一株甲醛降解真菌Aspergillus spp.H4的分离鉴定

甲醛是一种广泛使用和很重要的化工原材料,但它同时也是对大多数生物有机体有高毒性的物质。通过添加甲醛的选择性培养基从淤泥里分离了一株甲醛耐受真菌,将其接种于加孟加拉红的PDA培养基、察氏培养基、麦芽汁培养基平板培养,观察它的培养特征和孢子结构,结合DNA提取、PCR扩增、产物测序、GenBank比对等分子鉴定手段,结果表明:其培养特征、显微特征和黄曲霉(Aspergillus flavus)相似,18SrDNA序列与黄曲霉(Aspergillus flavus)同源率达99.8%。我们把它命名为Aspergillus flavus H4。该真菌最适生长pH值为pH5.5,在培养的144h内ρ(甲醛)从1241mg·L-1下降到4mg·L-1。在培养的96h内ρ(甲醛)下降迅速,A值上升缓慢,当ρ(甲醛)下降到10mg·L-1时,也就是120h时,A值迅速上升,ρ(甲醛)下降缓慢。结论是这株Aspergillus flavus H4是甲醛耐受(降解)真菌。     

硒对汞胁迫小麦幼苗生理特性的影响

通过沙基培养研究不同ρ（Se）对Hg胁迫下小麦（Triticum aestivum L.）幼苗苗高、叶绿素相对含量（SPDA）、丙二醛（MDA）含量及抗氧化酶活性等的变化,探讨外加Se对Hg胁迫下小麦幼苗生理活性的影响。结果表明：单独ρ（Hg）=2.5 mg.L-1处理下,小麦幼苗叶绿素含量降低,SOD与CAT活性受到抑制降低,丙二醛（MDA）含量升高。ρ（Se）=5 mg.L-1和ρ（Hg）=2.5 mg.L-1共同处理下,叶绿素含量比Hg单独处理升高了7.6%,比对照升高了3.5%,MDA含量降低了38.8%,低于对照20.0%;外加ρ（Se）高于10 mg.L-1的处理中,叶绿素含量逐渐降低,MDA则呈升高趋势。ρ（Hg）=2.5 mg.L-1胁迫下低ρ（Se）=5~10 mg.L-1促进了SOD与CAT活性,其活性随Se质量浓度升高逐渐增强;ρ（Se）=10 mg.L-1和ρ（Hg）=2.5 mg.L-1共同处理下,两种酶活性比Hg单独处理分别升高了21.8%与32.8%,高ρ（Se）=15~20 mg.L-1处理下,两种酶活性则呈下降趋势。这些结果表明,不同ρ（Se）对Hg胁迫下小麦幼苗各生理指标具有显著影响,Se一定程度上缓解了Hg对小麦幼苗的毒害。     

高效甲醛降解菌处理突发污染事故研究

通过选择培养,选育到1株能快速降解高浓度甲醛的菌株BZ-001H,经鉴定为Bacillus cereus,其最适降解条件是30℃和pH 7.0,最适浓度为8 000 mg L-1,最佳接种量为0.3‰,甲醛浓度越高时对pH的变化越敏感.用BZ-001H作为功能菌株对活性污泥系统强化后应急处理含2 035.67 mg L-1、4 155.63 mg L-1、8 099.27 mg L-1浓度甲醛的模拟废液,2.5h、6 h、14 h后去除率都能达到99%以上.模拟甲醛突发污染事故场景与应用条件,用BZ-001H强化常规SBR工艺应急处理4 073.65 mg L-1甲醛废液,经过8 h降解,可使出水甲醛达到《污水综合排放标准》(GB 8978-1996)一级标准.同时,考察了应急处理过程对应急系统和常规系统的影响,结果表明,应急处理结束后,应急SBR系统运行2周期后COD达标排放,6周期后氨氮达标排放;而对照系统受冲击明显,运行10周期后氨氮仍未达标,去处率仅为18.81%.     

化感链霉菌6803菌株液体发酵工艺优化的研究

土壤微生物链霉菌6803菌株被证明对高等植物具有化感作用。采用单因子实验方法,研究液体发酵碳源、氮源、无机盐、发酵温度、发酵液初始pH值、摇床转速、发酵时间等对链霉菌6803菌株菌丝体产量及发酵液化感作用的影响,用均匀试验设计法优化了发酵工艺条件。结果表明：链霉菌6803菌株生长和产生化感作用的最佳发酵条件为：p（淀粉）=26．67g·L-1,p（蔗糖）=25．15g·L-1,p（NH4C1）=0．30g．L-1,黄豆饼粉浸液8．88％,所（NI-h）H2P04]=O．18g·L-1,p（FeS04．7H20）=O．002g·L-1,p（NaCl）=0．75g·L-1,pH值7．6,装量系数O．16,接种量3％,温度36℃,转速200r·min-1,发酵144h。本研究为利用微生物次生代谢产物作为天然除草剂奠定了基础。     

钒胁迫对水稻幼苗生理生化和富集特性的影响

水稻（Oryza.sativa L.）是我国最重要的粮食作物之一,水稻产量占粮食总产量的一半以上,一旦水稻受到重金属污染,将会影响水稻植株的正常生长和生理特性。目前关于钒胁迫对水稻植株生理特性指标的影响方面报道较少。通过水培实验,研究了不同钒（V）质量浓度（0、4、8、12、16、20 mg·L-1）对水稻幼苗（Oryza.sativa L）生理生化和富集特性的影响。结果表明：随着V胁迫浓度的增加,叶绿素含量、可溶性蛋白含量、过氧化氢酶（CAT）活性、过氧化物酶（POD）活性、超氧化物歧化酶（SOD）等均呈现先上升、后下降的变化趋势。当ρ（V）≤12 mg·L-1,与对照相比较,叶绿素含量、可溶性蛋白含量和酶活性增大了135.3%、104.2%、77.8%（CAT）、84.5%（POD）和273.2%（SOD）;当ρ（V）〉12 mg·L-1,则分别降低37.2%、39.4%、41.1%、24.1%和24.5%。随着 V 胁迫浓度的增加,丙二醛（MDA）含量和细胞膜透性逐渐增大,与对照相比,分别增加了38.5%~289.3%、21.2%~303.2%,根系活力下降了10.9%~82.2%。可见,低ρ（V）（≤12 mg·L-1）对水稻幼苗的生长有一定的刺激作用,水稻幼苗自身保护酶表现出较强的自我调节能力;高ρ（V）（〉12 mg·L-1）明显抑制叶绿素和蛋白合成、抗氧化酶活性和根系活力,伤害了细胞质膜系统,影响水稻幼苗的生长发育。不同V浓度胁迫下,水稻幼苗累积的V含量为：根〉茎叶。随着V胁迫浓度增加,水稻幼苗各器官V含量增大,其中根部增幅远大于茎叶,当ρ（V）从5 mg·L-1增加到40 mg·L-1,与对照相比较,根部增加了0.98~25.3倍,茎叶部增加了0.26~4.74倍。生物富集系数（BF）先增加后降低,最大值为2.8408;迁移系数（TF）下降,最低值为0.1170,说明水稻对V有较强的富集能力,但迁移能力较低,积累的V主要富集在根部,可减轻V对地上部植物的危害。     

红江橙器官发生及其影响因素

以红江橙（CitrussinensisOsbeckcv.‘Hongjiang’）实生苗的根尖、下胚轴、子叶、上胚轴、茎段及叶片为材料进行培养,结果表明：上胚轴、茎段出芽率较高,分别为978％（45／46）及70．7％（29／41）.ρ（MT＋BA）1mg·L-1对上胚轴出芽效果较好,ρ（BA）升高,出芽率随之下降红江橙愈伤组织的诱导,其适宜的培养基为MT＋2,4-D05＋BA（KT）1（ρ／mg·L-1）NAA与BA（或ZT）结合有利于红江橙愈伤组织的分化,低浓度的BA效果较好些,随BA浓度升高,分化率下降红江橙不同外植体诱导的愈伤组织,分化能力也有差异,子叶愈伤组织更易分化,分化率可达357％（15／42）;胚诱导的愈伤组织次之,其分化能力随着分化前培养时间的延长而下降无根苗诱导生根,其适宜的培养基ρ（MT＋NAA）1mg·L-1．     

人工湿地组合生态工艺对规模化猪场养殖废水的净化效果研究

研究了表面流、水平潜流和垂直潜流人工湿地以及地下渗滤系统组合生态工艺对模拟和实际猪场养殖废水的净化效果。结果表明,在进水ρ（COD）=709.2 mg.L-1,ρ（TN）=597.1 mg.L-1,ρ（NH4＋-N）=560.4 mg.L-1和ρ（TP）=42.5 mg.L-1的质量浓度条件下组合生态系统对于COD、TN、NH4＋-N和TP的去除率分别可以达到87%、95%、97%和95%,其中COD的去除主要在第一级表面流人工湿地,NH4＋-N和TN去除主要是在水平潜流和垂直潜流人工湿地,水平潜流和垂直潜流人工湿地对溶解性磷酸盐去除效果明显,地下渗滤起到进一步稳定出水水质的作用。水平潜流和垂直潜流人工湿地的运行结果对比表明,后者对污染物的去除率均高于前者。     

不同磷初始浓度对紫萍生长及磷吸收效率的影响

采用室内模拟培养试验方法,研究不同磷初始浓度对紫萍生长及磷吸收效率的影响。结果表明,水体初始ρ（磷）为3.0 mg.L-1时,紫萍相对生长率最高,生长繁殖速度最快。当初始ρ（磷）为0.3～3.0 mg.L-1时,紫萍对水体中磷的去除率在70%以上。紫萍累积吸磷量和磷吸收能力均随磷初始浓度的升高而增加,但当初始ρ（磷）为45.0 mg.L-1时,紫萍累积吸磷量和单位鲜质量紫萍吸磷量均明显下降。当初始ρ（磷）≤1.5 mg.L-1时,紫萍体内酸性磷酸酶活性升高,但随着低磷胁迫时间的延长,低磷条件和高磷条件间酸性磷酸酶活性差异减小。     

蜡状芽孢杆菌不同菌株降解有机磷农药的特性分析

筛选分离降解微生物解决有机磷农药残留给水体和土壤环境带来的污染问题是一项可行的生物修复技术。采用富集培养和定时取样分析有机磷农药残留的方法,分离驯化出三株能够降解有机磷农药的细菌,研究了其形态特征和生理生化特性并对其16SrDNA序列进行了分析,同时比较了三菌株对甲基对硫磷（Methyl－parathion）、毒死蜱（Chlorpyrifos）和_二唑磷（Triazophos）的降解特性。结果表明：通过富集培养得到10菌株具有降解甲基对硫磷和毒死蜱的能力,比较确定HY-1、HY-2和HY-4三菌株作为研究对象,经鉴定为蜡状芽孢杆菌（Bacilluscereus）的不同菌株,三菌株在Genbank上的登录号分别为：eu915687、eu915686和eu915688。在甲基对硫磷质量浓度为50mg·L-1时,三菌株72h的降解率分别为91．7％、87．7％与92．4％．降解率无显著性差异（P〉0．05）,当甲基对硫磷质量浓度增加到100mg·L-1时,三菌株对甲基对硫磷的降解率有所下降,其中HY-2对甲基对硫磷的降解率下降最大达23％,且和其他两菌株有显著性差异（P〈0．05o三菌株72h对100mg·L-1毒死蜱的降解率分别达到64．8％、53．7％和56．5％,在不同的毒死蜱初始质量浓度下,HY-1和HY-4两菌株对毒死蜱的降解率无显著性差异（P〉0．05）,HY-2与HY-1、HY-4两菌株有显著性差异（P〈0．05o三菌株对三唑磷的降解率均较低,其中HY-2对初始质量浓度为100mg·L-1三唑磷的降解率最高仅为20．7％,其余两菌株对三唑磷的降解率比HY-2低且无显著性差异（P〉0．05o可以得出本研究分离得到的蜡状芽孢杆菌不同菌株对有机磷农药的降解存在多态性。     

湖南石门雄黄矿区矿样中的砷氧化细菌的分离及鉴定

绿色的生物学方法处理含砷废水,对于缓解工业发展所带来砷污染问题,提高居民健康生活质量具有重要意义。以湖南石门雄黄矿区的尾矿池积水（SY）、地下400 m处的矿坑水（NY）和尾矿池底泥表层（XY）3个样本为研究对象,利用细菌富集和多次传代的方法,从这3个环境样本中获得可氧化三价砷的3个菌群。在砷质量浓度为l~5 g·L-1的培养基中分别检测上述3个菌群的耐受能力,发现在砷质量浓度高达5 g·L-1的条件下,上述菌群均能在2~3 d内达到109 cells·mL-1。利用上述菌群处理l g·L-1亚砷酸钠溶液,SY、XY和NY菌群可分别在25、20和35 h内将三价砷完全氧化,并且使溶液中的总砷质量浓度降低66.7%。进一步对3个菌群进行多次平板分离,利用五价砷和硝酸银的颜色反应,获得11株可氧化三价砷的目的菌株。对这些菌株16S rDNA进行NCBI的BLASTN序列比对发现,菌株SMY24、SMY33、SMY22、SMY32、SMY21和SMY31均属于假单胞菌属（Pseudomonas）,菌株SMY104属于不动杆菌属（Acinetobacter）,菌株SMY17、SMY25、SMY9和SMY1在所有的已知序列中,最大的相似率只有91%,最小的相似率为76%,且都是未曾报道纯培养的细菌。对这些菌株三价砷氧化能力进行测定发现,其中菌株SMY104和SMY21在20 h内能将三价砷几乎完全氧化。通过对这些菌株三价砷氧化酶基因进行初步检测,发现了多个菌株具有三价砷氧化酶基因（AoxB）。     

Cellular damage of plant pathogenic fungi by antifungal compounds produced by Bacillus spp. isolates

The use of microorganisms as biological control agents (BCAs) has become an effective alternative to chemical means of controlling plant pathogens. The antagonistic and inhibitory activity of 71 Bacillus spp. strains, which were isolated from different Mexican sites, were tested against several phytopathogen fungi, Fusarium oxysporum, Fusarium equiseti, Fusarium avenaceum, Bipolaris spp. and Alternaria spp. From the antagonism study, the strain ELI149 showed a marked inhibition of growth against all tested fungi; therefore crude metabolites from this strain were extracted using ethyl acetate and amberlite resin and probed against the same fungi as well as strains of Mucor sp., Penicillium spp. and Paecilomyces spp. The results indicated that amberlite was more suitable for extraction of secondary metabolites with antifungal activity. Finally, observation of cell damage in the tested pathogenic fungi showed marked morphological changes on reproductive structures in all tested fungi indicating that antibiosis was the mechanism of the antagonistic effect. These results suggest that metabolites from the Bacillus strains have a wide spectrum of antibiotic activities, which can be used as biocontrol agents for controlling fungal plant diseases of agricultural importance.     

大气生物污染与健康的研究

本文综述了大气生物污染及其引起疾病方面的研究。在大气微生物污染方面包括了细菌、病毒，特别是真菌污染及其引起的疾病，甚至癌症。在植物花粉对大气的污染方面，介绍了枯草热的发生原因和对健康的危害。作者认为，大气生物污染的评价、治理和毒理学效应等问题值得注意并应进一步研究。     

Bioaerosol emissions variations in large-scale landfill region and their health risk impacts

● The airborne bacteria in landfills were 4–50 times higher than fungi. ● Bioaerosols released from the working area would pose risk to on-site workers. ● The safe distance for the working area should be set as 80 m. Landfills are widely complained about due to the long-term odor and landfill gas emissions for local residents, while the bioaerosols are always neglected as another threat to on-site workers. In this study, bioaerosols samples were collected from the typical operation scenes in the large-scale modern landfill, and the emission levels of airborne bacteria, pathogenic species, and fungi were quantified and co-related. The corresponding exposure risks were assessed based on the average daily dose via inhalation and skin contact. It was found that the levels of culturable bacteria and fungi in all landfill samples were around 33–22778 CFU/m³ and 8–450 CFU/m³, and the active-working landfill area and the covered area were the maximum and minimum emission sources, respectively, meaning that the bioaerosols were mainly released from the areas related with the fresh waste operation. Acinetobacter sp., Massilia sp., Methylobacterium-Methylorubrum sp. and Noviherbaspirillum sp. were the main bacterial populations, with a percentage of 42.56%, 89.82%, 70.24% and 30.20% respectively in total bioaerosols measured. With regards to the health risk, the health risks via inhalation were the main potential risks, with four orders of magnitude higher than that of skin contact. Active-working area showed the critical point for non-carcinogenic risks, with a hazard quotient of 1.68, where 80 m protection distance is recommended for on-site worker protection, plus more careful protection measures.     

Advances in research of airborne microbes in subway systems北大核心CSCD

Subway systems are indispensable for transportation in modern cities, with the air being easily polluted by microbes owing to the enclosed and crowded environment. The microbiological characteristics of subway aerosols have attracted the attention of researchers worldwide during recent years. This review aimed to evaluate the sampling and analyzing methods suitable for detecting airborne microbes in subway systems. Active air sampling methods and molecular biology techniques based on polymerase chain reaction (PCR) such as 16S rRNA gene sequencing, metagenomics, and quantitative PCR demonstrated great potential in microbial analysis of aerosols because they can provide accurate and comprehensive information. Temporal and spatial distributions of airborne microbes, as well as the factors influencing their distribution characteristics, were also discussed by critically reviewing worldwide literature on subway microbiome studies. The concentration and composition of airborne bacteria and fungi in subway can vary dramatically with time and space. The critical factors determining microbial community structure and composition include temperature, relative humidity, carbon dioxide concentration, number of passengers, presence of platform screen door, ventilation systems, and so on. The review suggests that future studies on standardized sampling and analyzing protocols are required to obtain contamination levels of subway airborne microbes and to establish the relationship between microbial monitoring data and public health risks. © 2018 Science Press. All rights reserved.     

Composition,dispersion, and health risks of bioaerosols in wastewater treatment plants: A review

• Bioaerosols are produced in the process of wastewater biological treatment. • The concentration of bioaerosol indoor is higher than outdoor. • Bioaerosols contain large amounts of potentially pathogenic biomass and chemicals. • Inhalation is the main route of exposure of bioaerosol. • Both the workers and the surrounding residents will be affected by the bioaerosol. Bioaerosols are defined as airborne particles (0.05–100 mm in size) of biological origin. They are considered potentially harmful to human health as they can contain pathogens such as bacteria, fungi, and viruses. This review summarizes the most recent research on the health risks of bioaerosols emitted from wastewater treatment plants (WWTPs) in order to improve the control of such bioaerosols. The concentration and size distribution of WWTP bioaerosols; their major emission sources, composition, and health risks; and considerations for future research are discussed. The major themes and findings in the literature are as follows: the major emission sources of WWTP bioaerosols include screen rooms, sludge-dewatering rooms, and aeration tanks; the bioaerosol concentrations in screen and sludge-dewatering rooms are higher than those outdoors. WWTP bioaerosols contain a variety of potentially pathogenic bacteria, fungi, antibiotic resistance genes, viruses, endotoxins, and toxic metal(loid)s. These potentially pathogenic substances spread with the bioaerosols, thereby posing health risks to workers and residents in and around the WWTP. Inhalation has been identified as the main exposure route, and children are at a higher risk of this than adults. Future studies should identify emerging contaminants, establish health risk assessments, and develop prevention and control systems.     

Air pollution-oriented ecological risk assessment in Xiamen city,China

Urban energy consumption is one of the most important causes of air pollution. Air pollution-oriented ecological risk assessment is of great significance to the promotion of urban environmental protection. This paper focuses on ecological risk in Xiamen city caused by air pollutant discharge from urban energy consumption. The Long-range Energy Alternatives Planning model was used to establish two scenarios of energy consumption in Xiamen city, and based on different scenarios, we estimated urban energy consumption and discharge quantity of air pollutant (DQAP). A box model and an expert scoring method were used to calculate the air pollution burden (APB) of SO₂, NO₂, CO, PM₁₀ and PM_2.5 and to obtain the probabilities of different air pollution loads. An ecological risk assessment model was developed and utilized to predict Xiamen city’s ecological risks in 2020. The results showed that under an energy-saving scenario, the ecological risks for PM_2.5, SO₂ and NO₂ are high, whereas the ecological risks for CO and PM₁₀ are low. Under a baseline scenario, the ecological risks for PM_2.5, SO₂ and NO₂ are moderate, whereas the ecological risks for CO and PM₁₀ are low. In addition, the APB of SO₂, NO₂, CO, and PM_2.5, but not of PM₁₀, is predicted to rise. In the simulation, energy generation from coal is the main source of air pollution. Although the DQAP from automobiles is not high, it is predicted to rise year-on-year. In summary, the ecological risk due to pollution in Xiamen city is high, and the main pollutants are SO₂, NO₂ and PM_2.5.     

Using a sub-grid scale modeling approach to simulate the transport and fate of toxic air pollutants

Several air toxics are emitted from mobile sources on roadways and these emissions account for a significant fraction of the health risks to the population. In addition, health effect studies are now becoming more comprehensive and some account for the spatial heterogeneities of air pollutant concentration fields (as is the case near roadways). Standard models can simulate either the near-source concentration fields or the urban background, but no model can handle both spatial scales in the vicinity of roadways in a coherent and scientifically correct manner. Here, we present a model that provides such an integrated treatment by combining a grid-based air quality model of the urban background with a plume-in-grid representation of roadway emissions. The model is applied to simulate near-roadway concentrations due to emissions from a busy interstate highway in New York City. Qualitative comparisons with typical measured concentration profiles show that the model captures the observed features of toxic air pollutant concentrations near roadways.     

Distribution,seasonal variation and inhalation risks of polychlorinated dibenzo-<Emphasis Type="Italic">p</Emphasis>-dioxins and dibenzofurans,polychlorinated biphenyls and polybrominated diphenyl ethers in the atmosphere of Beijing,China

Spatial distribution, seasonal variation and potential inhalation risks of polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs), polychlorinated biphenyls (PCBs) and polybrominated diphenyl ethers (PBDEs) were investigated in the atmosphere of Beijing, using passive air samplers equipped with polyurethane foam disks. Concentrations of ΣPCDD/Fs, ΣPCBs and ΣPBDEs ranged from 8.4 to 179 fg WHO₂₀₀₅-TEQ/m³, 38.6–139 and 1.5–176 pg/m³, respectively. PCDFs showed higher air concentrations than those of PCDDs, indicating the influence of industrial activities and other combustion processes. The non-Aroclor congener, PCB-11, was detected in air (12.3–99.4 pg/m³) and dominated the PCB congener profiles (61.7–71.5% to ∑PCBs). The congener patterns of PBDEs showed signatures from both penta-BDE and octa-BDE products. Levels of PCDD/Fs, PCBs and PBDEs at the industrial and residential sites were higher than those at rural site, indicating human activities in urban area as potential sources. Higher air concentrations of PCDD/Fs, PCBs and PBDEs were observed in summer, which could be associated with atmospheric deposition process, re-volatilization from soil surface and volatilization from use of technical products, respectively. Results of inhalation exposure and cancer risk showed that atmospheric PCDD/Fs, dioxin-like PCBs and PBDEs did not cause high risks to the local residents of Beijing. This study provides further aid in evaluating emission sources, influencing factors and potential inhalation risks of the persistent organic pollutants to human health in mega-cities of China.     

植物内生菌与宿主关系研究进展

植物内生菌（endophyte）是指存活于健康植物组织内部,而又不引发宿主植物表现出明显感染症状的微生物类群,主要包括真菌、细菌和放线菌。其在植物体中的分布具有普遍性、多样性的特点。在目前研究过的所有植物中均发现有内生菌,它们可存在于植物的根、茎、叶、花、果实等各个部位。研究发现内生菌除了随植物遗传进行传播外,还可通过多种途径对宿主植物进行侵染,比如可以以内生菌体或孢子形式通过变形、吸器、或渗透等途径侵染植物,也可以通过分解植物表皮细胞壁或通过各种自然开口（包括侧根发生处,气孔,水孔等）或伤口（包括土壤对根的磨损,病虫对植物的损害及收割多年生植物造成的伤口等）等传播途经进入植物。内生菌由于与宿主植物长期共处,进而形成了一种复杂、特殊的关系。它们有的是互利共生关系,而有的是无害或微害寄生关系。两种关系可随多种因素变化而相互转化。本文主要从内生菌在宿主植物中的分布特点、侵染特性及与宿主植物共处方式等方面,对近十年来植物内生菌与宿主关系的研究进展进行综述和展望,以期为植物内生菌资源开发研究提供参考。     

Prediction of particulate air pollution from a landfill site using CFD and LIDAR techniques

Landfill sites have been the most common way of eliminating solid urban waste, as well as that of public and mining wastes. Landfill sites are a constant source of environmental pollution and wind is the most important contributing factor to air pollution, due to the erosion which it produces over the landfill site surfaces, transporting dust away from the source point. This causes serious risks for human health and general dirt in the surrounding areas of the landfill site. The result of dust air pollution produced in a landfill site is analysed through CFD3D (Computational Fluid Dynamics) by joining the LIDAR (Light Detection and Ranging) technique and Ansys CFX 10.0 software. The CFD simulations determine the wind velocity distribution on the landfill site surface and the different particle threshold friction velocities which determine the dust emission in multiphase simulations (air-particles). These simulations are validated from field data obtained in three measurement programmes for each type of landfill site surface treatment which has been studied. It was determined that the superficial landfill site treatment with the lowest air pollution is tall grass and bushes. The methodology used can be applied to the dust emission calculation in the design or evaluation of other landfill sites.