ライフサイエンスコーパス: natural environment

1 ide in the context of detecting stimuli in a natural environment).

2 se in sorption as concentration falls in the natural environment.

3 s Batrachochytrium dendrobatidis (Bd) in the natural environment.

4 m distribution of resources, uncommon in the natural environment.

5 model how a navigator encounters smells in a natural environment.

6 ntifying hotspots of chemical concern in the natural environment.

7 g to the spread of virulent genotypes in the natural environment.

8 nditions with individuals removed from their natural environment.

9 ro culture of neurons deprives them of their natural environment.

10 when placed into conditions that mimic their natural environment.

11 al functions affiliated with microbes in the natural environment.

12 use several Solanum plants as hosts in their natural environment.

13 relevant for organic chemicals found in the natural environment.

14 have been degraded through propagation in a natural environment.

15 them to make adaptive decisions in a complex natural environment.

16 ity of exposure to Omegaar conditions in the natural environment.

17 rldwide, is very poorly biodegradable in the natural environment.

18 nd duration affect pteropod responses in the natural environment.

19 out the relationships between people and the natural environment.

20 ential for the fitness of V. cholerae in its natural environment.

21 into these complexes in the context of their natural environment.

22 little is known about their behavior in the natural environment.

23 n the fate and transport of nanoparticles in natural environment.

24 tial to ensure an organism's survival in its natural environment.

25 recognize everyday objects and shapes in our natural environment.

26 w it may alter their ability to adapt to the natural environment.

27 induced plasma formation and dynamics in its natural environment.

28 intended goals pursued by primates in their natural environment.

29 hat are constrained by the statistics of the natural environment.

30 d on agar-containing medium which mimics its natural environment.

31 , devices and machinery that function in the natural environment.

32 tion intensity to thrive in a highly dynamic natural environment.

33 portant route of Se exposure for fish in the natural environment.

34 or aerosolization of marine viruses in their natural environment.

35 subject to periods of dark and anoxia in its natural environment.

36 e and dynamics of biomacromolecules in their natural environment.

37 for the metabolism of these organisms in the natural environment.

38 ing and more variable thermal regimes in the natural environment.

39 els are found in wild rats captured in their natural environment.

40 g the same technique as they forage in their natural environment.

41 s essential for organisms to thrive in their natural environment.

42 durations spanning the range observed in the natural environment.

43 , and are strongly attracted to water, their natural environment.

44 icating an antifungal ecological role in its natural environment.

45 anding of their acclimation potential in the natural environment.

46 to plants in agricultural soils and in many natural environments.

47 tunity to advance photosynthesis research in natural environments.

48 n of reproduction, feeding and growth in non-natural environments.

49 with changes in secondary metabolism across natural environments.

50 iversity of uncultivated bacteria inhabiting natural environments.

51 pants listened to sounds from artificial and natural environments.

52 multiple selection pressures encountered in natural environments.

53 f the molecular responses in fish in dynamic natural environments.

54 ocus on the degradation of these polymers in natural environments.

55 ning and memory impacts their performance in natural environments.

56 radation assessments of chemicals present in natural environments.

57 matrix secretion observed among bacteria in natural environments.

58 to the understanding of plant development in natural environments.

59 to the complexity of microbiome assembly in natural environments.

60 evolving reactivity of goethite particles in natural environments.

61 lasses of toxic pollutant chemicals found in natural environments.

62 lasma display a multitude of interactions in natural environments.

63 f microbial acclimatization and evolution in natural environments.

64 ystematic exploration of bacteria present in natural environments.

65 gical adaptations of latex-bearing plants in natural environments.

66 sources, and correlates of power in people's natural environments.

67 od, even though this may frequently occur in natural environments.

68 oorganisms rarely exist as single species in natural environments.

69 hether mobile animals will thermoregulate in natural environments.

70 rapidly learn visual routes through complex natural environments.

71 als constantly encounter conflicting cues in natural environments.

72 Both mechanisms are likely to occur in natural environments.

73 longer the case in complex physiological or natural environments.

74 ssess photosynthetic acclimation to light in natural environments.

75 ng that they provide selective advantages in natural environments.

76 ominerals, and patterns of mineralization in natural environments.

77 elegans behaviors in three-dimensional (3-D) natural environments.

78 evel exactly how wild species adapt to their natural environments.

79 ver other tunneled phases in low-temperature natural environments.

80 er-order correlations that signify motion in natural environments.

81 ntext of indigenous microbial communities in natural environments.

82 These bacteria are ubiquitous in modern natural environments.

83 important in maintaining diversity in these natural environments.

84 ction is likely to reduce insect survival in natural environments.

85 nder the varying light conditions present in natural environments.

86 behaviors of clays in diverse industrial and natural environments.

87 portant determinant of growth and fitness in natural environments.

88 o mallards (Anas platyrhynchos) in simulated natural environments.

89 process and the associated microorganisms in natural environments.

90 transform, and impact human experiences and natural environments.

91 VR/AR differ in both of these aspects from natural environments.

92 approach for studying microbial evolution in natural environments.

93 requires measuring their effects in multiple natural environments.

94 Microplastics are ubiquitous in natural environments.

95 e contamination is a serious problem in many natural environments.

96 increased in experiments but decreased under natural environments.

97 ges for RL as a model of animal behaviour in natural environments.

98 ncient microbial producers of antibiotics in natural environments.

99 iofilms, is the norm among microbes in their natural environments.

100 Whereas CRISPR loci evolve rapidly in natural environments(3,4), bacterial species typically e

101 ces in the biotic complexity of in vitro and natural environments(7,8).

102 environments or small numbers of species in natural environments, a broad phylogenetic and biogeogra

103 in activity that does not reduce survival in natural environments, a conclusion that logically extend

104 In complex natural environments, a single choice can lead to multip

105 y under conditions that are more relevant to natural environments, a systematic screen of over 150 Ar

106 In their natural environment along coast lines, date palms are ex

107 vaporation is a ubiquitous phenomenon in the natural environment and a dominant form of energy transf

108 ard more plant-based diets would protect the natural environment and improve population health.

109 Circulating metals from both the natural environment and pollution have been linked to ca

110 ance at low and sub-zero temperatures in the natural environment and propose future directions for re

111 d quality, crucial for plant survival in the natural environment and sustainable crop production.

112 en chemical reactions critically affects our natural environment and the synthesis of new materials.

113 in et al. (2020) expose laboratory mice to a natural environment and use immune and microbiota charac

114 species' retinal functions to their specific natural environments and behavioural requirements.

115 k provides a global picture of phenazines in natural environments and highlights plant-microbe associ

116 es played by the T6SS of V. cholerae in both natural environments and hosts.

117 ert toxic effects through inhalation both in natural environments and in the surroundings of private

118 ange of Gram-negative bacterial pathogens in natural environments and in vitro [1, 2].

119 ew set of technologies aimed at operating in natural environments and near the human body.

120 evolutionary interplay between adaptation to natural environments and opportunistic infections, and t

121 virulence factor expression, because cues of natural environments and the presence of an immune syste

122 are important for the nitrogen cycle in both natural environments and wastewater treatment plants.

123 isms are integral to our health, that of our natural environment, and even the "health" of the enviro

124 h the active compound, ecological impacts on natural environment, and insufficient investments by pha

125 nformation in VR/AR is less reliable than in natural environments, and the knowledge of acting in a v

126 Natural environments are complex, and a single choice ca

127 Biodiverse natural environments are dependent on planetary health,

128 in transport systems at nanoscale when their natural environments are far from the optimal dephasing

129 Natural environments are filled with multiple, often com

130 eriments, but tempo and mode of evolution in natural environments are largely unknown.

131 Natural environments are never truly constant, but the e

132 Natural environments are subject to a range of anthropog

133 s central to ecosystems in humans and in the natural environment, are poorly understood.

134 oduced by bacteria originally collected from natural environments around the world suggests that bact

135 Fragmentation of natural environments as a result of human interference h

136 The role played by yeasts in natural environments as well as in artificial manufactur

137 to assess the presence-absence of species in natural environments, as seasonal influences on eDNA in

138 athways for abiotic organic synthesis in the natural environment at the Von Damm hydrothermal field a

139 ies, and examination of responses to complex natural environments at a more mechanistic level.

140 e is no information about their abundance in natural environments, because of a lack of element-speci

141 perature over a few million generations in a natural environment become relatively more highly calcif

142 rns typical of plant-microbe associations in natural environments: both bacterial and fungal communit

143 es of aquatic macrophytes living in the same natural environment but adopting distinctly different tw

144 tudy the function of microbial taxa in their natural environment, but sorting of isotopically labelle

145 petroleum hydrocarbons (PHCs) that enter the natural environment, but the interactions of microbes wi

146 ucially, this relationship holds not only in natural environments, but in built-up areas too, even af

147 ristic decision-making, which is adaptive in natural environments, but may lead to biased choices in

148 are, healthy foods, quality housing, and the natural environment can create and arise from social ine

149 the temporal dynamics of thermal stimuli in natural environment can unfold very slowly.

150 and Cataglyphis fortis) navigating in their natural environments can actively learn a route detour t

151 Spending time in natural environments can benefit health and well-being,

152 our results indicate that more unpredictable natural environments can counter-intuitively select for

153 onal fidelity within their natural habitats, natural environments can easily fluctuate outside the op

154 Studies have shown that natural environments can enhance health and here we buil

155 Natural environments can present diverse challenges, but

156 ts capable of navigating in highly cluttered natural environments can withstand in-flight collisions

157 pply a Cumulative Exergy Extraction from the Natural Environment (CEENE) method for an in-depth resou

158 In natural environments, cells live in complex communities

159 SIGNIFICANCE STATEMENT: In natural environments, color information is useful for gu

160 In natural environments, color information is useful for gu

161 Our bodies and natural environment contain complex microbial communitie

162 ow colonization by microorganisms within the natural environment contributes to immune system maturat

163 ure release of a gene drive construct to the natural environment could damage an ecosystem irreversib

164 Decision-making in a natural environment depends on a hierarchy of interactin

165 Efficient perception in natural environments depends on neural interactions betw

166 Since natural environments differ, bacteria have evolved remar

167 y, is habitually plagued by pathogens in its natural environment (e.g. Haemonchus contortus, Elaeopho

168 iversity hypothesis states that contact with natural environments enriches the human microbiome, prom

169 of the role of opisthokont microbes in many natural environments, especially among non-metazoan and

170 Especially mass-flow related systems in the natural environment feature special hierarchically branc

171 tory has moulded these peoples' use of their natural environment, fostering resilience during periods

172 on was established to protect humans and the natural environment from the adverse effects of mercury

173 nthesis over 1900 species observations along natural environment gradients across China.

174 A lower exposure to the natural environment has been hypothesized to adversely a

175 The health of the natural environment has never been a greater concern, bu

176 Mechanical forces in the cell's natural environment have a crucial impact on growth, dif

177 ns and trophic transfer of these elements in natural environments have not been well characterized.

178 In natural environments, however, better options often clus

179 three so-called areas of protection (AoPs): Natural Environment, Human Health, and Natural Resources

180 In natural environments, humans see visual mouth movements

181 suite of processes can now be observed in a natural environment (i.e. soil) through the use of X-ray

182 le work has demonstrated how load imposed by natural environments impact gait dynamics during outdoor

183 ngs establish a model to investigate how the natural environment impacts immune development and show

184 asing evidence that the level of exposure to natural environments impacts mental health, but few larg

185 ly understood how nutrient limitation within natural environments impacts mutualist growth, cross-fee

186 ing the way individuals interrelate with the natural environment in developing countries with high ec

187 dients but also to navigate their obstructed natural environment in soils, sediments, or mucus.

188 To establish a possible role for the natural environment in the transmission of clinically re

189 atory settings generalise to harsh and noisy natural environments in which genetic variation is sorte

190 trial in a MosquitoSphere (a contained, near-natural environment) in Soumousso, a region of Burkina F

191 Sufficient exposure to natural environments, in particular soil and its microbe

192 This will profoundly influence the natural environment, including many facets of biodiversi

193 Hydrogen peroxide pervades many natural environments, including the phagosomes that medi

194 ions mimicking those during midsummer in the natural environment indicated that the hyphal extension

195 representing microbial genomes from diverse natural environments indicated that HGT activity increas

196 er large protein complexes, working in their natural environment inside live cells.

197 Yet in natural environments, interactions between agents typica

198 the extraordinary biodiversity that inhabits natural environments into ecologically coherent units.

199 alth, supporting efforts to better integrate natural environments into urban planning and childhood l

200 The natural environment is a reservoir for prions that cause

201 ause the growth of pathogenic vibrios in the natural environment is largely dictated by temperature,

202 ly developed societies, the influence of the natural environment is moderated by the physical charact

203 ad convergence of animal phenotypes to their natural environment is well-established, there is a lack

204 The accumulation of plastic litter in natural environments is a global issue.

205 iotic complexity of microbial communities in natural environments is an important driver of the evolu

206 Exposure to natural environments is associated with a lower risk of

207 nary and demographic effects of predation in natural environments is challenging.

208 Research into the microbiomes of natural environments is changing the way ecologists and

209 uantifying their communication behaviours in natural environments is difficult.

210 taining rock from mining activities and from natural environments is exposed to the elements is ackno

211 However, the state and fate of eDNA in natural environments is still poorly understood for many

212 ysical interaction between an animal and its natural environment - its available senses and how it mo

213 s one of the building blocks of listening in natural environments, its neural bases remain obscure.

214 nella is regularly detected in this region's natural environment, leading to numerous exposure opport

215 Interacting with the natural environment leads to complex stimulations of our

216 However, in natural environments light is often heterogeneous, and i

217 The majority of bacteria in the natural environment live within the confines of a biofil

218 e, as it preserves endogenous LECs and their natural environment maximally, and regenerates lenses wi

219 ion of salient acoustic signals in the noisy natural environment may depend, not only on specific sti

220 Green, natural environments may ameliorate adverse environmenta

221 The open-ended complexity of natural environments means that it is generally infeasib

222 Mimicking aspects of the natural environment might be effective in treating certa

223 onal studies have shown that exposure to the natural environment might protect against attention-defi

224 -salinity waters, and their abundance in the natural environment mirrors ambient environmental temper

225 Animals foraging in their natural environments need to be proficient at recognizin

226 The natural environment of a biomolecule is inside a living

227 tand whether VLF transmitters can affect the natural environment of charged energetic particles, for

228 wledge of photoautotrophic metabolism in the natural environment of day/night cycles is lacking, yet

229 Controlled experiment in a natural environment of parent-infant communication durin

230 s that this process is highly adapted to the natural environment of the bacterial host and can influe

231 Central Highland zones, we conclude that the natural environment of the Central Highlands would have

232 suitable cell culture models that mimic the natural environment of the liver.

233 These materials were exposed in three natural environments; open-air, buried in soil, and subm

234 cessful survival of the B. cereus species in natural environments or in the hosts.

235 otor responses.SIGNIFICANCE STATEMENT In our natural environment, our senses are continuously flooded

236 However, in natural environments, planning over multiple possible fu

237 As humans expand into natural environments, populations of wild organisms may

238 ical light conversion and photoprotection in natural environments, potentially over the entire crop l

239 e of the most widespread contaminants in the natural environment, primarily as a consequence of biolo

240 We aimed to assess whether exposure to the natural environment protects against ADHD and whether th

241 to the neonatal somatosensory cortex in the natural environment remain largely unknown.

242 e mechanical hypotheses on proteins in their natural environment remains inaccesible to conventional

243 tion of bacterial hosts unable to survive in natural environments, remains a major unsolved biosafety

244 Quantifying human impacts on the natural environment requires credible reconstructions of

245 Sensation in natural environments requires the analysis of time-varyi

246 The survival of seed plants in natural environments requires the successful emergence f

247 UK Medical Research Council, Natural Environment Research Council, Economic and Socia

248 dy how genes, cells, or organisms operate in natural environments, researchers often need to leave th

249 n, we propose that iron-limited cells in the natural environment resemble the phase II metabolic stat

250 incipally focused on culturing bacteria from natural environments rich in biodiversity.

251 In natural environments, sensory cues are often corrupted b

252 arious experimental conditions mimicking the natural environment showed that tactile signals arising

253 implications on its fate and toxicity in the natural environment, specifically sulfidic sediments tha

254 asons, and geographic characteristics of the natural environment such as altitude, latitude, and gree

255 may arise during antibiotic treatment and in natural environments such as the soil.

256 h a system could be suitable in uncontrolled natural environments such as within the home.

257 s with their surroundings; however, in their natural environment, such as the rhizosphere, bacteria l

258 rawn from the Monitor of Engagement with the Natural Environment Survey (2014/15-2015/16); weighted t

259 isensory world.SIGNIFICANCE STATEMENT In our natural environment the brain is exposed to a constant i

260 In our natural environment the senses are continuously flooded

261 In many natural environments the value of a choice gradually get

262 In natural environments, the pinnae induce spectral cues th

263 s they are somehow sandwiched in between the Natural Environment (their cradle) and the human-industr

264 coustical properties of sound sources in the natural environment, thereby providing veridical percept

265 ven mercury (Hg) transformation processes in natural environments, thermodynamics and kinetics of div

266 In natural environments, these categories often emerge inci

267 llow the tracking of marine animals in their natural environments, these technologies have so far bee

268 standing how flies interact with the complex natural environment they inhabit can provide valuable in

269 nd to chronic exposure to radiation in their natural environment, though causal attribution of gene r

270 lain reported health benefits of exposure to natural environments, through identification of alterati

271 Although formed in a natural environment, thus under relatively unconstrained

272 system uses statistical regularities in the natural environment to aid eye alignment at the end of s

273 animals integrate multiple sensory inputs in natural environments to balance avoidance of danger with

274 tolerant to significant pH variation in its natural environment, to assess the response of fish endo

275 rmine if the ability to exploit resources in natural environments translated to exploitation of urban

276 perienced fewer bulimic symptoms than in the natural environment (uncontrolled environment concerning

277 laboratory mice with genetic mutations to a natural environment uncovers different contributions to

278 of ferrihydrite may decrease OM stability in natural environments under moderately reducing condition

279 timulates eDNA uptake and integration in the natural environment, UV disinfection implemented at a tr

280 obial communities, yet their direct study in natural environments was hindered by culture limitations

281 In the natural environment, we expect PRP photodegradation to b

282 Our goal is to mimic the fly's natural environments (wet anoxia) and relate findings to

283 iofilm formation is severely hampered in the natural environment where most plastic debris accumulate

284 In the natural environment where organic ligands are ubiquitous

285 plays in metal-ion fate and transport in the natural environment where temperatures vary widely.

286 Bubbles are ubiquitous in the natural environment, where different substances and phas

287 understand the ecology of Alcanivorax in its natural environment, where natural polyesters such as po

288 in is therefore not required for survival in natural environments, where heteromeric acetyl-coenzyme

289 humans and closely related species living in natural environments, where stressors are very different

290 with widths similar to those observed in the natural environment, which could ultimately lead to a be

291 rregular flow profiles - which are common in natural environments - wild-type matrix-producing and is

292 Engineered nanoparticles (NPs) released into natural environments will interact with natural organic

293 requires balancing physical realities of the natural environment with the complexity of the human soc

294 led old infections and to organisms from the natural environment with which human beings co-evolved.

295 lex, sterile soil extract represented a more natural environment with yet uncharacterized effects on

296 In natural environments with limited nutrients, motile bact

297 sensitive and -resistant bacteria coexist in natural environments with low, if detectable, antibiotic

298 in conditions as close as possible to their natural environment, with an emphasis on greatly extendi

299 informative to study these processes in the natural environment yet it is inherently difficult.

300 to reflect internalized regularities of the natural environment, yet grouping cues have traditionall