ライフサイエンスコーパス: humidity

1 imate conditions (40 degrees C, 75% relative humidity).

2 le acidity and water content (i.e., relative humidity).

3 s, adjusted for air temperature and relative humidity.

4 K(OA), but declined with increasing relative humidity.

5 extent of oxidation is sensitive to relative humidity.

6 is reduced by higher temperatures and higher humidity.

7 ns, when they were incubated at 57% relative humidity.

8 r concentrations, too high UV and/or too low humidity.

9 mass trajectories, temperature, and relative humidity.

10 response to high light intensity and/or low humidity.

11 6) S cm(-1) at 75 degrees C and 75% relative humidity.

12 on, air temperature, wind speed and relative humidity.

13 in a substantial shift toward lower relative humidity.

14 tum dots [QDs]) in ambient with 45% relative humidity.

15 HPIV type 3 preferred the season with lower humidity.

16 rrelations with indoor relative and absolute humidity.

17 utbreaks correlate closely with decreases in humidity.

18 oreover, this catalyst outperforms Pt at low humidity.

19 s and replacing RH with absolute measures of humidity.

20 common building materials maintained at high humidity.

21 e smoking; and mean temperature and relative humidity.

22 id water, despite the lower daytime relative humidity.

23 at structural heterogeneity, temperature and humidity.

24 robust to the adjustment for daily relative humidity.

25 s been achieved in a broad range of relative humidity.

26 .4 x 10(-2) S cm(-1) at 70 degrees C and 95% humidity.

27 FAP emissions decreasing by 30-60% at higher humidity.

28 ith the product ratios dependent on relative humidity.

29 and seasonal fluctuations in temperature and humidity.

30 n largely by temporal changes in atmospheric humidity.

31 trode in ambient atmosphere with 5% relative humidity.

32 orresponding models that respond to relative humidity.

33 e must be protected against the influence of humidity.

34 ge of up to 480 mV for over 2 h from ambient humidity.

35 e investigated over a wide range of relative humidities (0-90%) and temperatures ([Formula: see text]

36 e intragenic suppressors of sensitive to low humidity 1 (slh1), a temperature-sensitive autoimmune al

37 itions were stored at two different relative humidities (33% and 52%) during 75 days.

38 ns, there was a strong influence of relative humidity (34 vs 62%), with FAP emissions decreasing by 3

39 degrees C, accompanied by increased relative humidity (4%).

40 h proton conductivity across a wide relative humidity (40-100 %) and temperature range (20-80 degrees

41 aintain their performance in the presence of humidity (5000 ppm of H(2)O).

42 (low temperature 0-1 degrees C and relative humidity (90-95%).

43 g temperatures are associated with increased humidity; a lethal combination that could significantly

44 ons (soil seed bank; high temperature - high humidity accelerated ageing; temperate, cooler, open sto

45 orously calibrated (temperature and relative humidity) across a large dynamic range, is used to inves

46 ning F. tularensis We evaluated the relative humidity, aerosol exposure technique, and bacterial cult

47 Depending on the source and relative humidity, aerosols can have different compositional, mor

48 such as sun exposure, temperature, relative humidity, air pollution and photo-oxidation caused by gr

49 ng vital breath signals such as temperature, humidity, airflow, stress and strain.

50 Relative humidity alone did not affect the decay rate; however, m

51 med to clarify the potential contribution of humidity an addition to temperature in predicting daily

52 0 days of storage at 57% and 66% of relative humidity and 15 degrees C and 25 degrees C.

53 ity (3.2 x 10(-2) S cm(-1)) (at 95% relative humidity and 95 degrees C) in the pristine state, which

54 stability in PS-MS and the ionization region humidity and analyte evaporation rate in TDGD-MS.

55 ced emissions, compared to elevated relative humidity and CO(2) concentration.

56 ratory variations, such as variations in air humidity and CO(2) levels, and aging of instrument parts

57 Atlantic increased high-altitude atmospheric humidity and heavy rainfall events, but those events did

58 posure to extreme variations in temperature, humidity and irradiation.

59 ur laboratory results show that under a high humidity and low HO(x) regime, the recently proposed nuc

60 however, minor interactions between relative humidity and other factors were observed.

61 ght-time temperatures, cloud cover, specific humidity and precipitation decreased.

62 me and mean night-time cloud cover, specific humidity and precipitation have changed over land.

63 daytime temperatures, cloud cover, specific humidity and precipitation increased.

64 rresponding changes in cloud cover, specific humidity and precipitation.

65 t are involved in condensation under ambient humidity and so of particular practical interest, the Ke

66 environmental conditions, including relative humidity and substrate temperature.

67 e role of leaf vapor and energy transport in humidity and temperature responses, and verifying founda

68 m moisture content (function of air relative humidity and temperature) and require three input parame

69 ith apparent temperature, a metric combining humidity and temperature, reduced goodness of fit slight

70 centrations, and to a lesser extent relative humidity and temperature.

71 broad abiotic measures, such as temperature, humidity and UV-B radiation, typically used to detect th

72 me particles existed despite higher relative humidity and were independently confirmed by bounce fact

73 indicative of a role of ambient temperature, humidity and wind speed in affecting RSV transmission th

74 /- 0.9 degrees C air at 66.5 +/- 5% relative humidity and with low air movement of 0.26 +/- 0.18 m.s(

75 th a steep pore-filling step at low relative humidity and without hysteretic behavior-properties esse

76 ns (25 degrees Celsius and about 30 per cent humidity) and more than five hours at 200 degrees Celsiu

77 to heating, 6) thermal expansion at various humidities, and 7) water loss of specimens caused by com

78 s were strongly correlated with temperature, humidity, and CO(2) concentration, making them suitable

79 ME), is characterized by higher temperature, humidity, and CO(2) concentration.

80 ission under different temperature, relative humidity, and CO(2) concentrations.

81 de soil texture, total organic carbon (TOC), humidity, and concentrations of contaminants.

82 es that serve to regulate mound temperature, humidity, and gas concentrations.

83 regression models adjusted for temperature, humidity, and holiday effects were used to estimate the

84 The effects of temperature, relative humidity, and powder bed thickness on the adsorption-des

85 nthropogenic trends in temperature, relative humidity, and precipitation estimated from 31 climate mo

86 0-6), adjusted for day of week, temperature, humidity, and seasonal trend.

87 mined effect of simulated sunlight, relative humidity, and suspension matrix on stability of SARS-CoV

88 c liquid nature of ILs, their sensitivity to humidity, and the stress induced in frozen liquids inhib

89 D-19 would decline with higher temperatures, humidity, and ultraviolet (UV) light.

90 itive to the intensity of light and relative humidity, and, to a lesser degree, sample thickness.

91 High temperatures and low humidity are common features of forest edges and microcl

92 n weather (i.e., increase of temperature and humidity as spring and summer months arrive in the North

93 to be associated with higher temperature and humidity, as well as longer operating time.

94 ese applications is governed by the relative humidity at which the pores of a porous material fill wi

95 ver, it can be prepared in an extremely high humidity atmosphere and thus a glovebox is not required.

96 tal chamber experiments at variable relative humidity between 0 and 60%, we find that SOA produced fr

97 a, we demonstrate that water at low relative humidity binds initially to open metal sites and subsequ

98 lytes, light, strain, pressure, temperature, humidity, body movement, and respiratory functions.

99 Both hypotheses consider variable relative humidity, but neither fully explains the interactive eff

100 The reversible capture of water vapor at low humidity can enable transformative applications such as

101 ing shrinkage and swelling, 5) water loss or humidity change due to heating, 6) thermal expansion at

102 When exposed to a humidity change, the patch under the bottom electrode sw

103 r to water vapor that tempers the effects of humidity changes and stabilizes the capillary adhesion.

104 r shrub layer, deeper leaf litter and higher humidity (characteristics for unmanaged forest stands).

105 cloud processing, not just exposure to high humidity, compacts soot.

106 atform for proton conduction in the field of humidity condition proton-conduction, anhydrous atmosphe

107 Whatever the relative humidity condition, the order of sorption is keton (3-he

108 cell types in the lung of mice housed in low humidity condition.

109 Conversely, high humidity conditions delayed anther dehiscence in wild-ty

110 ition, we played on temperature and relative humidity conditions to discover three new crystalline fo

111 This differentiation varied under different humidity conditions, with the highest sensitivity of ~98

112 torage under moderate environmental relative humidity conditions.

113 tion, particularly under water depletion/low humidity conditions.

114 s absorbed higher levels of water under high humidity conditions.

115 4; 35 degrees C day, 28 degrees C night; 40% humidity) conditions.

116 and learned preferences for temperature and humidity-conditions critical for their survival and repr

117 Additionally, we show that the humidity-controlled interference in the polymer stabilit

118 oms are certified by particle counts and are humidity-controlled, temperature-regulated, and oligotro

119 thod by comparing the homogenized radiosonde humidity data with CMIP5 model simulations.

120 lls shrink and close stomatal pores when air humidity decreases (i.e. when the difference between the

121 at anomalous fluctuations in temperature and humidity do not predict local epidemic onset timings.

122 is adhesive phase alone is very sensitive to humidity due to water loss or uptake.

123 quantify the impact of carrier gas relative humidity during adsorption of contaminants from gas stre

124 itectures are extremely stable under air and humidity during production, use, and storage, without al

125 ort to earlier computational observations of humidity effects on perovskites (i.e., CH(3)NH(3)PbI(3))

126 Moreover, humidity energy harvesters are prepared by creating a gr

127 , glucose) sensors, thermal stimulators, and humidity energy harvesters.

128 lity remains unsatisfactory in water or high-humidity environment.

129 que for measuring the efflorescence relative humidity (ERH) of potassium sulfate and potassium chlori

130 ng climatic conditions, such as temperature, humidity, etc.

131 Even when accounting for humidity, flammability at intermediate tree densities ca

132 atin as a bendable sensor for monitoring the humidity flow.

133 turally inoculated, wetted, and held at high humidity for several weeks.

134 using site-specific temperature and relative humidity for the prediction of local average epidemic mo

135 erform forecasts that utilize daily observed humidity forcing (4.4% and 2.6% respectively).

136 recasts generated using daily climatological humidity forcing generally outperform forecasts that uti

137 Overall, we find that humidity forcing improves forecast performance (at 1-4 l

138 d to study the tissues while controlling the humidity from 16% RH to 88% RH using saturated salt solu

139 tial tropism" of roots by first generating a humidity gradient that attracts the root to grow towards

140 only show a bonding ability at high relative humidity (>80%) with a mean adhesive energy from 20-45 N

141 Simultaneous low humidity, high temperature, and high wind speeds disturb

142 l meteorological data (temperature, relative humidity, "humidity-range" and dew point) from Edinburgh

143 sive performance at an intermediate relative humidity (i.e., 70% RH).

144 d that required behavioural adjustment; (ii) humidity impaired performance as a result of reduced eva

145 t the internal energy (-39.4 kJ mol(-1) with humidity in a nitrogen plasma and +15.7 kJ mol(-1) with

146 e, vibration, acceleration, temperature, and humidity in inextensible structures.

147 he mechanisms at the basis of the sensing of humidity in the device were investigated by cyclic volta

148 sed to increase air temperature and specific humidity in the lower troposphere, which in turn increas

149 hly average temperature and monthly relative humidity in Yunnan province.

150 dering both air temperature and near-surface humidity, in characterizing the climate sensitivity of e

151 onmental factors, especially temperature and humidity, in modulating host intrinsic, innate, and adap

152 Half-life decreased with temperature and humidity increases, and was unvaried by surface type.

153 o adhesive performance increases as relative humidity increases.

154 ng atmospheric temperature and a temperature-humidity index.

155 eased temperature and humidity (+temperature-humidity index; +THI).

156 PD) in the peak growing season, indicating a humidity-induced stomatal control.

157 stress from high temperatures is greater if humidity is higher.

158 While low ambient humidity is known to enhance viral transmission, its imp

159 istribution at intermediate to high relative humidity is obtained using a lattice gas density functio

160 r kilogram change in the saturation specific humidity (itself a function of the sea surface temperatu

161 ture (%), solar radiation (W/m(2)), specific humidity (kg/kg), and average daily temperatures ( degre

162 oscopicity value (kappa) of 0.1 and relative humidity less than 95%.

163 ol, 3-hexanone and phenol) at three relative humidity level (<=2%, 53% or 84% RH).

164 le linear correlation between the controlled-humidity level and the amperometric output signal togeth

165 Controlling environmental humidity level and thus moisture interaction with an ele

166 cturing gas of the ozone generator, and high humidity levels beyond saturation at room conditions).

167 gnificantly different between the 2 relative humidity levels tested.

168 thout simulated sunlight across all relative humidity levels was 0.008 +/- 0.011 min-1 (90% loss, 286

169 g at room temperature and in a wide range of humidity levels.

170 are prone to evaporation under noncontrolled humidity levels.

171 nd O(2)(-) precursor ions, even with extreme humidity levels.

172 ative saline solutions regardless of ambient humidity levels.

173 at transport within leaves may contribute to humidity, light and temperature responses, but require f

174 e (teenagers, adults, and seniors), relative humidity (low or high), and ozone (<2 ppb or ~35 ppb).

175 mean-subsaturated conditions (i.e., relative humidity <100%) in the fluctuation-dominant activation r

176 high CO(2) uptake and captures water at low humidity (<40%).

177 at housing Mx1 congenic mice in low relative humidity makes mice more susceptible to severe disease f

178 to show that temperature-driven increases to humidity may lead to a northward shift in the dynamic pa

179 hat GTUB5 is thermally stable under relative humidities of up to 90% at 90 degrees C.

180 ter more than 30 000 cycles of operations in humidity of 30%-84%.

181 At a relative humidity of 50%, for example, droplets with initial radi

182 ntal conditions (37 degrees C and a relative humidity of 70%, 80% and 90%).

183 r, deliquesced aerosol particles at relative humidity of 73 to 90%.

184 egion), keeping a high and constant relative humidity of 78% (a(w) 0.780), and completely isolated fr

185 ailing conditions (13-15 degrees C, relative humidity of 98%) whereby the wet fishing lines only show

186 t the sites of CO(2)-water exchange, and the humidity of the leaf internal airspace) and found eviden

187 Although humidity of the sample influences the intensity of the p

188 d radiation by more than 35% as the relative humidity of the underlying skin changed.

189 eractive effects of temperature and relative humidity on live gecko adhesion.

190 study the effect of temperature and relative humidity on plant metabolism in the context of water sav

191 have revealed the effect of temperature and humidity on respiratory virus stability and transmission

192 ngly, estimated effects of precipitation and humidity on transmission mirror prior results for influe

193 del in accounting for the impact of relative humidity on VOC adsorption by varying the adsorption tem

194 nd validated to study the effect of relative humidity on volatile organic compound (VOC) adsorption o

195 evel of ozone, air temperature, and relative humidity) on particle emissions from human volunteers.

196 tential interfering agents (e.g., changes in humidity or other similar air pollutants such as NO (x),

197 ds in extreme temperatures compared with low humidity or strong wind events.

198 -instrumented catchments which are narrow in humidity or temperate zone, the hydrological responses t

199 phene, water molecules, sourced from ambient humidity or transferred method used, can get diffused in

200 al (TN; n = 4; 15 to 20 degrees C; 40 to 45% humidity) or HS (n = 4; 35 degrees C day, 28 degrees C n

201 incubation of samples at different relative humidities, or by applying varying pressures during gel

202 tly, FMP are exposed to high temperature and humidity over long distribution and storage times, prese

203 y indices showed a positive correlation with humidity (p < 0.05).

204 ivity of cooling load, and that near-surface humidity plays an equally important role.

205 AFM imaging in air with controlled humidity preserves the tissue's water content, allowing

206 model simulations show that anomalously high humidity promoted aerosol heterogeneous chemistry, along

207 Meteorological variables, i.e., relative humidity, rainfall volume, wind speed, and wind directio

208 toluene, 1,2,4-trimethylbenzene) at relative humidity range 0-95% with an overall mean relative absol

209 gical data (temperature, relative humidity, "humidity-range" and dew point) from Edinburgh, Scotland

210 SV and influenza A virus preferred a narrow "humidity-range" and HPIV type 3 preferred the season wit

211 the entire pore interior before the relative humidity reaches 30%.

212 f houses, with higher temperatures and lower humidity, reduces survivorship of indoor-resting mosquit

213 water uptake capacities in their respective humidity regions and extended stability over 400 water a

214 The humidity-related decreased risk was made up of a positiv

215 lity of perovskite quantum dots (QDs) toward humidity remains one of the major obstacles for their lo

216 nia (NH(3) ), hydrogen sulfide (H(2) S), and humidity, respectively.

217 The materials' humidity-responsive contractile behavior, a unique prope

218 We demonstrate that humidity-responsive paper-like actuators can mimic the b

219 Here we describe the development of a humidity-responsive sheet of paper that is derived solel

220 k) under dark conditions at various relative humidities (RH) ranging from 20% to 80%.

221 o ambient storage at four different relative humidities (RH; ~0%, ~22.5%, ~43.2% and ~100%).

222 e temperature (15-35 degrees C) and relative humidity (RH >= 90% for 8 consecutive hours) were conduc

223 ecific compounds can be air stable (relative humidity (RH) = 20-80% +/- 5%) for more than 450 days, w

224 nter haze) are associated with high relative humidity (RH) and fast production of particulate sulfate

225 nted this with a range of terms for relative humidity (RH) and its interaction with temperature.

226 e trapped and equilibrated at fixed relative humidity (RH) and then subsequently merged, and the phys

227 applied to calculate the effect of relative humidity (RH) and water content at five mixing ratios on

228 n water vapor from near zero to 70% relative humidity (RH) at high O(3) exposure increased the total

229 etics at different temperatures and relative humidity (RH) conditions.

230 uptake was up to 2.5x to 8x at 10% relative humidity (RH) for glyoxal and pinanediol, respectively.

231 e (delta(18) O(cell) ) to shifts in relative humidity (RH) in two treatments, one from high-low RH an

232 Relative humidity (RH) is known to affect the survival of some mi

233 storage at 22 and 40 degrees C and relative humidity (RH) of 11, 23 and 54%.

234 a 20 min baseline period (26 +/- 3% relative humidity (RH)), 60 min while ambient humidity was mainta

235 e how the ozone (O3) concentration, relative humidity (RH), and particle size control reaction rates

236 phage powder recrystallized at 60% relative humidity (RH), so it was stored and handled below this R

237 acy of the sensors was dependent on relative humidity (RH), with decreases in accuracy at RH > 50%.

238 phase transitions as a function of relative humidity (RH).

239 h aqueous aerosol particles at >80% relative humidity (RH).

240 tically determined as a function of relative humidity (RH).

241 wall layers under 70%, 75%, or 80% relative humidity (RH).

242 iratory viruses varies with ambient relative humidity (RH).

243 ene SOA) particles as a function of relative humidity (RH).

244 ome cloud droplets when the ambient relative humidity (saturation ratio) exceeds a critical value, wh

245 A colorimetric humidity sensing device constructed from an oriented thi

246 Humidity sensor action demonstrates an unassisted revers

247 nt the design, fabrication and response of a humidity sensor based on electrical tunneling through te

248 made more robust with the incorporation of a humidity sensor.

249 Humidity showed the highest degree of variance descripti

250 pressure (mbar), wind speed (m/s), relative humidity (%), soil moisture (%), solar radiation (W/m(2)

251 Stomatal responses to humidity, soil moisture and other factors that influence

252 ported, all of which assume varying relative humidity, solar irradiance, and desiccant materials (e.g

253 hich displays remarkable rate tunability and humidity stabilization at microscopic and macroscopic sc

254 show that, on surfaces drying under moderate humidity, stable microdroplets form around bacterial agg

255 e a previously-unknown model for bioinspired humidity-stable and dynamically-tunable adhesive materia

256 ility under harsh conditions, including high humidity, strong acid and alkali (pH 0-14), which allowe

257 spheric carbon dioxide concentration than to humidity, suggesting that the blue light responses of Ma

258 stion capture (PCC) of CO2 with distributed, humidity-swing-based direct air capture (HS-DAC).

259 ase exacerbated by increased temperature and humidity (+temperature-humidity index; +THI).

260 ive patternable actuator that can respond to humidity, temperature and light, via programmable struct

261 eatures, land use, and meteorology including humidity, temperature, and wind speed also contributed.

262 Redundancy analysis (RDA) indicated that humidity, temperature, height and illumination were the

263 associated environmental conditions, such as humidity, temperature, height and illumination, were als

264 FOI variants with both school vacations and humidity terms; uninformative priors; the inclusion of d

265 hin the film when the film is exposed to the humidity that is naturally present in air.

266 bit diverse and well-integrated responses to humidity that promote shape reconfiguration, actuation,

267 ration medium, with relevant temperature and humidity that represent the conditions of the mouth.

268 At higher humidity, the resulting lamellar phase is maintained by

269 With increasing relative humidity, these water chains nucleate pore filling, and

270 collector, ambient temperature, and relative humidity) this technique can be effectively used for mic

271 icular, although an increase in the relative humidity to 50% from dry conditions has no effect on the

272 d the concern over releasing bioaerosols and humidity, traditional biofilters and biotrickling filter

273 factors affecting populations), specific (eg humidity, ultraviolet radiation, diet, pollution, allerg

274 wheel running at 37.5 degrees C/40% relative humidity until symptom limitation, characterized by CNS

275 for 1.5-3 h in a 37.5 degrees C/40% relative humidity until symptom limitation, characterized by CNS

276 actions respond to airborne contaminants and humidity upon thermal annealing.

277 m as a function of drift gas temperature and humidity using an accurate ion mobility instrument.

278 rus in aerosols at both 20% and 70% relative humidity using an environmentally controlled rotating dr

279 ted as functions of temperature and relative humidity using high-level electronic structure and kinet

280 en characterized at variable temperature and humidity, using electrochemical impedance spectroscopy.

281 Temperature, humidity, UV radiation and ozone concentration were reco

282 ts: blanching, storage at different relative humidity values and fermentation.

283 uce high adhesion across a range of relative humidity values.

284 common building material, experiencing broad humidity variations over the lifetime of infrastructure.

285 oreover, disease exacerbated by low relative humidity was ameliorated in caspase-1/11-deficient Mx1 m

286 A 1% increase in humidity was associated with a 3% increase in nutrient C

287 Low temperature combined with high relative humidity was associated with higher sCoV activity.

288 elative humidity (RH)), 60 min while ambient humidity was maintained at 26+/-3% RH (LOW) or increased

289 Humidity was shown to further increase the relative amou

290 ipulating solar irradiance and nighttime air humidity, we estimated that most of the litter CO2 efflu

291 ture range (DTR), precipitation and relative humidity were associated with increased RSV transmissibi

292 aging and force spectroscopy at 20% relative humidity were performed to record 3D height images of in

293 ansport and storage conditions (temperature, humidity) were evaluated.

294 es not induce pore-filling at lower relative humidity, whereas the introduction of the larger Br(-) r

295 gative associations between minimum relative humidity, which was inversely correlated with maximum te

296 The absence of a positive association of humidity with mortality in summer in this large multinat

297 was a small negative average association of humidity with mortality should be interpreted cautiously

298 r 1 ppm H(2) S, and 23.46 under 80% relative humidity, with sensitive detection down to 10 ppb of NH(

299 of confined water as a function of relative humidity within a metal-organic framework containing cyl

300 s use inside cell incubators working at high humidity without the risk of overheating or corrosion.