入侵植物假苍耳对土壤中铜、铅重金属污染的富集特征

通过室内盆栽试验研究入侵植物假苍耳(Iva xanthifolia)在营养生长阶段对铜、铅的耐性及富集特征。实验结果表明,在1~16 mg·L^-1的添加铜处理及0.5~14 mg·L^-1的添加铅处理条件下,假苍耳对铜、铅两种单一金属均有很强的耐性及富集作用,重金属在植物体地上部和地下部的富集量分别为607.59、137.20,404.38、34.53 mg·kg^-1,对应的富集系数为11.39、4.18,转运系数4.43、11.71,且重金属在植物体内的分布规律均表现为：茎部＞叶片＞根部,地上部分的积累量远大于地下部分。对叶色、株高及生物量等特征的观察表明假苍耳的生长未受到抑制,符合超富集植物的基本特征。与一般超富集植物相比,假苍耳作为一种外来入侵植物,具有生长迅速、植物材料易得,生物量大且分布范围广的优点。     

水培条件下四种植物对Cd、Pb富集特征

利用水培方法测定了不同浓度下向日葵、蓖麻、紫花苜蓿及芥菜的生物量和植物体内重金属Cd、Pb含量,分析了植物对重金属的富集特征。结果表明:经过5周培养后,4种植物根部与地上部对重金属的富集量随着浓度的增加而增加,Cd浓度为20mg·L-1时,向日葵的根部Cd含量最高,达到237.86mg·kg-1,地上部Cd含量为89.48mg·kg-1;而Pb浓度为200mg·L-1时,芥菜根部对Pb的吸收量较高,达到597.22mg·kg-1,地上部Pb含量最高的则出现在向日葵处理Pb100mg·L-1中,为318.33mg·kg-1。4种植物对Cd、Pb的富集系数随重金属浓度的增加而减小;根部及地上部富集系数与生物量和重金属浓度呈现出一定的相关性;另外,在Cd、Pb复合处理中,一种重金属的存在会在不同程度上影响植物对另一种重金属的吸收。通过比较4种植物根部与地上部的生物量和对Cd、Pb富集特征,认为相对于其他3种植物向日葵对Cd、Pb具有较强的吸收潜力,并可以作为Cd、Pb污染土壤植物修复的备选植物。     

一种新的铅富集植物--富集生态型东南景天

对浙江一古老铅锌矿区的土壤和植物种群进行调查后发现一种新的具有耐铅特性和铅富集能力的植物--景天科景天属东南景天(Sedum alfredii Hance),称为铅富集生态型植物.进一步比较和分析了不同浓度硝酸铅处理对富集和非富集生态型东南景天的生长及其对铅的吸收特性的影响.结果表明, 320 mg Pb/L处理对富集生态型的地上部分生长无显著影响,而非富集生态型在20 mg Pb/L时即出现受害症状.富集和非富集生态型的地上部分铅含量、根系铅含量以及单株铅积累速率均随处理浓度的增加而表现出先升后降的变化趋势.其中富集生态型的地上部分铅含量、根系铅含量以及单株铅积累速率最高可达到514 mg/kg、13 922 mg/kg和8.62 μg/plant/d,分别是非富集生态型的2.27、2.62和7.16倍.由于具有生长速度快和高积累铅的能力,从植物修复的观点来说,东南景天铅富集生态型在铅污染土壤的修复方面具有巨大的潜力.     

一种新的铅富集植物——富集生态型东南景天

对浙江一古老铅锌矿区的土壤和植物种群进行调查后发现一种新的具有耐铅特性和铅富集能力的植物———景天科景天属东南景天 (SedumalfrediiHance) ,称为铅富集生态型植物。进一步比较和分析了不同浓度硝酸铅处理对富集和非富集生态型东南景天的生长及其对铅的吸收特性的影响。结果表明 ,32 0mgPb/L处理对富集生态型的地上部分生长无显著影响 ,而非富集生态型在 2 0mgPb/L时即出现受害症状。富集和非富集生态型的地上部分铅含量、根系铅含量以及单株铅积累速率均随处理浓度的增加而表现出先升后降的变化趋势。其中富集生态型的地上部分铅含量、根系铅含量以及单株铅积累速率最高可达到 5 14mg/kg、1392 2mg/kg和 8.6 2 μg/plant/d ,分别是非富集生态型的 2 .2 7、2 .6 2和 7.16倍。由于具有生长速度快和高积累铅的能力 ,从植物修复的观点来说 ,东南景天铅富集生态型在铅污染土壤的修复方面具有巨大的潜力。     

花卉根部植物线虫调查

从龙岩市24种常见花卉根际土壤中鉴定出滑刃线虫属、真滑刃线虫属、螺旋线虫属、拟鞘线虫属、根结线虫属、针线虫属、盘旋线虫属、矮化线虫属、垫刃线虫属和剑线虫属共10属植物寄生线虫。调查结果表明,木本花卉和多年生草本花卉根部线虫群体结构比较复杂,虫口密度较高。     

花卉根部植物线虫调查

从龙岩市２４种常见花卉根际土壤中鉴定出滑刃线虫属,真滑刃线虫属,螺旋线虫属,拟鞘线虫属,根结线虫属,针线虫属,盘旋线虫属,矮化线虫属,垫刃线虫属和剑线虫属共１０属植物寄生线虫,调查结果表明,木本花卉和多年生草本花卉根部线虫群体结构比较复杂,虫口密度较高。     

铅对红树植物木榄幼苗几种生理特性的影响

试验材料为木榄[Bruguiera gymnorrhiza(L.) Lam],其成熟胚采自广西英罗港。胚种植在沙基中,于室内室温下培养。胚长出第3对叶时,选取重量和高度大体一致的幼苗种植于一个不漏水的塑料桶内,每桶2株,桶中装有2kg河沙。铅     

四种抗寒花卉对镉的生理响应和富集特征

以矮型四季菊、羽扇豆、欧报春和虞美人等冬春季常见花卉为试验材料,通过盆栽试验,研究了不同浓度Cd处理下4种花卉对Cd的生理响应和富集特征,探讨利用这4种花卉在冬春季寒冷时期修复Cd污染土壤的可行性,为提高植物修复技术的效率提供参考.结果 表明:(1)在所有Cd处理下,羽扇豆各部位生物量与对照均无差异;欧报春仅根系生物量...     

铅胁迫下植物抗性机制的研究进展

综述了近10多年来国内外研究重金属铅对植物的伤害机理,以及植物对铅的耐性机制的研究进展.首先从细胞分裂、细胞膜透性、光合作用和抗氧化酶系统等生理生化方面讨论了铅对植物的伤害机理,其次分析了铅离子跨膜运输、根系分泌物、金属配位体、铅离子区域化分布与植物抗性的关系.     

植物生长物质与花卉花期的控制

植物生长物质与花卉花期的控制彭子模,李进,尤努斯·居玛（新疆师范大学生物学系乌鲁木齐８３００５０）用人为的方法使花卉的开花期按照人们的意志提早或延迟,这种技术叫做花期控制,又称催延花期。使用一些植物生长物质对花芽进行处理,有的可促进提早开花,有的可使...     

城市污泥农用对植物-土壤系统的影响

城市污泥的合理处置是目前资源与环境科学研究领域中的重要课题之一.城市污泥因富含大量的有机质和有效营养成分,对农业土壤肥力、土壤物理结构和农业生产均有一定的积极促进作用,使得污泥农用成为可能.但城市污泥中含有的重金属、有机污染物等有害物质尤其是重金属,成为污泥农用处置的瓶颈.为提高我国城市污泥的农业资源化利用效率和减少污染物造成的负面效应,本文就国内外施用城市污泥对植物-土壤互作系统的影响及过程进行了综述,为进一步提高污泥利用效率提供理论依据和科学指导.     

城市污泥资源化利用研究

城市污水污泥产量巨大且成分复杂 ,如何对它进行合理利用已越来越受人们关注。文章系统地综述了我国城市污泥处置与利用的现状和趋势 ,并重点讨论了污泥土地利用的可行性以及我国近年来的研究进展。认为将污泥进行稳定化、无害化、资源化处理并作为有机肥料或土壤改良剂等进行资源化利用是符合我国国情的 ,并将成为我国污泥处置与利用的一种有效途径     

生物沥滤污泥土地利用适用性分析

研究了污泥生物沥滤对重金属(Cu、Pb和Zn)形态、营养物质和SO42-存在形式的影响,分析生物沥滤污泥土地利用的适用性。结果表明:生物沥滤后,污泥上清液中重金属通过固液分离而去除,污泥中Cu、Pb和Zn的去除率分别为84.1%、34.8%和80.0%,残存于污泥中的重金属含量大幅降低,且生物有效性低,提高了污泥土地利用的安全性。污泥经生物沥滤后氮、磷和钾的流失分别为38.2%、52.1%和42.8%,但仍能保持较好的肥效。采用X-射线衍射光谱分析发现,残留于污泥中的SO24-主要与Ca2 相结合,较为稳定,生物沥滤后的污泥施用于土地后对环境影响较小。     

Keratinolytic fungi in sewage sludge

Sewage sludge from the Upper Silesia Region of Poland were surveyed for keratinolytic fungi. Out of 100 Petri dishes examined, 89 were positive for these micro-organisms. Altogether, 185 fungal appearances belonging to 10 species were observed. Trichophyton terrestre with its teleomorph Arthroderma quadrifidum, T. ajelloi with A. uncinatum, Microsporum gypseum with Arthroderma sp., and Chrysosporium keratinophilum with Aphanoascus keratinophilus prevailed in the sludges. The sewage treatment technologies together with the sludge structure, humidity and pH were found to be critical factors determining the occurrence of keratinolytic fungi in the sludge environment. The qualitative and quantitative composition of keratinolytic fungi could be a useful tool in evaluation of sludge treatment processes.     

Degradation of keratin substrates by fungi isolated from sewage sludge

Four fungal species including two dermatophytes and two saprophytes were isolated from sewage sludge samples at Basrah (Iraq) they were tested for their degradative ability towards three types of keratin substrates (human hair, chicken feathers and wool). The rate of keratin degradation was expressed as weight loss over three weeks of incubation using a liquid culture medium. Human hair had the highest degradation rate by colonization of Chrysosporium pannicola and Microsporum gypseum at a rate of 62% and 4% respectively. Chicken feathers were highly degraded by Aspergillus flavus (32%) while wool degradation was highest by C. pannicola (45.5%) and Trichophyton mentagrophytes var. erinacei (38%). There was a significant difference (p < 0.00l) in keratin substrate degradation rates by the examined fungi. Keratinase activity was highest for C. pannicola and M. gypseum in the culture medium baited with human hair. Aspergillus flavus revealed the highest activity of this enzyme in cultures amended with chicken feathers while T. mentagrophytes var. erinacei showed highest keratinase activity in cultures with wool substrate. The amount of protein released into the culture medium varied among the tested fungi. The medium's alkalinity increased over incubation time from 6.5 to 7.8. Microscopic examination showed maceration of the keratin substrates by the fungi. This revised version was published online in June 2006 with corrections to the Cover Date.     

The influence of composting on the fertilizing value of an aerobic sewage sludge

The influence of composting on the fertilizing value of an aerobic sewage sludge and its action on ryegrass was studied. Soil P and K contents, cation-exchange capacity (CEC) and CEC/total organic carbon incresed with composting, while the percentage of phytotoxic substances diminished. The compost provided useful quantities of organic matter and macronutrients. The addition of uncomposted waste to the soil initially had a depressive effect on yield which disappeared after a period of incubation of this material in the soil, whereas the application of a mature compost produced yields superior to those in the control treatment.     

Anaerobic storage as a pretreatment for enhanced biodegradability of dewatered sewage sludge

Dewatered sewage sludge is often stored still before further processing and final disposal. This study showed that anaerobic storage of dewatered sewage sludge could hydrolyze organic matter from the sludge matrix, and increase soluble organic acid content from 90 to 2400 mg/L and soluble organic carbon content from 220 to 1650 mg/L. Correspondingly, the contents of proteins, celluloses and hemicelluloses were reduced by 2-9%. Applying anaerobic storage markedly enhanced the efficiency of the subsequent bio-drying process on stored sludge. Correspondingly, biogas and odor gas were produced immediately after commencing the sludge storage. Anaerobic storage with odor control can be applied as a pretreatment process for dewatered sewage sludge in wastewater treatment plants.     

28种园林植物对大气CO2浓度增加的生理生态反应

通过对28种园林植物在不同CO2浓度水平下的气体交换参数的观测,分析了净光合速率、气孔导度、蒸腾速率和水分利用效率等生理生态指标的变化趋势与规律.结果表明,所测植物净光合速率和水分利用效率随CO2浓度升高而线性增加,但不同植物种类对高CO2浓度的反应存在较大差异.气孔导度和蒸腾速率与CO2浓度呈线性负相关关系.当CO2浓度倍增(350～700 μmol·mol-1)时,28种园林植物净光合速率平均提高31.2%,气孔导度降低16.5%,蒸腾速率下降11.7%,而水分利用效率则提高了49.2%.不同光合途径的植物净光合速率和水分利用效率受CO2浓度增加的影响程度为C3植物较大,C4植物较小, CAM植物介于两者之间.对不同生活型植物而言,影响程度则为草本C3植物较大,乔木C3植物较小,灌木C3植物居于两者之间.     

Land application of treated sewage sludge: quantifying pathogen risks from consumption of crops

AIMS: To predict the number of humans in the UK infected through consumption of root crops grown on agricultural land to which treated sewage sludge has been applied in accordance with the current regulations and guidance (Safe Sludge Matrix). METHODS AND RESULTS: Quantitative risk assessments based on the source, pathway, receptor approach are developed for seven pathogens, namely salmonellas, Listeria monocytogenes, campylobacters, Escherichia coli O157, Cryptosporidium parvum, Giardia, and enteroviruses. Using laboratory data for pathogen destruction by mesophilic anaerobic digestion, and not extrapolating experimental data for pathogen decay in soil to the full 30-month harvest interval specified by the Matrix, predicts 50 Giardia infections per year, but less than one infection per year for the other six pathogens. Assuming linear decay in the soil, a 12-month harvest interval eliminates the risks from all seven pathogens; the highest predicted being one infection of C. parvum in the UK every 45 years. Computer simulations show that a protective effect from binding of pathogens to particulate matter could potentially exaggerate the observed rate of decay in experimental systems. CONCLUSIONS: The results confirm, assuming pathogens behave according to our current understanding, that the risks to humans from consumption of vegetable crops are remote. Furthermore the harvest intervals stipulated by the Safe Sludge Matrix compensate for potential lapses in the operational efficiency of sludge treatment. SIGNIFICANCE AND IMPACT OF THE STUDY: The models demonstrate the huge potential impact of decay in the soil over the 12/30-month intervals specified by the Matrix, although lack of knowledge on the exact nature of soil decay processes is a source of uncertainty. The models enable the sensitivity of the predicted risks to changes in the operational efficiency of sewage sludge treatment to be assessed.     

污泥堆肥对草坪草生长及光合特征的影响

研究不同污泥堆肥施用量(0、0.8%、2%、6%和10%)对高羊茅、黑麦草和早熟禾3种草坪草生长及光合特征的影响.结果表明: 污泥堆肥施用量为6%时效果最好.随污泥堆肥施用量的增加,高羊茅、黑麦草和早熟禾的株高、单叶面积和单株生物量均显著增加,根冠比显著降低,其中,株高增幅分别为64.9%～180.8%、97.3%～200.9%和39.1%～156.5%,单叶面积增幅分别为91.3%～417.4%、186.4%～394.9%和164.6%～508.3%,单株生物量增幅分别为333.4%～867.6%、138.4%～445.1%和316.3%～669.2%.随污泥堆肥施用量的增加,高羊茅净光合速率(P_n)、胞间CO₂浓度(C_i)、蒸腾速率(T_r)和水分利用效率(WUE)呈先增加后降低的趋势;早熟禾P_n、T_r和WUE逐渐增加,C_i呈先增加后降低的趋势;黑麦草P_n和WUE逐渐增加,但其C_i和T_r呈先增加后降低的趋势.污泥堆肥施用使3种草叶绿素a、b和(a+b)含量增加,施用量>6%后叶绿素a、b和(a+b)含量下降,但叶绿素a/b变化不明显.