残留浓度最高,分别达14.62、17.02 mg/kg。最后,SPSS相关性分析结果表明,土柱中菲、芘的残留量与土壤细颗粒(0～20μm)含量的相关系数分别为0.99和0.93,与土壤有机质的相关系数分别为0.74和0.88。     

Removal of high concentrations of polycyclic aromatic hydrocarbons from contaminated soil by biodiesel

Solubilizing experiments were carried out to evaluate the ability of biodiesel to remove polycyclic aromatic hydrocarbons (PAHs) from highly contaminated manufactured gas plant (MGP) and PAHs spiked soils with hydroxypropyl-β-cyclodextrin (HPCD) and tween 80 as comparisons. Biodiesel displayed the highest solubilities of phenanthrene (420.7 mg·L⁻¹), pyrene (541.0 mg·L⁻¹), and benzo(a)pyrene (436.3 mg·L⁻¹). These corresponded to several fold increases relative to 10% HPCD and tween 80. Biodiesel showed a good efficiency for PAH removal from the spiked and MGP soils for both low molecular weight and high molecular weight PAHs at high concentrations. Biodiesel was the best agent for PAH removal from the spiked soils as compared with HPCD and tween 80; as over 77.9% of individual PAH were removed by biodiesel. Tween 80 also showed comparable capability with biodiesel for PAH solubilization at a concentration of 10% for the spiked soils. Biodiesel solubilized a wider range of PAHs as compared to HPCD and tween 80 for the MPG soils. At PAH concentrations of 229.6 and 996.9 mg·kg⁻¹, biodiesel showed obvious advantage over the 10% HPCD and tween 80, because it removed higher than 80% of total PAH. In this study, a significant difference between PAH removals from the spiked and field MGP soils was observed; PAH removals from the MGP soil by HPCD and tween 80 were much lower than those from the spiked soil. These results demonstrate that the potential for utilizing biodiesel for remediation of highly PAH-contaminated soil has been established.     

限制分配模型预测黑麦草吸收PAHs

采用水培体系检验了限制分配模型预测黑麦草同时吸收苊、芴、菲和芘4种多环芳烃(PAHs)的准确性.结果表明,限制分配模型能够较好地预测黑麦草吸收积累PAHs的程度.但由于该模型仅考虑根部传输,忽略了叶面吸收,导致模型对茎叶中PAHs含量预测的准确性较差.根系和茎叶的预测误差(预测值与实测值之差除以实测值的百分数)分别小于57.4%和98.5%.若考虑叶面吸收对模型预测的影响,则能显著降低茎叶中4种PAHs的预测误差.由于叶面吸收的影响随PAHs脂溶性升高而增大,预测误差降低程度为芘>菲>芴>苊,其中芘的最大预测误差由98.5%下降至69.4%.     

Assessing availability, phytotoxicity and bioaccumulation of lead to ryegrass and millet based on 0.1 mol/L Ca(NO3)2 extraction

This study was conducted to assess availability, phytotoxicity and bioaccumulation of lead （Pb） to ryegrass （Lolium perenne L.） and millet （Echinochloa crusgalli） based on the 0.1 mol/L Ca（NO3）2 extraction. Effect of soil properties on availability, phytotoxicity and bioaccumulation of Pb to the two plants was also evaluated. Five soils with pH values varying from 3.8 to 7.3, organic carbon （OC） contents from 0.7% to 2.4%, and clay contents from 11.6% to 35.6% were selected. Soils were spiked with Pb to achieve a range of concentrations： 250, 500, 1000, 3000 and 5000 mg/kg. Pb availability in the spiked soils was estimated by extracting soil with 0.1 mol/L Ca（NO3）2. The results indicate that plants yield decreased with decreasing soil pH and increased with increasing soil clay and OC content. Negative relationship between available Pb and the relative dry matter growth （RDMG） of the two plants were significantly related. Available Pb used to assess EC20 （20% effective concentration） and EC50 （50% effective concentration） of millet was 119 and 300 mg/kg, respectively. Available Pb used to assess EC20 and EC50 of ryegrass was 63 and 157 mg/kg, respectively. Bioaccumulation, expressed as bioconcentration factors of Pb, was inversely related to soil pH, soil OC and clay content. Strong relationships were found between available lead and uptake by the two plants （P was 0.92 and 0.95 respectively）. In general, 0.1 mol/L Ca（NO3）2 available Pb may be used to assess the availability, phytotoxicity and bioaccumulation of lead to the two plants tested.     

几种多环芳烃的植物吸收作用及其对根系分泌物的影响

采用水培试验方法,以多年生黑麦草(Lolium multiflorum Lam.)为供试植物,研究了芘、菲、苊和萘的植物吸收作用及其对根系分泌物的影响.结果表明,黑麦草能明显吸收富集多环芳烃(PAHs);随培养液中PAHs浓度的升高,其在黑麦草根和茎叶中的含量增大,且根的PAHs含量、富集系数要远大于茎叶.芘、菲、苊、萘污染胁迫下,黑麦草根系分泌物中可溶性有机碳、草酸和可溶性总糖的含量均高于无污染对照.供试污染浓度范围内,随着培养液中菲、苊、萘浓度提高,可溶性有机碳、草酸及可溶性总糖的分泌量增大;但在芘胁迫下,与污染对照相比,分泌量的增加幅度随着芘浓度的升高则呈先增大后减小的趋势.在较低污染强度下,供试PAHs对根系分泌物的促分泌效应由强到弱依次为芘、菲、苊和萘.4种PAHs对可溶性糖类的促分泌作用最强,其分泌量的增加幅度明显大于可溶性有机碳和草酸.     

植物滞留系统中草本植物对磷的去除效果研究

以黑麦草、地毯草、高羊茅和早熟禾为研究对象,研究4种草本植物在植物滞留系统中不同介质、不同入口浓度下对城市非点源(人工降雨径流)中污染物磷的富集能力和去除效果。结果表明:4种草本植物对人工降雨径流中的磷均有明显的去除效果,TP平均去除率在60.24%～83.56%。不同草本植物去除人工降雨径流中TP的能力,从强到弱的顺序依次为:早熟禾>黑麦草>地毯草>高羊茅。其中,对于同一种草本植物同样的入口浓度情况下,沙土Ⅱ为最佳土壤介质,具有最佳的去除磷能力。4种草本植物对磷的去除率随入口浓度的增加,去除率也随之增加。4种草本植物地上部和地下部磷累积量分别为2.27～5.92 mg和4.33～6.46 mg;其中黑麦草磷累积总量最高,其次是地毯草,最低的是早熟禾。综合考虑污染物去除率和磷在植物体内的累积量,交替种植早熟禾和黑麦草可提高植物滞留系统去磷能力且有利于延长系统寿命。     

东北地区23种杂草对多环芳烃超积累特性研究

采用盆栽试验的方法研究了东北地区23种杂草对土壤中多环芳烃（菲）的积累特性.结果表明,在这23种杂草中,东北蒲公英、委陵菜和白屈菜地上部富集系数均大于1,分别为1.01、4.98、38.24,且地上部菲含量分别为15.18、74.70和573.62 mg/kg,均高于根部的菲含量（分别为2.83、16.34和9.66 ...     

土壤中芘、菲、萘、苯对小麦的生态毒性影响

采用生物培养和物理化学试验,研究了芘、菲、萘、苯对土壤中小麦的生态毒性.结果表明,芘对小麦根毒害的敏感区间浓度为0～300mg/kg;土壤中芘的50%小麦根伸长抑制率浓度为500mg/kg.PAHs的生态毒性与其溶解度和结构有关,且随着溶解度的增大和苯环数目的减少而增加.PAHs会降低土壤的土水势,土水势降低的程度随着PAHs溶解度的增大而增大.     

木霉制剂对海州香薷生长和铜吸收的影响

将里氏木霉FS10-C用苜蓿粉发酵制成固体木霉制剂.采用温室盆栽试验,研究在外源铜浓度为0,100,200,400mg/kg的土壤上,施加木霉制剂对海州香薷生长和铜吸收的影响.结果表明:施加木霉制剂后,除400mg/kg外源铜浓度土壤上地上部干重外,海州香薷生物量在各外源铜浓度土壤上均呈增加趋势.施加木霉制剂的各外源铜浓度土壤NH4OAc提取态铜含量均显著高于空白组(P<0.05),且除100mg/kg外源铜土壤上地上部外,海州香薷铜积累量均呈增加趋势.其中地上部积累量在200和400mg/kg外源铜土壤上均差异显著(P<0.05),根积累量在100mg/kg外源铜土壤上差异显著(P<0.05),总积累量在100和400mg/kg外源铜土壤上均差异显著(P<0.05).可见,里氏木霉FS10-C制剂可通过促进植物生长和提高土壤铜的植物有效性而提高海州香薷对铜的吸收能力,是一种颇具研发潜力的生物修复剂.     

Phytotoxicity assessment of phenanthrene, pyrene and their mixtures by a soil-based seedling emergence test

Seedling emergence tests were conducted in a meadow brown soil using five plant species ( i. e., Chinese cabbage, green onion, tomato, turnip and wheat) to determine the phytotoxicity of phenanthrene, pyrene and their mixtures. The soil was amended with up to 1000mg/kg soil of phenanthrene or 600 mg/kg soil of pyrene. Seedling emergence and root growth were measured. The results indicated that root elongation was more sensitive than seedling emergence. Root length decreased with increasing phenanthrene or pyrene concentrations(p≤0.05). Phenanthrene was more phytotoxic than pyrene. The lowest observable adverse effect concentration(LOAEC) was 10mg/kg for phenanthrene when tested with green onion, and 50mg/kg for pyrene when tested with wheat. Among the five species, wheat was found to be the most sensitive. When amended jointly at or below their respective LOAEC, phenanthrene and pyrene produced a synergistic toxic effect.     

蚯蚓辅助微生物修复芘污染土壤

通过微宇宙实验,研究了蚯蚓对不同土壤中芘的微生物降解率的影响及蚯蚓对芘的富集率.结果表明,有机质较高土壤中芘的微生物降解率和蚯蚓富集率都低于有机质低的土壤,而老化作用降低了芘的生物有效性.无论在新鲜染毒还是老化的土壤中.蚯蚓均可提高土壤中芘的去除率和微生物降解率.在新鲜染毒的红壤和潮土中,蚯蚓可使芘的去除率由41.78%和27.02%分别提高到89.24%和57.53%,其中分别有51.48%和41.63%是蚯蚓促进的微生物降解作用引起的,37.76%和15.90%归因于蚯蚓富集作用.而在老化的红壤和潮土中,蚯蚓可使芘的去除率由36.53%和20.50%分别提高到91.93%和45.46%,其中分别有54.43%和32.83%是蚯蚓促进的微生物降解作用引起的,37.50%和12.63%归因于蚯蚓富集作用.     

古水稻土中多环芳烃的分布特征及其来源判定

测定了马家浜文化(距今约6 000a)遗址2个剖面表层土壤、古代水稻土和古代旱地土壤、以及底层土壤中15种多环芳烃的含量,并对其可能来源进行了判定.结果表明,表层土壤中PAHs的含量分别为202.9μg·kg^-1和207.7μg·kg^-1,主要来源于大气沉降;古水稻土中PAHs含量明显降低,仅为56.0μg·kg^-1,但高于古旱地土壤及底层土壤。古旱地土壤及底层土壤PAHs含量在32.0～36.9μg·kg^-1.古水稻土中,2环和3环所占比例较大,达63%,萘和菲含量最高,而4环以上的多环芳烃含量较低.Phe/Ant和BaA/Chr比值和有机质¹³C-NMR图谱显示,古水稻土中的多环芳烃主要来源于水稻秸秆的焚烧,同时还原条件下的生物合成可能是其另一个重要来源.     

武汉城区土壤剖面多环芳烃的分布特征及来源分析

研究分析了位于武汉市城区附近的南望山土壤剖面样品.表层土壤检测到了美国EPA优控的16种多环芳烃,含量为991 ng/g.之外还检测到了联苯、苯并[e]芘、苝、二苯并呋喃、二苯并噻吩、惹烯以及一些多环芳烃的烷基取代物.多环芳烃含量随着深度的增加急剧降低.表层土壤以萤蒽、苯并萤蒽、芘、苯并[a]芘等为主,菲次之.与高环相...     

麻疯树籽壳生物质炭的制备及其吸附水中PAHs性能研究

麻疯树籽壳经磷酸处理,在300~700℃下炭化处理50min,制备了麻疯树籽壳生物质炭.以萘、蒽、菲、芘4种多环芳烃(PAHs)为目标物,考察了吸附剂投加量、反应时间、反应温度等因素对麻疯树籽壳生物质炭吸附性能的影响,探讨了麻疯树籽壳生物质炭对4种PAHs的吸附效果及机理.结果表明,随炭化温度升高,生物质炭的比表面积逐渐增大;在25℃、生物质炭投加量为0.15g、吸附时间为60min的条件下,萘、蒽、芘和菲的去除率分别为97.4%、94.6%、93.1%和92.1%.麻疯树籽壳生物质炭对4种PAHs的吸附机理服从准二级动力学方程,吸附等温线服从Langmuir方程,萘、蒽、芘和菲的饱和吸附量分别为8.849、8.547、8.097和7.633mg/g.     

Relationship between heavy metal concentrations of herbaceous plants and soils at four Pb-Zn mining sites in Yunnan, China

This paper studied the relationship between heavy metal concentrations of herbaceous plants and soils at four Pb-Zn mining sites in Yunnan, China. 50 herbaceous plant samples of 9 plant species from 4 families and 50 soil samples were collected and then ana1yzed for the tota1 concentrations of Pb, Cd, and Zn. The results showed that the average concentrations of Pb, Cd, and Zn in soil samples were 3772.83, 168.81, and 5385.65 mg/kg, respectively. The average concentrations of Pb, Cd, and Zn were 395.68, 28.14, and 1664.20 mg/kg in the shoots, and 924.12, 57.25, and 1778.75 mg/kg in the roots, respectively. Heterospecific plants at the same site and conspecific plants at various sites had different average levels of Pb, Cd, and Zn, both in the shoots and the roots. Enrichment coefficients of Pb, Cd, and Zn were greater than 1 in 2, 3, and 9 herbaceous plant samples, respectively. Translocation factors of Pb, Cd, and Zn were greater than 1 in 10, 17, and 25 herbaceous plant samples, respectively. In all 50 samples, the concentrations of Pb, Cd, and Zn between the shoots and the roots, the shoots, and the soils, and the roots and the soils had significant positive relationships.