盐渍化土壤中土著菌的石油烃降解潜力研究     

王震宇  ;赵建  ;李锋民  ;Baoshan Xing  ;高冬梅 《农业环境保护》2009,(7):1416-1421

自盐渍化地区（黄河三角洲）采集4种不同石油污染程度的土壤样品,从中筛选出高效降解石油烃的4个菌系和8个单菌株。分别以原油、柴油、烷烃和多环芳烃（PAHs）为底物进行培养,测定降解菌的生物量和降解率,研究其对不同底物的耐受浓度和降解潜力。结果表明,获得的石油烃降解菌为轻度嗜盐菌;不同菌株对不同底物的耐受浓度不同,混合菌系对不同底物的降解能力强于单菌株,对单一组分底物的降解优于复杂组分的底物;单菌株I-2、3、5、7能较好地降解PAHs并且对原油的降解能力高于柴油,单菌株I-1、4、6、8能够利用烷烃且对柴油的降解能力要比原油高;降解菌对柴油和原油的最高降解率分别可达78．4％和70．7％,对正十六烷和菲的生物降解率分别高达87．7％和88．1％,表现出较强的降解能力。研究结果表明黄河三角洲盐渍化土壤中土著菌对石油烃污染土壤具有较强的牛物修复潜力。  相似文献   

Comparisons of terrestrial and aquatic bioassays for oil-contaminated soil toxicity     

Kati?VaajasaariEmail author  Anneli?Joutti  Eija?Schultz  Salla?Selonen  Henrik?Westerholm 《Journal of Soils and Sediments》2002,2(4):194-202

Background  Petroleum products are widely used in various sections of industry and they are one of the most abundant sources of environmental contamination. These products are classified by their physico-chemical properties such as boiling point, density and viscosity. Oil contamination in the environment is primarily evaluated by measuring the chemical concentrations of petroleum products in the solid or water phase. The results of chemical analyses do not correspond directly with the harmful environmental effects of petroleum products on the soil flora and fauna, because the interactions between oil compounds and the production of their methabolites in soil are not measured in chemical assessments. These kinds of effects of complex chemical mixtures in soil can be estimated by bioassays. Therefore, ecotoxicological tests are important for estimating soil quality in the risk assessment of oil-contaminated soil sites. Objectives  The objective of this study was to examine the oil-contaminated soil site of a closed petrol station with both chemical and ecotoxicological methods. The goals of this study were to compare the sensitivity of the terrestrial and aquatic bioassays and to compare the toxicity responses of aquatic bioassays determined from three different extraction procedures. In addition, our aim was to characterise a cost-effective battery of bioassays that could be applied to a comparison of oil-contaminated soils. It was in our interest to investigate oil-contaminated soil with oil concentrations of 2500–12000 mg/kg and to find out the possible differences between terrestrial and aquatic toxicity tests. Methods  Six soil samples from a closed petrol station were examined for toxicity with terrestrial and aquatic tests. Terrestrial tests includedEnchytraeus albidus survival and reproduction assays and seed germination assays using wheat, cress, lettuce, and red clover seeds and growth inhibition assays of onions. The toxicities of the water-extractable fractions of the soil samples obtained from three different extractions were tested with aquatic bioassays based on plants (onion and duckweed growth inhibition tests), microbes (luminescent bacteria test), and enzyme inhibition (reverse electron transport test, RET). Chemical analyses of the solid samples were carried out simultaneously. Results. Oil concentrations ranged from 2500 to 12000 mg/kg, BTEX varied from 300 to 2800 mg/kg, and fuel additives: MTBE and TAME from 0.0 1 to 260 mg/kg. Only the sample contain-ing 12000 mg/kg oil had a significant toxic impact on all test organisms. Soil samples with oil concentrations 2500–6200 mg/ kg had no or only slight adverse effects on the test organisms with one exception, theE. albidus reproduction test. TheE. albidus survival and reproduction tests were the most sensitive bioassays of the terrestrial tests, and the luminescent bacteria test of the aquatic tests.  相似文献   

Bioremediation of petroleum-contaminated soils using Streptomyces sp. Hlh1     

Baoune  Hafida  Aparicio  Juan Daniel  Pucci  Graciela  Ould El Hadj-Khelil  Aminata  Polti  Marta Alejandra 《Journal of Soils and Sediments》2019,19(5):2222-2230

Purpose

Bioremediation using microorganisms is a promising strategy to remediate soil with petroleum hydrocarbons. Streptomyces sp. Hlh1, an endophytic strain, has previously demonstrated the ability to degrade crude petroleum in liquid culture. To apply this strain at field scale, it is necessary to test its ability to colonize the soil, compete with native microbiota, and remove the petroleum hydrocarbons under unfavorable conditions. Herein, a study was conducted to evaluate the performance of Streptomyces sp. Hlh1 to remove crude petroleum from contaminated sterilized and non-sterilized soils.

Materials and methods

Soils samples, contaminated with 2%, 5%, and 10% of petroleum, were inoculated with Streptomyces sp. Hlh1, and incubated at 30 °C for 4 weeks. At the end of bioremediation assays, the pollutant concentrations were determined by Gas chromatography flame ionization detector and the degradation rates were also calculated. The survival of the strain in the soil was estimated and the toxicity of metabolites was evaluated on Lactuca sativa.

Results and discussion

Streptomyces sp. Hlh1 was able to grow and remove total petroleum hydrocarbons (TPH), n-alkanes, and aromatic hydrocarbons found in soil samples. In sterilized soil samples, Streptomyces sp. Hlh1 removed up to 40% of TPH at an initial concentration of 10%. Whereas, the maximum TPH removal reached was 55% in non-sterilized soil at an initial concentration of 2%. In addition, it was observed that the degradation of aromatic hydrocarbons was more active than n-alkanes. The strain grew well and produced high biomass in contaminated soil. Lettuce seedling was found to be the adequate bioindicator to assess the toxicity of petroleum end products. Streptomyces sp. Hlh1 performed a successful bioremediation, which was confirmed through the phytotoxicity test.

Conclusions

The study shows the first insight of the contribution of free endophytic actinobacterial strain in the bioremediation of petroleum-contaminated soil; therefore, it suggests that Streptomyces sp. Hl1 can be usefully exploited at field scale.

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Effects of Sewage Sludge and Acacia dealbata Composts on Soil Biochemical and Chemical Properties     

《Communications in Soil Science and Plant Analysis》2012,43(5):570-580

We studied the effects of different composts made of different mixtures of sewage sludge and Acacia plants on the soil biochemical and chemical properties. The proportions of mixed acacia plant and sewage sludge were: AL1/1 (50% acacia/50% sewage sludge), AL1/2 (33.3% acacia/66.6% sewage sludge), and AL1/3 (25% acacia/75% sewage sludge). Composts were added to the soil at a rate of 2%. Soil samples were collected during 150 days and analyzed for soil enzyme activities and chemical properties. An unamended soil was used as the control. Compared to the AL1/1 treatment, soil dehydrogenase, urease, phosphatase and β-glucosidase activities decreased respectively by 14.6%, 15.4%, 12.5%, and 19.3% for AL1/2 treatment and by 20.7%, 25.6%, 23.7%, and 28.4% for AL1/3 treatment. Soil water-soluble carbohydrates and polyphenols were the greatest in AL1/1. The lowest contents of heavy metals in the AL1/1 compost may be responsible for the increase of soil biochemical and chemical properties.  相似文献   

Biodegradation of Crude Oil in Contaminated Soils by Free and Immobilized Microorganisms   总被引：3，自引：0，他引：3  

WANG Zhen-Yu  XU Ying  WANG Hao-Yun  ZHAO Jian  GAO Dong-Mei  LI Feng-Min  B. XING 《土壤圈》2012,22(5):717-725

The efficiencies of free and immobilized bacterial cultures of petroleum hydrocarbon degraders were evaluated and compared in this study.Hydrocarbon-degrading microbial communities with high tolerance to and high degrading ability of crude oil were obtained from the soil contaminated with crude oil in the Yellow River Delta.Then,the microbial cells were immobilized in sodium alginate(SA)beads and sodium alginate-diatomite(SAD)beads.The biodegradation of crude oil in soil by immobilized cells was compared with that by free cells at three inoculation concentrations,1×10⁴ colony forming units(cfu)kg^-1(low concentration,L),5×10⁴ cfu kg^-1(medium concentration,M),and 1×10⁵ cfu kg^-1(high concentration,H).At 20 d after inoculation,the maximum degradation rate in the immobilized systems reached 29.8%(SAD-M),significantly higher(P<0.05)than that of the free cells(21.1%),and the SAD beads showed greater degradation than the SA beads.Moreover,both microbial populations and total microbial activity reached significantly higher level(P<0.05)in the immobilized systems than free cell systems at a same initial inoculation amount.The scanning effectronic microscope(SEM)images also confirmed the advantages of the immobilized microstructure of SAD beads.The enhanced degradation and bacterial growth in the SAD beads indicated the high potential of SAD beads as an effective option for bioremediation of crude oil-contaminated soils in the Yellow River Delta.  相似文献   

Nitrification Inhibitor Effects on Nitrous Oxide Emission,Nitrogen Transformation,and Maize (Zea mays L.) Yield in Loamy Sand Soil in Thailand     

P. Pengthamkeerati  A. Modtad 《Communications in Soil Science and Plant Analysis》2016,47(7):875-887

The nitrification inhibitors (NIs) effects on soil nitrogen (N) fates and maize yields were investigated in a loamy-sand soil in Thailand. The treatments were chemical fertilizer (CF) and CF with dicyandiamide (DCD) or neem oil at two rates of 5% and 10%. Compared to the CF plot, DCD and neem oil reduced the cumulative nitrous oxide (N₂O) emission by the equivalent of 26% and 10%, respectively (P < 0.05). DCD and neem oil had a positive effect in slowing ammonium (NH₄⁺)-conversion and prolonging NH₄⁺-N in the soil with a maximum efficiency of 45% and 30%, respectively. NO₃^–N was higher in the NI plots (P < 0.05), but the effect was less pronounced later in the growing season. Adding the NIs increased maize yields and N uptake, but was only significant (P < 0.10) for neem oil. Results indicate that applying NIs is an effective method to mitigate soil N losses and enhancing N use efficiency in a tropical, agricultural field.  相似文献   

Optimization of Process Parameters for Removal of Arsenic Using Activated Carbon-Based Iron-Containing Adsorbents by Response Surface Methodology     

Tuna  Aslı Özge Avcı  Özdemir  Ercan  Simsek  Esra Bilgin  Beker  Ulker 《Water, air, and soil pollution》2013,224(9):1-15

Rhizoremediation is a complex type of green clean-up technology that involves both plants and the rhizosphere-associated microorganisms to decompose hazardous compounds. The success of the strategy strongly depends on plant tolerance towards the pollutant, as well as plant's interactions with the rhizospheric microbes. The microorganisms may be stimulated by the secreted root exudates, which results in an increased breakdown of contaminants in the rhizosphere. The main goal of this study was to establish a potential rhizoremediation combination for a diesel-polluted site. Inoculation of plant roots or seeds with indigenous rhizospheric populations is a common approach in the rhizoremediation. However, we introduced hydrocarbon-degrading consortia (M10, R3, and K52) that were previously isolated from crude oil-contaminated soil instead of indigenous microbes. Bioaugmentation with these petroleum degraders was applied to screen four high biomass crop species (Indian mustard, alfalfa, high erucic acid rapeseed, HEAR, and low erucic acid rapeseed, LEAR) for their tolerance towards diesel oil. At no pollution, a promoting effect of M10 bacteria could be observed on germination and root elongation of all plant species. Moreover, M10 consortiums increased the germination index at 6,000 mg diesel oil per kilogram dry soil in the case of Indian mustard, alfalfa, and HEAR. The latter species was found to increment its dry weight upon bioaugmentation with M10 bacteria and all diesel oil treatments (6,000 and 24,000 mg diesel oil per kilogram dry soil). The initial results indicate HEAR and the M10 bacterial consortium as a promising plant–microbe tandem for a long-term rhizoremediation process.

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Determination of mobile heavy metal fraction in soil: Results of a pot experiment with sewage sludge     

《Communications in Soil Science and Plant Analysis》2012,43(17-18):2545-2556

Abstract

The development of a method using a chelating resin to assess heavy metal mobility in soil and the first results obtained from a pot experiment with sewage sludge additions were studied. The resin was Chelex 100 with the calcium (Ca)‐form of the resin proving to be best suited for the extraction. The efficiency of recovery of the heavy metals from an aqueous solution ranged from 81.2% for cadmium (Cd) to 102% for copper (Cu) within 24 hours. For heavy metal extractions from a soil sample, a 96 hour extraction period was found to be optimum. The extracted heavy metal portion was comparable with the results obtained with an ammonium acetate (NH₄AOc) extraction. Total heavy metal contents in the substrate of the pot experiment did not show a significant influence due to the sewage sludge treatments, although considerable amounts of heavy metals were added by the sewage sludge. This effect can be both due to the incomplete recovery of heavy metals by an aqua regia extraction and leaching losses of these elements from the pots. Rape (Raphanus sativus L.) plants did not have any heavy metal contents which might indicate a high availability in soil, with the Cd and Cr contents in the rape biomass being partly lower in the sewage sludge‐treated pots than in the control plants; however, zinc (Zn) uptake slightly increased with increasing sewage sludge treatments. The Chelex 100 extraction procedure was correlated with Cd plant uptake, while the NH₄AOc extraction procedure was better related to the Zn uptake by rape plants.  相似文献   

Chemical and Ecotoxicological Assessment of Selected Biologically Activated Sorbents for Treating Wastewater Polluted with Petroleum Products with Special Emphasis on Polycyclic Aromatic Hydrocarbons     

L. Augulyte  D. Kliaugaite  V. Racys  D. Jankunaite  A. Zaliauskiene  P. L. Andersson  P.-A. Bergqvist 《Water, air, and soil pollution》2008,195(1-4):243-256

A chemical and ecotoxicological assessment of treatment of wastewater that had been polluted with petroleum products using only Activated Sludge (AS) and four biologically activated sorbents (BASs), consisting of activated sludge plus: coal-based activated carbon (-C1), coconut shell-based activated carbon (-C2), zeolite (-Z), and anthracite (-A) were conducted. The efficiency and robustness of the four wastewater treatment systems were evaluated by calculating the reduced total petroleum hydrocarbon (TPH) and polycyclic aromatic hydrocarbon (PAH) contents and the acute ecotoxicity of the effluents. The chemical analysis showed that the combined treatment systems were very effective for reducing the total petroleum hydrocarbon and readily bioavailable PAH contents. The most efficient systems were the BAS-C1 and -C2, which removed 60–88% and 99.5–99.6% of TPH and PAH, respectively. The activated sludge-only treatment was the least effective for purifying the wastewater. Chemical oxygen demand was reduced by >90% by all carbon-based BASs (BAS-C1, BAS-C2 and BAS-A). Shifts in the relative composition of the individual PAHs were identified in samples taken before and after treatment. Algal and bacterial bioassays showed that the toxicities of effluents following treatment by all four systems (except AS for algae) were reduced by more than 80% and 90%, respectively. However, crustacean tests indicated that the carbon-based BASs reduced the toxicity [V _tox(50)] only by 19–67%. Our results indicated that the combination of sorption and biodegradation processes have great potential in the treatment of petroleum products polluted wastewater and is less sensitive for inhibitors of the biological process than treatments in which activated sludge alone is used. The assessment of chemical and ecotoxicological endpoints provided valuable information, but contrasting results for one of the assays indicates that further analysis on the capacity of the different treatment systems is warranted.  相似文献   

Bioremediation of Oil Sludge in Shengli Oilfield     

Shi De-qing  Zhang Jian  Gui Zhao-long  Dong Jian  Wang Tian-li  Valentina Murygina  Sergey Kalyuzhnyi 《Water, air, and soil pollution》2007,185(1-4):177-184

Large quantity of dehydrated oil sludge, generated in the disposal process of oil-containing sewage in Shengli oilfield, needs to be rendered harmless to human and to the environment. Bioremediation has been accepted as an important method for the treatment of oil sludge by employing indigenous or extraneous microbial flora. The bioremediation of a dehydrated oil sludge of 960 m³ in volume was carried out in a prepared bed in Binyi oil-containing sewage disposal station, Shengli oil fields, China. Four different treatments were made to study the impact of certain process parameters on the bioremediation efficiency. Of the oil contaminants, 52.75% was degraded within 160 days when treated in a greenhouse, while the oil contaminations decreased by only 15.46% in the untreated sludge. The variations of the physical and chemical properties of oil sludge, the amount and the functional diversity of microorganisms in sludge were characterized. The results indicated that the water-holding capacity of oil sludge, the amount and the metabolism functional diversity of microorganisms in sludge in the three treatments increased markedly compared with the control.  相似文献   

油污土壤修复微生物的筛选及其影响因素   总被引：1，自引：0，他引：1  

慕庆峰  于立红  张涛  贾洪柏  吴慧云 《水土保持通报》2018,38(5):330-335,346

[目的]探讨微生物原位修复的主要影响因素及水平(正交设计)之间的关系,为石油污染场地生物修复工程的参数设计提供一定理论依据。[方法]选取5因素4水平的正交设计,考察污染强度、营养物、氧化剂、表活剂、接菌量等因素对土壤修复效果的影响。[结果]以原油为唯一碳源经过初步筛选,获得16株石油烃降解优势菌,经过菌群复筛,获得2株偏利共生协同真菌DPF2,DPF4,协同降解率最高,7d达87.77%。选择其进行室内油污土壤的微生物修复模拟试验,60d石油污染强度为10的油污土壤降解率最高,可达94.12%。污染强度为25的油污土壤降解率为90.17%,SPSS数据分析表明生物修复影响的最大影响因素是氧化剂、表活剂和营养物,其次是污染强度、接菌量。[结论]初期添加表活剂、氧化剂、营养剂能对石油生物修复具有重要意义。污染强度仅在35d前有一定影响,在修复后期影响最小。在整个修复过程,接菌量方差均值与其他因素比较都最小,因此其因素水平对石油降解能力的影响不显著。  相似文献   

Initial results from a long-term, multi-site field study of the effects on soil fertility and microbial activity of sludge cakes containing heavy metals   总被引：4，自引：0，他引：4  

P. A. Gibbs    B. J. Chambers    A. M. Chaudri    S. P. McGrath  C. H. Carlton-Smith  J. R. Bacon    C. D. Campbell  & M. N. Aitken 《Soil Use and Management》2006,22(1):11-21

In a long‐term study of the effects on soil fertility and microbial activity of heavy metals contained in sewage sludges, metal‐rich sludge cakes each with high Zn, Cu or Cd concentrations were applied annually for 4 years (1994–1997) to nine sites throughout Britain. These sites were selected to represent agricultural soils with a range of physical and chemical properties, typical of those likely to be amended with sewage sludge. The aim was to establish individual total Zn (approx. 60–450 mg kg^?1), total Cu (approx. 15–200 mg kg^?1) and total Cd (approx. 0.2–4 mg kg^?1) metal dose–response treatments at each site. Sludges with low metal concentrations were added to all treatments to achieve as constant an addition of organic matter as possible. Across the nine sites, soil pH was the single most important factor controlling Zn (P < 0.001; r² = 92%) and Cd extracted with 1 m NH₄NO₃ (P < 0.001; r² = 72%), and total iron content the most important factor controlling Cu extracted with 1 m NH₄NO₃ (P < 0.001; r² = 64%). There were also positive relationships (P < 0.001) between soil organic carbon (C) concentrations and soil biomass C and respiration rates across the nine sites. Oxidation of sludge C following land application resulted in approximately 45% of the digested sludge cake C and approximately 64% of the ‘raw’ sludge cake C being lost by the end of the 4‐year application period. The sludge cake applications generally increased soil microbial biomass C and soil respiration rates, whilst most probable numbers of clover Rhizobium were generally unchanged. Overall, there was no evidence that the metal applications were damaging soil microbial activity in the short term after the cessation of sludge cake addition.  相似文献   

Characterization of Phosphorus in Sewage Sludge from Different Sources by 31Phosphorus Nuclear Magnetic Resonance Spectroscopy     

《Communications in Soil Science and Plant Analysis》2012,43(10):1237-1244

To investigate the distribution and dynamics of phosphorus (P) in soils for environmental protection and agronomical usage, ³¹P nuclear magnetic resonance spectroscopy (³¹P NMR) was used to characterize the contents and chemical properties of P in sewage sludge from 13 wastewater treatment plants in Shanghai. The samples were extracted with 0.25 M sodium hydroxide (NaOH) / 0.05 M sodium ethylenediamietetraacetic acid (Na₂EDTA) in ratio of 1:20 (w/v). Total P recovery in the extract ranged from 91 to 116% when compared to traditional chemical methods. The dominant forms of P in all samples were inorganic orthophosphates and orthophosphates monoesters. Orthophosphate diesters and pyrophosphates were present in only two and four samples, respectively. This study provides detailed information on the distribution, contents, and chemical properties of P in sewage sludge that may be of value in the utilization of sewage sludge for agronomic purposes.  相似文献   

Medium-scale Plant Experiment of Sewage Sludge-based Phosphorus Fertilizers from Large-scale Thermal Processing     

《Communications in Soil Science and Plant Analysis》2012,43(19):2469-2481

ABSTRACT

Phosphorus (P) recycling from sewage sludge for agricultural needs has to meet requirements for agricultural implementation, such as short and long-term P-plant-availability under field conditions. Field experiments often bring no evaluable results, because agricultural soils got a high potential of P-supply even if they are classified as low in P-supply according to the CAL extraction method. The present study presents a possible way to investigate the P-plant-availability of P-recycling-fertilizers under field-like conditions. The plant experiments are firstly performed in small Mitscherlich pots in growth chambers and subsequently in containers with a high soil volume of 170 kg under greenhouse conditions, in which plants can grow until ripening. The tested P-recycling-fertilizers were produced from sewage sludge in a large-scale thermal process. It was a two-step treatment process performed with a pyrolysis of sewage sludge at 550°C (SSC-550) and a subsequent thermochemical post-treatment at 950°C with Na₂SO₄ (SSA-Na) and HCl + Na₂SO₄ (SSA-HCl/Na) as additives. The results show, that the P-recycling-products from pyrolysis got an adequate long-term but a 65% lower short-term P-plant-availability compared to triple-superphosphate. SSA-Na and SSA-HCl/Na show both a high short and long-term P-plant-availability comparable to triple-superphosphate. This can be explained by their highly plant-available P-compound CaNaPO₄.  相似文献   

Estimating diesel degradation rates from N₂, O₂ and CO₂ concentration versus depth data in a loamy sand     

J. Van De  Steene & H. Verplancke 《European Journal of Soil Science》2007,58(1):115-124

The degradation rate of the pollutant is often an important parameter for designing and maintaining an active treatment system or for determining the rate of natural attenuation. A quasi‐steady‐state gas transport model based on Fick’s law with a correction term for advective flux, for estimating diesel degradation rates from N₂, O₂ and CO₂ concentration versus depth data, was evaluated in a laboratory column study. A loamy sand was spiked with diesel fuel at 0, 1000, 5000 and 10 000 mg kg⁻¹ soil (dry weight basis) and incubated for 15 weeks. Soil gas was sampled weekly at 6 selected depths in the columns and analysed for O₂, CO₂ and N₂ concentrations. The agreement between the measured and the modelled concentrations was good for the untreated soil (R²= 0.60) and very good for the soil spiked with 1000 mg kg⁻¹ (R²= 0.96) and 5000 mg kg⁻¹ (R²= 0.97). Oxygen consumption ranged from −0.15 to −2.25 mol O₂ m⁻³ soil day⁻¹ and CO₂ production ranged from 0.20 to 2.07 mol CO₂ m⁻³ soil day⁻¹. A significantly greater mean O₂ consumption (P < 0.001) and CO₂ production (P < 0.005) over time was observed for the soils spiked with diesel compared with the untreated soil, which suggests biodegradation of the diesel substrate. Diesel degradation rates calculated from respiration data were 1.5–2.1 times less than the change in total petroleum hydrocarbon content. The inability of this study to correlate respiration data to actual changes in diesel concentration could be explained by volatilization, long‐term sorption of diesel hydrocarbons to organic matter and incorporation of diesel hydrocarbons into microbial biomass, aspects of which require further investigation.  相似文献   

生物柴油对能源和环境影响分析   总被引：22，自引：8，他引：22  

孙平  江清阳  袁银南 《农业工程学报》2003,19(1):187-191

生物柴油是从植物或动物脂肪酸通过酯化反应而得到,由于生物柴油无毒,可生物降解和可以再生,因此受到越来越多人的关注。生物柴油的性质和普通柴油非常相似,它能直接被用到发动机上而不需要改动发动机的结构。该文基于美国能源部对生物柴油的统计数据,利用生命循环分析法,对生物柴油从生产到消耗的生命循环中的能量消耗和产出、循环中的排放以及生物柴油汽车尾气排放等方面进行了分析。生命循环开始于普通柴油或生物柴油生产的原料提取,结束于成品油在发动机上的使用。只有分析生命循环中的所有过程,才能确定它对自然环境总量的影响。例如研究温室效应就要对整个生命循环中CO₂的排放进行分析。该文利用生命循环分析法分析了在生产生物柴油或柴油生命循环过程中的能量平衡、温室气体排放及对气体和固体污染物排放,提供了生物柴油生产过程和在发动机上使用的详细数据。分析结果表明∶生物柴油循环的石化能效比大大提高,大约是柴油的4倍;生物柴油循环中CO₂排放大大降低,大约降低了78.4%;发动机排气管有害物质的排放中,除NO_x排放增加8.89%外,CO、HC、PM等有害物质的排放大大降低（分别降低了46%、37%和68%）。  相似文献   

Rare earth elements and other trace elements in wastewater treatment sludges     

Akira Kawasaki  Ryosuke Kimura  Shigemitsu Arai 《Soil Science and Plant Nutrition》2013,59(3):433-441

In order to evaluate the possibility of contamination of soil with trace elements by the application of sludges to soil, the contents of rare earth elements (REEs; La, Ce, Pr, Nd, Sm, Gd, Tb, Dy, Ho, Er, Tm, Yb, and Lu) and other trace elements (Be, As, Ag, Cd, Sb, Cs, Bi, and U) in wastewater treatment sludges were determined. In sludges of night soil treatment plants (night soil sludges) and sludges of wastewater treatment plants in the food industry (food industry sludges), the distribution patterns of REEs normalized versus average REEs in the continental crust were almost flat. It was considered that the REE patterns of uncontaminated sludges reflected the pattern of the continental crust. The crust-normalized REE patterns of sludges of wastewater treatment plants in the chemical industry (chemical industry sludges) and municipal sewage sludges did not always show flat plots. The sludges that did not show a flat REE pattern were considered to be contaminated with some of the REEs.

The coefficient of variation of each element determined among the 10 samples of night soil sludges and the 14 samples of sewage sludges ranged from 34 to 77% and from 26 to 84%, respectively. Among the 10 samples of food industry sludges and the 10 samples of chemical industry sludges, the coefficient ranged from 60 to 143% and from 67 to 172%, respectively. The variations of the content of each element among the food industry sludges or the chemical industry sludges were larger than those among the night soil sludges or the sewage sludges.

The contents of Be, As, Cs, REEs, and U in all the sludges were lower than or the same as those in a field soil. Some of the food and chemical industry sludges contained larger amounts of Ag, Cd, and Sb than the soil. All the night soil sludges and sewage sludges contained much larger amounts of Ag and Bi than the soil.  相似文献   

Phytotoxicity of fresh and weathered diesel and gasoline to willow and poplar trees     

Stefan Trapp  Almut Köhler  Lars C. Larsen  Kim C. Zambrano  Ulrich Karlson 《Journal of Soils and Sediments》2001,1(2):71-76

The toxicity of fresh and weathered gasoline and diesel fuel to willow and poplar trees was studied using a tree transpiration toxicity test. Soils were taken from an abandoned filling station. Concentrations in the samples were measured as the sum of hydrocarbons from C₅ to C₁₀ (gasoline) and C₁₂ to C₂₈ (diesel). Concentrations ranged from 145 to 921 mg/kg gasoline and 143 to 18231 mg/kg diesel. The correlation between log soil concentration and toxicity to willows(Salix viminalis x schwerinii) was highly significant for the diesel fraction (r²=0.81, n=19) and for the sum of hydrocarbons (r²=0.84, n=19). The EC₅₀ (50% inhibition of transpiration) for the sum of hydrocarbons was determined at 3910 mg/kg (95% C.I., 2900 to 5270 mg/kg) and followed a log-normally distributed sigmoidal curve. The EC₁₀ was 810 mg/kg (95% C.I., 396 to 1660 mg/kg). The results were verified with artificially mixed diesel and gasoline contaminated soils, and two willow and one poplar species(S. viminalis, S. alba and Populus nigra). Fresh diesel at about 1000 mg/kg showed no effect onS. alba, althoughP. nigra was more sensitive. 10000 mg/kg seriously affected the transpiration of all species, silver willow(S. alba) being the least sensitive. Free phase diesel killed all trees within six weeks. Fresh gasoline at 1000 mg/kg was deadly for all trees, hence was more toxic than weathered gasoline. Survival of poplars and willows planted at the abandoned filling station was compared to the laboratory findings. There was some correlation, but in the field, trees also suffered from other stress factors than fuel pollution.  相似文献   

Effect of water treatment sludge on growth and elemental composition of tomato (Lycopersicon esculentum) shoots     

《Communications in Soil Science and Plant Analysis》2012,43(3):345-354

Abstract

The impact of a water treatment sludge on the fertility of a silt loam soil was assessed by monitoring the yield and elemental composition of tomato (Lycopersicon esculentum) shoots in a greenhouse study. Application of sludge at rates from 2–10% (air dry weight basis) raised the soil pH from 5.3 to 8.0 which enhanced plant growth. A substantial reduction in metal (Cd, Zn, Cu, Ni) uptake was observed with sludge amendments, even at the highest rates. The alkaline nature of this sludge (pH=9.3, calcium carbonate equivalence=53%) suggests its potential use as a liming material for agricultural soils. Overly alkaline conditions should be avoided however, as high application rates combined with ammonia fertilization had an antagonistic effect on plant growth, possibly from P deficiency induced by struvite (MgNH₄PO₄) formation.  相似文献   

含油污泥的堆肥处理对微生物群落结构的影响     

王新新  韩祯  白志辉  庄国强 《农业环境保护》2011,(7):1413-1421

采用堆肥方法处理含油污泥,评价堆肥处理对含油污泥中石油烃的去除效果,并采用Biolog方法和构建16SrRNA基因克隆文库的方法对处理过程中微生物碳源利用特征和微生物群落结构进行了研究。结果表明,含油污泥经过90d的堆肥处理,石油烃降解率达53.3%±9.5%,显著高于对照处理。堆肥处理可以显著促进石油烃降解,是一种处理含油污泥的有效措施。Biolog分析结果表明,堆肥处理的孔的平均颜色变化率（AWCD）显著高于对照处理,堆肥处理提高了土壤微生物代谢活性。主成分分析结果表明,对照处理和堆肥处理的微生物碳源利用特征明显不同,堆肥处理改变了含油污泥中微生物的代谢功能特征。对照处理和堆肥处理的16SrRNA基因克隆文库之间存在显著差异,对照处理的优势类群是γ-Proteobacteria,堆肥处理的优势类群是Bacteroidetes,堆肥处理显著改变了含油污泥中的微生物群落结构。Marinobacter和Alcanivorax是对照处理中的优势菌,可能与石油烃的自然降解过程有关,而Pusillimonas和Agrobacterium可能对堆肥处理中石油烃的降解起一定作用。  相似文献