ライフサイエンスコーパス: sulfur dioxide

1 zone, nitrogen dioxide, carbon monoxide, and sulfur dioxide).

2 ygen species, reactive nitrogen species, and sulfur dioxide.

3 he corresponding organometallic reagents and sulfur dioxide.

4 alkoxy gold carbenes by in situ expulsion of sulfur dioxide.

5 centration, despite the presence of residual sulfur dioxide.

6 icles acts as a sink for many gases, such as sulfur dioxide.

7 SO(2))(2) was used as a convenient source of sulfur dioxide.

8 ls after epithelial injury by naphthalene or sulfur dioxide.

9 d resistance, respectively, to the toxic gas sulfur dioxide.

10 probably due to electron impact on molecular sulfur dioxide.

11 ic 1,4-addition product with the S O bond of sulfur dioxide.

12 ns followed by sulfonation via reaction with sulfur dioxide.

13 itrogen emissions and successful controls on sulfur dioxide.

14 including hydrogen sulfide, mercaptans, and sulfur dioxide.

15 s pollutants other than nitrogen dioxide and sulfur dioxide.

16 light-struck taste also limiting the use of sulfur dioxide.

17 h sulphitation, that is, heat treatment with sulfur dioxide.

18 an aerodynamic diameter <10 mum, and 22% for sulfur dioxide.

19 and 2007), where different concentrations of sulfur dioxide (0, 4, and 8 g.hL(-1)) were added to the

20 itrogen dioxide: 1.011; 95% CI, 1.006-1.016; sulfur dioxide: 1.010; 95% CI, 1.003-1.017; PM(10): 1.00

21 The antioxidants sulfur dioxide (50 ppm) and ascorbic acid (100 ppm) were

22 Exposures to atmospheric TSP and sulfur dioxide above the 95th percentile (56.75 microg/m

23 Large point source emissions of sulfur dioxide accounted for 6.685 [95% confidence inter

24 ustrial compounds, phosgene, ethylene oxide, sulfur dioxide, acrylonitrile, cyanogen chloride, hydrog

25 PARAFAC results clearly indicated that sulfur dioxide added to the must subsequently influenced

26 silyl-trans-vitamin D5 (17) obtained via the sulfur dioxide adduct of cis-vitamin D5, in an overall y

27 orates and 1,4-diazabicyclo[2.2.2]octane bis(sulfur dioxide) adduct afforded sulfones with generally

28 elective adsorbents for eight harmful gases: sulfur dioxide, ammonia, chlorine, tetrahydrothiophene,

29 arbon monoxide, nitrogen dioxide, ozone, and sulfur dioxide and 24-hr measurements of fine and coarse

30 bination of different stratospheric sources (sulfur dioxide and carbonyl sulfide) via SOx photochemis

31 to nitrogen dioxide, particulate matter, and sulfur dioxide and completed suicide in Salt Lake County

32 as the product of aqueous reactions between sulfur dioxide and formaldehyde.

33 wn to be formed in the autoxidation chain of sulfur dioxide and from minor reactions when sulfate or

34 rganic compounds, ammonia, hydrogen sulfide, sulfur dioxide and hydrogen are then detailed.

35 processes significantly reduce the yield of sulfur dioxide and increase that of methyl sulfonic acid

36 7, 95% confidence interval: 1.43, 3.60), and sulfur dioxide and isolated ventricular septal defects (

37 C2 were the dominant components affected by sulfur dioxide and likely reacting with phenolic compoun

38 oxidation and catholyte reduction to sulfur, sulfur dioxide and lithium chloride, is well known for i

39 reast development, whereas among 2,136 boys, sulfur dioxide and nitrogen dioxide exposure in utero, d

40 ical evidence drawn from successful CTPs for sulfur dioxide and nitrogen oxide control.

41 From 30 to 50% of the sulfur dioxide and nitrogen oxides released in some of t

42 We show that reductions in sulfur dioxide and other aerosol precursors accounted fo

43 important source of air pollutants, such as sulfur dioxide and particulate matter.

44 us on the pollutants ozone, nitrogen oxides, sulfur dioxide and particulate matter.

45 e concentrations of ascorbic acid, furfural, sulfur dioxide and phenolic-type products were monitored

46 ncompasses ethyl carbamate, biogenic amines, sulfur dioxide and proteins used as technological ingred

47 sphere to measure sulfur isotopes in gaseous sulfur dioxide and sulfur monoxide, and chlorine isotope

48 between maternal exposures to environmental sulfur dioxide and total suspended particulates (TSP) an

49 ling that allowed us to assign environmental sulfur dioxide and TSP exposure estimates at the birth h

50 at the soz1 mutant is hypersensitive to both sulfur dioxide and ultraviolet B irradiation, thus impli

51 Free sulfur dioxide and volatile acidity are parameters relat

52 , we will show height-resolved stratospheric sulfur dioxide and volcanic aerosol enhancements 1 to 3

53 st in marine air, related to the presence of sulfur dioxide and/or organic precursors in ship emissio

54 zone, carbon monoxide, nitrogen dioxide, and sulfur dioxide) and cardiac autonomic control using data

55 5 mum, or PM(2.5)), ozone, nitrogen dioxide, sulfur dioxide, and carbon monoxide in New York City.

56 particulate matter, nitrogen dioxide, ozone, sulfur dioxide, and carbon monoxide in the year of blood

57 m (PM(10) and PM(2.5), respectively), ozone, sulfur dioxide, and carbon monoxide).

58 ed three-component coupling of aryl iodides, sulfur dioxide, and hydrazines to deliver aryl N-aminosu

59 s of sulfur hexafluoride, ethanol, methanol, sulfur dioxide, and hydrogen chloride that were not incl

60 to 10 mum in diameter (PM10), nitric oxide, sulfur dioxide, and nitrogen dioxide in different growth

61 mic diameter (PM10), ozone, carbon monoxide, sulfur dioxide, and nitrogen dioxide.

62 diameter, nitrogen oxides, carbon monoxide, sulfur dioxide, and ozone among 223,375 singleton delive

63 s, carbon monoxide, nitrogen dioxide, ozone, sulfur dioxide, and particulate matter <10 microm in aer

64 Nitrogen dioxide, sulfur dioxide, and particulate matter less than or equa

65 s sulfur between three forms: sulfuric acid, sulfur dioxide, and sulfur polymers, with sulfuric acid

66 ormic acid, NO(2), O(3), particulate matter, sulfur dioxide, and total VOCs were below the guidelines

67 e to filterable particulate matter <2.5 mum, sulfur dioxide, and volatile organic compound emissions

68 ide, filterable particulate matter <2.5 mum, sulfur dioxide, and volatile organic compounds increased

69 than 10 mum in aerodynamic diameter (PM10), sulfur dioxide, and warm-season ozone were examined in b

70 Among the VSCs, hydrogen sulfide and sulfur dioxide are considered most relevant and have sim

71 noxide, carbon dioxide, nitrogen oxides, and sulfur dioxide are positively associated with fuel burn-

72 odology for [n + 1] radical annulation using sulfur dioxide as a geminal radical acceptor/donor is pr

73 The use of sulfur dioxide as preservative in winemaking industry ha

74 stulates: the experimental identification of sulfur dioxide as the non-proteinaceous factor, and the

75 en oxides (NO(x)), carbon monoxide (CO), and sulfur dioxide, as well as carbon dioxide and ethanol.

76 nsoon played a critical role in transporting sulfur dioxide associated with the Nabro volcanic erupti

77 egregated simulated marine aerosols to 5 ppm sulfur dioxide at arid (23 +/- 1% relative humidity, RH)

78 ith HT were compared with wines treated with sulfur dioxide at two winemaking stages: bottling and af

79 and glutathione, demonstrating the long-term sulfur dioxide binding potential of S-containing compoun

80 The high sulfur-dioxide binding power of sweet white wines may be

81 10)), carbon monoxide, nitrogen dioxide, and sulfur dioxide-but not ozone-were positively and signifi

82 sed on the conversion of sulfite to volatile sulfur dioxide by acidification of the analyzed solution

83 In this study, the combined effect of sulfur dioxide, caffeic acid, pH and temperature on the

84 The triplet excited states of sulfur dioxide can be accessed in the UV region and have

85 is the host of the volatiles (water, oxygen, sulfur dioxide, carbon dioxide, and chlorine) detected b

86 y concentrations of ozone, nitrogen dioxide, sulfur dioxide, carbon monoxide, and particulate matter

87 Exposures to ozone, nitrogen dioxide, sulfur dioxide, carbon monoxide, and particulate matter

88 particulate matter, ozone, nitrogen oxides, sulfur dioxide, carbon monoxide, and volatile organic co

89 Seven air pollutants were examined: sulfur dioxide, carbon monoxide, particles less than 10

90 I): 1.03, 1.31), each 3-ppb increase in mean sulfur dioxide concentration in the first (OR = 1.13, 95

91 he light-struck taste was not perceived when sulfur dioxide concentration was higher than 50 mg/L.

92 sed covariates for meteorology, traffic, and sulfur dioxide concentrations (a marker of secondary par

93 carbon monoxide (CO), nitrogen dioxide, and sulfur dioxide concentrations in 1003 asthmatic children

94 This study analyzed the effect of low sulfur dioxide concentrations on the chromatic propertie

95 intensity trend was investigated at various sulfur dioxide concentrations.

96 Parameters such as total and free sulfur dioxide content and browning and pinking measurem

97 action of 1,4-diazabicyclo[2.2.2]octane bis(sulfur dioxide) (DABSO) and amines.

98 surrogate 1,4-diazabicyclo[2.2.2]octane bis(sulfur dioxide) (DABSO), is sufficient to achieve rapid

99 The concentrations of both ascorbic acid and sulfur dioxide decreased over the analysis period while

100 Sulfur dioxide deposits were mapped at local scales and

101 um in diameter, ozone, nitrogen dioxide, and sulfur dioxide), derived from participant residential hi

102 em has been validated and optimized for free sulfur dioxide detection in the range of 1-60mgL(-1) and

103 d rapid analytical method for free and total sulfur dioxide detection is proposed.

104 were used to study the thermal structure and sulfur dioxide distribution of active volcanoes.

105 The objective is to limit the sulfur dioxide dosage required to control malolactic fer

106 ced white wine chemistry into three distinct sulfur dioxide dose-dependent aging mechanisms.

107 risk was significantly increased by 18% for sulfur dioxide during the 3 months before conception and

108 Lake was negatively correlated with SCPs and sulfur dioxide emissions (p = 0.031 and p = 0.009).

109 particulate matter associated with coal EGU sulfur dioxide emissions and estimated annual exposure t

110 consistent with earlier observations of low sulfur dioxide emissions and the presence of ice crystal

111 icular, we demonstrate that changes in local sulfur dioxide emissions are a highly statistically sign

112 s for large-scale hydrogen production, while sulfur dioxide emissions can be effectively used to obta

113 hemical species emitted, nitrogen oxides and sulfur dioxide emissions caused the most cross-state pre

114 Notably, national sulfur dioxide emissions could increase by 16-20% if all

115 ology occurred around 1980, as the legacy of sulfur dioxide emissions declined following the enactmen

116 ities per year from EGU emissions, driven by sulfur dioxide emissions forming PM2.5.

117 Sulfur dioxide emissions produced sulfate aerosols that

118 Combined with sulfur dioxide emissions reductions promulgated by the 1

119 indicate no seawater interaction, and later sulfur dioxide emissions remained high despite low-level

120 ng DMS emissions and declining anthropogenic sulfur dioxide emissions suggests an increase in the rel

121 n of S(IV) is a critical step in the fate of sulfur dioxide emissions that determines the amount of s

122 ntegration of energy consumption, carbon and sulfur dioxide emissions, and wastewater has not been ev

123 s equal to three times those associated with sulfur dioxide emissions.

124 rbing aerosol, driven primarily by declining sulfur dioxide emissions.

125 lated mortality, we found that reductions in sulfur-dioxide emissions from large point sources and ni

126 The effect of hydrogen sulfide and sulfur dioxide emitted during the 79 AD eruption on the

127 oped through the multicomponent insertion of sulfur dioxide, enabling the assembly of two C-S bonds t

128 Sulfur dioxide enhanced the methionine degradation altho

129 combination of an organometallic reagent, a sulfur dioxide equivalent, and an aqueous solution of an

130 ot H atom and an ambient acetylene (HCCH) or sulfur dioxide, ET of chemically significant amounts of

131 ual to 9.94 microg/m3, the median of TSP and sulfur dioxide exposures for the controls, were consider

132 -Smiles rearrangement to afford biaryls with sulfur dioxide extrusion.

133 arbon monoxide, nitrogen dioxide, ozone, and sulfur dioxide for births in 2000-2007 for states in the

134 ductions in emissions of nitrogen oxides and sulfur dioxide from power plants.

135 onate is responsible for the removal of free sulfur dioxide from the reaction medium, and the potassi

136 tracting flash vacuum pyrolytic extrusion of sulfur dioxide from the respective 16-membered sulfone p

137 e bubble is exposed to low concentrations of sulfur dioxide gas.

138 This study evaluated the combined effects of sulfur dioxide, glutathione and light exposure on the ch

139 cid gas emissions (i.e., nitrogen oxides and sulfur dioxide) has had limited effectiveness in reducin

140 e while maintaining higher concentrations of sulfur dioxide, however, it did not promote reductive de

141 ate in positive polarity and carbon dioxide, sulfur dioxide, hydrochloric acid, cyanogen chloride, an

142 oducts of ultraviolet photolysis of volcanic sulfur dioxide in an anoxic atmosphere.

143 s by the action of DBU with the extrusion of sulfur dioxide in refluxing toluene gave the titled (1E,

144 hed in hydroxytyrosol (HT) as alternative to sulfur dioxide in Syrah red wines was evaluated.

145 on in the range of 1-60mgL(-1) and for total sulfur dioxide in the range of 30-300mgL(-1) with a limi

146 The very high concentrations of sulfur dioxide in the volcanic plume reduces the lifetim

147 yldiazonium tetrafluoroborates and DABCO-bis(sulfur dioxide) in a one-pot procedure.

148 Palladium-catalyzed sulfur dioxide insertion using the surrogate reagent DAB

149 nium(II) complexes catalyze the insertion of sulfur dioxide into (het)aryl and alkenyl boronic acids.

150 Moreover, the direct incorporation of sulfur dioxide into the sulfonylated products via organo

151 strongly exothermic, expect the case of the sulfur dioxide-involved pathway that is predicted to be

152 s was kinetically preferred over the loss of sulfur dioxide leading to o-quinodimethane, which is the

153 an catalyze oxidation of bisulfite (hydrated sulfur dioxide), leading to the formation of sulfur trio

154 ma exacerbation, and the 3-day moving sum of sulfur dioxide levels was marginally related to asthma s

155 Increases in temperature and sulfur dioxide levels were independently associated with

156 Three new ruthenium-sulfur dioxide linkage photoisomeric complexes in the [R

157 dynamic diameter of <10 microm (PM(10)), and sulfur dioxide measurements were obtained from centrally

158 Instrumentation included a sulfur dioxide monitor and an Aerosol Chemical Speciatio

159 aerodynamic with diameter less than 2.5 mum, sulfur dioxide, nitrogen dioxide, and carbon monoxide.

160 rticulate matter 2.5, particulate matter 10, sulfur dioxide, nitrogen dioxide, ozone, and carbon mono

161 Elevated emissions of sulfur dioxide, nitrogen oxides and ammonia in China hav

162 ative impacts on human health, and the gases sulfur dioxide, nitrogen oxides, and ammonia are the mai

163 l in New Jersey displaces significantly more sulfur dioxide, nitrogen oxides, and particulate matter

164 rces (nut galls, chestnut and oak woods) and sulfur dioxide on methionine degradation in a model wine

165 ucleophiles, like wine antioxidants, such as sulfur dioxide or ascorbic acid, thiols, amino acids, an

166 No significant associations were found for sulfur dioxide or carbon monoxide.

167 her air pollutants-total suspended sulfates, sulfur dioxide, ozone (O3), and nitrogen dioxide-were re

168 of respirable particles, suspended sulfates, sulfur dioxide, ozone, and indoor particles were studied

169 pollutants: ozone, nitrogen dioxide (NO(2)), sulfur dioxide, particulate matter not greater than 10 m

170 in power plants emits more nitrogen oxides, sulfur dioxide, particulate matter, and heavy metals per

171 n, ozone, carbon monoxide, nitrogen dioxide, sulfur dioxide, PM(10), and PM(2.5)) and to the type of

172 Poly (9-(2-diallylaminoethyl)adenine HCl-co-sulfur dioxide) (Poly A) deposited on silica nanoparticl

173 to the Fenton oxidation of ethanol, or with sulfur dioxide, precluding oxidation.

174 ic oxide, carbon monoxide, hydrogen sulfide, sulfur dioxide, reactive oxygen species and formaldehyde

175 It is well known that under most conditions, sulfur dioxide reacts on dust particle surfaces, leading

176 ulfinamides using organometallic reagents, a sulfur dioxide reagent, and nitrogen based-nucleophiles.

177 Several of the sulfur dioxide-rich plumes are erupting from distal flow

178 3; 95% CI, 0.999-1.027; moderate certainty), sulfur dioxide (RR, 1.029; 95% CI, 1.020-1.039; high cer

179 5% confidence interval (CI): 1.04, 1.14; for sulfur dioxide, RR = 1.15, 95% CI: 1.06, 1.25) but not p

180 by others to explain the episodic changes of sulfur dioxide seen in the atmosphere.

181 Sulfur dioxide showed strong associations with lung canc

182 inked to carbon monoxide exposure; meanwhile sulfur dioxide showed the lowest increase.

183 Sulfur dioxide significantly decreased the total amount

184 sult of volcanism releasing large volumes of sulfur dioxide SO(2) into the atmosphere.

185 Inhalation of sulfur dioxide (SO(2) ) triggers coughs and reflex bronc

186 on of chain propagation by in situ generated sulfur dioxide (SO(2) ), which was successfully overcome

187 seed) in comparison with ascorbic acid (AA), sulfur dioxide (SO(2)) and bentonite.

188 Monitoring Instrument (OMI) for tropospheric sulfur dioxide (SO(2)) and formaldehyde (HCHO) column ma

189 ine particles (PM(2.5)) hazardous to health, sulfur dioxide (SO(2)) and nitrogen oxides (NO(x)), appr

190 provides atmospheric column measurements of sulfur dioxide (SO(2)) and other gases with a pixel reso

191 rom coastline) showed that concentrations of sulfur dioxide (SO(2)) and particle NSD took approximate

192 e association between short-term exposure to sulfur dioxide (SO(2)) and schizophrenia relapse (risk r

193 the aerosol number and size distribution and sulfur dioxide (SO(2)) and water vapor (H(2)O) concentra

194 (2.5)), nitrogen dioxide (NO(2)), ozone, and sulfur dioxide (SO(2)) at 1 km(2) resolution, estimated

195 ring one-month inspections concentrations of sulfur dioxide (SO(2)) at coal power plants in targeted

196 The oxidation of sulfur dioxide (SO(2)) by peroxides leads to the formati

197 ensive evaluation of errors in anthropogenic sulfur dioxide (SO(2)) emission estimates from NASA's OM

198 ment of greenhouse gases (GHG) (CO(2eq)) and sulfur dioxide (SO(2)) emissions in India for representa

199 ach to invert for carbon dioxide (CO(2)) and sulfur dioxide (SO(2)) emissions, export productivity, a

200 on is slower than the dramatic reductions in sulfur dioxide (SO(2)) emissions.

201 of particulate sulfate from the oxidation of sulfur dioxide (SO(2)) emitted by coal combustion.

202 Previous studies have related sulfur dioxide (SO(2)) exposure to asthma exacerbations.

203 (TBO) motif that releases one equivalent of sulfur dioxide (SO(2)) from each repeat unit.

204 w regulations on nitrogen oxides (NO(x)) and sulfur dioxide (SO(2)) from the International Maritime O

205 net, the removal of toxic pollutants such as sulfur dioxide (SO(2)) from the troposphere and power st

206 Emissions of sulfur dioxide (SO(2)) from the U.S. power sector decrea

207 nteractions between lava and Io's widespread sulfur dioxide (SO(2)) frost can produce localized subli

208 olcanic smog), a mixture of primary volcanic sulfur dioxide (SO(2)) gas and secondary particulate mat

209 The recent inference of sulfur dioxide (SO(2)) in the atmosphere of the hot (app

210 absorption feature at 4.05 mum arising from sulfur dioxide (SO(2)) in the atmosphere of WASP-39b.

211 Sulfur dioxide (SO(2)) is an important industrial feedst

212 velopment of efficient sorbent materials for sulfur dioxide (SO(2)) is of key industrial interest.

213 disorder (ADHD); however, research regarding sulfur dioxide (SO(2)) is scarce.

214 The low pH requirement indicates that sulfur dioxide (SO(2)) is the species involved.

215 hildren, a 10th--90th percentile increase in sulfur dioxide (SO(2)) levels 4 days prior to consultati

216 most prevalent near the tropopause where the sulfur dioxide (SO(2)) mixing ratios are high.

217 Herein, we study the effects of sulfur dioxide (SO(2)) on Ag-, Sn-, and Cu-catalyzed CO(

218 ally underestimate the rate of conversion of sulfur dioxide (SO(2)) to sulfate during severe haze pol

219 Recently, photochemically produced sulfur dioxide (SO(2)) was detected in the atmosphere of

220 atter of diameter <= 10 microns (PM(10)) and sulfur dioxide (SO(2)) were not significant.

221 The reactions of sulfur dioxide (SO(2)) with surface-bound compounds on a

222 culate matter, nitrogen dioxide (NO(2)), and sulfur dioxide (SO(2)), and 2) racial and ethnic composi

223 ck carbon (BC), primary organic carbon (OC), sulfur dioxide (SO(2)), and ammonia (NH(3)), using the e

224 d the known carcinogen benzo(a)pyrene (BaP), sulfur dioxide (SO(2)), and nitrogen dioxide (NO(2)) ove

225 e global cumulative greenhouse gases (GHGs), sulfur dioxide (SO(2)), and nitrogen oxide (NO(x)) emiss

226 ogenic activities, dominated by emissions of sulfur dioxide (SO(2)), have perturbed the global sulfur

227 ant chemistry of primary particulate matter, sulfur dioxide (SO(2)), nitrogen oxide (NO(x)), and ammo

228 ssment, we find that decarbonization reduces sulfur dioxide (SO(2)), nitrogen oxides (NO(x)), and PM(

229 articles (PM(10)), nitrogen dioxide (NO(2)), sulfur dioxide (SO(2)), ozone (O(3)), and carbon monoxid

230 Sulfur dioxide (SO(2)), ozone (O(3)), PM(2.5) and PM(10)

231 he ejection of hydroxyl radicals ((*)OH) and sulfur dioxide (SO(2)).

232 own spectroscopy and chemical titration with sulfur dioxide (SO(2)).

233 ide (HMHP), which rapidly oxidizes dissolved sulfur dioxide (SO(2,aq)) to sulfate, regenerating HCHO.

234 dy investigates how key toxic air pollutants-sulfur dioxide (SO[Formula: see text]), fine particulate

235 ) or stemming from nontraffic sources (e.g., sulfur dioxide, SO(2)) are predominantly influenced by m

236 ted with supercritical CO2 containing 1 wt % sulfur dioxide (SO2) and 1 wt % oxygen (O2) at reservoir

237 ific measurements of nitrogen dioxide (NO2), sulfur dioxide (SO2) and volatile organic compounds (VOC

238 Inhalation of sulfur dioxide (SO2) causes bronchoconstriction in most

239 The effects of various sulfur dioxide (SO2) concentrations (0, 451, 832, 1594,

240 ent to explain stratospheric and mesospheric sulfur dioxide (SO2) concentrations and the observation

241 sent study was designed to determine whether sulfur dioxide (SO2) could be endogenously produced in a

242 We analyzed sulfur dioxide (SO2) emissions and fine particulate sulf

243 icity demand and the absence of regulations, sulfur dioxide (SO2) emissions from coal-fired power pla

244 The global flux of sulfur dioxide (SO2) emitted by passive volcanic degassi

245 furic acid (H2SO4), formed from oxidation of sulfur dioxide (SO2) emitted during fossil fuel combusti

246 untries rely heavily on coal for energy, and sulfur dioxide (SO2) emitted from coal-fired power plant

247 In a sulfur dioxide (SO2) inhalational injury model, bromodeo

248 ent the atmospheric concentrations of Hg and sulfur dioxide (SO2) measured from 2006 to 2015 at a rel

249 examine trends in nitrogen dioxide (NO2) and sulfur dioxide (SO2) over a large region of western Cana

250 n of biogenic emissions, we investigated how sulfur dioxide (SO2) perturbations impact the oxidation

251 Emissions of sulfur dioxide (SO2) to the atmosphere lead to atmospher

252 Ox conditions in the presence and absence of sulfur dioxide (SO2), ammonia (NH3), and relative humidi

253 microns, ozone (O3), nitrogen oxides (NOx), sulfur dioxide (SO2), and carbon monoxide (CO) per inter

254 s on U.S. emissions of carbon dioxide (CO2), sulfur dioxide (SO2), and nitrogen oxides (NOX) associat

255 er </=10 mum (PM10), nitrogen dioxide (NO2), sulfur dioxide (SO2), and ozone (O3).

256 arbon mono-oxide (CO), carbon dioxide (CO2), sulfur dioxide (SO2), hydrogen (H2), methane (CH4), and

257 xtract (VIN) as a sustainable alternative to sulfur dioxide (SO2), in this study, the chromatic featu

258 </= 2.5 mum in aerodynamic diameter (PM2.5), sulfur dioxide (SO2), nitrogen dioxide (NO2), and carbon

259 trations of total suspended particles (TSP), sulfur dioxide (SO2), nitrogen dioxide (NO2), and carbon

260 Indoor air pollutants [sulfur dioxide (SO2), nitrogen dioxide (NO2), hydrogen s

261 Emission mitigation efficiencies of sulfur dioxide (SO2), nitrogen oxides (NOx), ammonia (NH

262 arbon monoxide (CO), nitrogen dioxide (NO2), sulfur dioxide (SO2), ozone (O3), and particulate matter

263 dy was to investigate the role of endogenous sulfur dioxide (SO2)/ aspartate aminotransferase 1 (AAT1

264 n monoxide (CO), nitrogen dioxide (NO2), and sulfur dioxide (SO2)] in single- and multipollutant anal

265 e (1 ppm), nitrogen dioxide (NO2; 2 ppm) and sulfur dioxide (SO2; 5.6 ppm), in a whole-body inhalatio

266 er [PM], ozone [O3], nitrogen dioxide [NO2], sulfur dioxide [SO2], lead [Pb], and carbon monoxide [CO

267 controlled by the deprotonation of hydrated sulfur dioxide, SO2.H2O, which is also affected by the p

268 here that resistance to ectopically applied sulfur dioxide/sulfite is a function of SiR expression l

269 cate that organic red wines produced without sulfur dioxide/sulfites addition are comparable to conve

270 of eight organic red wines produced without sulfur dioxide/sulfites addition in comparison to those

271 n real-time observations of dimethylsulfide, sulfur dioxide, sulfuric acid (gas), hydroxide, ozone, t

272 e Pd(OAc)2 catalyst, in combination with the sulfur dioxide surrogate 1,4-diazabicyclo[2.2.2]octane b

273 s a simple reaction system consisting of the sulfur dioxide surrogate DABSO, triethylamine, and a pal

274 tallic reagent to the commercially available sulfur dioxide surrogate, DABSO, generates a metal sulfi

275 report that during simulated wine aging, the sulfur dioxide that is rapidly bound to carbonyl compoun

276 ide and of short-lived pollutants, including sulfur dioxide, that contribute to the formation of atmo

277 mprovements in satellite-based monitoring of sulfur dioxide, the establishment of ground-based networ

278 During wine ageing, tannins could react with sulfur dioxide to form sulfonated flavanols which are an

279 4 adds to the S horizontal lineO function of sulfur dioxide to give a pair of diastereomeric heterocy

280 o an increase in the uptake and oxidation of sulfur dioxide to sulfate in sea-salt particles.

281 ontent of ethanol, titratable acidity, total sulfur dioxide, total phenolics, iron and copper).

282 duce the most basic sulfonyl building block, sulfur dioxide, using catalytic methods, are rare.

283 for determination of sulfite in the form of sulfur dioxide was developed.

284 n both the Zn5 L6 and Cd5 L6 assemblies, and sulfur dioxide was hydrated and bound as the sulfite dia

285 e-pregnancy exposures to carbon monoxide and sulfur dioxide were associated with an increased risk of

286 Long-term exposures to sulfur dioxide were associated with reduced PC20 (percen

287 pital admissions for PcP, but the effects of sulfur dioxide were modified by increasing carbon monoxi

288 resentation was associated with ARDS, except sulfur dioxide, which demonstrated a nonlinear associati

289 The addition of sulfur dioxide, which has well-known side effects, incre

290 Large volcanic eruptions produce sulfur dioxide, which in turn produces aerosols; these e

291 etting climate impacts of carbon dioxide and sulfur dioxide, with the rate of warming further slowed