ライフサイエンスコーパス: underground

1 ccurs "many hundreds of meters to kilometers underground".

2 ve adapted to the extreme stresses of living underground.

3 ubterranean mammal extremely adapted to life underground.

4 jection of chemical and physical agents deep underground.

5 l caches of food in hidden places, generally underground.

6 /enhancer function during adaptation to life underground.

7 fusiformis confirmed water uptake from 18 m underground.

8 gendas for studying ectotherms overwintering underground.

9 workers with 10 or more years of employment underground.

10 ulating the final routing in the accelerator underground.

11 ructure(14), providing a new window into the underground.

12 cope with the harsh environmental conditions underground.

13 inhabiting a deep terrestrial aquifer 1.3 km underground.

14 ground but produces its seed-containing pods underground.

15 nant reduction-oxidation reactions occurring underground.

16 ction of large volumes of aqueous fluid deep underground.

17 ues that trigger the emergence of toads from underground.

18 uin the objective of keeping CO2 stored deep underground.

19 For digging underground, a variety of modified stone tools, as well

20 rom the focusing of seismic waves by several underground acoustic lenses at depths of about 3 kilomet

21 plant that traps and digests nematodes with underground adhesive leaves.

22 studying well-defined phases of dormancy in underground adventitious buds (UABs) of herbaceous peren

23 perennial growth habit through generation of underground adventitious buds (UABs) on the crown and la

24 nnial weed that propagates both by seeds and underground adventitious buds located on the crown and r

25 Underground adventitious buds of leafy spurge (Euphorbia

26 Vegetative shoot growth from underground adventitious buds of leafy spurge is critica

27 ydrated to determine the growth potential of underground adventitious buds.

28 t produces vegetatively from an abundance of underground adventitious buds.

29 vels and increased gibberellin perception in underground adventitious buds.

30 response to the selective pressures of life underground allows for detailed examination of physical,

31 ferences in locus of control between current underground and aboveground office workers.

32 el for studying mammalian adaptation to life underground and medical applications.

33 g beetles conceal small vertebrate carcasses underground and prepare them for consumption by their yo

34 gnetic frequencies, from radio communication underground and underwater, to super-resolution radio fr

35 Los Alamos National Laboratory was breached underground and was the most likely source of the releas

36 ly assessed through the study of spiked tap, underground, and river water samples.

37 Underground antineutrino detectors have revealed the rap

38 Through Weather Underground API and the Noom Coach application, we extra

39 Polar TAs accumulate in underground aquifers and appear to be the most abundant

40 l tracing of air in the atmosphere, soil and underground at diverse geographic and climatic locations

41 ng the negligible cosmic-ray background deep underground at the Laboratory for Underground Nuclear As

42 nctional food status, horseradish above- and underground autolysates, together with five omega-phenyl

43 In 1965, a catastrophic underground blowout occurred during the drilling of a ga

44 perimental conditions for seed, adventitious underground bud, and other organs of leafy spurge.

45 -scale transcriptome analysis of dormancy in underground buds of an herbaceous perennial species.

46 osal of high-level radioactive waste rely on underground burial and confinement by metallic envelopes

47 ressing the drive to leave the safety of the underground burrow in search of water.

48 anean rodents that spend their whole life in underground burrow systems.

49 who can survive over 6 months of the year in underground burrows or laboratory hibernaculum without a

50 ve naturally as extended families in complex underground burrows that are adjacent to other families,

51 eby creating a diversity of structures, from underground burrows to constructed nests to towering abo

52 ole-rats are subterranean rodents inhabiting underground burrows.

53 ssential to assess the risks associated with underground carbon capture and storage.

54 One proposed option is underground CO2 disposal.

55 to a better tracing of the migration of the underground CO2 plume and help to ensure the long-term i

56 es sp. AD-23-14 isolated from the Rock Creek underground coal mine acid drainage site.

57 evaluated this hypothesis in a cohort of 378 underground coal miners and working nonminers.

58 d long-term health outcomes in two groups of underground coal miners who during previous mine surveys

59 never-smoker control subjects, never-smoker underground coal miners with negative radiographs (ILO 0

60 The six analyzed surface and underground coal mines are estimated to emit 570 98 Gg a

61 e seismic event is best modeled as a shallow underground collapse.

62 to survive extremely hypoxic and hypercapnic underground conditions.

63 We hypothesized that CMNs can serve as an underground conduit for transferring herbivore-induced d

64 aried between processing routes from ca. 35 (underground, conventional processing) to 200 kg ore/kg C

65 Dormancy transitions in underground crown buds of the model herbaceous perennial

66 ions for decoding the molecular basis of the underground dance between trees and their favorite funga

67 Underground detectors have observed low-energy neutrinos

68 s investigated at the operating open-pit and underground Diavik diamond mine, Northwest Territories,

69 ing-based framework to map both overhead and underground distribution grids using widely-available mu

70 y of EC, which allows EC to move on a sticky underground during vessel remodeling.

71 South Asia were exported in red markets (the underground economy of human tissues/organs) to educatio

72 bacteria isolated from Lechuguilla Cave, an underground ecosystem that has been isolated from the su

73 scribe a largely hidden component of Earth's underground ecosystems and can help identify conservatio

74 imits our ability to monitor and protect key underground ecosystems(4,5).

75 ng ILW is via deep geological disposal in an underground engineered facility located ~200-1000 m deep

76 nce for assessing the long-term stability of underground engineering in limestone karst development a

77 g at UOW, perceiving negative aspects of the underground environment (e.g., confinement) as more sali

78 The underground environment imposes unique demands on life t

79 ns from this period had already mastered the underground environment, which can be considered a major

80 e for and acquire nutrients in a fluctuating underground environment.

81 species (ROS), their potential enrichment in underground environments is a source of concern.

82 As in many deep underground environments, the microbial communities in s

83 t choice for communication in underwater and underground environments.

84 and for understanding earthquakes and other underground explosions.

85 ctor relies on effective seasonal storage in underground facilities like deep aquifers.

86 e gravity cartography to resolve metre-scale underground features because of the long measurement tim

87 retaceous, occupying the ecological niche of underground feeding on root.

88 Underground flows of acidic fluids through fractured roc

89 Eligible gold miners worked underground for at least 1 year between 1940 and 1965 in

90 -specifically to break wooden logs or to dig underground for food retrieval.

91 cold environments ectotherms can be dormant underground for long periods.

92 prepared by beetles or unprepared but buried underground for the same length of time.

93 e important for systematic evaluation of the underground formations from prospective CO2 reservoir.

94 the subsurface, and injection of fluids into underground formations.

95 Recently excavated deposits sealed in an underground gallery at Chavin contained twenty-three art

96 und displacement conditions observed over an Underground Gas Storage (UGS) site located at Hatfield M

97 rred during the initial filling of a planned Underground Gas Storage facility.

98 Geothermal energy, oil industry, and underground gas storage technology require deep drilling

99 d, the data reveal the long-term impact that underground gas well blowouts may have on groundwater ch

100 ate faulty production casings, and one to an underground gas well failure.

101 Injecting fluids into deep underground geologic structures is a critical component

102 ysis has been utilized to understand unknown underground geological properties by matching the observ

103 Recently it has been used by governments and underground groups as a poison.

104 ings provide insights into the potential for underground H(2) storage in deep aquifers, guiding futur

105 ortance of root and microbe secretion to the underground habitat in improving crop productivity is in

106 Notable among these other groups are underground hard rock miners who inhaled radioactive rad

107 The discovery of a group of Eukarya underground has important implications for the search fo

108 Sequestering CO(2) underground has its own set of environmental risks, incl

109 composition suggest that colonization of the Underground has occurred once or very few times.

110 f lemurs also hibernate, though in self-made underground hibernacula.

111 f hydrogen is a crucial aspect of successful Underground Hydrogen Storage (UHS).

112 During underground hydrogen storage operations, it is expected

113 ial sources and injecting the emissions deep underground in geologic formations is one method being c

114 Our findings that dwarf lemurs can hibernate underground in tropical forests draw unforeseen parallel

115 BMRs reside underground, in self-excavated tunnels that they rarely

116 an mitigate the growth of one of the largest underground industries-that of counterfeit goods-flowing

117 Volumes of water injected into underground injection control program wells ranged from

118 during oil and gas production, injected via underground injection program wells, and used in water f

119 st common methods for wastewater disposal is underground injection; we are assessing potential risks

120 s captured at power plants and then injected underground into reservoirs like deep saline aquifers fo

121 ree-dimensional (3D) pollution spanning from underground into space.

122 sample (N = 1001) agree that storing carbon underground is a good approach to protecting the environ

123 tal result was obtained in the China JinPing Underground Laboratory(7), which offers an environment w

124 te and calcite are sufficiently available in underground layers.

125 Operating in a deep-underground lead-shielded cryostat decreases the quasipa

126 aintenance technologies that utilize (inject underground) liquid CO 2 for the purpose.

127 n, generally, and particularly of species to underground living and other confined habitats.

128 tter (PM) concentration levels in the London Underground (LU) are higher than London background level

129 This underground messaging system allows neighbouring plants

130 We suggest that similar underground metabolic activity of UMPS may function in o

131 nstruction of Escherichia coli that includes underground metabolism and new gene-protein-reaction ass

132 discovery and in systems biology to discover underground metabolism due to enzyme promiscuity.

133 e a comprehensive computational model of the underground metabolism in Escherichia coli.

134 enetic basis of evolutionary adaptations via underground metabolism is computationally predictable.

135 s study demonstrates the selective advantage underground metabolism offers, providing metabolic redun

136 ly explore the ability of E. coli to harness underground metabolism to compensate for the deletion of

137 ematically fill knowledge gaps, characterize underground metabolism, and elucidate regulatory mechani

138 erma alkaloids could have first appeared as "underground metabolites" via recruitment of promiscuous

139 Groundwaters from the underground mine had variable ClO4(-) concentrations, up

140 microbial genomes reconstructed from Soudan Underground Mine State Park have the capacity to cycle o

141 Mn-oxidizing fungi, isolated from the Soudan Underground Mine State Park, MN, a high-salinity, mine-i

142 (21.3 +/- 4.1 mg L(-1) As) derived from the underground mine workings.

143 he affected miners (94 percent) worked in an underground mine.

144 progeny (radon) produces lung cancer in both underground miners and experimentally exposed laboratory

145 Cohort mortality studies of underground miners have been used to estimate the number

146 l radon exposure using lung cancer data from underground miners is the extrapolation from high- to lo

147 s of the radon-lung cancer association among underground miners may have been subject to healthy work

148 data from a cohort study of mortality among underground miners.

149 e recovery technologies for both surface and underground mines.

150 survey study, workers in hard rock and other underground mining and surface mining occupations experi

151 ed by impoundment of reservoirs, surface and underground mining, withdrawal of fluids and gas from th

152 ta generated from microseismic monitoring in underground mining.

153 iens form molestus, also known as the London Underground mosquito.

154 e White Truffle is the most expensive edible underground mushroom.

155 s is, at least temporarily, allocated to the underground mycelium of mycorrhizal fungi per year, equa

156 n (N) cycling by changing plant N demand and underground N supply.

157 s challenging due to the invisible nature of underground NAPL, often resulting in excessive energy us

158 Even the Plant Production Institute with its underground national seed bank-one of the world's larges

159 The timely detection of underground natural gas (NG) leaks in pipeline transmiss

160 nd appear to be unrelated to the presence of underground natural gas storage areas or unconventional

161 rm datasets record emission variability from underground natural gas storage facilities despite subst

162 ter understanding of emission variability at underground natural gas storage sites will improve inven

163 overlay networks, (ii) travel on the London Underground network based on Oyster card data, and (iii)

164 The proposed Deep Underground Neutrino Experiment (DUNE) utilizes a wide-b

165 Comparison of the flux measured at large underground neutrino experiments with geologically infor

166 arp changes in oxygen supply in their sealed underground niche and, hence, are genetically adapted to

167 round deep underground at the Laboratory for Underground Nuclear Astrophysics (LUNA) of the Laborator

168 The Sedan crater formed from an underground nuclear detonation in the Nevada desert as p

169 standing the nature of gas transport from an underground nuclear explosion (UNE) is required for eval

170 oble gas radioisotopes following a suspected underground nuclear explosion is the surest indicator th

171 A hypothetical M7.0 North Korean underground nuclear explosion may produce peak ground ac

172 An underground nuclear explosion test near an active volcan

173 Radionuclide signals from underground nuclear explosions (UNEs) are strongly influ

174 Radioactive gas signatures from underground nuclear explosions (UNEs) result from gas-mi

175 Seismic waveforms for hypothetical underground nuclear explosions at North Korean test site

176 North Korean underground nuclear explosions with magnitudes of 5.0-7.

177 acer monitoring experiment at the site of an underground nuclear test that occurred in a tunnel in Ne

178 curity Site (NNSS) subsurface as a result of underground nuclear testing.

179 y hydrothermal conditions in the vicinity of underground nuclear tests.

180 c hydrothermal conditions in the vicinity of underground nuclear tests.

181 Above-ground and underground nuclear weapon detonation at the Nevada Test

182 emergences, the extended time period of the underground nymphal stages (up to 17 years) complicates

183 c vehicles, aerospace power electronics, and underground oil and gas exploration.

184 ead applications including drug delivery and underground oil and gas recovery.

185 introduced into the finite element model of underground oil storage for water-sealed reliability ana

186 ude complex environments such as underwater, underground, or on the human body.

187 rgans (leaves, stems and inflorescences) and underground organs (crowns and roots) were harvested eve

188 rogen (N) remobilization from aboveground to underground organs during yearly shoot senescence is an

189 comitant with senescence, while N content in underground organs exhibited an increase roughly matchin

190 Roots are underground organs, but the majority of the root biology

191 Recent entries into underground Panel 7 have confirmed that at least one was

192 r leaf area and send the biomass towards the underground parts to limit light-absorbing surface area,

193 n of proanthocyanidin oligomers (PAs) in its underground parts.

194 ses leading to the formation of galls on its underground parts.

195 iscovery, suggesting the presence of unknown underground pathways stemming from enzymatic cross-react

196 sues such as endodermis of roots, aerial and underground periderms, and seed coats.

197 in local distribution systems can develop as underground pipeline infrastructure degrades over time.

198 were derived from direct measurements at 230 underground pipeline leaks and 229 metering and regulati

199 wever, such approaches are not practical for underground pipelines and their deployment can be compli

200 sensors for detecting methane emissions from underground pipelines.

201 borhood sewers, land drains, and other major underground piping can also be significant VI contributo

202 ysiology, interrelationships, and ecology of underground plant-fungal symbioses in modern terrestrial

203 Furthermore, underground PM generated ROS in a concentration- and siz

204 d that a component of the coarse fraction of underground PM has a morphology indicative of generation

205 Underground PM is notably rich in Fe, accounting for gre

206 Importantly, ultrafine underground PM shows similar metal-rich concentrations a

207 cts of exposure to the ultrafine fraction of underground PM warrant further investigation as a conseq

208 e elemental composition of size-fractionated underground PM with woodstove, roadwear generator, and r

209 substantially reduced heterozygosity in the Underground populations and the allelic composition sugg

210 g experiments show compatibility between the Underground populations but not with those breeding abov

211 rgy practices, optimizing the performance of underground power cable systems becomes pivotal in reali

212 The optimal operation of high-voltage underground power cables is crucial for powering our com

213 a R(2) of 0.63 in measuring the fraction of underground power lines at the aggregate level for estim

214 The BMR spends its entire life underground, protecting itself from predators and climat

215 spent nuclear fuel require understanding the underground radionuclide mobility in case of a leakage f

216 0) and fine (PM2.5) particulate fractions of underground railway airborne PM, little is known about t

217 Underground railway stations are known to have elevated

218 us form found in the London Underground (the Underground) railway system.

219 We revealed that underground reactions allow growth in new environments w

220 Most underground reactions are not isolated and 45% of them c

221 However, the role of such underground reactions in adaptation toward novel environ

222 imate that at least approximately 20% of the underground reactions that can be connected to the exist

223 Toads occupy underground refugia during periods of daily or seasonal

224 is distinguished by its adaptations to life underground, remarkable longevity (with a maximum docume

225 he context of nuclear waste disposal in deep underground repositories.

226 sections of migmatized gneiss from the Bukov Underground Research Facility (URF), Czech Republic, was

227 temperatures and pressures representative of underground reservoirs and aquifers.

228 artificial generation of hydrogen in natural underground reservoirs, akin to 'farming'.

229 For successful CO2 storage in underground reservoirs, the potential problem of CO2 lea

230 cing the extraction of oil from low-pressure underground reservoirs.

231 seawater, high-salinity processed water, or underground reservoirs.

232 ion may potentially have a vital role in the underground rhizome-root system.

233 tion and Migration (CFM) project at the deep underground rock laboratory of the Grimsel Test Site (GT

234 in situ experiment located in the Mont Terri Underground Rock Laboratory, we demonstrate that hydroge

235 The paleofeces were preserved in the underground salt mines of the UNESCO World Heritage site

236 etween the CO(2) and the surrounding liquid (underground salt water or brine, NaCl) is a key paramete

237 Insects developing underground seem particularly threatened.

238 oting the primary thickening process of Moso underground shoots and driving the evolution of culms wi

239 kening growth of Moso (Phyllostachys edulis) underground shoots largely determines the culm circumfer

240 ive on the primary thickening growth of Moso underground shoots, and support a plausible mechanism re

241 lar mechanisms underlying the growth of Moso underground shoots.

242 DOE announced that photos taken of the waste underground showed evidence of heat and gas pressure res

243 intersection between infrastructure and the underground soil.

244 hiotetronic acid (TA) in drinking water from underground sources in Canada and the United States.

245 However, before natural gas could reach underground sources of drinking water (USDW), it must pa

246 reports was conducted to evaluate impact to Underground Sources of Drinking Water (USDWs) as a resul

247 iously estimated, that can be categorized as underground sources of drinking water (USDWs; <10,000 pp

248 ne migration into the atmosphere and/or into underground sources of drinking water.

249 Potato (Solanum tuberosum) tuber, a swollen underground stem, is used as a model system for the stud

250 M1-1 transcripts were high in axillary buds, underground stolen tips, and newly formed tubers, but re

251 ato (Solanum tuberosum), tubers develop from underground stolons, diageotropic stems which originate

252 wout of a well connected to the Aliso Canyon underground storage facility in California resulted in a

253 CO2 and water at conditions relevant to deep underground storage of CO2.

254 developing a defensible safety case for the underground storage of radioactive waste.

255 o (Solanum tuberosum) which is grown for its underground storage organ known as a tuber.

256 It has been hypothesized that plant underground storage organs (USOs) played key roles in th

257 on and efficacy in humans consuming meat and underground storage organs (USOs).

258 the relative importance of leaves, seeds, or underground storage organs to the diet of this primate.

259 uits, nuts, vegetables, and plants producing underground storage organs.

260 iptional signatures that define the massive, underground storage roots used as a food source and the

261 on during the later stages of development of underground storage roots.

262 borate pipeline to transport the CO(2) to an underground storage site.

263 m soil excavated during removal of a leaking underground storage tank (LUST).

264 ce soil gas samples from remediated sites of underground storage tank spills demonstrates that compos

265 quires a H(2) gas grid as well as large deep underground stores.

266 ms in urban areas, often referred to as the "underground storm drain system" (USDS), serves as signif

267 e possible genomic adaptive responses to the underground stressors.

268 Geophytes, plants with buds on underground structures, are found throughout the plant t

269 test the evolutionary significance of these underground structures, future studies should consider t

270 In the underground subway stations, mean real time BC concentra

271 ous, with iconic populations from the London Underground subway system being held up by evolutionary

272 lect carbon dioxide and sunlight and a large underground surface area to collect the water and minera

273 Analyses of underground temperature measurements from 358 boreholes

274 so-called molestus form found in the London Underground (the Underground) railway system.

275 and sunset hours were retrieved from Weather Underground, the largest weather database available onli

276 mperature and snow depth associated with the underground thermal conditions.

277 snow acted as an insulator and modulated the underground thermal conditions.

278 Underground thermal energy storage (UTES) use has showed

279 in the immediate vicinity of low-temperature underground thermal energy storages (UTESs) or in the im

280 Carbon allocated underground through belowground net primary production r

281 ing the first reports of radiation detection underground to ascertain whether or not there were relea

282 surface wear, resuspension of roadside dust, underground, train and tram emissions, and aircraft and

283 a lineage all share the distinctive trait of underground tubers, but the underlying mechanisms for tu

284 a wide variety of foods from animal prey to underground tubers, suggesting that, even in the most co

285 mainly asexually through aerial bulbils and underground tubers, which also contain a small populatio

286 and 36,000 years old) were collected from an underground tunnel near Fairbanks, Alaska.

287 at periodic removal of accumulated dust from underground tunnels might provide a cost-effective strat

288 tiple wood pieces by connecting them through underground tunnels, disastrous colony splitting events

289 o provide skin elasticity needed for life in underground tunnels.

290 les are small insectivores that live in dark underground tunnels.

291 ions in RF-challenging environments, such as underground/underwater wireless networks, body area netw

292 it: fail to engage with it; conflate it with underground, unregulated markets; speculate without evid

293 Colorado Plateau cohort study (1950-2005) of underground uranium miners (in which smoking was measure

294 accumulation as well as high performance for underground water extraction.

295 ontent of NaCl (coastal areas or areas where underground water is saline).

296 This investigation demonstrates that even underground water systems are vulnerable to contaminatio

297 For underground water-sealed oil storage, the spatial variab

298 vironmental consequences on both surface and underground waters.

299 zal fungi (AMF) transfer plant photosynthate underground which can stimulate soil microbial growth.

300 g children living at diagnosis in homes with underground wiring appears to be an artifact introduced