ライフサイエンスコーパス: decomposition

1 nce-in-difference regression, Oaxaca-Blinder decomposition).

2 iated with impaired cholesterol synthesis or decomposition.

3 ow biodiversity influences processes such as decomposition.

4 tion, but ammonia was produced by creatinine decomposition.

5 phase (SEI) preventing Zn dendrite and water decomposition.

6 ators was associated with a 50% reduction in decomposition.

7 ng a simple system to promote LiOH formation/decomposition.

8 trol, mainly due to the decrease in litter-C decomposition.

9 ed from plants (i.e. litter) affect rates of decomposition.

10 omentum vectors without using a partial wave decomposition.

11 tter becomes vulnerable to greater microbial decomposition.

12 ng Zn dendrite and further suppressing water decomposition.

13 inal structural mean models to enable effect decomposition.

14 nd microbial decomposer diversity and litter decomposition.

15 tural dependence for relative rates of diazo decomposition.

16 able properties to achieve a more meaningful decomposition.

17 he release of CO(2) and water molecules upon decomposition.

18 t in significant deceleration of leaf litter decomposition.

19 s, employing Eyring constraints and spectral decomposition.

20 sented a solid-solid phase transition before decomposition.

21 pH, was the most important factor for faster decomposition.

22 fungal ratios, which also stimulated litter decomposition.

23 ve contrast resolution, and perform material decomposition.

24 ties altered lower trophic levels and litter decomposition.

25 espectively, as compared with simplest known decomposition.

26 l predators did not alter the rate of litter decomposition.

27 nt limitation and to resistance to microbial decomposition.

28 nfection and heat-triggered, enzyme-assisted decomposition.

29 rade-off with traits enabling organic matter decomposition.

30 adiene (C(7)H(6)), a known product of benzyl decomposition.

31 ere primarily fuelled by contemporary carbon decomposition.

32 ulation capable of environmentally triggered decomposition.

33 e-in-difference analysis, and Oaxaca-Blinder decomposition; 3) qualitative data collection and analys

34 two species could indicate similar potential decomposition abilities, the expression levels of specif

35 we examine which traits best explain fungal decomposition ability by combining detailed trait-based

36 Since seafood is susceptible to decomposition, additives may be used to maintain its qua

37 Our matrix decomposition algorithm learns latent signatures of drug

38 putationally efficient online singular value decomposition algorithm, which can greatly reduce the co

39 However, current mode decomposition algorithms based on the analysis of the in

40 Dynamic Distribution Decomposition allows interpretation of high-dimensional

41 This simplified decomposition allows us to devise a fast Monte Carlo app

42 explored changes in soil labile and stable C decomposition along the thaw sequence.

43 tal and block-localized wave-function energy decomposition analyses suggest that orbital and electros

44 nants of stunting assessed within regression-decomposition analyses, improvement in asset index score

45 ond (VB), molecular orbital (MO), and energy decomposition analysis (EDA), as well as a variety of el

46 the activation strain model (ASM) and energy decomposition analysis (EDA), we were able to demonstrat

47 the interactions were elucidated with energy decomposition analysis at the density functional and ab

48 charge transfer, as disclosed by our energy decomposition analysis based on absolutely localized mol

49 Therefore, we perform a structural decomposition analysis based on the recently released EX

50 The decomposition analysis explained 88.9% (0.637 SD increas

51 Decomposition analysis for children aged under 5 y expla

52 on of its water use, we perform a structural decomposition analysis of water withdrawals across eight

53 Decomposition analysis revealed the significance of arom

54 The effect decomposition analysis using potential outcome approach

55 bsolutely localized molecular orbital energy decomposition analysis, suggest that the difference in a

56 of reactivity in combination with the energy decomposition analysis.

57 s are essential to unravel the degree of SOC decomposition and accumulation, and a combination of C:N

58 These NMR techniques enable electrolyte decomposition and battery self-discharge to be explored

59 ine essential macro- and micro-nutrients) on decomposition and biochemical transformation of standard

60 er proportion of old soil C is vulnerable to decomposition and can become a large flux to the atmosph

61 we traced a priming effect and assessed the decomposition and export of preexisting organic matter.

62 Here, we applied singular value decomposition and gradient analyses to characterize the

63 erally understood to suppress oil carbon (C) decomposition and is a key mechanism impacting terrestri

64 Here we quantified C decomposition and its response to temperature change wit

65 nding of the spatial heterogeneity of soil C decomposition and its temperature sensitivity.

66 m functioning, including algal accrual, leaf decomposition and microbial respiration, with many of th

67 Computational fiSAPT energy decomposition and natural bonding orbital analyses corre

68 embedding techniques such as singular value decomposition and node2vec fail to capture significant s

69 s unstable intermediate thus result in rapid decomposition and poor cycling performance.

70 nd the recently developed data augmentation, decomposition and Procrustes (ADP) transformation, such

71 ss of our methodology lies in the successive decomposition and rearrangement of a carbon nitride fram

72 r provides a robust approach to decipher the decomposition and source of sedimentary organic matter a

73 x chemical environments associated with food decomposition and spoilage.

74 ) plays a crucial role in catalyzing oxidant decomposition and then producing greater amounts of radi

75 ever, their lifespan is limited by the water decomposition and Zn dendrite growth.

76 ted by irreversible Zn anodes owing to water decomposition and Zn dendrite growth.

77 etes with side processes such as electrolyte decomposition and, to a much lesser extent, oxygen loss.

78 s projected to stimulate soil organic matter decomposition, and promote a positive feedback to climat

79 Here, we present new results on the source, decomposition, and storage of SOC in estuarine wetlands

80 redatory arthropods strongly impacted litter decomposition, and their effect interacted with the long

81 Using both CHPCA and Hodge decomposition approaches, we obtain a new lead/lag order

82 ce the concept of multiresolution cell-state decomposition as a practical approach to simultaneously

83 l invertebrate communities and their role in decomposition, as well as potential consequences of soil

84 ganic-matter processing using a standardized decomposition assay.

85 bstituted derivatives, which undergo a rapid decomposition associated with the complete decay of ECD

86 egrees C and 145.04 degrees C and an earlier decomposition at 179.47 degrees C compared to 244 degree

87 Hg was quantified by thermal decomposition atomic absorption spectrometry (LECO AMA-2

88 ue clutter was rejected using singular value decomposition based spatiotemporal clutter filtering.

89 -independent mechanisms; they undergo slower decomposition, building up as the fuel recycles the comp

90 Plant litter chemistry is altered during decomposition but it remains unknown if these alteration

91 genes involved in cell wall polysaccharides decomposition but low expression levels, reflecting a ve

92 re we quantify Fe-mediated OM protection vs. decomposition by adding (13)C dissolved organic matter (

93 unction, particularly enhances soil stable C decomposition by modulating microbial functional genes,

94 ect fundamental ecosystem processes, such as decomposition, by altering patterns of cascading effects

95 ch task with a reward function, this problem decomposition can be seamlessly accommodated within the

96 Here we demonstrate how the Koopman mode decomposition can offer a model-free, data-driven approa

97 le that microbial inputs during early litter decomposition can play in shaping surface litter contrib

98 osed by Parkhomenko et al., penalized matrix decomposition CCA proposed by Witten and Tibshirani and

99 We propose Dynamic Distribution Decomposition (DDD), an operator approximation approach

100 des, most NMF research focuses only on blind decompositions: decomposition without utilizing prior kn

101 ations, including SAPT2+3 interaction energy decompositions, demonstrate that lp...pai contacts do no

102 ection could not be counteracted by promoted decomposition due to the priming of downward-moving new

103 ng lipid hydroperoxides (LOOH) formation and decomposition during initiation and propagation peroxida

104 Laplacian ( (2)rho(r(BCP))), and the energy decomposition (EDA) confirmed that the Li-C/N bond exhib

105 mprehensive understanding of the nonadditive decomposition effects in leaf litter mixing experiments.

106 ion under visible light irradiation, and the decomposition efficiency was found to be 97%.

107 O from the precursor during electron-induced decomposition enables a reaction between NH(3) and the C

108 their decomposition to competing compounds (decomposition enthalpy <0.05 eV/atom).

109 e assessed these different mechanisms with a decomposition experiment using litter from four abundant

110 Child height-for-age z score (HAZ) decomposition explained >100% of predicted change in mea

111 ndergonic reactions (DeltaG(++)>0) were LOOH decompositions, followed by LOOH formations during the p

112 der deeper C sources played a larger role in decomposition following prolonged warming.

113 physiochemically protect carbon stores from decomposition for thousands of years.

114 A two components decomposition has allowed us to highlight unique samples

115 n the set, known as [Formula: see text]-core decomposition, has been used for studying various phenom

116 agnitude of EM fungal effects on leaf litter decomposition have been shown to vary among studies.

117 assembly of polymeric emulsions via spinodal decomposition, here we demonstrate a concept for the sca

118 Perfluorooctanesulfonic acid (PFOS) decomposition in an aqueous environment remains a huge c

119 different steps of Pinus sylvestris needles decomposition in microcosms.

120 hat a significant synergistic effect (faster decomposition in mixtures than expected) occurs at a glo

121 ontributed jointly to higher rates of litter decomposition in response to N deposition.

122 versity and abundance explain reduced litter decomposition in response to stressors but not to nutrie

123 t to the SOC pool counteracted the increased decomposition in the adaptation scenarios, leading to si

124 action occurred due to deep eutectic mixture decomposition in the aqueous phase.

125 ed for up to 27% of the in situ variation in decomposition in the field.

126 Decomposition increased consistently with increasing rat

127 ption: WW decreased the activation energy of decomposition, indicating a "slowing" of this fundamenta

128 Litter decomposition is a key process contributing to these cha

129 ting networks whose [Formula: see text]-core decomposition is close to the empirical one.

130 e extended Hamilton's principle and Galerkin decomposition is implemented to discretize the nonlinear

131 Deadwood decomposition is relevant in nature and wood inhabiting

132 ls, the development of new methods for their decomposition is significant to public health.

133 If methylidene decomposition is so fast that there is little or no prod

134 In this study, Koopman Mode Decomposition (KMD) is applied to satellite data of sea

135 and suggest that direct 1cc -> H(2) + CO(2) decomposition may also be a minor pathway.

136 Mechanistically, it is proposed that the decomposition may proceed via the interaction of a keten

137 We review known or hypothesized molecular decomposition mechanisms for all five classes of aqueous

138 e state of charge through, e.g., bimolecular decomposition mechanisms.

139 -relevant parameters in the Microbial-ENzyme Decomposition (MEND) model using 16 short-term glucose (

140 We used density-based clustering and the VF decomposition method called "archetypal analysis" to ann

141 By applying an ensemble empirical mode decomposition method to satellite-derived fire burned ar

142 in conjuncture with an ansatz for an energy decomposition method to study the energy stability of va

143 A decomposition method was used to attribute changes in to

144 PARAFAC2, a linear decomposition method, is well suited for the data and yi

145 nce linear regression and the Oaxaca-Blinder decomposition method.

146 Variance decomposition methods also suggest large differences in

147 reshold was in close agreement with spectral decomposition methods.

148 We introduce the linear decomposition model (LDM), that provides a single analys

149 In variance decomposition modeling, the genetic and environmental va

150 First-order organic matter decomposition models are used within most Earth System M

151 eting physical phenomena occur (like mineral decomposition, nanoparticle lubrication, melting among o

152 e absent or litter is in very late stages of decomposition (near-humus).

153 Accordingly, faster stable C decomposition occurred at the late stage of collapse com

154 Dehydrofluorination promoted decomposition occurs with fluoride ion acting as a base.

155 ing plant tissues, indicating a preferential decomposition of (14) N-enriched organic components.

156 cribe the importance of biodegradability and decomposition of 2D materials.

157 FeNi(Cu) alloy, we propose that it formed by decomposition of a complex metal M oxide (M (4)O(5)) wit

158 low HEA nanoparticles is enabled through the decomposition of a gas-blowing agent in which a large am

159 rallel computational framework involving the decomposition of a large-scale LIP into sub-problems of

160 ull conversion for the very energy-demanding decomposition of a persistent ammonium compound as typic

161 re, we explore the kinetics of formation and decomposition of a series of benzoic anhydrides generate

162 ctionality could be competitive with classic decomposition of alkoxy radicals.

163 mary or secondary alcohols, and unimolecular decomposition of alpha-hydroxyperoxyl radicals.

164 e ancestors of an individual, i.e. a type of decomposition of an individual's admixture proportions i

165 gher temperature as a consequence of thermal decomposition of an intermediate, such as formate.

166 penetrate into a substance, ELT provides the decomposition of both dissolved and suspended pollutants

167 ation of both the CO(2) emissions due to the decomposition of CaCO(3) to CaO and that due to combusti

168 By obtaining a decomposition of data sets collected by the Federal High

169 tubes (SWNTs), synthesized by direct thermal decomposition of ferrocene (Fe(C(5)H(5))(2)), can remove

170 icals (e.g., *NO(2) and *NO) formed from the decomposition of FNA.

171 This was accompanied by decomposition of grain boundaries and the formation of a

172 t evolution in an acid-base reaction and the decomposition of H(2)O(2) by bovine liver catalase.

173 Thermogravimetric analyses indicate that decomposition of lead carbonate can be achieved at 350 d

174 nder anaerobic conditions, whereby decreased decomposition of litter C was compensated by more extens

175 t is known that the [Formula: see text]-core decomposition of many empirical networks cannot be expla

176 ntered radicals with long lifetimes, and the decomposition of mCPBA in the presence of Ni complexes s

177 reviously proposed; rather, it catalyzes the decomposition of mCPBA to form the aroyloxy radical.

178 We exploit the thermolytic decomposition of Mo(CO)(6) in the presence of a surface-

179 However, anoxia sustained or even increased decomposition of native soil-C (11.0% vs. 12.4% in the c

180 Although O(2) limitation may suppress decomposition of new litter C inputs, release of physico

181 reaction under cellular conditions and from decomposition of nitrosoperoxycarbonate generated during

182 arst formation may act to moderate microbial decomposition of old soil C when soil is highly saturate

183 a cascade of aqueous reactions including the decomposition of organic hydroperoxides, (*)OH oxidation

184 accrual; (b) microbial respiration; and (c) decomposition of organic matter, and sampled communities

185 train recovery of basic ecosystem functions (decomposition of organic matter, benthic primary product

186 Here, we explore how a functional trait-the decomposition of organic matter, can be addressed based

187 anism involving the reversible formation and decomposition of P12(1) /c1-type K(2) CO(3) at the effic

188 osure (north- vs. south-facing slope) on the decomposition of Picea abies wood blocks and their micro

189 heir poor chemical stability, which leads to decomposition of prior layers during the fabrication of

190 that the metals were supplied from localized decomposition of reactive organic material, rather than

191 This technique provides an experimental decomposition of recoverable and unrecoverable strains,

192 sothiols, and (7) procedures that accelerate decomposition of S-nitrosothiols, markedly reduced NADPH

193 separation of overlapping signatures and the decomposition of signatures into components that may rep

194 corn and soybean tended to decrease and the decomposition of SOC tended to increase leading to a los

195 The accumulation and decomposition of soil organic matter (SOM) are closely t

196 Warming can accelerate the decomposition of soil organic matter and stimulate the r

197 Fungal decomposition of soil organic matter depends on soil nit

198 Oxidative decomposition of soil organic matter determines the prop

199 In addition, the decomposition of solvated DMSO forms Zn(12)(SO(4))(3)Cl(

200 nd strong H(2)O-DMSO interaction inhibit the decomposition of solvated H(2)O.

201 Here we study the [Formula: see text]-core decomposition of some empirical networks as well as that

202 on requires robust and physically meaningful decomposition of spectra into contributions from individ

203 Essential to this framework is a decomposition of substrate sequence information into two

204 iled chemical insight into the synthesis and decomposition of such materials as well as foundational

205 allowing rapid 1,2-migration over competing decomposition of the carbanion.

206 an olefin isomerization reaction due to the decomposition of the catalyst.

207 ched, at which point violent electrochemical decomposition of the electrolyte is triggered, leading t

208 id microstructure is a result of solid-state decomposition of the FCC matrix and therefore distinct f

209 uff" the droplet during heating, followed by decomposition of the metal salt precursors and nucleatio

210 While solvent removal causes decomposition of the MOF, magnetometry measurements of t

211 Spectral decomposition of the phenotype matrix and LD-based corre

212 The subsequent decomposition of the product cluster to one or more para

213 not require particular models of dynamics or decomposition of the quantum channel, and thus can be ea

214 Mediation analysis is concerned with the decomposition of the total effect of an exposure on an o

215 opentyl glycol boronates and stereoselective decomposition of their E-isomer provided pure (Z)-(2-bro

216 e primary amine facilitates room-temperature decomposition of thiourea when CdCl(2) is present, and t

217 If destabilized, decomposition of this vast C bank could accelerate clima

218 time series opens new avenues for systematic decomposition of tissue morphogenesis.

219 The plasma-mediated decomposition of volatile organic compounds has previous

220 trocatalytic hydrogen evolution reaction and decomposition of wastewater without light irradiation ca

221 uire fat and water images using an iterative decomposition of water and fat with echo asymmetry and l

222 otational ambiguity associated with bilinear decompositions of matrices.

223 Singular value decompositions of one-dimensional and two-dimensional in

224 sistent in reflecting the differences in SOC decomposition or accumulation among four vegetation type

225 Instead, decomposition or intermolecular [2 + 2] photocycloadditi

226 ion which promotes efficient CH(4) catalytic decomposition over Ni and Ni-Zr interface as confirmed b

227 Herein, the reaction mechanism of methanol decomposition over Pt(1)/CeO(2) was carefully investigat

228 shown a 40-fold higher activity of methanol decomposition over single-site Pt(1)/CeO(2) catalyst tha

229 ent levels of model fitting: (a) calibrating decomposition parameters separately at each experimental

230 igated LiTFSI/H(2) O electrolyte interfacial decomposition pathways in the "water-in-salt" and "salt-

231 rce precursor 3 was shown to exhibit a clean decomposition pattern yielding the phase-pure P2-Na(2)Mn

232 These transformations significantly improve decomposition performance compared to existing methods w

233 These functions include nutrient cycling, decomposition, plant production, and reduced potential f

234 Litter decomposition plays a key role in nutrient cycling acros

235 Organic matter production and decomposition primarily modulate the atmospheric O(2) an

236 he monomer alphabet is modeled as the String Decomposition Problem.

237 ted based on a rhodium(II)-catalyzed aerobic decomposition process.

238 tegies facing convex clustering solution and decomposition process.

239 Evidence for oligomer decomposition producing multimode F-TD/CIMS thermograms

240 ad occurrence of metallic iron whiskers as a decomposition product formed through irradiation of the

241 The decomposition product, 2,4,-decadienal, was also found t

242 Soluble electrolyte decomposition products formed at both electrodes are cha

243 The release of their less toxic decomposition products into the blood will lead to decre

244 tion to chemical changes in the substrate as decomposition progressed.

245 litter from mono- to mixed-species increases decomposition rate by 34.7% in forests worldwide, which

246 R(n), composite rate constant k(c), and LOOH decomposition rate constant k(d).

247 est single predictor of fungal-mediated wood decomposition rate under laboratory conditions, and acco

248 re dominated by differences in the anhydride decomposition rate.

249 of the factors accounting for different wood decomposition rates among fungi.

250 Changes in plant diversity could alter decomposition rates by as much as climate change is proj

251 tant ratio between aerobic and anaerobic oil decomposition rates even after prolonged anoxic conditio

252 manmade DOM extends the natural range of DOM decomposition rates in fluvial ecosystems.

253 Together, these results suggest that decomposition rates strongly align with a dominance-tole

254 e in magnitude to the 13.6-26.4% increase in decomposition rates that is projected to occur over the

255 Microbial respiration and decomposition rates were positively influenced by WW inp

256 ure were the main climatic drivers of higher decomposition rates, while biochemical transformation of

257 nts suggested that WW-borne microbes enhance decomposition rates.

258 -growing, highly competitive fungi with fast decomposition rates.

259 e patterns in intrinsic fungal-mediated wood decomposition rates.

260 The mitigation of decomposition reactions of lithium-ion battery electroly

261 ges, but the numerous mechanisms for altered decomposition remain poorly identified.

262 The soil-driven effect on decomposition reported here may have long-lasting impact

263 An energetic decomposition reveals, for slowly ejecting proteins, tha

264 Kinetic studies of their thermal decomposition showed that the process takes place irreve

265 Our decomposition shows that the majority of intrinsic fluct

266 ta(13) C values and (13) C-enrichment during decomposition suggests that change in litter chemistry i

267 We employed singular value decomposition (SVD) and subsequent reconstruction of the

268 weights are derived from the singular value decomposition (SVD) of the matrix of appropriately scale

269 The Koopman operator-based, data-driven decomposition technique gives insight into spatial and t

270 We applied the Blinder-Oaxaca decomposition technique to quantify the contribution of

271 troarene substrate and phosphetane 1; energy decomposition techniques highlight the biphilic characte

272 tly more interpretable than more traditional decomposition techniques.

273 a lower glass transition (T(g)) and thermal decomposition temperature and a lower Raman peak intensi

274 The insights on electrolyte decomposition through reactions with reactive oxygen spe

275 Mg(0) reduction can compete with electrolyte decomposition, thus enabling battery operation beyond th

276 ted to have higher stability with respect to decomposition to alternate phases and, therefore, more o

277 e basis of a thermodynamic analysis of their decomposition to competing compounds (decomposition enth

278 eature-guided multivariate source-separation decomposition to determine whether conflict-related midf

279 ivery and used mediation analysis with 4-way decomposition to estimate excess relative risks.

280 high-density surface electromyogram (HD-EMG) decomposition to estimate muscle excitations.

281 tworks were analysed using hierarchical loop decomposition to extract a range of statistics describin

282 We then use the Hodge decomposition to obtain the hierarchical order of each t

283 nocyclic arene oxides without any noticeable decomposition to phenols.

284 identified the gene responsible for triuret decomposition (trtA) in bacterial genomes, clustered wit

285 c levels and indirect impacts on leaf-litter decomposition using litter of understorey hazel, Corylus

286 While rates of decomposition vary greatly among woody species and spati

287 s direct Li/Cl interactions which facilitate decomposition via alpha-elimination.

288 domains, and bridges nucleation and spinodal decomposition via the sequential onset of topological tr

289 ecline from 2000 to 2016, and Oaxaca-Blinder decomposition was conducted to identify the relative con

290 e process of phthalimide-N-oxyl radical self-decomposition was investigated.

291 Using partial information decomposition, we next compute the intercellular gene-ge

292 Fe) in humid soils, but Fe also promotes SOM decomposition when oxygen (O(2)) becomes limited.

293 suggest that chemical changes during litter decomposition will change with climate, driven primarily

294 s difficult to project how much more aerobic decomposition will take place before the younger surface

295 ination of the dead-end elimination and tree decomposition with a well optimized scoring function, wh

296 Singular vector decomposition with truncation values was used to select

297 ics of C(4) and C(7) fragment production and decomposition, with the tert-butyl radical as a key inte

298 material, providing the opportunity to test decomposition without the continuous input of new organi

299 search focuses only on blind decompositions: decomposition without utilizing prior knowledge.

300 Whitened singular value decomposition (WSVD) with internal reference yielded max