ライフサイエンスコーパス: contaminant

1 water, classifying them by the nature of the contaminant.

2 ead, a high-profile regulated drinking water contaminant.

3 history and circumstances of the radioactive contaminant.

4 Arsenic (As) is a well-known environmental contaminant.

5 oroethylene (TCE), a hydrophobic groundwater contaminant.

6 ganization guidelines for food additives and contaminants.

7 , in general, poorly understood for emerging contaminants.

8 ns that are typically slow for other organic contaminants.

9 of degrading a broad array of environmental contaminants.

10 hnology toward wastewater containing complex contaminants.

11 arbon (TOC), humidity, and concentrations of contaminants.

12 and environmental remediation of halogenated contaminants.

13 water aquifers against downward intrusion of contaminants.

14 tant increase in plant uptake of comobilized contaminants.

15 incorporate environmentally mobile oxyanion contaminants.

16 rveillance and protection against peritoneal contaminants.

17 chemicals including both legacy and emerging contaminants.

18 ated paraffins (CPs) are a complex family of contaminants.

19 d reach of water quality monitoring of trace contaminants.

20 systems, redistributing nutrients as well as contaminants.

21 ed to annotate trends of relevant wastewater contaminants.

22 egation of neutrophils to capture peritoneal contaminants.

23 luding identification of prioritized unknown contaminants.

24 as approximately 7 h faster than recovery of contaminants.

25 bona fide EV cargo from merely co-purifying contaminants.

26 emerging concern and high production volume contaminants.

27 aminated by a range of organic and inorganic contaminants.

28 er and stormwater can be relevant sources of contaminants.

29 ole in controlling the fate and transport of contaminants.

30 erful tool to understand the fate of organic contaminants.

31 romise for the deactivation of proteinaceous contaminants.

32 erimentally demonstrate to be common dietary contaminants.

33 risks to health beyond the effects of single contaminants.

34 ged biologically available fraction of metal contaminants.

35 genes impacted by exposure to environmental contaminants.

36 n approaches that simultaneously target both contaminants.

37 ction because the majority of sequences were contaminants.

38 with the presence of lipoprotein and protein contaminants.

39 ugh which DOM interacts with metal and other contaminants.

40 bioremediation strategies of these notorious contaminants.

41 vironmental water samples for halogen-tagged contaminants.

42 e protective of vegetable exposures to these contaminants.

43 oleum fuels and, consequently, environmental contaminants.

44 features were used to isolate new potential contaminants.

45 tween bioactives toward formation of process contaminants.

46 Exposure with three common co-contaminants (1,1-dichloroethene, trichloroethene, and 1

47 e diluted, biodegraded, or obscured by other contaminants, (3) were not detected because of sparse mo

48 [79%]) and avoidance of antibiotics for skin contaminants (30/85 [35%]).

49 ls due to film defects, physical damage, and contaminants across nearly the entire test device area,

50 n very challenging situations, i.e. when the contaminant and the target come from closely related pop

51 s are traditionally repeated using different contaminant and toxin concentrations, which can make stu

52 quantity, and sources of microbiota in these contaminants and (4) the risk of disease transmission fr

53 il, in addition to other potential household contaminants and allergens.

54 s) are generally considered as environmental contaminants and are suspected to pose a major public he

55 ting the use of the DGT technique to monitor contaminants and assess their environmental risk in the

56 protecting from chemical and microbiological contaminants and enables foods to be transported and sto

57 ectrostatic interactions respond to airborne contaminants and humidity upon thermal annealing.

58 xidant/disinfectant to treat a wide range of contaminants and microbial pollutants in wastewater.

59 ted by these degenerate features (along with contaminants and other chemical noise) obscure meaningfu

60 g filters that governs the transport rate of contaminants and oxygen from the gas phase to the liquid

61 id clusters (FALCs) that collects peritoneal contaminants and provides a first layer of immunological

62 sence of a wide variety of influent chemical contaminants and the insufficient rejection of low-molec

63 t 2D crystal substrates against the airborne contaminants and thus boost the adhesion level at the in

64 tural organic matter and industrial phenolic contaminants and was oxidized in the presence of NaCl (0

65 e especially vulnerable to exposures to food contaminants, and a balanced diet during these periods i

66 fects biodiversity, mobilizes sediment-bound contaminants, and increases lead contamination of drinki

67 es because of informatic artifacts, chemical contaminants, and signal redundancies.

68 s clinical biomarkers, environmental or food contaminants, antibiotics etc.

69 on, the biodegradation products of crude oil contaminants are complex, and transformation pathways ar

70 Although the majority of these contaminants are removed during purification, HCPs can r

71 role in the hyporheic attenuation of organic contaminants are sediment bedforms (a major driver of hy

72 ict transformation pathways of environmental contaminants are useful to quickly prioritize contaminan

73 ucidate the chemical nature of a radioactive contaminant as part of a nuclear forensic investigation.

74 nts implosion experiments studying pre-mixed contaminant as well as detailed high-resolution three-di

75 rials for efficient removal of environmental contaminants as well as for other sorption-based applica

76 nvironmental persistence of benzotrifluoride contaminants, as well as to design more photodegradable

77 plex microbial communities and with chemical contaminants at low concentrations, our current understa

78 hin the pores of the sediments hosting those contaminants at microscale limit our ability to design n

79 Rapid and efficient determination of contaminants at trace levels in tissue samples has becom

80 o select the appropriate sorbent for a given contaminant based on the ability to predict sorption is

81 The mechanism underlying contaminant biomagnification is a decrease in the volume

82 lity through the biodegradation of dissolved contaminants but also pose potential risks by harboring

83 hese methods may underestimate the amount of contaminant by a factor of two or more.

84 reduction reaction) remobilizes the trapped contaminant by overcoming the capillary forces.

85 t the bioaccumulation of hydrophobic organic contaminants by benthic and sessile invertebrates.

86 il aggregation and the capture of peritoneal contaminants by omental FALCs.

87 phonic acid, and ethephon) and environmental contaminants (chlorate and perchlorate) in edible oils a

88 anding generalisable effects associated with contaminant class and type on transmission is critical i

89 xicology is assessing how the interaction of contaminants, climate change, and biotic stressors shape

90 pathogens that share taxonomic similarity to contaminants commonly found in mNGS library preparations

91 ed pathogens sharing taxonomic similarity to contaminants commonly found in mNGS library preparations

92 the sampling period as well as >120 organic contaminants commonly present in WWTP effluents were qua

93 orage, this work explores how mixed oxyanion contaminants compete for ettringite incorporation and in

94 that exposures to a prevalent environmental contaminant compromises the function of a key regulatory

95 mpling NMR is performed in the presence of a contaminant concentration sweep.

96 scales have reported successful decrease in contaminant concentration upon injection of nZVI suspens

97 important in situations where down-gradient contaminant concentrations fail to decrease within expec

98 biomagnification is quantified by measuring contaminant concentrations in animal tissues.

99 eously alter essential mineral nutrients and contaminant content in the environment.

100 m, and methods to reliably and easily detect contaminants could be transformative.

101 ed dilution, concentrations of trace organic contaminants could pose risks to aquatic ecosystems.

102 Accurate quantification of trace contaminants currently requires collection, preservation

103 e trapped contaminant evolves as a result of contaminant degradation and generation of gaseous produc

104 uenced individual due to the introduction of contaminant DNA.

105 distinguish endogenous molecules from human contaminants due to their genetic similarity.

106 nisms that mediate the capture of peritoneal contaminants during peritonitis.

107 orine photolysis effectively degrade organic contaminants during water treatment, but their role in d

108 h current sampling methods used for emerging contaminants (ECs) in aquatic systems.

109 factors act on the diverse range of organic contaminants encountered downstream from wastewater trea

110 Many organic contaminants entering the aquatic environment feature st

111 Of particular concern are emerging organic contaminants (EOCs), the term used not only to cover new

112 s reveal how the distribution of the trapped contaminant evolves as a result of contaminant degradati

113 ge (1.2 +/- 0.4%) of the radioactive (106)Ru contaminant exists in a polychlorinated Ru(III) form, pa

114 pable of rescuing phenotypes associated with contaminant exposure and/or embryonic estrogen treatment

115 g the full magnitude of adverse effects from contaminant exposure in early life.

116 entifying its role in the trophic supply and contaminant exposure of marine megafauna constitutes a c

117 rthermore, most assessments involving single contaminant exposures do not consider the interaction of

118 d/or Br atoms compared to traditional legacy contaminant features typically monitored.

119 erm exposure to the pervasive pharmaceutical contaminant fluoxetine (Prozac) and acute temperature st

120 fonate (PFHxS) is a widespread environmental contaminant found in human serum, breastmilk, and other

121 Both CIP and its metabolites are common contaminants found in WWTPs.

122 ic classifiers for predicting an exact metal contaminant from a large scale of contaminant pool with

123 modeling and methods used to infer levels of contaminant from experiments.

124 face growing threats from elevated levels of contaminants from human activities.

125 oth co-contamination and separation of these contaminants from individual well to regional scales.

126 ice incorporating the sorbent removes spiked contaminants from real water samples in a few minutes.

127 hifts during MAR can release toxic, geogenic contaminants from sediments to groundwater, threatening

128 H(2)O(2) and that electrostatic repulsion of contaminants from the electrode is not problematic.

129 has been applied for the removal of chemical contaminants from water for potable reuse applications.

130 0 to 750 nm, and successfully remove mercury contaminants from water.

131 sol creation, (2) the types of environmental contaminants generated by dental procedures, (3) the nat

132 The impediment of detection of food contaminants has been overcome by the suspect and non-ta

133 ts ability to enhance photolysis of emerging contaminants has not been evaluated.

134 Legacy halogenated contaminants have been monitored in the Great Lakes for

135 any of the bacterial taxa identified here as contaminants have been reported as components of the bre

136 abilizing enzymes (lipase and lipoxygenase), contaminants heavy metals (As, Cd, Pb, and Hg), antinutr

137 tudies in characterizing exposure to organic contaminants; however, investigating associated health r

138 nventional oil/gas shales and is a potential contaminant in flowback/produced waters due to the large

139 dation method to detect the presence of this contaminant in freshly prepared M13 stocks.

140 Arsenic (As) is a highly toxic contaminant in the environment and a serious carcinogen

141 are less than 5 mm in size, are a prominent contaminant in the environment.

142 emporal variability of priority and emerging contaminants in a coastal environment (Cadiz Bay, SW Spa

143 gating the photochemical reactivity of water contaminants in a mixture to better understand the cockt

144 s promising geomedia to remove trace organic contaminants in both natural soils and artificial infilt

145 etabolite HT-2 toxin are naturally occurring contaminants in cereals, with the highest concentrations

146 differences in the concentrations of target contaminants in clam tissues were minimal.

147 ted screening approach identified a range of contaminants in different food matrices, including BPA,

148 The co-occurrence of contaminants in drinking water may pose enhanced risks t

149 stacles in identifying the source and age of contaminants in drinking water wells by combining depth-

150 s GenX), both of which have been reported as contaminants in drinking water.

151 The ever-increasing presence of contaminants in environmental waters is an alarming issu

152 on-site sampling and real-time monitoring of contaminants in environmental waters.

153 trient conditions, the uptake and effects of contaminants in exposed organisms may be altered.

154 the mechanisms governing the fate of organic contaminants in sea ice grown from artificial seawater.

155 olution, uptake, and leaching of radioactive contaminants in soils that are nutrient deficient, a key

156 This work evaluated the presence of contaminants in stored rainwater in 36 polyethylene tank

157 vironmental problem of our time are emerging contaminants in the aquatic environment.

158 mental samples for the presence of bacterial contaminants in the clinical environment is poorly stand

159 ounds but also compounds newly discovered as contaminants in the environment.

160 decades as bioindicators for assessing toxic contaminants in the Great Lakes ecosystem.

161 es to be unidentified sources of halogenated contaminants in the Great Lakes missed by current monito

162 rease in the risk quotients of trace organic contaminants in the RO concentrate, but still dilution m

163 CE) are among the most prevalent groundwater contaminants in the United States.

164 adsorbents for efficient removal of several contaminants in the water.

165 euticals, pesticides, heavy metals and other contaminants in water samples in the past decade.

166 easing concentrations of naturally occurring contaminants in water sources and a consequential need t

167 ted by Ligand Induction (ROSALIND) to detect contaminants in water.

168 tions of the biorelevant fraction of organic contaminants in waters, with high spatial and temporal r

169 ction of indoxacarb (IXC), a common chemical contaminant, in environmental and biological samples is

170 We apply ROSALIND to detect a range of water contaminants, including antibiotics, small molecules and

171 Emerging contaminants, including pharmaceutical compounds, are re

172 In F7, we tested the "contaminant-induced climate change sensitivity" hypothes

173 ion of DNA adductomics for identification of contaminant-induced malformations in field-collected ani

174 led a relatively simple mechanism underlying contaminant-induced pathologies in a historical example

175 The presence of a target contaminant induces the transcription of the aptamer, an

176 -p-dioxin (TCDD), a persistent environmental contaminant, induces steatosis that can progress to stea

177 Roasting of peanut contaminants influenced ELISA results, with raw peanut o

178 rces, transport, degradation, acquisition of contaminants, ingestion by animals, and biological impac

179 alistic ecotoxicological risk assessments of contaminants interacting with climatic and biotic stress

180 d within EVs or is instead an extravesicular contaminant is controversial.

181 Therefore, the analysis of these contaminants is essential but this is difficult due to t

182 nagement context, predicting the mobility of contaminants is essential.

183 Biotransformation of chemical contaminants is of importance in various natural and eng

184 ween telomeres and exposure to environmental contaminants is yet to be elucidated.

185 Mercury (Hg), a global contaminant, is emitted mainly in its elemental form Hg(

186 ntration limits by the EPA for HAA5 [maximum contaminant level (MCL) 60 mug L(-1)] and the limits cur

187 with the U.S. EPA's 10 mug/L arsenic maximum contaminant level (MCL).

188 radium activities 580 times the EPA maximum contaminant level and are supersaturated with respect to

189 centrations above the drinking water Maximum Contaminant Levels (0.56 Bq/L) may exist during early hy

190 anium (U) and arsenic (As) above the maximum contaminant levels in water sources.

191 cone dog tags and wristbands to determine if contaminant levels were correlated with validated exposu

192 ocene (Fe(C(5)H(5))(2)), can remove emerging contaminants like benzoic acid from water with high effi

193 l for using satellite imagery for estimating contaminant loss via indirect photolysis in lakes.

194 The injection and mixing of contaminant mass into the fuel in inertial confinement f

195 nts often have diffuse sources and different contaminants may have different sources even in a single

196 The monitoring of the emerging contaminant, microplastics, in the environment, in water

197 ere to determine the TTR-binding potency for contaminant mixtures as found in house dust, maternal se

198 ssing of ecological risk assessment (ERA) of contaminant mixtures has proven difficult.

199 ds in common at the different sites but most contaminant mixtures were site-specific.

200 g wild species that are naturally exposed to contaminant mixtures.

201 nic constituents to characterize the complex contaminant mixtures.

202 This study outlines an approach for contaminant monitoring and risk assessment in Antarctic

203 allenge, we propose a new paradigm for trace contaminant monitoring based on dry preservation: solid-

204 Robust environmental assessments and contaminant monitoring in Antarctic near-shore marine en

205 A subsample of contaminants (N = 62) were subject to FT-IR spectroscopy

206 rrence of a limited number of targeted water contaminants, NTS provides the opportunity to detect als

207 al Protection Agency's (EPA) Six-Year Review contaminant occurrence data set to estimate public water

208 , we have identified over 500 sewage-derived contaminants occurring in the ocean.

209 ) is a pervasive environmental pollutant and contaminant of concern for both people and wildlife that

210 Mercury is a contaminant of global concern that is transported throug

211 cO(4)(-), IO(3)(-), and/or CrO(4)(2-), known contaminants of concern to nuclear waste treatment, over

212 ectrometry to characterize the occurrence of contaminants of emerging concern (CECs) in the nearshore

213 Most contaminants of emerging concern are polar and/or ioniza

214 Plastics are contaminants of emerging concern that can enter the envi

215 Microplastics are contaminants of increasing global environmental concern.

216 Microplastics (MPs) are ubiquitous contaminants of the marine environment, and the deep sea

217 ctrometry (GC-MS) is proposed to monitor any contaminants of this type in honey.

218 However, contaminants often have diffuse sources and different co

219 xides, understanding the potential impact of contaminants on carbon dioxide electrolysis is crucial f

220 orption of uranium, a widespread radioactive contaminant, onto the ubiquitous iron oxide, hematite.

221 ploited to single them out from nonvesicular contaminants or to discriminate between subtypes.

222 redilection for identifying low-abundance or contaminant organisms as present.

223 The food safety parameters and contaminants (PAH, 3-MCPD ester, 2-MCPD ester, glycidyl

224 ed and 67% of samples contained at least one contaminant particle.

225 s considerably flawed by the accumulation of contaminant PEG inside the freshly produced stocks, pote

226 ian estimates ranging from 2 to 7.5 ingested contaminants per animal for the 4 species.

227 perimeter of the site - north of the primary contaminant plume in an area formerly attributed to bein

228 In crude oil contaminant plumes, the dissolved organic carbon (DOC) i

229 mechanisms for persistent and mobile organic contaminants (PMOCs) that are not covered by the risk as

230 xact metal contaminant from a large scale of contaminant pool with high prediction accuracy, but we c

231 here are many additional unknown halogenated contaminants potentially affecting the Great Lakes ecosy

232 nanoplastics can interact with other organic contaminants, potentially acting as chemical carriers an

233 revealed the lack of a groundwater specific contaminant prioritization methodology in spite of widel

234 imulations, geological characterization, and contaminant properties.

235 ccess of in situ remediation through abiotic contaminant reduction.

236 e form performance and environmental risk of contaminant release.

237 (PAHs) are a diverse group of environmental contaminants released during the combustion of organic m

238 Predicting ecological effects of contaminants remains challenging because of the sheer nu

239 sotope analysis (CSIA) is a valuable tool in contaminant remediation studies.

240 with materials placed in the subsurface for contaminant remediation.

241 water filtration, wastewater treatment, and contaminant remediation.

242 Solution analyses quantified contaminant removal, and the collected solid was charact

243 t in variable efficiencies for trace organic contaminant removal.

244 n, storage, transport, and analysis of trace contaminants (SEPSTAT).

245 potentially methylated metabolites of polar contaminants should be considered for a comprehensive ri

246 ContamLD leverages the idea that contaminants should have haplotypes uncorrelated to thos

247 (P < 0.05), including in the contribution of contaminant signal.

248 ogy and/or physiology were also reflected in contaminant signature changes over ontogeny.

249 be applied to other ecosystems and other non-contaminant stressors (e.g., sediment, low salinity, ano

250 the importance of OPEs as water-based Arctic contaminants subject to long-range transport and local s

251 rborne pathogens and even emerging microbial contaminants such as antibiotic resistance genes, which

252 mplications on the mobility of trace element contaminants such as arsenic and uranium in irrigated un

253 aporator can extract water from a variety of contaminants such as salts, detergents, and heavy metal

254 it is structurally similar to other emerging contaminants such as the pharmaceuticals ranitidine and

255 environmental impacts due to the presence of contaminants such as zinc (Zn).

256 also have implications to the fate of other contaminants (such as heavy metals and organic compounds

257 Journal publications studying diverse contaminants (such as pesticides, pharmaceuticals, and e

258 useful in the biomonitoring of environmental contaminants, such as metals and persistent organic poll

259 dioxide point sources often contain numerous contaminants, such as nitrogen oxides, understanding the

260 ile population numbers are rising again, new contaminants, such as per- and polyfluoroalkyl substance

261 implosions, we observe persistent chunks of contaminant that do not achieve thermal equilibrium with

262 adsorptive capture of boric acid, a neutral contaminant that is difficult to remove from seawater us

263 House dust contains many organic contaminants that can compete with the thyroid hormone (

264 he interactions between reduced and oxidized contaminants that can contribute to the co-occurrence or

265 richloroethene (TCE) are common recalcitrant contaminants that coexist in groundwater.

266 ticles, aerosols, pollen, fungi and/or other contaminants that deposit on the surface of PV modules.

267 s grown in recent decades over anthropogenic contaminants that interfere with the functioning of endo

268 Five NHOCs were clustered with legacy contaminants that likely have similar structures or are

269 mmon viral contaminants, the source of those contaminants, the cell lines affected, corrective action

270 s IL exudation and interactions with ambient contaminants, the ion conductivity is only marginally af

271 provides insights into the most common viral contaminants, the source of those contaminants, the cell

272 ) are increasingly recognized as groundwater contaminants, though the composition and distribution of

273 clear reactors, is one of the most difficult contaminants to address at the U.S. Department of Energy

274 sects can be important vectors of waterborne contaminants to riparian food webs, yet pathways of Se t

275 known profiles) reveal significant inputs of contaminants to the lake starting in the 1970s, followed

276 ilter", by which the supply of sediments and contaminants to the sea is moderated by processes includ

277 ols for predicting sorption of many emerging contaminants to these sorbents are lacking because exist

278 ccessfully to prove and characterize organic contaminant transformation on various scales including f

279 oduction rates and concentrations as well as contaminant transformation rates.

280 activated PMS can play a significant role in contaminant transformations.

281 tion determines plant water availability and contaminant transport processes in the subsurface enviro

282 of groundwater has been used to reconstruct contaminant travel times to wells; however, critics have

283 d organic carbon plus limestone mixtures for contaminant treatment.

284 erroneous results because of UA microcrystal contaminants triggering IL-1beta release.

285 iver for mobilization and bioavailability of contaminants under nonflooded irrigation.

286 edox driven mobilization and plant uptake of contaminants under transiently saturated soil conditions

287 suite of ecotoxicologically relevant organic contaminants was partially removed via photo- and bio-tr

288 the pattern of concentration for the target contaminants was PCBs > PBDEs and the accumulation value

289 rfactants, modeling potential surface-active contaminants, we observe the free OH to disappear and a

290 re positivity results for true pathogens and contaminants were assessed, along with a secondary outco

291 Twenty-five contaminants were tested for their in vitro capacity to

292 ovosphingobium, which are known degraders of contaminants, were significantly more abundant in the se

293 s in the dissolved aqueous concentrations of contaminants, whereas the latter allowed for a more real

294 ds contain high levels of many anthropogenic contaminants, which they deposit through guano to the tu

295 Aromatic amines are relevant aquatic organic contaminants whose photochemical transformation is affec

296 flame retardant chemicals and environmental contaminants with endocrine-disrupting properties that a

297 ontaminants are useful to quickly prioritize contaminants with potentially toxic/persistent products.

298 Microplastics are ubiquitous contaminants, with preliminary evidence indicating they

299 ter assess this immobilization mechanism for contaminants within cementitious waste forms intended fo

300 How these contaminants work together at levels found in humans and