ライフサイエンスコーパス: population dynamics

1 respect to animal life-history evolution and population dynamics.

2 ure partially unobserved drivers of seasonal population dynamics.

3 rs to assess the role of these transients on population dynamics.

4 on was inevitable, despite previously stable population dynamics.

5 such climate-related changes on viability or population dynamics.

6 minorities with extreme phenotypes dominate population dynamics.

7 erpretability and utility for studying large population dynamics.

8 ay an important role in modulating human AML population dynamics.

9 largely unknown, but could ultimately affect population dynamics.

10 eration phases and hence the respective cell population dynamics.

11 dering all kinetic factors governing exciton population dynamics.

12 We term this computation through neural population dynamics.

13 pike sorting is necessary to estimate neural population dynamics.

14 r for both biodiversity and the timescale of population dynamics.

15 specific antigens, and peripheral lymphocyte population dynamics.

16 hasticity in intracellular reactions and the population dynamics.

17 s directed to better understand P. guildinii population dynamics.

18 ith niche diversity underlying boom-and-bust population dynamics.

19 reorganization of hippocampal pyramidal cell population dynamics.

20 nd goes beyond, determining drivers of local population dynamics.

21 bsorption, photo-induced bleach, and carrier population dynamics.

22 nd parental care, sex-specific survival, and population dynamics.

23 antitative account of its impact on parasite population dynamics.

24 enced and compiled mtDNA to reconstruct past population dynamics.

25 change relies on linking seasonal trait and population dynamics.

26 nge in inhibitory drive might underlie these population dynamics.

27 demographic) data is an important problem in population dynamics.

28 y have unique demographic pathways to stable population dynamics.

29 e and therefore have a significant impact on population dynamics.

30 be doxorubicin uptake and predict subsequent population dynamics.

31 equences of these changes for both trait and population dynamics.

32 of doxorubicin therapy shape subsequent cell population dynamics.

33 ty depends on understanding these historical population dynamics.

34 sequences of seasonal fitness trade-offs for population dynamics.

35 impacts of insect species that show outbreak population dynamics.

36 single neurons and delayed choice-predictive population dynamics.

37 strong regulatory mechanisms and impacts on population dynamics.

38 ulations with varying density dependence and population dynamics.

39 s' influence on deterministic and stochastic population dynamics.

40 an be robustly classified based on their WBC population dynamics.

41 the biologically relevant area encompassing population dynamics.

42 bet hedging to terminal investment, altering population dynamics.

43 ource for exploring nonlinear spatiotemporal population dynamics.

44 tate effects have the potential to influence population dynamics.

45 g due to the exponential nature of bacterial population dynamics.

46 ar behavior, thereby promoting robustness of population dynamics.

47 age-structure is needed to assess short-term population dynamics.

48 and density dependence on local-scale aphid population dynamics.

49 , bereavement as a public health threat, and population dynamics.

50 ather than using a process that incorporates population dynamics.

51 cast the impacts of climate change on animal population dynamics.

52 tems of species evolution, epidemiology, and population dynamics.

53 tance of physical and biological drivers for population dynamics.

54 ental conditions, which threatens to disrupt population dynamics.

55 onsequences of infection on host fitness and population dynamics.

56 sed model assumptions may fail at predicting population dynamics across a wide range of animal taxa.

57 s striking consistency in the inferred human population dynamics across different regions of Britain

58 Population dynamics across species' ranges in these hete

59 , as well as reduction in asynchronous local population dynamics across species.

60 The model shows promise for predicting population dynamics after multiple disturbance events an

61 ves contribute to the orchestration of these population dynamics-akin to bacterial quorum regulation-

62 ability of dominant species and asynchronous population dynamics among the coexisting species.

63 ) lymphocytes exhibited greater variation in population dynamics among tissues and cell populations o

64 Population dynamics analysis of the most successful line

65 ctin function and performed forced evolution-population dynamics analysis.

66 n vivo functional readouts to assess the AML population dynamics and associated molecular determinant

67 e viruses are key drivers of host diversity, population dynamics and biogeochemical cycling and contr

68 rsistent B cell lineages that exhibit stable population dynamics and carry signatures of neutral drif

69 , our approach enables the study of cellular population dynamics and clonal properties in vivo.

70 itecture have substantial effects on biofilm population dynamics and community assembly by enabling i

71 ts to add new understanding on plant niches, population dynamics and community assembly.

72 damental step toward rigorous predictions of population dynamics and community assembly.

73 atural question arises: how are asynchronous population dynamics and critical dynamics related, how d

74 th validated theoretical models of Wolbachia population dynamics and demonstrated that this is a viab

75 We propose that transient population dynamics and differences in longevity and beh

76 itions will be essential to fully understand population dynamics and distributions.

77 This study elucidates the population dynamics and diversification of the Brazilian

78 r the food chain, although changes in strain population dynamics and fewer cases indicate that contro

79 licly available sequences to reconstruct the population dynamics and fluctuations for each of the tra

80 We investigated population dynamics and genetic patterns by comparing wh

81 ent empirical data on interaction strengths, population dynamics and how these vary with perturbation

82 ded important contributions to the fields of population dynamics and invasion biology.

83 Shifts in microbiome composition altered population dynamics and led to divergence between treatm

84 , even in mild climates, to fully understand population dynamics and manage populations.

85 single extreme events are poor predictors of population dynamics and persistence because internal den

86 pe variation is often applied for estimating population dynamics and phylogenetic relationships, econ

87 n and variation, providing a window into the population dynamics and potential functions of these com

88 ed a unique opportunity to study low-density population dynamics and quantify Allee effects with empi

89 ependence is a ubiquitous force that governs population dynamics and regulates population growth, yet

90 Our results demonstrate that transient population dynamics and reproductive capacity can help t

91 tory strategists contribute substantially to population dynamics and resilience to changing condition

92 Dispersal is a critical process influencing population dynamics and responses to global change.

93 However, complex population dynamics and scale-dependent processes can ma

94 fects populations is critical for projecting population dynamics and species distributions in rapidly

95 Population dynamics and species persistence are often me

96 evolution of reproductive tactics as well as population dynamics and stability.

97 n had a measurable impact on viral intrahost population dynamics and support future analysis of a lar

98 the foundation for investigations of complex population dynamics and the ability to examine ecologica

99 copy were used to analyze hematopoietic cell population dynamics and the cellular site of GT3-Nano lo

100 igration and have important implications for population dynamics and the conservation of migratory sp

101 ffects could have important implications for population dynamics and the evolution of ageing, but the

102 hedging by unifying the study of biological population dynamics and the mathematics of financial ris

103 ent (IPM) makes decisions using knowledge of population dynamics and threshold insect densities.

104 on can occur quickly enough to influence the population dynamics and thus future selection.

105 The proposed model effectively captures population dynamics and translates well to a predictive

106 te measured abundances to predict accurately population dynamics, and benchmark our population model'

107 ct of antigenic variation on real-world DENV population dynamics, and find that serotype-level antige

108 iated virus activation regulates chlorovirus population dynamics, and in the current study, we demons

109 -type (MAT) loci and influence pathogenesis, population dynamics, and lineage divergence in Cryptococ

110 ulations, to investigate the genetic legacy, population dynamics, and tempo of the Indian Ocean slave

111 Switching Function models tend to stabilise population dynamics, and the Fitness Gradient models sho

112 yzing intratumoral heterogeneity, changes in population dynamics, and the immune microenvironment dur

113 type of resources affect the phenotype, the population dynamics, and the susceptibility to predation

114 Source-sink population dynamics appear likely when species exhibit r

115 etween populations, and how these may affect population dynamics are central questions in the field o

116 realistic community dynamics, and individual population dynamics are ecologically plausible.

117 climate warming on herbivore vital rates and population dynamics are hard to predict, given that the

118 ther, these results indicate that cross-area population dynamics are necessary for learned motor skil

119 otic variables present in ecosystems, animal population dynamics are often thought to be driven in a

120 survival, cohort performance, and ultimately population dynamics are strongly influenced by maternal

121 Here we show that nonlinear population dynamics are ubiquitous in nature.

122 decoupled these degrees of freedom from the population dynamics associated with the electronic-state

123 ic processes, fluid chemistry, and microbial population dynamics at and below the seafloor and increa

124 ap in our understanding of coral ecology and population dynamics at both local and regional scales.

125 role of stochastic processes in stabilising population dynamics at range margins.

126 xplicit tracking and forecasting of wildlife population dynamics at scales that are relevant to manag

127 es level) provides a better understanding of population dynamics at the base of estuarine food webs.

128 y killed is often a better predictor of prey population dynamics because the reproductive value of ad

129 rge-scale recordings and modeling to compare population dynamics between premotor cortex and striatum

130 rison to neutral models that retain parasite population dynamics but lack competition reveals that th

131 ographic processes is an important aspect of population dynamics, but a comprehensive examination of

132 ulting covariation in these rates determines population dynamics, but accounting for its numerous bio

133 resulted in phenotypic changes that altered population dynamics by affecting the competitive hierarc

134 the importance of spatial information on the population dynamics by considering the effect of competi

135 on breeding grounds have influenced pintail population dynamics by developing an integrated populati

136 Ultimately, changes to the environment drive population dynamics by influencing birth and mortality r

137 ent learning have focused on how single-area population dynamics change during short-term adaptation.

138 show that detailed understanding of the cell population dynamics could be exploited in choosing the r

139 Monitoring bacterial population dynamics could therefore provide an informati

140 conclusion, the effect of oxygen on AOB/NOB population dynamics depends on which OTU predominates gi

141 ittle is known about its influence on animal population dynamics, despite the relevance of such infor

142 how the mechanisms that drive long-term host population dynamics determine the most effective conserv

143 unlike the individual cell morphology, this population dynamics does not depend on the substrate sti

144 ctually reduce extinction risk and stabilize population dynamics due to interactions with age structu

145 inescence to measure intraocular immune cell population dynamics during the course of inflammation in

146 We document complex population dynamics during this period, including at lea

147 d the identification of intrinsic drivers of population dynamics (e.g. density dependence).

148 onally, it can enable a priori prediction of population dynamics, elucidating microbial survival stra

149 Population dynamics emerging after optogenetic stimulati

150 to a better understanding of benthic marine population dynamics, especially in commercially valuable

151 isperse widely is critical for understanding population dynamics, evolution, and biogeography, and fo

152 roduction of realistic seasonality in vector population dynamics facilitates gene drive success compa

153 Two neural population dynamics features previously reported for arm

154 e influence of maternal effect senescence on population dynamics, fitness, and selection, we develope

155 vailing effects make it difficult to predict population dynamics following disturbance events.

156 revealed a clear functional organization and population dynamics for these highly practiced movements

157 year 2095, which has the potential to alter population dynamics for this species in future oceans.

158 irections for the computation through neural population dynamics framework.

159 We find that population dynamics generally leads to the coexistence o

160 They influence microbial population dynamics, genetic heterogeneity and biogeoche

161 s, we interpreted them in the context of its population dynamics, growth rate, and light adaptation,

162 Also, the investigation of PC population dynamics has mostly relied on nucleotide anal

163 (Turkey), provides important perspectives on population dynamics, health outcomes, behavioral adaptat

164 Most models of TE population dynamics, however, have not incorporated actu

165 our store of methods to properly understand population dynamics if we wish to build an evidence base

166 ivity and quantitatively describe how neural population dynamics implement computations necessary for

167 iation to affect individual life history and population dynamics in a host-parasitoid trophic interac

168 anges in age-structure influenced short-term population dynamics in a semi-captive population of Asia

169 e environmental drivers of Chinstrap penguin population dynamics in Antarctica, and contributes to on

170 methodology could shed light on E. amylovora population dynamics in cankers and provide clues on the

171 We previously found that population dynamics in carefully controlled, replicated

172 ated behaviors in fish, potentially shifting population dynamics in contaminated ecosystems.

173 l roles for both local and cross-area neural population dynamics in cortically-dependent tasks, like

174 nding of the interactions between megafaunal population dynamics in different habitats.

175 rbance ecology to create a general model for population dynamics in disturbance-prone systems.

176 ses may therefore be important for herbivore population dynamics in fluctuating environments, such as

177 ded history-guided motor plans, with similar population dynamics in individual areas throughout corte

178 simultaneously, opening a window into neural population dynamics in living organisms.

179 s investigating the impact of competition on population dynamics in mixed communities in the anode ar

180 Further, our results suggest that neural population dynamics in motor cortex are invariant to the

181 To examine viral population dynamics in orally infected mice, we produced

182 d by human activities and gain insights into population dynamics in relation to conservation goals.

183 phic approach and investigate both trait and population dynamics in response to gradual and increasin

184 making in the sensorimotor system has shown population dynamics in the beta band, corresponding to t

185 The population dynamics in the native range and invaded rang

186 nd two distinct cell types, and we show that population dynamics in these viruses can be examined to

187 ritional ecology of, and factors driving the population dynamics in, these species.

188 odel inputs to directly account for changing population dynamics (including births, deaths, migration

189 Finally, we suggest alterations in population dynamics induced by L. wallacei infection usi

190 pylori is known to evolve during infection, population dynamics inside the gastric environment have

191 parasites have complex but poorly understood population dynamics inside their human host.

192 us to separate the effect of behavioral and population dynamics interactions.

193 ntial (V (m)) dynamics of single neurons and population dynamics is indispensable to understanding co

194 fers impacts of global change on large-scale population dynamics is not well studied.

195 fect of the gastrointestinal barrier on CVB3 population dynamics is relatively unexplored, and the se

196 However, its mechanistic link to population dynamics is still poorly understood.

197 opulation structure, and resulting transient population dynamics, lead to a > 50% decline in populati

198 ductive strategies, played a pivotal role in population dynamics, leading to the formation of new pac

199 dent ROS effects contributed to synchrony in population dynamics, mainly through spatially autocorrel

200 on-mediated effects indicates that herbivore population dynamics may be more resilient to changing bo

201 k fly biting rates and coupled this with our population dynamics model of Onchocerca volvulus transmi

202 To address this, we fit a Bayesian population dynamics model that includes process and obse

203 Here, we use an agent-based dog population dynamics model to examine the time, effort, f

204 isting methods require assuming a particular population dynamics model, which is not known a priori.

205 action types without assuming any particular population dynamics model.

206 concepts of structural stability applied to population dynamics models - what we call structural for

207 We compare the predictions of several population dynamics models of haplotype frequency evolut

208 goals of this study were to investigate how population dynamics models with and without spatial stru

209 haplotype frequency distribution to several population dynamics models, we found that the best fit w

210 the Moran effect is low in species where the population dynamics more closely depends on local factor

211 This study offers insights into longitudinal population dynamics of a globally endemic RSV genotype w

212 Here, we demonstrate that the population dynamics of a long-lived, wide-ranging marine

213 ological approaches to examine the long-term population dynamics of a major colony of Leach's Storm-p

214 rojected climate change can negatively alter population dynamics of a sentinel alpine species and pro

215 In this study, we followed the population dynamics of ammonia oxidizing organisms and r

216 lyze potential biotic and abiotic drivers of population dynamics of an exemplary species, the Europea

217 ed effects of native insect herbivory on the population dynamics of an exotic thistle, Cirsium vulgar

218 eds back to change the course of competitive population dynamics of aquatic plant species over 10-15

219 ship between increasing sea temperatures and population dynamics of Arctic cetaceans remains largely

220 s underlying potential effects of burning on population dynamics of butterfly host plants are poorly

221 ition of L1 elements is well understood, the population dynamics of cancer tumors has been modeled ex

222 our understanding of how these events affect population dynamics of ecologically important species is

223 We investigated the population dynamics of exogenous Lactobacillus plantarum

224 ion, we present a computational model of the population dynamics of gut microbiota including antibiot

225 -relevant components because they affect the population dynamics of hosts.

226 MHs had a substantial impact not only on the population dynamics of large mammals but also on the who

227 atical models generally used to describe the population dynamics of microbial communities do not acco

228 corresponding constant environments, and the population dynamics of mutations supports our hypothesis

229 ontext of climate change, we assume that the population dynamics of narwhals are partly influenced by

230 d by cellular mechanisms that quantifies the population dynamics of neutrophil, lymphocyte, and monoc

231 Here, we reconstruct long-term population dynamics of northern common eiders (Somateria

232 ome or mobile elements is crucial to predict population dynamics of opportunistic pathogens in clinic

233 likely to be important to understanding the population dynamics of other cooperatively breeding spec

234 ion, we quantitatively explained the complex population dynamics of persistence without any ad hoc pa

235 Here we investigate population dynamics of rat GPe neurons during preparatio

236 The population dynamics of South Africa's population of SRWs

237 Here, we study the population dynamics of spreading cells, investigating th

238 ) to determine strain relatedness and assess population dynamics of Staphylococcus aureus isolates fr

239 hich has provided important insight into the population dynamics of TEs.

240 c size and density interactively altered the population dynamics of the focal species.

241 an approach for modeling the unsteady-state population dynamics of the human response to controlled

242 We examined the long-term population dynamics of the invasive common wasp, Vespula

243 physiological adaptability, but also on the population dynamics of the species.

244 re required to better understand species and population dynamics of these bacteria in their natural h

245 efforts to improve our understanding of the population dynamics of this and other bark beetle pests.

246 To investigate the population dynamics of this divergent DWV, we designed a

247 To address this question, we studied the population dynamics of tumor and immune cells, and immun

248 We investigate the population dynamics of two priority AMR pathogens over 7

249 tial role that viral disease may play in the population dynamics of wild fish stocks, and the threat

250 r moderates the impacts of winter weather on population dynamics of wintering birds, and (b) what rol

251 nvironmental effects, by synchronising local population dynamics on certain timescales only, cause ma

252 havioral strategies to illuminate effects of population dynamics on risk-taking.

253 The impacts of invertebrate RNA virus population dynamics on virulence and infection outcomes

254 eframes that provide few insights into their population dynamics or the dynamics in AMR elements that

255 y driving negative frequency-dependent plant population dynamics, or may favor species exclusion by p

256 d for any epistasis between antigens driving population dynamics, or redundancy between functionally

257 A better understanding of lymphocyte population dynamics over the course of disease and in re

258 In addition, mcDC population dynamics parallels that of cDC1 and cDC2 in b

259 es between interacting species and resultant population dynamics-particularly for insects.

260 microbial consortia act as cartels, whereby population dynamics pins down resource concentrations at

261 s; intrinsic and extrinsic factors affecting population dynamics; provided insights into senescence a

262 s evinced distinct stimulus-evoked phases of population dynamics, providing further corroboration.

263 augments the decoder by incorporating neural population dynamics remembered from an earlier point in

264 raged and deterministic model, based on cell population dynamics, replicative senescence and function

265 endocrine disrupting compounds (EDCs) affect population dynamics requires tracking males and females

266 transmission chains and explore large-scale population dynamics, such as the spread of antibiotic re

267 treatment efficacy has a clear impact on the population dynamics: sufficient drug pressure bears a cl

268 s with variability in choices(10,11) and the population dynamics suggests the formation of a decision

269 tion of such floods may be more important to population dynamics than mean measures of sea level.

270 e uncover a transient structure in GABAergic population dynamics that disappears in a sensory-depende

271 trauma, the inflammatory responses and cell population dynamics that regulate subsequent wound heali

272 ship between European UP "cultures" and past population dynamics, they leave open numerous questions

273 uch that the past can influence contemporary population dynamics through extended phenotypes.

274 how that the coupling between ecological and population dynamics through quorum sensing can induce ph

275 erall, our study uncovers multiple scales of population dynamics through time, from extensive admixtu

276 we use two-photon calcium imaging of neural population dynamics throughout the course of learning an

277 e and reconstructed population structure and population dynamics throughout the Holocene.

278 ta patchiness has challenged efforts to link population dynamics to key drivers.

279 gical organization, ranging from ecology and population dynamics to stochastic reaction events occurr

280 Perturbations occasionally switched the population dynamics to the other end point, followed by

281 stimulation, adaptation tunes the collective population dynamics towards a special regime with scale-

282 No evidence of cyclic population dynamics was observed.

283 ork of restored habitat influences long-term population dynamics, we confirm the conservation benefit

284 ignificance of increased parasitism rate for population dynamics, we developed a host-parasitoid mode

285 babilistic model of transgenerational TL and population dynamics, we simulated the effect of PAC on T

286 hrough this molecular mechanism, to cellular population dynamics, we use sequence data to obtain and

287 These population dynamics were accompanied by the correspondin

288 ferences in coral reef development and coral population dynamics were evaluated by monitoring populat

289 Features of ecogroup population dynamics were recapitulated in gnotobiotic pi

290 or more accurate inferences about past human population dynamics when using dental morphology as a pr

291 wn effects of apex predators on mesopredator population dynamics, whereas studies investigating alter

292 Here we propose a modelling framework for population dynamics, which also include indirect coopera

293 l excitatory/inhibitory balance and neuronal population dynamics, which are important to mood and mem

294 x nonlinear interactions between climate and population dynamics, which makes detecting climate drive

295 mutant is an important measure of stochastic population dynamics, widely studied in ecology and evolu

296 climate change crises pressure us to predict population dynamics with ever-greater accuracy.

297 cs, a mathematical framework that reconciles population dynamics with the concepts underlying develop

298 on stochastic Markovian models of bacterial population dynamics within and among organs.

299 We develop a rate equation to describe the population dynamics within territorial competition.

300 urally and deeply integrated observations of population dynamics would be invaluable.