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141.
The Main Geophysical Observatory 2D channel photochemical model is used to study the behavior of tropospheric OH within the 30–60°N zonal belt in relation to changing NOX and CO emissions. The changes of tropospheric OH as a function of the contributions by NOX and CO emissions during the period 1850–2050 are calculated. Our estimations show that the largest annual increment of total tropospheric OH within the belt considered occurs in the 1985–1995 period, about 0.27% yr−1. Based on scenarios of tropospheric pollution emissions in the first half of 21st century, the total tropospheric OH content will increase more slowly, by 0.12–0.15% yr−1. The maximum growth of OH concentration occurs close to air pollution locations—in the lower troposphere during 1850–1995 but in the upper troposphere in the 21st century when the NOX source from subsonic aircraft increases faster than the surface source. 相似文献
142.
143.
Gerhard Lammel Jana Klánová Predrag Ilić Jiří Kohoutek Bojan Gasić Igor Kovacić Nataša Lakić Ranka Radić 《Atmospheric environment (Oxford, England : 1994)》2010,44(38):5015-5021
Polycyclic aromatic hydrocarbons (PAHs) were measured together with inorganic air pollutants at two urban sites and one rural background site in the Banja Luka area, Bosnia and Hercegovina, during 72 h in July 2008 using a high time resolution (5 samples per day) with the aim to study the spatial and temporal variabilities and to explore the significance of averaging effects inherent to 24 h-sampling. Measurement uncertainty was quantified on basis of three independent side-by-side samplers, deployed at one of the sites.PAH abundances in the urban and rural environments differed largely. Levels at the urban sites exceeded the levels at the rural site by >100%. The discrepancy was largely dominated by emission of 3–4 ring PAHs in the city, while 5–6 ring PAHs were more evenly distributed between city sites and the hill site. During the night a higher fraction of the semivolatile PAHs might have been stored in the soil or sorbed to surfaces. PAH patterns were undistinguishable across the three sites. However, concentrations of more particle-associated substances differed significantly between the urban sites than between one of the urban sites and the rural site (3σ uncertainty). Time-averaging (on a 24 h-basis) would have masked the significant inter-site differences of half of the substances which were found at different levels (on a 4 h-basis). 相似文献
144.
Khoroshko LO Petrova VN Takhistov VV Viktorovskii IV Lahtiperä M Paasivirta J 《Environmental science and pollution research international》2007,14(6):366-376
Background, Aims and Scope Despite the large number of studies on the forms of sulfur in marine deposits, investigations on sulfur organic compounds
are still rare. It is known that the processes leading to formation of intermediate and final sulfur compounds (including
organic ones) in modern deposits are the results of microbiological transformation of sulfur containing proteins, as well
as the microbiological reduction of sulfate ions. The latter are finally reduced by anaerobic sulfate-reducing bacteria to
H2S, HS− and S2−; the total sum of these is referred to as ‘hydrogen sulfide’ in chemical oceanography. Further, the formation of reduced
sulfur organic derivatives (sulfides and polysulfides) is the result of interaction of the organic substance destruction products
with the sulfide ions. In such cases, the main source of organic substances, as well as sulfates for the sulfur reducing processes,
is the pore water in the sediments. The choice of the target of our study is based on the fact that the eastern part of the
Gulf of Finland water area receives the bulk of the anthropogenic load of the St. Petersburg region. Low vertical intermixing
of the water thickness is observed there (thus creating a deficiency of oxygen near the bottom), and the bottom sea current
transfers the polluted salty water of the Baltic Sea into the Neva Bay. The whole of the above are the preconditions for the
formation of sulfur-bearing organic compounds.
A great number of bottom sediment samples for analytical surveys were collected in the Eastern Gulf of Finland during research
expeditions in the years of 1997 and 2001. These were screened for structures of sulfur organic microcontaminants, including
organic forms of sulfur, using advanced instrumentation and experienced personnel in our two, cooperating laboratories. This
work is a part of the research being carried out on organic micro-admixtures present in bottom sediments, and is the summary
of our findings on previously unstudied sulfur organic substances there.
Materials and Methods A number of sulfur organic compounds present in nineteen bottom sediment samples from the Eastern Gulf of Finland (EGF) were
characterized by high performance gas chromatography connected to low and high resolution mass spectrometers (GC/LRMS and
GC/HRMS). The structure screening was carried out as compared with literature and library mass spectra, and taking the GC
retention times into account. In the cases of an absence of mass spectra not in the literature, interpretation of the most
probable structures was performed with the help of high resolution mass-spectrometric data, fragmentation rules for sulfur-bearing
organic substances and ICLU simulation of spectra. These data were registered to form a conclusive ‘fingerprint’ for identification
and confirmation of the structure of each novel compound found, e.g. by later syntheses of authentic model compounds. The
relative contents of sulfur organic compounds were determined from MS response ratios of each compound to 2-fluorine naphthalene
(internal standard).
Results This paper is a completion of work, which has been published in part as three papers in the European Journal of Mass Spectrometry.
As the total study result, 43 sulfur-bearing compounds were characterized. The mass spectra of 20 of them were found in the
literature. The most probable structures for the 23 compounds whose mass-spectra were not available in the literature data
were proposed. All of those 23 compounds were detected in bottom sediments for the first time, and 5 of them were described
as originating from plants or being generated by chemical synthesis products, while the remaining 18 substances were previously
unknown. The structures of these were deduced to be most probably the following (in order of their GC retention): dichloromethyl
thiylsulfenylchloride, chloromethyl dichloromethyl disulfide, 3,4-dithiacyclohexene, 1,2,4-trithiacycloheptane, 1,2,3-trithiacyclohexane,
tetrathiacyclopentane, 3,4,5-trithiacyclohexene, 1,2,4-trithiacyclohexane, cyclopropylhydrotrisulfide, 1,2-dithiane-3-thiol,
1,3-dithiane-2-thiol, bis(trichloromethyl)-tri-sulfide, 1,2,4,5-tetrathiacyclohexane, 1,2,3,4-tetrathiacycloheptane, 1,2,3,4-tetrathiacycloheptane,
1,2,3,4-tetrathia-cyclo-hexane, pentathiacyclohexane, and 1,2,4,6-tetrathiacyclooctane. The highest amounts of sulfur organic
compounds were found in the deepest, bottom areas in the open part of the sea, where the salinity was highest, and oxygen
deficiency occurred as well. Also, some coastal places with a high solid matter deposition rate had elevated contents of sulfur
organic compounds.
Discussion From the 43 sulfur organic compounds found, the HRMS data provided the atomic composition of the molecular ions for 16 compounds
with a high confidence (see Table 3). The LRMS spectra could be identified with catalogue or literature spectra in 29 cases.
The MS information obtained was insufficient in two cases: 1) The obvious molecular ion (at m/z 110) of compound 1 was not
visible in LRMS. 2) For compound 43, the HRMS measurement, due to the low intensity (2%) of the molecular ion (m/z 210), could
not exclude the presence of 2 oxygen atoms (instead of one sulfur atom) in the molecule. Major fragments, however, of our
43, certainly contained no oxygen atoms according to HRMS. The limited LRMS data in the literature, for an isomer of 43, had
m/z values of all fragments different from those of the compound found by us.
The retention times (RT) formed one more evidence for identity between compounds in different samples. The use of different
non-polar columns in GC and similar, but not identical, temperature programs produced eluted peaks of novel and known compounds
in each sample (mixture) in GC/HRMS and GC/LRMS. These gave sets of RTs which were in a very significant linear correlation
(measured example R = 0.999866, p = 1.85E-06, N = 5). Therefore, the RTs in the HRMS analysis systems could be converted to
values comparable with those from the LRMS device.
The RT values, HRMS m/z values, LRMS spectra, and ICLU simulation results for each organic sulfur compound form an identification
‘fingerprint’. The interpretation of these experimental data, with supporting use of fragmentation rules, allow the giving
of a provisional name and structure to the ‘suspect’. In this study and in environmental surveys of micropollutants in general,
the compounds suspected of anthropogenic or natural origin occur at low levels in complex mixtures. Therefore, no bulk amount
of an authentic, pure model substance for the suspect is available quite often. The most probable name and structure from
the fingerprint data are very useful in guiding the preparation of the model substance for a conclusive identification. Similarly,
the unknown criminal can be identified in advance by forensic science and his fingerprint, DNA, etc. as registered before
the arrest. The analogy can be found in the literature and CAS register of organic polysulfides, which in great part consists
of the results of sensitive mixture analysis methods.
Conclusions Sediment of the Eastern Gulf of Finland is over large areas anaerobic, as indicated by the existence of novel, non-oxygenated
sulfur organic microcontaminants. These substances were most abundant in anoxic and saline, deep bottom regions, and, in addition,
in one coastal area near industrial discharges. This occurrence, and also the limited information about sulfur organic compounds
in scientific literature, is considered evidence for the dominantly natural processes in their formation.
Recommendations and Perspectives The importance and necessity of investigating the sulfur organic compounds in the bottom sediments, result from the fact that
their presence can be an indicator of stable anaerobic processes. Similarly, the oxygen disappearance (anoxia) in the marine
water, due to a high concentration of the sulfate ions and relatively high content of organic matter, is practically always
connected with the appearance of hydrogen sulfide and sulfides. The generation of sulfur organic compounds precedes the formation
of the new, or expansion of the existing anaerobic (‘hydrogen sulfide’) zones, which lead to such environmental disasters
as mass destruction of hydrobionts. Many organic compounds of sulfur, including sulfides and polysulfides, are toxic to the
aquatic organisms. Therefore, in addition to the danger of mass wholesale deaths of marine fauna in the bottom sediments region,
there exists a probability of secondary pollution of the water thickness as well, due to the entry of those substances from
bottom sediments in the water when the environmental conditions are changed (stormy weather, floods, geological activity of
the earth’s crust, etc.). 相似文献
145.
Elizabeth B. Connelly Craig R. Allen Kirk Hatfield José M. Palma-Oliveira David D. Woods Igor Linkov 《The Environmentalist》2017,37(1):46-50
The National Academy of Sciences (NAS) definition of resilience is used here to organize common concepts and synthesize a set of key features of resilience that can be used across diverse application domains. The features in common include critical functions (services), thresholds, cross-scale (both space and time) interactions, and memory and adaptive management. We propose a framework for linking these features to the planning, absorbing, recovering, and adapting phases identified in the NAS definition. The proposed delineation of resilience can be important in understanding and communicating resilience concepts. 相似文献
146.
Beeston M Grgić I van Elteren JT Iskra I Kapun G Močnik G 《Environmental science and pollution research international》2012,19(1):235-243
Objective
In this work, continuous and size-segregated aerosol measurements at Mt. Krvavec, Slovenia, during the Eyjafjallajökull volcanic eruption were performed. Based on chemical and morphological characteristics of size-segregated particles, the presence of the volcanic aerosols after long-range transport to Slovenia was to be confirmed.Results and conclusions
Continuous measurements with the aethalometer and SMPS indicated the suspected volcanic ash plume passing over the sampling site. The aerosols collected by discrete sampling showed a chemical signature similar to the known elemental signature of the Icelandic volcanic ash. Coarse particles showed a composition typical for silicates rich in metals; in many cases also S was present. Morphological analysis showed particles with features indicative of an explosive volcanic eruption, e.g., pumice and pumice shards, glass shards, minerals, evidence of steam condensation, etc. The high sulfate concentration associated with the fine particles resulted in sulfate crystallization within the cascade impactor leading to the formation of large structures resembling a “fern”. Mass size distributions for Fe, Ti, Mn, Ca, Na, and Mg showed one primary peak (for Fe, Mn, and Ti at 2.8 μm; for Ca, Na, and Mg at ca. 4 μm), which supports the fact that most of the particles in the coarse sizes were silicates rich in metals. The size distribution of the water-soluble SO 4 2? showed a maximum peak at 0.75 μm, which also confirms the high sulfate concentration in the fine particles. Chemical and morphological characterization of aerosols collected at Mt. Krvavec indeed confirmed that volcanic ash plume passed over Slovenia. 相似文献147.
Dynamics of phosphorus forms in the bottom sediments and their interstitial water for the Prut River (Moldova) 总被引:1,自引:0,他引:1
V Rusu L Postolachi I Povar A Alder T Lupascu 《Environmental science and pollution research international》2012,19(8):3126-3131
Phosphorus concentration in rivers results from both external inputs and internal loading from the bottom sediments. Seasonal, spatial, and multi-annual dynamics of phosphorus forms in bottom sediments and their interstitial water for the river Prut (Moldova) were evaluated. In order to determine content of total phosphorus in the bottom sediments, fresh (wet) samples were subjected to persulfate oxidation. The content of inorganic phosphorus was determined after acidic oxidation of samples. The amount of organic phosphorus was obtained by subtracting inorganic phosphorus from the amount of total phosphorus. Content of phosphorus forms in interstitial water was determined after centrifugation of fresh (wet) sediments. In general, the shape of dynamics of the amounts of inorganic phosphorus in sediments was close during years?2009, 2010, and 2011, with registered higher contents of this form on the middle course of the river. The spatial dynamics of organic phosphorus is less homogeneous along the Prut River. During 2009, higher amounts of organic phosphorus were recorded on the middle sector. During the spring of year?2010, the content of organic phosphorus in sediments was practically not changed along the river. The ratio of inorganic/organic phosphorus in bottom sediments was similar during the researched years, with the predominance of the inorganic phosphorus being recorded. Also, the increasing tendency of the percentage of organic phosphorus from spring to summer was identified. Generally, appropriate spatial and seasonal dynamics of phosphorus forms in bottom sediments and their interstitial water were recorded, although sometimes with some differences. 相似文献
148.
Nathalia Garlich Claudinei Da Cruz Adilson F. Da Silva Silvia P. Carraschi Igor C. Malaspina Robinson A. Pitelli 《Journal of environmental science and health. Part. B》2016,51(4):215-221
The aims of this research were to evaluate the efficacy of copper oxychloride (CuCl2.3Cu(OH)2), copper hydroxide (Cu(OH)2) and diquat (1.1′-ethylene-2.2′-bipyridyldiylium dibromide), isolated and in association with 0.1% of both copper sources, in the control of the unicellular algae Ankistrodesmus gracilis and the filamentous algae Pithophora kewesis, and to determine the acute toxicity of the tested chemicals in Hyphressobrycon eques, Pomacea canaliculata, Lemna minor and Azolla caroliniana. The efficacy was estimated by the methods of chlorophyll a and pheophytin a readings, changed into growth inhibition percentage. Both algae were exposed to the following concentrations: 0.2; 0.4; 0.8; 1.2 mg L?1 of diquat and its association with the copper sources; and 0.1; 0.3; 0.5; 0.7; 1.0 and 1.5 mg L?1 in the isolated applications of copper hydroxide and copper oxychloride. An untreated control was kept. The acute toxicity was estimatedby 50% lethal concentration (LC50). The copper sources were effective for A. gracilis control, at rates as high as 0.1 mg L?1 (>95% efficacy). Isolated diquat and its association with copper hydroxide were both effective at rates as high as 0.4 mg L?1, with 95 and 88% control efficacy, respectively. The copper oxychloride was effective at 0.2 mg L?1, with 93% efficacy. None of the tested chemicals and associations was effective on P. kewesis control. The most sensitive non target organism to the tested chemicals was L. minor; the less sensitive was H. eques. 相似文献
149.
Melo Mikhael Rangel de Souza Dias Nildo da Silva de Medeiros Igor José Nascimento Travassos Kaline Dantas Miranda Neyton de Oliveira Gurgel Marcelo Tavares Lemos Neto Hozano de Souza Fernandes Cleyton dos Santos 《Environmental science and pollution research international》2020,27(31):38537-38544
Environmental Science and Pollution Research - In a context of scarcity of good quality water, reuse is a mandatory practice to increase water availability, thus allowing the exploitation of more... 相似文献
150.
James H. Lambert Jeffrey M. Keisler William E. Wheeler Zachary A. Collier Igor Linkov 《The Environmentalist》2013,33(3):326-334
While the cybersecurity field has focused primarily on software and network security, threats and vulnerabilities of hardware device supply chains are growing concerns. Of particular importance and interest in this vein is the way in which semiconductors and other electronic devices are increasingly deployed to support energy distribution, storage, and control at a variety of scales. Future smart grid supply chains must be secured to prevent cyber attacks from affecting energy infrastructure, and the societal and economic functions on which they depend. This perspective paper calls for a multiscale approach to address modeling and decision-making for energy system hardware supply chains. A multiscale approach, as discussed in this paper, can facilitate resilience of supply chains across the life cycles of these systems, through low- and high-tech techniques to monitor and act on the supply chain. This can incorporate both qualitative and quantitative factors to suit the variety of stakeholders, geographic scales, organizational levels, and planning and operational time horizons. 相似文献