ライフサイエンスコーパス: ecological niche

1 AR(+)] appearance correlate with the yeast's ecological niche.

2 h an arsenal of secreted molecules for their ecological niche.

3 phylum with members inhabiting nearly every ecological niche.

4 but also their plasmids, are defined by the ecological niche.

5 thesis seems to correlate with lifestyle and ecological niche.

6 ction within the necrotrophic plant pathogen ecological niche.

7 ographic limits and the limits of a species' ecological niche.

8 ly, by the recent invasion of an overlapping ecological niche.

9 itic wasp learns is tailored to its specific ecological niche.

10 ion through differential adaptation to a new ecological niche.

11 ny other oral bacteria which occupy the same ecological niche.

12 ng DNA from other species living in the same ecological niche.

13 ween different species which occupy the same ecological niche.

14 types or species each adapted to a different ecological niche.

15 lant to dictate which species will share its ecological niche.

16 iolog profile, a measure associated with the ecological niche.

17 operties that are associated with a shift in ecological niche.

18 level of communication among bacteria in an ecological niche.

19 constructing the species' potentially unique ecological niche.

20 d on adaptive strategies within a particular ecological niche.

21 an allow an animal to occupy an entirely new ecological niche.

22 ding its complexity and resilience within an ecological niche.

23 on with modern humans, who occupied the same ecological niche.

24 lleles is associated with socially inherited ecological niche.

25 raphical distribution while keeping the same ecological niche.

26 ent hybrid species with a potentially unique ecological niche.

27 m-negative bacteria inhabit a broad range of ecological niches.

28 pmental trajectories and limits on available ecological niches.

29 eria and beta-cyanobacteria occupy different ecological niches.

30 key geographic regions, which opened up new ecological niches.

31 f major groups, as lineages invade disparate ecological niches.

32 and the fitness of V. cholerae in different ecological niches.

33 arily structured according to their members' ecological niches.

34 in most lineages, which rarely exploited new ecological niches.

35 happened in a C4 background and opened novel ecological niches.

36 actions of individuals situated in different ecological niches.

37 among hosts, facilitating adaptation to new ecological niches.

38 t for their differential survival in various ecological niches.

39 e shapes of facial whiskers reflect distinct ecological niches.

40 garner adaptive fitness for their respective ecological niches.

41 chococcus, or 'ecotypes' adapted to distinct ecological niches.

42 ution as well as its adaptation in different ecological niches.

43 tope analyses as tools in the exploration of ecological niches.

44 in ways that enable microbes to exploit new ecological niches.

45 eir successful coexistence in their specific ecological niches.

46 theories of how species occupy and then fill ecological niches.

47 aptations of various species to their unique ecological niches.

48 f the core TCSTs for adaptation to different ecological niches.

49 ggest that virophage genera occupy different ecological niches.

50 ptively 'constructing' key features of their ecological niches.

51 esponses, evolve new behaviours, and exploit ecological niches.

52 not the growth of bacteria that occupy other ecological niches.

53 ion driven by adaptation to multidimensional ecological niches.

54 istence are examined in light of overlapping ecological niches.

55 codon reassignment in the adaptation to new ecological niches.

56 ing E. coli to explore otherwise unreachable ecological niches.

57 fferences presumably reflective of disparate ecological niches.

58 e interspecific hybrids for their particular ecological niches.

59 mental conditions and therefore colonize new ecological niches.

60 en the two fungi, related to their different ecological niches.

61 ctive isolation and allowing access to novel ecological niches.

62 isphere are attributed to adaptations to new ecological niches.

63 while encountering diverse and often hostile ecological niches.

64 alist species differ in the breadth of their ecological niches.

65 biological diversification by unlocking new ecological niches.

66 the ability to inhabit otherwise prohibitive ecological niches.

67 with small ranges or increase the variety of ecological niches.

68 es, enabling these animals to occupy diverse ecological niches.

69 on it comprises a dramatically wide range of ecological niches.

70 nuclear loci (RAG-1, 1,054 bp; BDNF 529 bp), ecological niches (11 bioclimatic variables; 285 unique

71 ly among gradients, indicating divergence in ecological niche across the species' range.

72 transduction, providing insights into their ecological niche adaptations.

73 nstrained to persistent and clearly distinct ecological niches: advanced members of Pliosauridae (ran

74 delivering degradative enzymes to defend an ecological niche against competing bacterial species, an

75 r functions, which are enriched in the rumen ecological niche and could confer advantages to their ho

76 gus-growing ants occupy a highly specialized ecological niche and face the constant existential threa

77 ges of conditions, gradually expanding their ecological niche and geographic range?

78 discoveries about C. gattii genetics and its ecological niche and highlight areas ripe for future exp

79 ue organization associated with the animal's ecological niche and lifestyle.

80 represents a likely adaptation to a specific ecological niche and may have been promoted by intensive

81 henomena result from the invasion of a novel ecological niche and present a unique synthesis of molec

82 nerated via available metabolic pathways but ecological niche and substrate availability may also be

83 that these groups may compete for a similar ecological niche and suggesting possible mechanisms thro

84 ns of individual microbial players within an ecological niche and the extent and directionality of in

85 These lungworms share both the ecological niche and the species of snail (Helix aspersa

86 olic differences during growth in the tested ecological niches and an overall reprogramming following

87 the needs of organisms that occupy different ecological niches and face different environmental chall

88 tarhizium robertsii occupies a wide array of ecological niches and has diverse lifestyle options (sap

89 on, allowing adaptation to a wide variety of ecological niches and lifestyles.

90 associated with the exploitation of multiple ecological niches and likely played a key role in the di

91 ned host and endosymbiont can exploit vacant ecological niches and occupy novel environments [1, 2];

92 gy have led to a better understanding of the ecological niches and pathogenesis of the condition.

93 ons and replacements on the shift into novel ecological niches and subsequent lineage diversification

94 lved to help enteric bacteria adapt to their ecological niches and that it is unlikely that Lrp-relat

95 ng of their modes of adaptation to different ecological niches and the genes that determine their pat

96 hment of a "key innovation," which opens new ecological niches and/or new paths for evolution.

97 urished and diversified as they filled empty ecological niches, and some of them presaged later dinos

98 nswered question originated with the idea of ecological niches, and yet bears relevance today for und

99 are being rapidly elucidated, the effects on ecological niche are still largely unknown.

100 hylogenetic studies are revealing that major ecological niches are more conserved through evolutionar

101 ations that enable organisms to colonize new ecological niches are rare compared to gradual evolution

102 ation may allow this species to maintain its ecological niche as a commensal and during infection wit

103 opportunistic pathogens that share the same ecological niches as amoebae.

104 ly related alpha-proteobacteria with similar ecological niches as S. meliloti, suggesting that the Ct

105 sses are likewise advantageous for switching ecological niches, as in microbial pathogen host switch

106 Early chaetognaths apparently occupied ecological niches associated with predatory euarthropods

107 es cerevisiae strains sampled from different ecological niches (beer, bread, vineyards, immunocomprom

108 onment, exemplifying the emergence of stable ecological niche behavior in a model system.

109 he buccal mucosa appeared as an intermediate ecological niche between the plaque and the tongue.

110 Growth of S. meliloti is modelled in three ecological niches (bulk soil, rhizosphere and nodule) wi

111 plants, C4 photosynthesis does not shift the ecological niche, but broadens it, allowing dispersal in

112 ciated with the exploitation of a variety of ecological niches, but its developmental basis is unknow

113 Animals adapt their behaviors to specific ecological niches, but the genetic and cellular basis of

114 upports the idea that selection for a common ecological niche can produce a pattern that mimics sexua

115 to understand how species occupying similar ecological niches can co-exist because, with limited res

116 onstrate that diversification into different ecological niches can minimize selection against coopera

117 hese species suggests that the CF lung is an ecological niche capable of supporting the growth of a w

118 curred from an early recombination event, an ecological niche change, and/or asymmetric genome conver

119 ternative strategies and exploit alternative ecological niches, colour polymorphism can be expected t

120 from a more arboreal ancestor occupying the ecological niche common to all living apes.

121 distribution models (SDMs) based on current ecological niche constraints are used to project future

122 re not targeted by the vaccine occupying the ecological niche created by the elimination of these typ

123 phylogenetic and genomic diversity suggests ecological niche differentiation, but the selective forc

124 he open ocean and thus have consequences for ecological niche differentiation.

125 Light quantity and quality promotes ecological-niche differentiation of photosynthetic organ

126 infectious disease pathogen can be driven by ecological niche dissimilarities arising from different

127 Modelling ecological niche distributions of species offers a poten

128 s weakly influenced by richness-standardised ecological niche diversity, questioning the significance

129 nd (4) ecological, reflecting differences in ecological niche diversity.

130 arios in which expanding species track their ecological niche during climate change while adapting to

131 evolved to carry out precise tasks in unique ecological niches enable investigators not only to pose

132 of giant mammals was diversification to fill ecological niches, environmental temperature and land ar

133 ence records, we examine the relationship of ecological niche evolution to diversification in the lar

134 Arabidopsis thaliana differ greatly in form, ecological niche, evolutionary history, and genome size.

135 ygen concentration constrain the fundamental ecological niches (FENs) of marine invertebrates and fis

136 Parasitism is a major ecological niche for a variety of nematodes.

137 Medical devices provide an ecological niche for microbes to flourish as a biofilm c

138 he formation of root nodules that provide an ecological niche for nitrogen-fixing bacteria.

139 glucosamine metabolism suggests an important ecological niche for oral chloroflexi in scavenging mate

140 s about the role of microplastics as a novel ecological niche for potentially pathogenic microorganis

141 n observations, we characterize the realized ecological niches for 87 North Atlantic diatom and dinof

142 establishment, for example by providing new ecological niches for hybrids, it will have limited effe

143 the adaptation of Agaricus to the humic-rich ecological niche formed during biomass degradation.

144 nisms governing adaptation to the humic-rich ecological niche formed during plant degradation, furthe

145 Here we argue that ecological niches function at levels above species, nota

146 Population expansion into a novel ecological niche generated by human activity is the most

147 straints for two important dimensions of the ecological niche--growth rates and distribution along cl

148 The evolutionary trajectories of ecological niches have profound impacts on community, po

149 64 strains of S. aureus spanning a range of ecological niches, host types, and antibiotic resistance

150 shared optima, defined by a multidimensional ecological niche hypothesis.

151 f the atmosphere, and led to the creation of ecological niches important for early life.

152 cobacter pylori inhabits a highly restricted ecological niche in the human gastric mucosa.

153 cter pylori is highly adapted to its unusual ecological niche in the human stomach.

154 anisms, the Bacteroides species, maintain an ecological niche in the intestinal tract.

155 me gene expression to the composition of the ecological niche in which a microbe normally resides.

156 how to elucidate evolution in the context of ecological niches in any lineage of microbial eukaryotes

157 The sand flies have adapted to various ecological niches in distinct ecosystems.

158 orrespond to known functional units, such as ecological niches in food webs, modules in biochemical n

159 ration are associated with adaptation to new ecological niches in natural populations.

160 Microbes occupy countless ecological niches in nature.

161 pear to play a role in differentiating their ecological niches in the ocean environment.

162 This suggests that there may be ecological niches in which CyaA is not critical for the

163 r flexible capacity to take advantage of new ecological niches, including adapting to humans as prima

164 cterial species distributed across different ecological niches, including human, animals, plants, and

165 ssociated with aphid lineages colonizing new ecological niches, including novel plant species and cli

166 window into the molecular traits that define ecological niches, insight that we use to uncover source

167 nary relationship between genome content and ecological niche is one of the fundamental challenges of

168 Its ecological niche is the gingival crevice, where the orga

169 ghly prevalent human pathogens whose primary ecological niche is the superficial epithelial layers of

170 isolates of Acanthamoeba, and their natural ecological niche is unknown.

171 to colonize and survive in a wide variety of ecological niches is attributable, at least in part, to

172 ly diversification of angiosperms in diverse ecological niches is poorly understood.

173 um meliloti can occupy at least two distinct ecological niches; it is found in the soil as a free-liv

174 lzi, the African butterfly fish, inhabits an ecological niche just below the water surface.

175 ely related organisms usually occupy similar ecological niches, leading to intense competition and ev

176 ural selection drives adaptation to distinct ecological niches, leading ultimately to reproductive is

177 ency exchange among phages occupying similar ecological niches leads to a high degree of mosaic diver

178 When an altered ecological niche makes the minor innovation valuable, se

179 fied worldwide and now occupy many different ecological niches, making them ideal for testing theorie

180 indicative of adaptation to a rather strict ecological niche (mammalian skin).

181 In exploiting unique ecological niches many prokaryotes have evolved the mean

182 As mammals entered new ecological niches, many changes in tooth number occurred

183 heir time-frequency resemblances and (ii) an ecological niche model that helps identify plague suitab

184 Ecological niche modeling (ENM) has been used to address

185 We use ecological niche modeling (ENM) to identify areas adequa

186 We used two methodological approaches (ecological niche modeling [ENM] and geometric morphometr

187 Ecological niche modeling corroborates winter temperatur

188 tential areas of distribution of species via ecological niche modeling has become a very active field

189 e complementarity of population genetics and ecological niche modeling in understanding gene flow his

190 Ecological niche modeling indicated that changing climat

191 Here, we demonstrate how ecological niche modeling may be used to investigate the

192 Ecological niche modeling suggested that a gradual range

193 orary and future climate conditions, we used ecological niche modeling techniques in conjunction with

194 Using ecological niche modeling we investigated environmental

195 In this paper, we present phylogeographic, Ecological Niche Modeling, and morphometric analyses to

196 ith those of their diploid progenitors using ecological niche modeling, niche analyses, and multivari

197 Using ecological niche modeling, thermal tolerance experiments

198 coalescent-based genetic models [3, 4] with ecological-niche modeling [5, 6] to generate expectation

199 The coupling of genetic and ecological-niche modeling provides a new and flexible to

200 nvadable areas based on an ensemble of three ecological niche modelling methods, and evaluated the pe

201 ion by intergrating population genetics with ecological niche modelling of Litsea auriculata (Laurace

202 found within native House Crow lineages and ecological niche modelling predicts suitable climatic ar

203 We conclude that ecological niche modelling using recent locality records

204 We coupled ecological niche modelling with simulations of potential

205 distribution analyses, neutrality tests, and ecological niche models (ENM) and suggested the existenc

206 carbon dates of bat fossils with time-scaled ecological niche models (ENM) to study bat extinctions i

207 We examined the hypothesis that ecological niche models (ENMs) more accurately predict s

208 Here we use multilocus data and ecological niche models (ENMs) to test alternative GM mo

209 We combined ecological niche models (ENMs) with population genetic s

210 niche space, we created genetically informed ecological niche models (gENMs) using Populus fremontii

211 Historical range changes based on ecological niche models also failed to explain the obser

212 it has yet to be introduced, we trained 900 ecological niche models and constructed an Ensemble Mode

213 Over-the-edge transplant experiments and ecological niche models are commonly used to address thi

214 erformance of demographic models vs. simpler ecological niche models are still lacking owing to diffi

215 Ecological niche models calibrated with both native and

216 Therefore, ecological niche models can provide a reasonable first a

217 icting range changes at the grid-cell level, ecological niche models do as well, or better, than more

218 museum specimen occurrence data, we develop ecological niche models for 1,870 species occurring in M

219 endations that should promote more realistic ecological niche models for transfer across space and ti

220 use and dynamic climate variables in simpler ecological niche models improve forecasts of observed ra

221 upled ecological-niche-population models and ecological niche models in predicting documented shifts

222 Reciprocal geographic predictions based on ecological niche models of sister taxon pairs of birds,

223 Ecological niche models supported inference of drastic c

224 ul information for developing predictive and ecological niche models to guide management methods.

225 Using frogs as indicators, ecological niche models under paleoclimates, and simulta

226 Here we build ecological niche models using MAXENT and test whether se

227 In the setting of the particular ecological niche occupied by Leishmania, this combinatio

228 Broad ecological niches occupied by South Island giant moa (Di

229 da CRPs are considered in the context of the ecological niches occupied by these bacteria.

230 ago proposed that one could characterize the ecological niche of a species as an abstract mapping of

231 tter ant distribution, thereby expanding the ecological niche of an obligate host-microbe symbiosis.

232 enters a sensory system is a product of the ecological niche of an organism and the way in which the

233 ntal conditions, restricting or altering the ecological niche of asexual lineages.

234 According to one view, the ecological niche of diazotrophs is primarily controlled

235 d fitness via better adaptation to the local ecological niche of each species.

236 CAM in Eulophiinae orchids; characterize the ecological niche of extant taxa; infer divergence times;

237 nt of H. pylori genetic diversity within the ecological niche of its natural host, we harvested addit

238 -based systems, an understanding of the true ecological niche of organisms and the dynamic state of t

239 d forest fragmentation, may have altered the ecological niche of Pteropus species acting as natural H

240 lonization of the nasopharynx, the principal ecological niche of the pneumococcus.

241 onate-hosted methanotrophy extends the known ecological niche of these important methane consumers an

242 The spatial model showed that the ecological niche of these two flying fox species, the hu

243 laxed constraint associated with the altered ecological niche of this fly.

244 family, which may reflect the unique gastric ecological niche of this organism.

245 experimental approaches to characterize the ecological niches of species and directly assess the imp

246 olism may influence redox homeostasis in the ecological niches of these Helicobacter species.

247 in nutrient-poor environments that are known ecological niches of V. cholerae, including pond water a

248 survival is enhanced by occupying exclusive 'ecological' niches of the body.

249 originating and still occupying the coldest ecological niche on Earth, the Antarctic.

250 ing nematodes, which are found in almost any ecological niche on Earth.

251 nal groups that are associated with specific ecological niches or host species remains a challenge.

252 g a new host species, species invading a new ecological niche, or cancer cells invading a new tissue

253 perate within the constraint of conservative ecological niches, or if niche shifts occur at all commo

254 ties have been shaped, in large part, by the ecological niches our evolutionary ancestors occupied an

255 cement of gymnosperms by angiosperms in many ecological niches over time and the huge disparity in sp

256 ponses to global change incorporate shifting ecological niches, population dynamics, species interact

257 We found that more complex coupled ecological-niche-population models (that account for dis

258 the first comparison of the skill of coupled ecological-niche-population models and ecological niche

259 of the pathogen and concomitantly, fills the ecological niche provided by the stigma with a nonpathog

260 mixed layer to tropical coral reefs, and in ecological niches ranging from free-living plankton to s

261 cancer cells from primary tumors to distant ecological niches, rather than the primary tumors, is th

262 its, but how such traits directly affect the ecological niche remains poorly understood.

263 monstrated that microbes inhabiting the same ecological niche share common preferences for synonymous

264 cted spatial range shift and accelerates the ecological niche shift.

265 extinction because of both spatial range and ecological niche shifts.

266 We found that N. obtusa is exploiting novel ecological niche space in its introduced range, which ma

267 k into ever more densely occupied regions of ecological niche space.

268 ource of colonists and have abundant "empty" ecological niche space.

269 h is widely distributed in a great number of ecological niches such as soil and aquatic habitats.

270 greater the quantitative difference between ecological niches, the greater the importance of reticul

271 XLB occupy a highly specialized yet diverse ecological niche: the water-conducting systems of an ext

272 Ecological niche theory holds that species distributions

273 ing species range shifts in the framework of ecological niche theory may help to direct future resear

274 lect requirements associated with the unique ecological niche this agent occupies.

275 bits a unique ability to invade and adapt to ecological niches throughout tropical and subtropical re

276 astric mucosa, the bacterium survives in its ecological niche, thus favoring diseases ranging from ch

277 e traits that allow them to exploit distinct ecological niches, thus enabling multiple species to coe

278 l stages of the same animal occupy different ecological niches to avoid competing for food or other e

279 e whether H. hepaticus persists in specified ecological niches, to determine whether biomarkers of in

280 gated versus high-bodied shape, differential ecological niche use and genetic differentiation.

281 Additionally, we compared their ecological niches using eight ecological variables.

282 eathered dinosaurs and Mesozoic birds to new ecological niches was potentiated by rapid diversificati

283 These ecological niches were modeled using boosted regression

284 spp. and Borrelia spp.) or exist in a unique ecological niche where transmission from host to host is

285 populations of organisms occupying the same ecological niche, whose divergence is purged recurrently

286 ynanthropic nonhuman primates (NHP) share an ecological niche with humans, cross-species transmission

287 erent CRD1 and EnvB ESTUs occupying distinct ecological niches with regard to iron availability and t

288 tiple spatial scales, functional classes and ecological niches with transfer further enriched among b

289 l microbial population that occupies a broad ecological niche, with selection driving frequencies of

290 erial pathogen capable of colonizing diverse ecological niches within its human host.

291 ient-niche hypothesis, which states that the ecological niches within the intestine are defined by nu

292 ts is crucial for the adaptation to specific ecological niches within the very acidic, metal-rich env

293 present in samples collected from a range of ecological niches worldwide, including invertebrates and