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1.
Health risk from various particulates of dust has been of public health concern for many years and scientific observations on dust have been going on for the last 200 years. Diseases resulting from exposure to dust are generally known as pneumoconiosis and have been primarily associated with occupational exposure to silica dust. Silica, which induces silicosis, has been recognized as far back as the Hippocratic times. The aim of the research is to try to assess the nature and scale of health risks from environmental exposure to silica on a global scale, with particular emphasis on non-occupational silicosis (pneumoconiosis). Thorough literature reviews included studies and literature from non-occupational and occupational silicosis studies along with papers from Geology and Medicine. Non-published studies and local knowledge from Ladakh were used in pertinent of the review. The commonest form of silica (SiO2) is quartz. Other particulates in the atmosphere and finer particles 〈10 when inhaled with oxygen endanger human health; silica is the most threatening for non-occupational silicosis because of its high fibrogenicity. Aerosol minerals can often travel from continent to continent creating a health risk not just in the area of dust source, but also to secluded humans. When emitted into the air environmental exposure to (silica) quartz can occur as component of particulates emissions produced by natural-industrial-agricultural activities. Human exposure to environmental (silica) quartz can be summarized into direct and indirect pathways. Health risk from exposure to silica (quartz) has been widely studied in occupational settings; however there is a scarcity of studies on environmental/non-occupational exposure. Review of epidemiological studies on environment/non-occupational silicosis showed that all the studies lack a good control group and represent a small sample size. Many of these studies are case reports with retrospective histopathology, focusing only on the prevalence and lacking robust exposure measurement. Non-occupational/environmental silicosis is a global public health concem and the areas of dust source could be modified with climate changes. Literature is very scarce in relation to health risks from environmental dust (silica/quartz), nevertheless the review of occupational studies links silica exposure to numerous diseases in humans.  相似文献   

2.
Mineral dust is a major component of the global aerosol, and the importance of dust for regional climate and biogeochemical cycles has become increasingly apparent. By scattering and absorbing radiant energy and through their effects on clouds, dust and other aerosol particles can cause climatic effects that affect ecosystem function and human health. Iron oxide minerals in the atmosphere are especially important in this regard because they absorb solar radiation and are involved in redox reactions. Furthermore, dust particles that settle out of the atmosphere provide nutrients, including iron, to marine ecosystems and other nutrients to terrestrial ecosystems. New technologies have shown that dust reacts in complex ways with other atmospheric constituents; indeed, this is one of the major revelations of recent dust research. Dust and other substances commonly occur in the same air parcels, but bulk chemical methods do not show whether the particles are internally mixed (multiple components mixed in single particles) or externally mixed (admixtures of different particles). Electron beam techniques have shown internal mixtures of dust and black carbon, but the implications of this for climate forcing are still unresolved. Studies conducted with an aerosol time-of-flight mass spectrometer suggest preferential reactions between dust, sulfur and nitrogen oxides, and chlorine. These reactions have important implications for particle formation and solubility, and for the particles' health effects. The activity of radionuclides, including Pu, co-vary with atmospheric dust loads, and while this is not a serious health concern, the emerging view is that pure dust is rarely sampled. While dust can affect ecosystems through climate, the production of dust also is influenced by humans, especially land-use practices that affect vegetative cover. Indeed, the issue of the relative importance of natural vs. anthropogenically-driven changes in dust budgets remains a subject of debate although several recent studies indicate natural variability dominates.  相似文献   

3.
Dry lakebeds can be important sources of dusts that are potentially deleterious to the health of chronically exposed populations. The lakebeds accumulate and can concentrate natural and anthropogenic contaminants transported in particulate and dissolved form from the surrounding watersheds. The lakebed sediments are commonly enriched in respirable-size, detrital clay particles that can be disturbed to form dust. Evaporative concentration of ephemeral lake waters following intermittent wet periods, and of near-surface ground waters beneath some lakebeds, can enrich the sediments in diverse alkaline sulfate, carbonate, and chloride salts. Chemical reactions between alkaline evaporative waters and detrital silicates in the sediments can produce secondary silicates such as zeolites. Lakebeds with abundant salts and intermingled silicates can be highly susceptible to wind erosion, and repeated regeneration of salts in surface sediments may maintain a sustained source of salt-rich dusts. Potential health concerns arise in part from the large load of respirable particles emanating from some dry lakebeds. These concerns are exacerbated if the dusts have elevated metals, particularly metals enriched in soluble evaporative salts. For example, Owens-a dry lake, California, which was prior to mitigation the largest source of PM10 dust in the continental United States, contains elevated As in its dusts. Chemical leach tests using water and simulated gastric and lung fluids indicate that dry lakebed sediments and dusts can contain bioaccessible As, Mn, Al, Zn, Cu, Pb, U, W, Mo, and other potentially toxic metals. Another possible health issue is the occasional presence in lake sediments of secondary erionite, a fibrous zeolite associated with asbestos-related diseases. The potential presence of pathogens, as well'as enrichments, bioaccessibility, and toxicity of pesticides and other organic pollutants in the dusts must also be evaluated. Earth scientists can help assess potential health effects of dry lakebed dusts by developing predictive models for dust generation and dust toxicity based on the geology,  相似文献   

4.
A link between the inhalation of respirable silicas (SiO2) and respiratory diseases such as silicosis is widely recognized. Ash from dome collapse eruptions on Montserrat has been found to contain high levels (〉20%) of silicas in the form of cristobalite, tridymite, quartz and/or amorphous silica. The toxicity of these silica polymorphs varies widely. Cristobalite and quartz (tridymite less well established) are viewed as carcinogenic to humans whereas amorphous silica generally shows a reduced biological response. In assessing the potential health effects of volcanic ash particulates it is vital to determine the types and concentration of silicas as well as their size (respirable fraction), shape and surface properties. The aim of this study is to develop methods to assess potentially toxic respirable airborne silicas in the dome collapse ash (applicable to a range of ash types) and to develop a model to predict the levels and types of respirable silicas from future eruptions. The model is being developed by comparing dome rock with related ash from a series of previous eruption events. Mineralogical assessment using conventional scanning X-ray diffraction (XRD) was hampered by difficulties in differentiating characteristic peaks for cristobalite and tridymite in complex multi-component ash samples (containing high levels of plagioclase). These difficulties have been largely overcome using an Enraf-Nonius PDS120 diffractometer with curved (120 degrees 20) position sensitive detector (PSD). The determination of size, shape and elemental characteristics of ash particulate and dome rock samples has been carried out using automated analytical scanning electron microscopy. The quantification of mineral proportions using PSD-XRD was highly successful with an accuracy of 1 to 2 wt%. However, the determination of phase proportions using automated analytical SEM was problematic due to scattering effects and the multiphase nature of many of the particles.  相似文献   

5.
Background: Radiographic signs of Pneumoconiosis found in farming Ladakhi despite absences of mines and industries were believed to be due to exposure to frequent dust storms and domestic fire pollutions. Seasonal Koilonychia (spoon nail) occurring predominantly in farming women in absences of iron deficiency anaemia was thought to arise from exposure to water made alkaline by weathering of hornblende minerals. The relation of these health conditions to environmental geohydrochemistry is postulated as the source of irrigation water in the affected population originates from glaciers in trans-Himalaya range of sedimentary geology and steep landscape favouring flushing of silica/silicate containing silts. Methods and results: Survey in two central Ladakh villages revealed radiographic evidence of silicosis in all middle aged women and half in middle aged men. In a large-scale study of 3105 subjects aged over 30 years from three villages; 101 (22.5%) of the 449 radiographed showed signs of pneumoconiosis (ILO 1980 criteria) including eggshell calcification of hilar gland and progressive massive fibrosis. Indoor dust analyzed using Philips 400T electron microscope with energy dispersive analysis system attached showed SiO2 levels upto 53.27% with particle size of 0.5 to 5.0 microns and the concentration during cooking period in the worst affected area was 7.495 mg/m^3. Microscopy and histopathology from the subject was characteristic of pneumoconiosis. Analysis of the inorganic dust in the lung showed 40.2% muscovite, 37.3% quartz with the extracted dust wt 147.9 mg/gm of dry tissue. Prevalence of chronic cough with chronic phlegm and percentage of villagers with FEV1/FVC ratio of less than 65% rose with age. Of 70 subjects studied 19 women and 2 men had Koilonychia with incidence being highest in summer. Absence of seasonal Koilonychia in villages fed by water derived from northern mountain range glaciers with mainly igneous geology supports our hypothesis.  相似文献   

6.
The investigation of the environmental properties of minerals, i.e., environmental mineralogy, is a branch of science dealing with interactions between natural minerals and spheres of the Earth surface as well as a reflection of global change, prevention of ecological destruction, participation in biomineralogy, and remediation of environmental pollution. Pollutant treatment by natural minerals is based on the natural law and reflects natural self-purification functions in the inorganic world, similar to that of the organic world - a biological treatment. A series of case studies related to natural self-purification, which were mostly completed by our group, are discussed in this paper. In natural cryptomelane there is a larger pseudotetragonal tunnel than that formed by [MnO6] octahedral double chains, with an aperture of 0.462-0.466 nm2, filled with K cations. Cryptomelane might be a real naturally-occurring mineral of the active octahedral molecular sieve (OMS-2). CrⅥ-bearing wastewater can be treate  相似文献   

7.
Mineral dust, including dust storm, fugitive and floating dust are the most important components of ambient aerosol in northern China during spring. Meanwhile, it goes through heating period when fossil fuel combustion acts as a dominant source. In order to understand the chemical characteristics of fine particles in North China, two sampling sites was established in Baotou City in the west of Inner Mongolia Autonomous Region and Wuwei City near the edge of Gobi to collect fine particles (PM 2.5) samples in the spring of 2004 and 2005, and analyze mass concentrations, ionic species and some element components of PM 2.5. The results indicated that dust events elevated the mass concentrations of particulate matter significantly, not only for coarse particles, but also for fine particles. Crustal components, organic matter and sulfates are three major compositions in fine particles, their mass concentrations and relative abundances are closely related with the frequency of dust events and coal combustion. The characteristics of fine particles are obviously diverse under different atmospheric conditions. (1) When the dust storms take place, the wind speeds are often higher than 10 m/s. A plenty of mineral aerosol is input from long distance, and also local soil dust is blown up to suspend in the air as particles. Therefore, the concentrations of PM 2.5 are enhanced dramatically. Mass concentrations and relative percentages of crustal components in PM 2.5 increased significantly during dust events. The mineral dust may help gas to particle conversation by heterogeneous reactions. Increases in mass concentrations of SO4^2-, NO3^- and NH4^+ and organic matter in PM 2.5 were observed evidently. But their fractions in PM 2.5 do not increase simultaneously due to dilution of storing wind. (2) When wind velocity is lower (〈3 m/s), air pollutants are accumulated, both mass concentrations of SO4^2-, NO3^- and NH4^+ and organic matter, and their fractions in PM 2.5 increase, indicating severe anthropogenic pollution. The chemical characteristics of PM 2.5 in Baotou and Wuwei are also influenced by their industrial structure, topography and meteorological conditions.  相似文献   

8.
Ever-increasing accumulation of trace metals in the environment is a serious health concern. This is a valid apprehension particularly in urban settings where the population and the level of trace metal contamination are increasing rapidly. Hong Kong and Guangzhou are the most populated cities in the region of the Pearl River Delta, the fastest growing economic region in the world. In unconfined urban compartments, particulates deposited on the earth surface such as road dusts and gully sediments are good indicators to assess the level of trace metal contamination. In such locations, however, source partitioning of the pollution, which is essential to assess and then reduce the potential environmental risk, is a difficult task. This is mainly due to the complexity and variability of site-specific natural and anthropogenic conditions. This leads us to focus on the particulates accumulated in relatively confined settings, such as vehicular tunnels. Our recent studies demonstrated that particulates accumulated on the ceiling of tunnels are useful to characterize particulates mainly derived from traffic related activities. With this in mind, Pb isotope ratios and trace metal contents of the ceiling dusts from the Cross-Harbor Tunnel (CHT) in Hong Kong and the Pearl River Tunnel (PRT) in Guangzhou were characterized and compared with each other in order to evaluate the environmental impact of traffic derived inorganic pollutants in the region. The ceiling dusts from both tunnels were dominated by silt-sized particles (〈63 μm) which are significantly freer than those of road dusts, usually larger than (〉200 μm). In general, Cr, Ni, Pb and especially Cu contents of the ceiling dusts from CHT were noticeably higher than those from PRT. This was partly attributed to longer residence time of particulates in CHT, which has been operating since 1976, while the PRT was open to public in 1996. On the other hand, Co, Fe, Mn and Zn contents of the ceiling dusts from CHT were similar to those from PRT, while Ca and Mg contents were noticeably lower.  相似文献   

9.
The influence of emissions of an active volcano on the composition of nanoparticles and ultrafine road dust was identified in an urban area of the Andes.Although many cities are close to active volcanoes,few studies have evaluated their influence in road dust composition.Air quality in urban areas is significantly affected by nonexhaust emissions(e.g.road dust,brake wear,tire wear),however,natural sources such as volcanoes also impact the chemical composition of the particles.In this study,elements from volcanic emissions such as Si>Al>Fe>Ca>K>Mg,and Si-Al with K were identified as complex hydrates.Similarly,As,Hg,Cd,Pb,As,H,Cd,Pb,V,and salammoniac were observed in nanoparticles and ultrafine material.Mineral composition was detected in the order of quartz>mullite>calcite>kaolinite>illite>goethite>magnetite>zircon>monazite,in addition to salammoniac,a tracer of volcanic sources.The foregoing analysis reflects the importance of carrying out more studies relating the influence of volcanic emissions in road dust in order to protect human health.The road dust load(RD10)ranged between 0.8 and 26.8 mg m?2in the city.  相似文献   

10.
New field measurement techniques are allowing researchers to better understand how surficial properties affect the temporal and spatial variability of dust emissions. In this paper we review the current understanding of the dust emission process and present new field measurements that examine how three surface properties: roughness, crust strength, and temporal changes of surface properties affect dust emissions. These data were collected using three unique measurement systems developed by our team. Roughness exerts considerable control on the entrainment threshold and emissions of dust from a surface. We have carried out a series of experiments designed to quantify roughness effects on aeolian sediment entrainment and transport in a shear stress partitioning framework. Our results show that the model of Raupach et al. (1993) provides very good agreement with available data to predict the amount of shearing stress on the intervening surface among roughness elements, relatively independent of their size and distribution. However, element size affects the aeolian sediment transport process beyond that attributable only to the reduction of surface shear stress caused by the roughness. Additional interactions of the elements with the saltation cloud appear to reduce the transport efficiency and potentially dust emissions as well. The effect of crust strength on dust emissions was assessed using a newly-developed pin penetrometer, which can measure crust strength in-situ. Previous researchers suggested that variation in crust strength even within a small area could lead to considerable spatial variability in dust emissions. Our measurements showed that crust strength is highly variable over a scale of centimeters. This variability may help to explain some of the observed scatter in field measurements of dust emissions for what appear to be homogeneous surfaces. Variability of dust emissions in time and space was also evaluated using a new instrument, the Portable In-Situ Wind Erosion Lab (PI-SWERL) developed to measure dust emissions from soil surfaces.  相似文献   

11.
This discussion reviews environmental toxicology and health effects of trace elements and compounds carried in natural dusts of geologic or geochemical origin. The sources of these dusts are diverse, including volcanoes, dust storms, long-range transport of desert dust, and displacement through natural processes such as landslides and earthquakes. Estimates diverge greatly in terms of the total quantities of dust transported, although recent papers place annual volumes at over 1 billion tons from the main African deserts alone. Anthropogenic influences (such as from farming and irrigation) have contributed to dust formation by enhancing the process of desertification, with losses of over 10 million hectares (~29 million acres) of farmland per year. The principal elements and compounds which are examined in this presentation are trace metals and metalloids, radioactive elements, fluoride, silicates, natural asbestiform compounds, and alkali salts. The pathways by which such agents affect human populations are examined, including carriage through water, air, soil and the foodchain. The mechanisms of biotoxicity, and the acute and chronic consequences on health, associated with toxic trace metals are described.  相似文献   

12.
This paper presents the first release of an Informational System(IS)devoted to the systematic collection of all available data relating to Pliocene-Quaternary faults in southern East Siberia,their critical analysis and their seismotectonic parameterization.The final goal of this project is to form a new base for improving the assessment of seismic hazard and other natural processes associated with crustal deformation.The presented IS has been exploited to create a relational database of active and conditionally active faults in southern East Siberia(between 100°-114° E and 50°-57° N)whose central sector is characterized by the highly seismic Baikal rift zone.The information within the database for each fault segment is organized as distinct but intercorrelated sections(tables,texts and pictures,etc.)and can be easily visualized as HTML pages in offline browsing.The preliminary version of the database distributed free on disk already highlights the general fault pattern showing that the Holocene and historical activity is quite uniform and dominated by NE-SW and nearly E-W trending faults;the former with a prevailing dip-slip normal kinematics,while the latter structures are left-lateral strike-slip and oblique-slip(with different proportion of left-lateral and normal fault slip components).These faults are mainly concentrated along the borders of the rift basins and are the main sources of moderate-to-strong(M≥5.5)earthquakes on the southern sectors of East Siberia in recent times.As a whole,based on analyzing the diverse fault kinematics and their variable spatial distribution with respect to the overall pattern of the tectonic structures formed and/or activated during the late Pliocene-Quaternary,we conclude they were generated under a regional stress field mainly characterized by a relatively uniform NW-SE tension,but strongly influenced by the irregular hard boundary of the old Siberian craton.The obtained inferences are in an agreement with the existing models of the development of  相似文献   

13.
In southern Rocky Mountains, catchments characterized by acidic, metalliferous waters that are relatively unaffected by human activity usually occur within areas that have active or historical mining activity. The US Geological Survey has utilized these mineralized but unmined catchments to constrain geochemical processes that control the surface- and ground-water chemistry associated with near surface acid weathering as well as to estimate premining conditions. Study areas include the upper Animas River watershed, Lake City, Mt. Emmons, and Montezuma in Colorado and Questa in New Mexico. Although host-rock lithologies range from Precambrian gneisses to Cretaceous sedimentary units to Tertiary volcanic complexes, mineralization is Tertiary in age and associated with intermediate to felsic composition, porphyritic plutons. Pyrite is ubiquitous. Variability of metal concentrations in water is caused by two main factors: mineralogy and hydrology. Parameters that potentially affect water chemistry include: host-rock lithology, intensity of hydrothermal alteration, sulfide mineralogy and chemistry, gangue mineralogy, length of flow path, precipitation, evaporation, and redox conditions. Springs and headwater streams have pH values as low as 2.5, sulfate up to 3700 mg/L and high dissolved metal concentrations (for example: Al up to 170 mg/L; Fe up to 250 mg/L; Cu up to 3.5 mg/L and Zn up to 14 mg/L). With the exception of evaporative waters, the lowest pH values and highest Fe and Al concentrations occur in water draining the most intense hydrothermally altered areas consisting of the mineral assemblage quartz-sericite-pyrite. Stream beds tend to be coated with iron floc, and some reaches are underlain by ferricrete. When iron-rich ground water interacts with oxygenated waters in the stream or hyporheic zone, ferrous iron is oxidized to ferric iron, which is less soluble, leading to the precipitation of iron oxyhydroxides.  相似文献   

14.
Environmental impact resulting from mining activities is serious and ubiquitous all over the world, and it has become one of the important aspects in environmental geochemistry. The environment was seriously damaged by wastes from historical zinc smelting in Northwest Guizhou. The geochemical distributions of Pb and Zn in the different grain-size fractions of wastes indicate that the coarser particles show similar or even higher heavy metal concentrations than finer ones in the samples, although the concentrations of heavy metals tend generally to increase as the size fractions get finer. The heavy metal contents are very high, with maximum values of 31631, 57178, 2367 and 311.5 mg/kg for Pb, Zn, Cu and Cd, respectively. It is also shown that the residual fraction of Pb is less than that of Zn, accounting for 0.39%-15.75% and 14.3%-46.2%, respectively, of the total, and this is likely relative to Zn-silicate minerals formed from smelting. Although the relative partitioning of Pb and Zn is very low (0.03%- 1.3.% for Pb; 0.03% -3.3% for Zn), the exchangeable fraction of the waste contains large amounts of heavy metals (1.5%-385 μg/g for Pb; 3-590 μg/g for Zn). Heavy metals in exchangeable forms have the highest solubility to give the highest potential bioavailability in contrast to other chemical forms. Mineralogical study indicates that the wastes were found to be highly heterogeneous materials, dominated by quartz, feldspar, carbonatite, iron or/and aluminum vitric compounds and a few secondary mineral phases, and their contents vary with the type of smelting wastes. The secondary minerals formed from smelting and sequentially weathering are the major chemical phase for heavy metals. Complex composition of many phases and substitution of elements suggested that many of the phases were found to be non-stoichiometric compounds. Pb was found to be the main Pb phase in the wastes by precipitation or/and adsorption.  相似文献   

15.
The Cantor's dust theory is applied to investigate the scaling properties of the spatial distribution of natural fractures obtained from detailed scanline surveys of 27 field sites in the Appalachian Plateau of western New York, USA. The results obtained in this study indicate: 1) fracture spacing is characterized by fractal and multifractal properties. On small scales analyses yield an average fractal dimension of 0.15, which suggests a very high degree of clustering. In contrast, on large scales, fractures tend to be more regular and evenly distributed with an average fracture dimension of 0.52; 2) fractal dimension varies with different sets in different orientations, which can be attributed to interactions between pre-existing fractures and younger ones, as well as variations of the intensity of the stresses under which the fractures were formed; 3) a time sequence of fracture set formation can be proposed based on fractal and multifractal analyses, which consists of (from old to young): N-S, NW, EN  相似文献   

16.
黎秉铭 《地球化学》1983,(2):205-212
It has been found that Pb and Cd can be gradually purified during their transportation in rivers and that the rate of purification for Pb is much greater than that of Cd,Such process is not only closely related to the degree of water dilution and the properties of Pb and Cd themselves, but also to the existing ligands, oxidation-reduction conditions, colloids, pH and other factors in the aquatic environment. Suspended particles and river-bed sediments have a strong ability of adsorption and purification with respect to Pb and Cd. This ability shows a positive correlation with the composition of clay in sediments on the river bed, but a negative correlation with the grain-size of quartz particles. our results indicate that both the adsorption and possible desorption of Pb and Cd in river-bed sediments and suspended particles may be highly responsible for the variations in Pb and Cd concentrations in aquatic environments. The dynamic adsorptiondesorption balance of Pb and Cd between riverbed sedimeuts and water varies with pH.It may be favorable for the purification of Pb and Cd in aquatic environments if pH is adjusted to slightly alkaline within the tolerance of environmental capacity.  相似文献   

17.
Knowledge of the interactions among atmospheric dynamics, dust emissions and climate system is essential to understand the physical mechanisms for the dust lifecycle, their role in loess formation as well as the predictions of future dust concentration. However, these issues still remain relatively poorly known in Central Asia(CA). The extensive loess deposits on the CA pediments provide a promising archive to explore atmospheric dust dynamics and climatic conditions in the past and their association with loess formation. This study investigates the granulometric and magnetic properties of a loess section(named Osh section) in the Fergana Valley, which provides a sensitive record of atmospheric dust dynamics since 30 ka based on radiometric(AMS~(14)C) dating. The frequency-dependent magnetic susceptibility(χfd) and the mean grain size are used to reconstruct the broadscale effective moisture and summer atmospheric dynamics pattern in CA, respectively. The results show that the precession forcing exerts a huge influence on the wind-regime variabilities in CA, but with different physical processes under the impact of the Northern Hemisphere ice sheet(NHIS) before and after 15 ka. The origin of the sedimentation rate variations in the Osh loess is also linked to the NHIS-modulated changes of the atmospheric circulation patterns. Either the strengthened westerlies or the increased surface roughness from higher vegetation cover in loess-deposition areas have significantly accelerated the loess accumulation. As a result, these complicated influence factors of sedimentation rate change in the Osh loess section, especially during the Holocene epoch, may hamper accessibility of the authentic dust emission flux and atmospheric dust concentration in CA.  相似文献   

18.
X-ray Diffraction of Dust Particles in Spring Beijing   总被引:1,自引:1,他引:0  
X-ray diffractometry was utilized to study the mineralogical characteristics of the inhalable particles (PM10) sampled during two dust storms in Beijing city on March 18th and May 21st, 2008. We confirm, for the first time, that there stably exists ammonium chloride in the atmosphere when temperature is low. The total sulfates particles were affected by relative humidity. Both species and concentration of sulfates decreased first and then grew back by the end of each dust storm. Koninckite, a phosphate mineral never reported as particulate aerosol before, was identified. Meanwhile, our result shows that a chemical modification on dust minerals occurs during long range transportation. PM10 samples collected during the period of dust storms were dominated by crustal minerals such as quartz, illite/ smectite, illite, chlorite, feldspar and calcite, and were notably higher in concentration than that in normal periods of time. The amounts of total sulfates, calcite and feldspar altered in each dust storm. It is derived from 24-hour isentropic backward trajectories that two dust events in spring 2008 originated in different sources.  相似文献   

19.
Sulfates are a main constituent of aerosols, which sulfate aerosols, it is necessary to determine what can cause various environmental problems sulfate ions are contained in these aerosols In the evaluation of the influence of In this study, sulfur K-edge XANES was used to determine sulfate species present in size-fractionated aerosol particles based on the post-edge structure after the main absorption peak in the XANES region. Aerosol samples were collected as part of the Japan-China joint project, "Asian Dust Experiment on Climate Impact" using a low-volume Andersen-type air sampler. XANES was measured at Beamline BL-9A at Photon Factory, Japan. A comparison of the XANES spectra of reference sulfate materials and aerosol samples collected in Tsukuba in Japan clearly showed that (NH4)2SO4 was the main sulfur species in particles with a smaller diameter and gypsum was the main sulfur species in particles with a larger diameter. A simulation of the XANES spectra by reference materials allows us to obtain the quantitative mixing ratios of the different sulfate species present in the aerosol samples. The presence of minor sulfur species other than (NH4)2SO4 and gypsum at the surface of mineral aerosols is suggested in our simulations and by a surface-sensitive conversion electron/He-ion yield XANES. In the absence of a contribution from a large dust event, the mole concentration of gypsum in the mineral aerosol fraction determined by XANES is similar to that of Ca which is determined independently using ion chromatography. This shows that the Ca and sulfate in the mineral aerosols are present only as gypsum. Considering that calcite is the main Ca mineral in the original material arising from an arid and semi-arid area in China, it is strongly suggested that gypsum is formed in aerosol during its long-range transportation by a reaction between calcite and sulfate ions.  相似文献   

20.
The Hemlo mineralization is enigmatic compared to general Archean lode gold deposits based on the fact that is characterized by an exotic mineralogy containing elements such as As,Hg,Sb,Ba,V and Mo.The genetic concepts range from syngenetc to epigenetic types of mineralization.This reconnaissance study was designed to examine the relationshp of Hg-As minerals with respect of fluid inclusions in the Williams mine(formerly known as the Page Williams mine)covering the A and C ore zones.  相似文献   

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