ライフサイエンスコーパス: succession

1 ing on subsequent trials that occur in short succession.

2 he definition of an endogenous heterotrophic succession.

3 pendent, autogenic dynamics during secondary succession.

4 iversity respond to different drivers during succession.

5 guins produced calls of different lengths in succession.

6 or respiration that are depleted in vertical succession.

7 c and deterministic processes over old-field succession.

8 pecies arrival time to carrion and microbial succession.

9 to disrupting GQ structure multiple times in succession.

10 that deterministic processes dominate forest succession.

11 e sequences of tornadoes that occur in close succession.

12 eak evidence of deterministic processes over succession.

13 only influenced community structure early in succession.

14 xers increased in relative basal area during succession.

15 that deterministic processes dominate forest succession.

16 y determine the community dynamics of forest succession.

17 t marsh chronosequence spanning 105 years of succession.

18 izing and chaotic dynamics during the cyclic succession.

19 ites, explaining bloom decline and community succession.

20 ssembly processes with primary and secondary succession.

21 ibed macroevolutionary driver - earth system succession.

22 ost important factor affecting plant species succession.

23 derstand the mechanisms that drive ecosystem succession.

24 logenetic and functional overdispersion over succession.

25 ly triggered saccadic eye movements in brief succession.

26 goalkeeper against several kickers in rapid succession.

27 al traits, and mechanisms of tropical forest succession.

28 lternating contractions of the tail in rapid succession.

29 rbivore pressure, for example over community succession.

30 prone landscapes to their natural states of succession.

31 ter it as soil organic matter during natural succession.

32 kpoints for Enterococcus spp. twice in rapid succession.

33 but also regrow naturally through secondary succession.

34 chanisms of microbial community assembly and succession.

35 , to be the key processes driving this rapid succession.

36 ly in higher temperature treatments in early succession.

37 al to understand the mechanisms of secondary succession.

38 lated climate change recorded in sedimentary successions.

39 of Archean and Early Proterozoic sedimentary successions.

40 Wilson and Holldobler's concept of "dynastic succession."

41 ant to accurately model Upper Midwest forest succession?

42 re we examine whether phytoplankton seasonal succession affects the composition of subtypes within th

43 model, there was little evidence for clonal succession after initial hematopoietic reconstitution.

44 With each succession along the surgical career pathway, from medic

45 Secondary forest regrowth shapes community succession and biogeochemistry for decades, including in

46 ge-scale host-virus "arms race" during bloom succession and consequently the turnover of carbon in th

47 icropollutants and to evaluate the long-term succession and diffuse transfer of herbicides, fungicide

48 position between people, while also allowing succession and enabling adaptation to environmental chan

49 ixation doubled carbon accumulation in early succession and enhanced total carbon in mature forests b

50 m waters would exhibit varying compositional succession and functional shifts in response to the same

51 ft in utilization coincided with a community succession and increased extracellular enzyme activities

52 s of these communities dictate their path of succession and longevity in the wild.

53 While many factors change over succession and may contribute to the shifts in rhizosphe

54 luminating the mechanisms that couple forest succession and N cycling.

55 ward CNG and Cl components that are in rapid succession and not easily separable.

56 ggressive females and then tracked community succession and persistence over 7 years in the field.

57 s (ARs) were used to study biofilm community succession and provide ecological insight during nitrifi

58 elow-ground biodiversity that determines the succession and recovery of forests after disturbance.

59 light availability, shapes species fitness, succession and selection.

60 tion of ectomycorrhizal trees is affected by succession and soil parent material, both of which may e

61 Ecological succession and the balance between stochastic and determ

62 Subsequent ordered microbial succession and the formation of increasingly complex com

63 Microbial community succession and the related gene expression were analysed

64 role of interaction variability in ecosystem succession and to further determine if casting variabili

65 be comparable or superior to natural forest succession and to reforestation in some cases.

66 their ability to kill target cells in rapid succession and to survive these encounters.

67 e to abandoned infertile farmland, secondary succession, and governmental conservation policies.

68 nges in phytoplankton size distributions and succession, and the delay or suppression of bloom events

69 on to acquire PA difference signals in quick succession, and to minimise the effects of tissue motion

70 gical benefits of CO(2) augmented by species succession, and was expressed similarly across soils of

71 rs on rates of change during tropical forest succession are far more pervasive than previously though

72 ic Carbon (TOC) concentrations in the Polish successions are substantially reduced during this event.

73 nge following a major perturbation, known as succession, are influenced by random processes.

74 pe excursion in delta(13)Corg found in other successions around the world, and (3) co-occur with an a

75 functional clustering to overdispersion over succession as judged by space-for-time substitution stud

76 s significant and intensified over ecosystem succession, as a resource (nitrogen) became increasingly

77 es where axons branch and terminate in close succession, as found in many brain regions.

78 arbon exchange in response to: (i) landscape succession associated with the thaw-lake cycle; and (ii)

79 e show that when two targets appear in rapid succession at different locations, two separate foci of

80 ive an interpretation of a large sedimentary succession at Izola mensa within the NW Hellas Basin rim

81 carried out an exhaustive sampling in a new succession at SZ.

82 We show that succession at the acidified site was initially delayed (

83 our highest diversity treatment than during succession at this site, and 70% greater than in monocul

84 in phylogenetic and functional turnover over succession at two spatial scales.

85 cessional ecosystems and declines throughout succession based on the hypothesis that soil N richness

86 antify predictability and uncertainty during succession based on the most extensive long-term dataset

87 ransoxianan nomads, spiritual and biological succession became merged.

88 are additionally modulated by pH, ecosystem succession becomes jointly controlled by the variations

89 Trait-based patterns suggest that infant gut succession begins with a functionally variable cohort of

90 s considered to be an important cause of the succession between motile and non-motile species when co

91 teric agonists appeared as openings in quick succession (bursts) that showed no ligand concentration

92 ity effects on ecosystem function (BEF) over succession, but this theory remains largely untested.

93 r enzyme activity did not differ with forest succession, but varied by season with greater rates of p

94 ly 2,500-750 million years ago, Ma) subtidal successions, but extremely rare in rocks <750 Ma.

95 f North America was populated three times in succession by different indigenous groups.

96 We simulated forest succession by incorporating climate change under a high-

97 forest may play key roles in driving forest succession by shaping the soil bacterial community in th

98 t changes in soil microbial communities over succession can play an important role in enhancing plant

99 city of empirical data on thanatomicrobiomic succession caused by the limited access to these organs

100 eractions are thought to influence microbial succession, community stability, syntrophic relationship

101 The succession comprises channel and barform packages which

102 isplayed regular seasonal patterns including succession, consistent with strong forcing by seasonally

103 When visual targets are presented in rapid succession, correct identification of the first target (

104 trikingly absent from the overlying Cambrian succession, despite optimal conditions for their preserv

105 local evolutionary adaptation and ecological succession driven in large part by migration.

106 ched communities undergo rapid, reproducible successions driven by ecological interactions.

107 oreactors were used to investigate microbial succession during the formation of granular biofilms.

108 hese results highlight the role of bacterial succession during the vermicomposting process and provid

109 We investigated such successions during spring phytoplankton blooms in the so

110 llowed the expected patterns under secondary succession (e.g. towards late-successional short-stature

111 , where the ion-binding pocket is exposed in succession either to the extracellular or the intracellu

112 A primary succession experiment also examined competitive interact

113 We conclude that patterns of microbial succession following deep ocean hydrocarbon blowouts are

114 g community nor neutral processes influenced succession following perturbation.

115 fungal community development in this glacier succession follows a directional replacement model.

116 However, ecological succession follows distinctly divergent pathways in smok

117 reserves that has displayed a complex cyclic succession for more than 20 y.

118 cene stratified and numerically dated faunal succession for the Indian subcontinent from the Billasur

119 cranopteris and Pteris always existed during succession, for regional forest restoration under global

120 les and Psychrosinus species, and a temporal succession from highly abundant Clostridium sensu strict

121 vent or T-OAE from an open ocean sedimentary succession from western North America.

122 rge towards a particular stable state during succession has long been debated, but rarely tested at a

123 Although forest succession has traditionally been approached as a determ

124 ts are flashed in close spatial and temporal succession, human observers experience a percept of appa

125 en green and brown food web diversity across succession: (i) 'coupled diversity hypothesis', which pr

126 boveground biomass recovery during secondary succession in 45 forest sites and about 1,500 forest plo

127 amine trait-based patterns of gut microbiome succession in 56 infants over their first three years of

128 us exposure) on patterns of colonization and succession in a benthic fouling community.

129 area and compositional changes during forest succession in a neotropical forest can be accurately pre

130 n trophic groups during 100 years of primary succession in a saltmarsh ecosystem, using a well-calibr

131 Our results show that community succession in amended mesocosms was congruent with cell

132 re prepared by three flow steps performed in succession in better overall yield and shorter reaction

133 f the same two components delivered in rapid succession in either one temporal order or its reverse.

134 ry-based network approach to discern network succession in groundwater microbial communities in respo

135 odel, we examine the role of early microbial succession in growth and development.

136 It is also sensitive to succession in its phytoplankton food, from edible algae

137 ow environmental factors influence long-term succession in lucerne-rich vegetation.

138 stematic approach to understand assembly and succession in microbial communities across ecosystems.

139 Using 44 years of uninterrupted old-field succession in New Jersey, USA, we confirmed that phyloge

140 tinuous study of post-agricultural secondary succession in New Jersey, USA, we show that the extent o

141 newly studied terrestrial P-Tr boundary rock succession in North China have yielded diverse wrinkle s

142 vations from 112 plots spanning 300 years of succession in Panamanian tropical forests, and (ii) a ne

143 nistic questions about succession, including succession in the context of microbiota-directed therape

144 To characterize succession in the context of the metabolic potential of

145 Initial microbial colonization and later succession in the gut of human infants are linked to hea

146 ndings provide novel insights into microbial succession in the respiratory tract in infancy and link

147 To directly study succession in these ecosystems, we deliberately varied t

148 N fixers are successful throughout secondary succession in tropical rainforests of north-east Costa R

149 ing inundation along this progression led to succession in vegetation types accompanied by an evoluti

150 ineral landscapes, is a driver of ecological successions in acidic biotopes, and is an important mode

151 c magmatism is documented from intra-caldera successions in central volcanoes and from small-volume a

152 ecovery interval resembled modern ecological successions in terms of active selection on size and rel

153 mpact of these processes on mangrove-bearing successions in the Oligo-Miocene of the South China Sea

154 Our results show that important cultural successions in the pre-Columbian Central Amazon, the tra

155 ess a variety of mechanistic questions about succession, including succession in the context of micro

156 The influence of stochasticity on succession increased and new niches were created as gran

157 Antarctic sedimentary successions indicate AIS expansion at 6 Ma coincident wi

158 s study sought to characterize the bacterial succession involved in the vermicomposting of Scotch bro

159 on a microdiverse cloud of strains, and this succession is associated with ever-shifting virus-host d

160 and large herbivores in a state of arrested succession, is untenable.

161 These changes in succession led to homogenization of communities maintain

162 For mass extinctions, earth system succession may drive the ever-changing ecological stage

163 These results suggest that primary successions may shape particle-attached bacterial commun

164 Late succession microbiomes conferred the strongest herbivore

165 Livestock grazing history, fire, succession, N deposition, and increases in exotic specie

166 Patterns of community composition and succession observed in situ can be recapitulated in a si

167 Earth system succession occurs when global environmental or biotic ch

168 rom dynamic gene expression patterns using a succession of analytical techniques, including a novel M

169 specification paths are driven forward by a succession of asymmetric cell divisions.

170 pring phytoplankton blooms, the accompanying succession of bacterial clades is largely governed by de

171 s of antimicrobial therapy on the ecological succession of biofilm communities.

172 data indicate megaherbivore loss results in succession of both woody and herbaceous C3 vegetation an

173 The reaction proceeds by a succession of C-H activation, migratory insertion of the

174 s that cell cycle progression is driven by a succession of CDK complexes with different substrate spe

175 erebral cortex develops through an elaborate succession of cellular events that, when disrupted, can

176 Meiosis produces haploid gametes through a succession of chromosomal events, including pairing, syn

177 vironment and the copper oxidation state and succession of copper coordinating ligands within the bio

178 Here we study the succession of dairy cattle resistome during early life u

179 cheme via considering the chromosome to be a succession of DNA/chromatin loops-a polymer "brush"-wher

180 iapausing insects pass through a stereotypic succession of eco-physiological phases termed "diapause

181 s and with S. paradoxus cells by providing a succession of environmental conditions prompting cell sp

182 of the nervous system involves a coordinated succession of events including the migration of GABAergi

183 resents a textbook example of evolution, the succession of events that gave rise to the diversity of

184 DNA replication in vitro has established the succession of events that lead to replication origin act

185 This study confirms that the succession of events within the Upper Kellwasser event i

186 Neuronal activity can be described as a succession of events without resorting to the concepts o

187 it appears to be driven by an unprecedented succession of extreme, downwelling-favorable, winter cli

188 on of the air in which they are flying, as a succession of fair-weather convective cells pass over th

189 etic stem cells guides progenitors through a succession of fate choices while balancing differentiati

190 Thus, the temporal succession of Fgf8 lineage correlates with organizationa

191 e a renaissance in the past 10 years, with a succession of findings that have transformed our underst

192 tered cubic (bcc) close-packed micelles to a succession of Frank-Kasper phases (sigma to C14 to C15)

193 n-hydrazino], have the ability to fold via a succession of gamma-turn (C7 pseudocycle) and hydrazinot

194 Our study defined the succession of genetic alterations during melanoma progre

195 ting a journey through a subway network as a succession of individual states (stations) is more costl

196 removal of uracil from the genome requires a succession of intermediate products, including an abasic

197 helf setting, and reconstruct the ecological succession of its micro- and macrofauna.

198 a stable microbial community develops from a succession of key organisms.

199 Our model generates a succession of landscapes with predictable properties as

200 The succession of layers could dynamically decouple the mant

201 action shows that T. guizhouense undergoes a succession of metabolic stresses while F. oxysporum resp

202 acteria) developed in the SOAs, initiating a succession of microbial populations that mirrored the ev

203 ly successful in sustaining cooperation in a succession of multiple generations.

204 nomenclatural instability, with a confusing succession of names: "Prescottia equi", "Prescotella equ

205 rded from rats deploying a schema to learn a succession of odour-sequence problems.

206 gradients of floodplains, which exhibited a succession of oxic, anoxic, and suboxic-oxic zones with

207 pedance signal shows a reproducible distinct succession of peaks at 12h post infection (PI), 23h PI a

208 e rapid accumulation of N during the primary succession of peatlands.

209 Clear succession of penguin population peaks were observed in

210 Vitis vinifera) berry development involves a succession of physiological and biochemical changes refl

211 i Lake sediments to reconstruct the temporal succession of plankton communities in the past 18,500 ye

212 atio of motile to nonmotile cells and in the succession of populations.

213 We posit that a dynamic succession of protein-protein interactions modulates the

214 oxides with target compounds may affect the succession of reaction.

215 antibodies will require immunization with a succession of related immunogens.

216 as a single assemblage and interpreted as a succession of several human home bases.

217 icts that when these melts are emplaced as a succession of sills into the lower crust they generate d

218 d our understanding of what drives the rapid succession of speciation events within young adaptive ra

219 mmunities are likely assembled in an ordered succession of species from low to high ecological effici

220 Although succession of specific operational taxonomic units (OTUs

221 d to the current alternative of generating a succession of static figures, Elviz can greatly accelera

222 ule experimentation to reveal the obligatory succession of steps that make up the catalytic cycle of

223 ng a regional record somewhere each winter.A succession of storms during the 2013-2014 winter led to

224 In winter 2013/14 a succession of storms hit the UK leading to record rainfa

225 from Arctic Canada recently suggested that a succession of strong volcanic eruptions forced an abrupt

226 Our results reveal a remarkable seasonal succession of sulfur cycling pathways, which was observe

227 ial organization, establishment and temporal succession of the bacterial communities colonizing speci

228 urassic), derived from a calcareous mudstone succession of the exceptionally expanded Llanbedr (Mochr

229 re the major events occurring that dominated succession of the gut microbiota in the early life of pi

230 We report on an extended succession of the Ischigualasto Formation exposed in the

231 a sandy beach, (ii) elucidated the long-term succession of the microbial populations that developed i

232 election of probiotics that modulate primary succession of the microbiome to prevent disease.

233 d successfully replicated the enrichment and succession of the principal oil-degrading bacteria obser

234 A continuous succession of the rare and abundant communities was obse

235 eports in detail on the seasonal changes and succession of these coastal microbial mat communities an

236 uitination and deubiquitination reflects the succession of transcriptional profiles during developmen

237 to structurally characterize and quantify a succession of transient assembly and disassembly interme

238 ry input for which the network can perform a succession of trials, without being either trapped in th

239 The succession of two microbeam analyses on an individual pa

240 ndance across seasons, suggesting a seasonal succession of viruses in the Red Sea.

241 es type 2 diabetes (T2D) remission through a succession of weight loss-dependent and -independent mec

242 he large magnitude and potentially the quick succession of well-known abrupt changes in North Pacific

243 s or a variable probability depending on the successions of artery connections leading to the portal

244 of planktonic bacteria that consist of swift successions of distinct bacterial clades, most prominent

245 However, succession on the whole-community level, and the rates,

246 re than in uninfected fields, and microbiome succession over time was similar in heavily infected and

247 e most auditory signals only have meaning as successions over time.

248 nities of Transoxiana was based on spiritual succession passed from teacher to disciple.

249 d whether models can reproduce multi-decadal succession patterns is an indication of our ability to p

250 ted sludge communities by revealing seasonal succession patterns of individual taxa that correlate wi

251 Early in succession, phylogenetic diversity and functional divers

252 Formal succession planning for ICU leaders is crucial to the su

253 n contrast, it is unknown whether hereditary succession played a role in the early formation of prehi

254 As succession proceeded, the growth and survival disparitie

255 initially governed by stochasticity, but as succession proceeded, there was a progressive increase i

256 However, in dry forest, succession proceeds from high towards low community WD (

257 In wet forest, succession proceeds from low towards high community WD (

258 ongoing global climate change, exploring the succession process and functional changes of rare taxa m

259 main environmental variables controlling the succession process in lucerne-rich vegetation such that

260 evealed an age- and diet-dependent bacterial succession process in piglets.

261 simulate spatial interactions and ecological succession processes under RCP scenarios, RCP2.6, RCP4.5

262 Earth system succession provides a general explanation for the patter

263 pes and changes were primarily the result of succession rather than climate-driven changes.

264 quantitation of the degree of contingency in succession requires chronological study of replicate eco

265 y by influencing the start and trajectory of succession, resulting in convergence of the community WD

266 ed the duration or the serial order in rapid succession, so that the pattern of active neurons change

267 The deletion increased in size over a succession starting from camelid viruses via old human v

268 Our analytical models describing forest succession suggest that dynamic forest ecosystem models

269 ations were positive early but weak later in succession, suggesting saturation of niche space with in

270 Stochastic assembly of forest succession suggests that post-disturbance restoration ma

271 ion preserved in many Neoarchean sedimentary successions suggests that sulfate-reducing microorganism

272 ion of biomass gain in these early-secondary-succession temperate ecosystems.

273 In simulations of secondary succession, the across-plot range in plant biomass reach

274 worldwide, the sequence and timing of plant succession, the bistability of ecto- versus arbuscular m

275 By late succession, the effects of internal spatial feedbacks an

276 from a highly expanded Cretaceous-Paleogene succession: the Lopez de Bertodano Formation of Seymour

277 biological legacies in long-term ecological succession, this emerging picture of postdrought ecologi

278 ty assembly processes with microbial primary succession to better understand mechanisms governing the

279 as applied to a set of axons imaged in quick succession to characterize measurement uncertainty.

280 We established a 15-yr gradient of old-field succession to examine the herbivore resistance and rhizo

281 with multiple overlapping features, in rapid succession, to ensure that successful memory retrieval r

282 netic and functional clustering decreased as succession unfolded, but the transition was largely driv

283 causes, administer anticonvulsants in rapid succession until seizures have terminated, and identify

284 titrated and tested all of the antibodies in succession using a fluorescent sandwich microarray immun

285 ages of tephra layers from an aggradational succession (Valle Giulia Formation) near the mouth of th

286 cedure involving the use of three columns in succession was developed, and the separation of (223,224

287 Dynamic and resilient succession was evident: fairly simple at the initial sta

288 The succession was most obviously marked by a sand layer las

289 tionship, geographic proximity, and temporal succession, where D. torosus ( 76.7-75.2 Ma) precedes th

290 CO2 change and, if high pCO2 is relieved mid-succession, whether past acidification effects persist,

291 fections, can disrupt this optimal microbial succession, which may contribute to lifelong and interge

292 orest associated with thermokarst and forest succession, while gradient boosting/regression tree mode

293 ones mainly accumulate mutations in a linear succession with retention of a dominant subclone.

294 sitions where the gating charges interact in succession with the negatively charged residues on the c

295 th to mucositis resembled primary ecological succession, with acquisition of several species without

296 altissima plants to herbivores changed over succession, with concomitant shifts in the rhizosphere m

297 e pulsed with chemical fuel several times in succession, with each pulse activating catalysis for a t

298 a primary driver of cyanobacterial community succession, with warming favouring non-diazotrophic taxa

299 of different bacterial taxa were enriched in succession within deep plumes, but the metabolic capabil

300 rrive at the ears simultaneously or in close succession, yet they are effortlessly segregated into di