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.     

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.     

Uptake and accumulation of phenanthrene and pyrene in spiked soils by Ryegrass(Lolium perenne L.)

Phytoremediation has long been recognized as a cost-effective method for the removal of polycyclic aromatic hydrocarbons （PAHs） from soil. A study was conducted to investigate the uptake and accumulation of PAHs in root and shoot of Lolium perenne L. Pot experiments were conducted with series of concentrations of 3.31-378.37 mg/kg for phenanthrene and those of 4.22-365.38 mg/kg for pyrene in a greenhouse. The results showed that both ryegrass roots and shoots did take up PAHs from spiked soils, and generally increased with increasing concentrations of PAH in soil. Bioconcentration factors（BCFs） of phenanthrene by shoots and roots were 0.24- 4.25 and 0.17-2.12 for the same treatment. BCFs of pyrene by shoots were 0.20-1.5, except for 4.06 in 4.32 mg/kg treatment, much lower than BCFs of pyrene by roots （0.58-2.28）. BCFs of phenanthrene and pyrene tended to decrease with increasing concentrations of phenanthrene and pyrene in soil. Direct uptake and accumulation of these compounds by Lolium perenne L. was very low compared with the other loss pathways, which meant that plant-promoted microbial biodegradation might be the main contribution to plant-enhanced removal of phenanthrene and pyrene in soil. However, the presence of Lolium perenne L. significantly enhanced the removal of phenanthrene and pyrene in spiked soil. At the end of 60 d experiment, the extractable concentrations of phenanthrene and pyrene were lower in planted soil than in non-planted soil, about 83.24%-91.98% of phenanthrene and 68.53%-84.10% of pyrene were removed from soils, respectively. The results indicated that the removal of PAHs in contaminated soils was a feasible approach by using Lolium perenne L.     

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.     

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。     

水溶性有机物对土壤中菲的生态毒性影响

采用生物培养和物理化学试验,研究了水溶性有机物(DOM)对土壤中phe生态毒性的影响.结果表明,本研究所用DOM均具有表面活性;小麦根phe毒害的敏感区间为0～200mg/kg,200mg/kg是土壤中phe的50%小麦根伸长抑制率浓度.DOM的存在会降低phe的生态毒性,但是降低程度与其疏水性馏分含量和表面活性有关,且phe生态毒性的降低程度随DOM浓度的增大而增大.本研究的结果说明DOM能减轻土壤中phe的生态毒性.     

土壤甲苯、乙苯和二甲苯对蚯蚓及小麦的毒性效应

以赤子爱胜蚓(Eisenia fetida)和小麦(Triticum aestivum L.)为受试生物,研究了土壤中甲苯、乙苯和二甲苯等苯系物(TEX)的毒性效应.结果表明,3种污染物对赤子爱胜蚓和小麦毒性影响呈明显的剂量-效应关系,甲苯、乙苯和二甲苯对蚯蚓的24hLC50分别为583.6,346.8,192.4mg/kg;48h LC50分别为454.3,167.1,127.2mg/kg.甲苯、乙苯和二甲苯对小麦芽伸长的10%抑制率(IC10)分别为342.2,195.4,45.9mg/kg;对小麦根伸长的10%抑制率(IC10)分别为206.7,134.5,26.3mg/kg.小麦芽长、根长均可用于指示土壤被甲苯、乙苯及二甲苯污染的程度,但小麦种子根长对3种污染物胁迫的响应较芽长更为敏感,根长抑制率与芽长抑制率之间呈明显的相关关系.     

芘胁迫对5种羊茅属植物根系分泌的几类低分子量有机物的影响

根系分泌物与有机污染物的植物修复过程密切相关,研究胁迫条件下不同修复潜力植物根系分泌物的释放特征有助于揭示植物修复的内在机制.借助根际袋土培试验研究了芘胁迫(10~160 mg·kg~(-1))下5种羊茅属植物在不同胁迫期(30~70d)时根系分泌物中几种低分子量有机物的释放特征.结果表明:1芘胁迫促进了根系对可溶性糖的分泌:随着胁迫水平的升高、胁迫期的延长,其分泌量呈"先升后降"变化趋势,胁迫水平为C3(40.36 mg·kg~(-1))、胁迫期为40 d时达到最大值;修复潜力越大,趋势越明显.2芘胁迫增强了根系对低分子量有机酸的释放,修复潜力越大,释放高峰值出现时的胁迫浓度越高,且主要以草酸、乙酸、乳酸和苹果酸为主(98.15%),但修复潜力较强物种的根系分泌物中也检测到微量反丁烯二酸.3芘胁迫对氨基酸的种类影响不大,但对分泌量影响较大:苏氨酸、丝氨酸、甘氨酸、丙氨酸的分泌量随着胁迫水平的升高而剧增;脯氨酸、羟脯氨酸和天冬氨酸对芘胁迫的响应近乎以功能群的形式参与植物修复过程,参与的组分越多,修复潜力越强.可见,芘胁迫下根系分泌物中可溶性糖、低分子量有机酸以及氨基酸的释放特征与植物自身的修复潜力有关;修复潜力越强,释放量越多且成分越复杂,并表现出更强的环境适应性及生理可塑性.     

蚯蚓粪对油葵修复菲污染土壤的强化作用

采用室内盆栽试验,研究了蚯蚓粪对油葵修复菲污染土壤的强化作用。结果表明:在试验浓度范围内(菲0~200 mg/kg),蚯蚓粪提高了菲污染土壤中油葵株高和生物量;施用蚯蚓粪后,土壤中菲的平均去除率为57.14%,较对照(不施蚯蚓粪)增长了15.34%;当菲浓度为50 mg/kg时,试验组菲的去除率较对照组提高了20.55%,差异最为显著;此外,当菲的浓度相同时,试验组油葵的富集系数均高于对照组,并且试验组土壤根际中的多酚氧化酶和过氧化氢酶活性均有提高,分别较对照增加了16.75%和18.37%。综合分析,说明蚯蚓粪可强化油葵对土壤中菲的去除作用。     

人工合成麝香对小麦种子发芽的生态毒性

采用土培实验,研究了佳乐麝香(HHCB)和吐纳麝香(AHTN)对小麦种子发芽的生态毒性,测定了这2种人工合成麝香对小麦种子发芽率、根伸长抑制率和芽伸长抑制率的影响.结果表明,小麦种子的发芽率与这2种人工合成麝香浓度之间剂量-效应关系不明显,低剂量条件下(佳乐麝香≤150 mg·kg-1,吐纳麝香≤200 mg·kg-1...     

贵州石漠化土壤中菲和芘解吸行为的研究

为了探明典型多环芳烃(PAHs)在石漠化土壤中的迁移行为,揭示石漠化土壤理化性质对PAHs迁移的影响机制,选取贵州省不同石漠化等级区域的石灰土,采用批解吸法结合Pearson相关系数分析,研究菲和芘在不同溶液中的解吸行为。结果表明:石漠化等级越高,菲和芘的解吸越容易,菲和芘的解吸滞后系数(HI值)分别从无石漠化土壤的0.73和0.46降至重度石漠化土壤的0.54和0.28,菲和芘的非线性指数(N值)分别从无石漠化土壤的0.514和0.557增至重度石漠化土壤的0.606和0.637。解吸动力学研究表明:随着石漠化等级升高,菲和芘的快解吸组分(F_rap)含量增加,增幅分别为24.14%和18.14%,快解吸速率(K_rap)分别从6.56,1.26 h-1增至8.16,7.98 h-1。土壤有机质含量、孔隙度、比表面积和阳离子交换量是影响贵州石漠化土壤解吸菲和芘的4个主要因子,均与菲和芘的解吸能力呈负相关。不同解吸环境对比实验表明:石漠化土壤的富钙特性是影响菲和芘解吸的重要因素,电解质溶液中Ca2+会促进菲和芘的解吸。在石漠化等级越高的土壤中菲和芘解吸越容易,这与土壤的富钙特性紧密相关。     

磺胺间甲氧嘧啶-镉复合污染对作物种子发芽的影响

测定了黄潮土中常用兽药磺胺间甲氧嘧啶(SMM)与重金属镉(Cd)单一及复合污染对小麦和西红柿种子发芽(根伸长、芽伸长和发芽率)的影响,分析了土壤中药物浓度与作物生长抑制的剂量-效应关系及复合污染的毒性效应.结果表明,在单一污染物作用下,根伸长抑制率和芽伸长抑制率与药物浓度显著相关(P0.05);药物对根伸长及芽伸长的抑制高于对种子发芽的抑制;SMM对2种作物的毒性效应明显强于Cd,SMM对小麦和西红柿根伸长的IC50(抑制率为50%时污染物浓度)分别为33.7,49.3mg/kg,而Cd为507.3,599.8mg/kg.SMM和Cd复合污染时,在低Cd(200mg/kg)的胁迫下,联合作用主要体现为协同作用,但随着SMM浓度的增加,协同效应不显著(P>0.05);在高Cd(500mg/kg)作用下,二者的联合效应中Cd起主要作用.     

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.     

微塑料与Cd交互作用对小麦种子发芽的生态毒性研究

为探究微塑料、重金属以及二者的交互作用对农作物种子生长特性的影响,选取小麦(Triticum aestivum L)为实验对象,开展土壤中微塑料聚乙烯(mPE)和聚丙烯(mPP)(0,10,50,100,200,500,1000,5000和10000mg/kg)与重金属镉(Cd)(0,1和5mg/kg)单一及复合污染对种子萌发的影响研究.结果表明,在本实验所设定的条件下,单一Cd污染对小麦种子萌发特性的影响表现为“低促高抑”规律,小麦种子的根长与芽长随着Cd浓度提升均呈抑制趋势.在单一微塑料污染条件下,mPE对小麦种子的发芽率基本表现为“低抑中促高抑”的规律,mPP对小麦种子发芽率的影响为“低促高抑”.微塑料和Cd复合污染的实验结果表明,与单一微塑料污染对照组相比,微塑料和Cd复合污染会促进小麦根与芽的生长,相比于mPE,复合污染下的mPP对于小麦根长与芽长的促进程度更大,且浓度范围较广(0~1000mg/kg).在Cd浓度为1mg/kg(Cd1)时mPE复合污染的小麦根长、芽长大于Cd浓度为5mg/kg(Cd5)情况下mPE复合污染的长度.在Cd1条件下mPP复合污染的小麦根长、芽长小于Cd5情况下mPP复合污染的长度,微塑料与Cd的复合污染对于芽的影响大于对根的影响.微塑料-Cd复合效应对小麦种子发芽、根长和芽长的影响总体上表现为促进作用,在一定程度上缓解了单一污染物的毒害作用.     

石油污染土壤植物修复后对陆生高等植物的生态毒性

以经过5a植物修复处理后的石油污染土壤为供试土壤(柴油初始投加量分别为5 000,15 000,30 000 mg/kg),用重量法测定了土壤中残留矿物油含量,同时,以小麦(Triticum aestivum L.)为供试植物,以种子发芽及根伸长试验、早期幼苗生长试验、叶片内细胞色素P450单加氧酶(P450)含量、抗氧化酶(超氧化物歧化酶,SOD;过氧化物酶,POD)活性及脂质过氧化产物(丙二醛,MDA)含量等为指标对受试土壤进行生态毒理学综合评价.化学分析结果表明,各处理土壤中的矿物油均     

Genotypic variations in the accumulation of Cd exhibited by di erent vegetables

It is an important approach to use the Cd-contaminated soils properly by growing low accumulator or excluder plants for Cd to produce safe foods. To find the suitable vegetable species for growing in Cd-contaminated soils, in the present study the variations in the Cd accumulation for twenty eight vegetable species and several cultivars of five common vegetables (cowpea, kidney pea, bitter gourd, cucumber and squash) were investigated in two soil Cd levels (1 and 2 mg/kg Cd). Experimental results showed that highly significant di erences in Cd concentration were evident among 28 vegetables. For example, spinach Cd concentrations were 110-fold and 175-fold higher than that of sweet pea under the 1 and 2 mg/kg Cd exposures, respectively. For Cd accumulation, the order of vegetable species was: leafy vegetables > solanaceous vegetables > kale vegetables > root vegetables > allimus > melon vegetables > legumes. Distinctive di erences were also identified when comparing di erent cultivars of the five common vegetables with an average range of 0.003–0.094 mg/kg Cd. Our results indicated that a large genotypic variation existed among vegetable species or cultivars when subjected to Cd exposure. Therefore, it is important and feasible to elect/breed vegetable species/cultivars with low accumulation of Cd, especially in mildly Cd-contaminated soils.     

Genotypic variations in the accumulation of Cd exhibited by different vegetables

It is an important approach to use the Cd-contaminated soils properly by growing low accumulator or excluder plants for Cd to produce safe foods. To find the suitable vegetable species for growing in Cd-contaminated soils, in the present study the variations in the Cd accumulation for twenty eight vegetable species and several cultivars of five common vegetables (cowpea, kidney pea, bitter gourd, cucumber and squash) were investigated in two soil Cd levels (1 and 2 mg/kg Cd). Experimental results showed that highly significant differences in Cd concentration were evident among 28 vegetables. For example, spinach Cd concentrations were 110-fold and 175-fold higher than that of sweet pea under the 1 and 2 mg/kg Cd exposures, respectively. For Cd accumulation, the order of vegetable species was: leafy vegetables solanaceous vegetables kale vegetables root vegetables allimus melon vegetables legumes. Distinctive differences were also identified when comparing different cultivars of the five common vegetables with an average range of 0.003–0.094 mg/kg Cd. Our results indicated that a large genotypic variation existed among vegetable species or cultivars when subjected to Cd exposure. Therefore, it is important and feasible to elect/breed vegetable species/cultivars with low accumulation of Cd, especially in mildly Cd-contaminated soils.     

Single and joint stress of acetochlor and Pb on three agricultural crops in northeast China

In order to evaluate ecological risk of agrochemicals in agricultural environment, single and joint toxic effects of an important herbicide and a typical heavy metal on root elongation of crops were investigated. Seeds of the three crops including wheat （Triticum aestivum）, Chinese cabbage （Brassica pekimensis） and soybean （Glycine max） as the main crops in northeast China were exposed to acetochior as a herbicide and lead （Pb） as a heavy metal using the pot-culture method, and meadow brown soil as one of the main soils distributed in northeast China was applied in the investigation. The results indicated that the interactive effects of the two pollutants on root elongation of the three crops were very complicated although they had markedly significant （P〈0.01） linear interrelationships based on the regression analyses. When the concentration of added Pb^2＋ reached 200 mg/kg, acetochlor and Pb had an antagonistic effect on the inhibition of root elongation of the three crops. However, acetochlor and Pb had significantly （P〈0.05） synergic effects on the inhibition of root elongation when concentration of added Pb^2＋ was up to 1000 mg/kg. At the low concentration of added Pb, joint toxicity of acetochlor and Pb was more dependent on the concentration of Pb. Among the three crops, wheat was the most sensitive to the toxicity of Pb and Chinese cabbage was the most sensitive to the toxicity of acetochlor.     

三种农作物秸秆燃烧颗粒态多环芳烃排放特征

收集3种农作物秸秆玉米,水稻和小麦露天燃烧排放的颗粒物样品,并利用气相色谱-质谱(GC-MS)对样品中的34种多环芳烃(PAHs)进行分析,研究颗粒态PAHs的排放因子及可用于源解析的诊断参数.结果表明,3种秸秆燃烧总PAHs的排放因子为644.18~1798.13μg/kg;其中4环PAHs在秸秆燃烧样品中含量最高,约占38.8%~58.8%,6环PAHs所占比例相对较小,约占5.72%~15.17%.PAHs中部分单体具有相对较强致癌性,对环境和人体健康的影响不可忽视.首次检测分子量为300的高分子多环芳烃二苯并[a,e]荧蒽.在玉米、水稻和小麦秸秆燃烧排放颗粒物中的排放因子分别为6.70,2.77和2.92μg/kg.此外,研究发现BaP/BghiP, Phe/Phe+Ant和Flu/(Flu + Pyr)比值可以作为较好的区分秸秆燃烧与其他来源的诊断参数.     

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.