ライフサイエンスコーパス: humidity

1 nvironmental conditions (light, temperature, humidity).

2 le in humid air ( approximately 40% relative humidity).

3 elative humidity) to 18.8% w/w (75% relative humidity).

4 1) in humid air ( approximately 10% relative humidity).

5 tions in regards to temperature and Relative Humidity).

6 activity (approximately 70.0-64.0% relative humidity).

7 lative humidity) to 19.52% w/w (75% relative humidity).

8 metrics that integrate the effect of rising humidity.

9 vironmental stimuli such as heat, light, and humidity.

10 support catalytic activity in air at ambient humidity.

11 elevated CO2 concentration, and reduced air humidity.

12 , and squalane at approximately 75% relative humidity.

13 to- and thermal-stability and is tolerant to humidity.

14 s dryer than their corresponding equilibrium humidity.

15 its separation performance is unaffected by humidity.

16 nearly constant value, independently of air humidity.

17 orbed increases with an increase in relative humidity.

18 nism of inactivation may occur with changing humidity.

19 ometer size fragments after exposure to high humidity.

20 ) S cm(-1) at 90 degrees C and 95 % relative humidity.

21 served to be more humid with higher relative humidity.

22 on rates decreased with increases in climate humidity.

23 seasonal changes in temperature and absolute humidity.

24 dehydrated at 20 degrees C and 41% relative humidity.

25 e in ambient with approximately 70% relative humidity.

26 an areas under conditions of modest relative humidity.

27 d 78 degrees C) and close to 90% of relative humidity.

28 sing drying temperature for a given relative humidity.

29 unodeficient Arabidopsis thaliana under high humidity.

30 he ionomer membrane by lowering the relative humidity.

31 th varying aerosol compositions and relative humidity.

32 bility even in ambient air with 40% relative humidity.

33 orption-desorption cycles up to 70% relative humidity.

34 were employed, adjusting for temperature and humidity.

35 ed by diffusion depending on phase state and humidity.

36 perties after prolonged exposure to heat and humidity.

37 lower humidity and the alpha form at higher humidity.

38 by light absorption, and more so under high humidity.

39 en air at ambient pressure, temperature, and humidity.

40 y upon hybridization and at varying relative humidity.

41 cently, to an abrupt decrease in atmospheric humidity.

42 r adsorption when exposed to higher relative humidities.

43 onths) and a control condition (47% relative humidity, -20 degrees C).

44 ison of CO2 release properties (75% relative humidity, 25 degrees C) from complexed powders prepared

45 t temperature (10-30 degrees C) and relative humidity (30-100%) conditions, such that 943 Ksoil-air m

46 degrees C and 30 degrees C) and two relative humidities (33% and 52%) under strictly controlled condi

47 rol within the recommended range of relative humidity (45%-65% RH) set by the American Society of Hea

48 r chemiresistive function in the presence of humidity (5000 ppm, 18% RH).

49 ine different equilibrium levels of relative humidity (8.2-97.3%) at 20, 30 and 40 degrees C.

50 nce their resistance to heat (80 degrees C), humidity (80%) and air for at least 700 h, while their o

51 en partial pressure, high moisture (relative humidity = 90% at 85 degrees C), corrosive agent exposur

52 Thus, we conclude that high humidity, a well-known disease-promoting environmental c

53 ing atmospheric CO2 levels, climate, and air humidity affect plant gas exchange that is controlled by

54 egrees C, 58-63% relative humidity (RH); low humidity air (LHA), 50 degrees C and 28-30% RH; and radi

55 he APXPS chamber up to 5 Torr ( 28% relative humidity), an increase in the amount of ionic bonds at t

56 ductivity (4.5 x 10(-4) S/cm at 98% relative humidity and 25 degrees C) of MFM-500(Ni) is mediated by

57 ere adopted: accelerated aging (84% relative humidity and 30 degrees C, up to 9 months) and natural a

58 impact of concomitant changes in atmospheric humidity and CO2 concentration through their influence o

59 concurrent increases in atmospheric specific humidity and CO2 concentration.

60 and ternary mixtures, Dw depends on relative humidity and follows a simple compositional Vignes relat

61 calated few-layer graphene to high levels of humidity and high temperature.

62 sized U-shaped relationship between absolute humidity and influenza that is predicted by theory and e

63 he presence of the liquid bath increases the humidity and minimises the effect of evaporation.

64 a very high proton conduction value for low humidity and moderate temperature.

65 may double-count plant feedbacks on relative humidity and other surface variables, leading to overest

66 e often associated with changes in rainfall, humidity and pressure.

67 isease outbreaks occur after periods of high humidity and rain.

68 rophile which is also able to grow under low humidity and saline conditions.

69 at carbon-based rods can adsorb water at low humidity and spontaneously expel about half of the adsor

70 sory responses, IR93a and IR25a mediate both humidity and temperature preference.

71 the land surface, thus altering atmospheric humidity and temperature profiles.

72 The relation between solar radiation, air humidity and temperature, and pesticide dissipation rate

73 ectively control the transfer of light, air, humidity and temperature, are important to achieve indoo

74 n nanotube coating, responsive to changes in humidity and temperature.

75 vering central circuits that respond to both humidity and temperature.

76 evaluated at different equilibrium relative humidity and temperatures.

77 but not exclusively) the gamma form at lower humidity and the alpha form at higher humidity.

78 ety of sensory cues (olfactory, temperature, humidity and visual) to locate a human host.

79 Bulgur must be stored below 70% relative humidity and with less than 10 g water per 100 g of dry

80 n temperate and tropical countries, absolute humidity and, to a lesser extent, temperature drive infl

81 e show that during periods of relatively low humidity and/or atmospheric stagnation, this isotopic si

82 trolled normal condition (23 C, 45% relative humidity, and air flow 0.10 m/s) and a controlled advers

83 ulates desiccating stress (23 C, 5% relative humidity, and air flow 0.10 m/s).

84 iatric pneumonia, mean temperature, relative humidity, and air pollution concentrations between Janua

85 distribution, mean air temperature, specific humidity, and atmospheric CO2 concentration.

86 between climate change, air temperature and humidity, and consequent power plant water requirements.

87 IR40a neurons directly respond to changes in humidity, and IR40a knockdown or IR93a mutation reduced

88 ngth, season of birth, temperature, relative humidity, and maternal characteristics.

89 At high relative humidity, and once the size of the confining surfaces ha

90 onditions, particularly related to rainfall, humidity, and sunlight irradiation.

91 inly depends on air temperature and relative humidity, and tide and wave actions dilute a fraction of

92 e is not as strong as that of CAPE, relative humidity, and VWS, which increase MCSs' lifetime by 3-30

93 analysis identified high temperatures, high humidity, and/or low reaction volumes as possible causes

94 en positive and negative effects of absolute humidity appears to be mediated by temperature, and the

95 morphology is present even at high relative humidity ( approximately 70%).

96 rature (from 5 to 35 degrees C) and relative humidity (approximately 40 and 80%) as well as dynamic f

97 Temperature and humidity are associated with ecological modifications th

98 e proceeds more readily when cloud cover and humidity are low, resulting in the greatest enhancements

99 ndergo two phase transitions as the relative humidity around the particles is varied: efflorescence (

100 ecrease with increasing temperature/absolute humidity as expected, but rather is found to be approxim

101 mercury) decreased with increasing specific humidity, as has been shown in other studies, although t

102 he concept that very high levels of specific humidity, as present during summer in southeastern Mexic

103 accelerated conditions (75 and 90% relative humidity, at 35, 45, and 55 degrees C for 35days) and si

104 cm(-1) at 75 degrees C, under 97% relatively humidity, attributed to the formed hydrogen-bond network

105 from the epidermis at low light and moderate humidity but that the mesophyll contributes substantiall

106 3) C, is primarily to variations in relative humidity, but by different processes.

107 es and silica gel, are often used to control humidity by adsorbing water; however, adsorbents capable

108 outer phase that responds to changes in air humidity by increasing its thickness as the air becomes

109 our (c. - 200 per thousand) at high relative humidity (c. 93%) for 5 h, simulating a fog event.

110 In this study, we found that high humidity can effectively compromise Pseudomonas syringae

111 ns, and that the processing of environmental humidity can happen largely in parallel to that of tempe

112 of respiration by converting the changes in humidity caused by cycles of inhalation and exhalation t

113 ole in stabilizing these ecosystems, even as humidity changed.

114 ctures responded to atmospherically relevant humidity changes and chemical reactions.

115 ical relations for the inputs of atmospheric humidity, CO2, and light, but without connection to guar

116 genera in different temperature and relative humidity conditions, and the square root model was fitte

117 aphene to controlled inert gases and ambient humidity conditions, while measuring the Lorentz force-i

118 resolved, we find Eabs=1-1.5 at low relative humidity, consistent with ambient observations.

119 Here we show how temperature and humidity control CRE through competing influences betwee

120 ly stable MOF as a prospective adsorbent for humidity control in confined spaces, such as space shutt

121 structural integrity, robustness, and unique humidity-control performance, as confirmed by the large

122 cell, in air at 60 degrees C, with relative humidity controlled between 70% and 98%.

123 membranes due to intercalation of water, via humidity-controlled observation in an environmental scan

124 thy women were admitted to a temperature and humidity-controlled research unit.

125 This self-powered humidity-controlled ventilation system could be adapted

126 At constant relative humidity, CRE does not decrease with increasing temperat

127 Insects in particular use humidity cues to navigate the environment, and previous

128 Increasing relative humidity dampens the impact of the perturbation.

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

130 s of bacterial infection, but also exhibited humidity-dependent dyshomeostasis of the endophytic comm

131 Here we show that humidity-dependent, pathogen-driven establishment of an

132 (ii) that abiotic factors (e.g. temperature, humidity) determine species' distributions.

133 to dry air and behavioral discrimination of humidity differences.

134 e particle diameter at a particular relative humidity divided by the dry particle diameter (typically

135 Humidity-driven sorption opens a new approach to gas sep

136 emperature, a combination of temperature and humidity, during the warm season in California (May-Octo

137 ecosystems, but the molecular basis of this humidity effect is not understood.

138 However, additional humidity enhanced GOM recovery on cation-exchange membra

139 Greater humidity enhances cloud development, as evidenced by pol

140 ential for stability within the low relative humidity environment of the Martian atmosphere.Significa

141 ts performance after long exposure to a high-humidity environment.

142 ey are performed on delicate tissue, in high-humidity environments with exposure to extremely adhesiv

143 vironmental factors such as temperature, pH, humidity, etc.

144 half of the adsorbed water when the relative humidity exceeds a 50-80% threshold.

145 organosulfur species are formed in the high humidity experiments, performed at RH 90%, in comparison

146 lay between regional differences in specific humidity (explaining the occurrence of pandemic activity

147 ed artificial tears for 2 weeks prior to low-humidity exposure at visit 3, followed by 0.1% dexametha

148 methasone for 2 weeks prior to the final low-humidity exposure at visit 4.

149 Smaller changes in surface albedo and humidity feedbacks also contribute to the overall change

150 of ethylene at 21 degrees C and 80% relative humidity for 72 h, while non-degreened fruits were used

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

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

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

154 Here we explore whether the inclusion of humidity forcing in mathematical models describing influ

155 results indicate that use of climatological humidity forcing is warranted for current operational in

156 le of sensing various environmental changes (humidity, gas, the presence of various cations), creatin

157 The patch consists of a heater, temperature, humidity, glucose and pH sensors and polymeric microneed

158 ace framework, using Nylon 6 thin films in a humidity gradient as an experimental testbed.

159 vels of fruity (F), woody (W), animal (A) or humidity (H) notes.

160 High humidity has a strong influence on the development of nu

161 Humidity has been an important factor, in both negative

162 ctroscopic measurements show the effect that humidity has on the ultrafast excited state dynamics of

163 The MOF becomes amorphous in >60% relative humidity; however, impedance analysis of pelletized powd

164 strual phase did not affect performance, (2) humidity impaired performance due to reduced evaporative

165 mance in the heat in well-trained women, but humidity impairs performance, probably due to reduced ev

166 ions (C2-C8) were calculated at 14% relative humidity in air to be 1.36, 1.18, 1.03, 0.90, 0.80, 0.73

167 een CAPE and a measure of lower-tropospheric humidity in simulations and in observations.

168 early sensory integration of temperature and humidity in the brain, and illustrate the logic of how e

169 urbulence, may contribute to higher relative humidity in the surface layer during polluted conditions

170 "masked," by deep-convective clouds and high humidity; in subsiding regions, such as the subtropics,

171 predict that until summer precipitation and humidity increases enough to offset poor soil moisture r

172 As the relative humidity increases, adjacent rods (confining surfaces) i

173 open to produce pores in Nafion sheets when humidity increases, as might occur during human sweating

174 As the humidity increases, the sheets become thinner, thus redu

175 near when struvite was dried at low relative humidity, indicating bacterial persistence.

176 Two kinds of humidity-induced, bendable smart clothing have been desi

177 how different liquid sweeteners and relative humidity influenced greening of sunflower butter cookies

178 Environmental humidity influences the fitness and geographic distribut

179 cond-order neurons integrate temperature and humidity information before reaching higher brain centre

180 chamber volumetric residence time, relative humidity, initial concentration of oxides of nitrogen, r

181 NO conversion drops to 0% when 50% relative humidity is added.

182 tion, the excellent immunity against ambient humidity is experimentally demonstrated, which stems fro

183 omatal regulation in response to reduced air humidity is present in some ferns.

184 s undergo dissolution at a critical relative humidity known as the deliquescence point (RH0).

185 us permitting air flow and reducing both the humidity level and the apparent temperature.

186 grees C and 32 degrees C) and four different humidity levels (30%, 55%, 70%, and 80% RH).

187 delivering water from air, especially at low humidity levels (down to 20%), has not been developed.

188 water per kilogram of MOF daily at relative humidity levels as low as 20% and requires no additional

189 ence (p > 0.05) was observed between the two humidity levels for magnetite.

190 gee intermediate, CH2OO, at various relative humidity levels up to 85% at 298 kelvin.

191 rs respond to environmental stimuli (such as humidity, light or touch) by varying internal turgor, wh

192 e exposed to environmental conditions (e.g., humidity, light) to produce "weathered fragmented produc

193 state (25+/-2 degrees C and 65+/-2% relative humidity) lost glycerol and water over time, as determin

194 thermore, rupturing of fungal spores at high humidity may explain the bursting events of new particle

195 idemiological evidence indicate that ambient humidity modulates the survival and transmission of infl

196 ange on combined extremes of temperature and humidity, namely aridity and moist enthalpy, quantities

197 SO2 was studied under varying environments (humidity, O3, and NOx) using both an indoor chamber and

198 film had been exposed to air with a relative humidity of 95 % for over four hours, whereas CH3 NH3 Pb

199 Model calculations at a relative humidity of 99.5% reveal significant respiratory system

200 o automatically control the desired relative humidity of an enclosed space.

201 More importantly, the deleterious effects of humidity on complete solar cells, specifically on photov

202 wed that sex seemed to modify the effects of humidity on outpatient visits for allergic conjunctiviti

203 The effect of humidity on reduced ion mobilities of TAA cations is dis

204 the impact of both PEI content and relative humidity on the CO2 capture capacity of the amine functi

205 than 4 orders of magnitude, no influence of humidity or any other substance relevant to the off-gas

206 can be actuated by either changing relative humidity or contact with water.

207 of just 0.585 ( identical with58.5% relative humidity), outside the currently understood thermodynami

208 in aerosols at 22 degrees C and 80% relative humidity over time.

209 lthough mechanical stimuli, temperature, and humidity play an important role, chemical communication

210 lated by a simple adjustment of the relative humidity, positioning this hydrolytically stable MOF as

211 changing selective pressures including heat, humidity, predation and UV irradiance(2-4).

212 IR40a, IR93a, and IR25a are all required for humidity preference in D. melanogaster.

213 the Ir68a gene, and Ir68a mutation perturbs humidity preference.

214 e Ranunculus species differing in their soil humidity preferences and ecological amplitude.

215 he Drosophila genus display species-specific humidity preferences related to conditions in their nati

216 y, maintaining these animals at 90% relative humidity prevented lethality.

217 ability in terms of temperature and relative humidity (R.H.).

218 mplicated in the selection of an appropriate humidity range [1, 2], but although previous work indica

219 s suggest that the preference for a specific humidity range depends on specialized sacculus neurons,

220 cific sensory mechanisms to detect favorable humidity ranges [2-5].

221 When the sensors are exposed to relative humidity ranging from 10-80%, we observe significant cha

222 xygen, carbon dioxide, ammonia, and relative humidity readable by a smartphone.

223 ayer can recover its original thickness upon humidity reduction to restore its warmth-preservation fu

224 that the hysteresis shifts towards the lower humidity regime, and the water uptake capacity is signif

225 esce transitions, albeit at a lower relative humidity relative to pure sodium chloride.

226 borne biological spores at elevated relative humidity remain poorly understood and their climatic rol

227 and proteins makes the glue viscoelastic and humidity responsive in a way not easily achieved by synt

228 In this work, the development of humidity-responsive, 2D plasmonic nanostructures with sw

229 S cm(-1) ) under both ambient (with relative humidity RH < 75%) and hot (T > 90 degrees C, RH = 95%)

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

231 m sulfate seeds at exactly the same relative humidity (RH = 70%) and state of wall conditioning.

232 vity (5.0 x 10(-2) S cm(-1)) at 98% relative humidity (RH) and 25 degrees C.

233 elmy methodologies as a function of relative humidity (RH) and ambient temperature conditions.

234 posed of inorganic salts exposed to relative humidity (RH) between 0 and 80% after formation at selec

235 ultiple influencing factors such as relative humidity (RH) can distort the observed relationship betw

236 lic films are carried out under one relative humidity (RH) condition.

237 thin their pores under low (30-35%) relative humidity (RH) conditions.

238 0.5 were stored at 30 degrees C and relative humidity (RH) of 40-50%.

239 better understanding the effects of relative humidity (RH) on hydrophilic phthalocyanines, and (2) as

240 Temperature (T) and relative humidity (RH) strongly affect the partitioning of semivo

241 diverse set of OS salts at varying relative humidity (RH) using a Hygroscopicity-Tandem Differential

242 ing already below 60 degrees C (65% relative humidity (RH)), whereas gliadin only is incorporated in

243 time, real-time sample mass, target relative humidity (RH), actual RH, and isotherm temperature were

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

245 er mild dehydration conditions (97% relative humidity (RH), corresponding to freezing at -3 degrees C

246 squalene and O3 were independent of relative humidity (RH), the RH significantly affected the reactio

247 r dioxide (SO2), ammonia (NH3), and relative humidity (RH).

248 ater vapor adsorption at ca. 40-50% relative humidity (RH).

249 anges in the particle diameter with relative humidity (RH).

250 ry) maintained at approximately 35% relative humidity (RH).

251 n the environmental temperature and relative humidity (RH).

252 llow PBL, leading to an increase in relative humidity (RH); (2) the high RH induces an increase of ae

253 hot air (HA), 50 degrees C, 58-63% relative humidity (RH); low humidity air (LHA), 50 degrees C and

254 equilibrated at three levels of air relative humidity (RHs 52, 73, and 92%).

255 in tropical and polar air with high relative humidity, semi-solid in the mid-latitudes and solid over

256 Yet, the molecular and cellular basis of humidity sensing (hygrosensation) remains poorly underst

257 These studies reveal that humidity sensing in Drosophila, and likely other insects

258 Our results further our understanding of humidity sensing in the Drosophila antenna, uncover a ne

259 Insects use hygrosensation (humidity sensing) to avoid desiccation and, in vectors s

260 phthalocyanines, and (2) assess CuPcTs as a humidity-sensing material.

261 Such humidity sensitive smart polymer materials can be utiliz

262 The resistive relative humidity sensor was developed using a filter paper coate

263 -POCT) consisting of mouthpiece, paper-based humidity sensor, micro-heater, and real-time monitoring

264 ured that the exhaled air was focused on the humidity-sensor.

265 d exposures, adjusting for conception month, humidity, site, sex, maternal demographics, parity, insu

266 gnificant predictor more often than relative humidity, solar irradiation, or temperature.

267 Given the modest humidity stability of the MOF, triaxial impedance analys

268 rons for mechanical, olfactory, thermal, and humidity stimuli.

269 greening can be promoted with high relative humidity storage, and use of high moisture and pH ingred

270 ed conditions (25 degrees C and 57% relative humidity), such as those found in health care settings.

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

272 /lactic/red fruity, coconut/wood/vanilla and humidity/TCA notes, but not the leather/animal/ink note.

273 e higher temperatures and different relative humidities than surrounding suburban and rural areas.

274 eir storage stability better at low relative humidity than that of the non-encapsulated control mater

275 The changing level of humidity that occurs in a cycle causes a corresponding c

276 ties (up to 10(-3) S cm(-1) at high relative humidity) that compete with extended metal-organic frame

277 At atmospherically relevant relative humidities, the particulate chloride in the biomass-burn

278 At high relative humidity, there was no protection and low storage stabil

279 between ZnO and TiO2 is fully preserved from humidity thus increasing ZnO durability and stability.

280 th a growth factor up to 2.3 at 96% relative humidity, thus they may potentially influence cloud form

281 t water contents, we employed fixed relative humidities to control water films at nm thicknesses.

282 oisture contents from 3.7% w/w (11% relative humidity) to 18.8% w/w (75% relative humidity).

283 isture contents from 7.34% w/w (23% relative humidity) to 19.52% w/w (75% relative humidity).

284 decreased slightly upon increase of relative humidity up to 80%.

285 ural aging (ambient temperature and relative humidity, up to 18 months) and a control condition (47%

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

287 .6% to 18.8%, which corresponded to relative humidity values of 11% and 75%.

288 ctions between high temperature and relative humidity (vapor pressure deficit--VPD).

289 ter phase therefore shields the systems from humidity variations.

290 and temperature, while its association with humidity was statistically marginal.

291 , tristimulus colorimetry, as well as, their humidity, water activity and dietary fiber content were

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

293 on) working ambient temperature and relative humidity were 29.6 degrees C (2.0 degrees C) and 65.4% (

294 ourly measurements of indoor temperature and humidity were recorded in all study houses with data log

295 10(-3) S cm(-1) (at 313 K and 100% relative humidity) which is among the highest values so far repor

296 also observed a strong cross-sensitivity to humidity, which can be explained by increased V-T relaxa

297 ar radiation, horizontal heat flux, relative humidity, wind speed, soil moisture differences and air

298 Given suitable temperature, humidity, wind, and water availability, HS-DAC can be la

299 Near-infrared mapping reveals the relative humidity within prominent downwelling regions.

300 onths), temperature during storage, relative humidity within storage facilities, type of packaging (o