ライフサイエンスコーパス: human activity

1 alized somewhere on the globe as a result of human activity.

2 Risk taking is central to human activity.

3 ed, implying a relatively larger impact from human activity.

4 treated as islands in an inhospitable sea of human activity.

5 fluents and aquatic environments impacted by human activity.

6 atterns of climate, vegetation (biomes), and human activity.

7 ic levels were not substantially impacted by human activity.

8 groundwaters are impacted and susceptible to human activity.

9 ses, some of which are presently affected by human activity.

10 mary driver of anthropogenic climate change: human activity.

11 dence provides a powerful proxy for studying human activity.

12 ce provides an attractive proxy for studying human activity.

13 onsequence of circadian and weekly cycles of human activity.

14 r habitats still comparatively unmodified by human activity.

15 lting from both climate change and increased human activity.

16 hwater ecosystems differentially affected by human activity.

17 of communities have recently been changed by human activity.

18 e changing at an unprecedented rate owing to human activity.

19 e cleanrooms, potentially carried along with human activity.

20 s, yet species are being rapidly lost due to human activities.

21 in areas threatened by increasing impact of human activities.

22 at alarming rates due to climate change and human activities.

23 gation-induced changes in water demands from human activities.

24 terial form is one of the most satisfying of human activities.

25 elease of crude oil from natural seepage and human activities.

26 bedrocks particular to this river basin and human activities.

27 tual interaction between natural factors and human activities.

28 onents of the budget as they are affected by human activities.

29 ystems already experience higher stress from human activities.

30 of this atmosphere aerosol with intensity of human activities.

31 ed States and Brazil are heavily impacted by human activities.

32 ts, many of which are negatively impacted by human activities.

33 h and without considering impacts of current human activities.

34 enormous amount of digital data produced by human activities.

35 China has been highly impacted by intensive human activities.

36 re threatened with extinction as a result of human activities.

37 tion of microbial communities in response to human activities.

38 inctions have centered on climatic change or human activities.

39 vidence that the observed trends result from human activities.

40 tures of regional hydrological processes and human activities.

41 cky Mountains and runs through a gradient of human activities.

42 e undergoing profound changes as a result of human activities.

43 in a world that is increasingly affected by human activities.

44 gical surfaces, with profound impact on many human activities.

45 this trend was due to natural variations or human activities.

46 ivers has been incremented by about 15% from human activities.

47 eceded domestication or were precipitated by human activities.

48 ine sites lacking obvious adverse effects of human activities.

49 ar geographic origin, morphology, or role in human activities.

50 sity, but are under considerable threat from human activities.

51 of the riparian zones have been disturbed by human activities.

52 ost likely shaped by commensalism related to human activities.

53 ious low-frequency motions, such as everyday human activities.

54 are poorly understood and are threatened by human activities.

55 Our results unveil a hidden footprint of human activities.

56 ices but are rapidly disappearing because of human activities.

57 ely affected by contamination resulting from human activities.

58 tions outside their natural range because of human activities.

59 into the Antarctic environment through local human activities.

60 g to these elements as potential proxies for human activities.

61 l communities that interact most with modern human activities.

62 ) reduction of the development footprint and human activity, (2) maintenance of undeveloped, 'refuge'

63 ly originate in pristine environments, while human activities accelerate the dissemination of ARGs so

64 data, we highlight the long-term history of human activities across central African forests and asse

65 nvironment, and in man-made forms created by human activity across a variety of industries.

66 Noise-generating human activities affect hearing, communication and movem

67 osystem-services framework to understand how human activities affect the flow of benefits, to create

68 Bottom trawling is the most widespread human activity affecting seabed habitats.

69 Proxies of past climate suggest that human activity alone, rather than unusually dry or warm

70 ht that overharvesting effects resulted from human activity alone.

71 The extent to which human activities alter SOA formation from biogenic emiss

72 re in rapid decline on a global scale due to human activities and a changing climate.

73 s they support, are facing severe threats by human activities and climate change.

74 osystems but are being degraded worldwide by human activities and climate warming.

75 in the course of various natural events and human activities and converts to methylmercury by anaero

76 are incomplete without information on local human activities and ecological context.

77 Regime shifts triggered by human activities and environmental changes have led to s

78 The impacts of local human activities and global environmental change nonethe

79 We suggest that both human activities and natural climate change influenced p

80 ion in vegetation growth was also related to human activities and natural disturbances.

81 e considerably important for a wide range of human activities and natural ecosystems.

82 systems to encourage greater harmony between human activities and nature.

83 This study also shows that the increase of human activities and nutrient release is leading to hypo

84 Since the late 1800s , human activities and the ecological effects of recent hi

85 al data on the distribution and intensity of human activities and the overlap of their impacts on mar

86 relationships between cumulative stress from human activities and valued ecosystem services.

87 The interaction between human activities and watershed geology is accelerating l

88 Human activity and associated landscape changes in the r

89 Patterns of deliberate human activity and behavior are of utmost importance in

90 ridization, dominance drive, hybrid fitness, human activity and climate change.

91 The long-term interaction between human activity and climate is subject to increasing scru

92 tal samples and also to assess the impact of human activity and interactions with plants or other mic

93 es whose populations have been fragmented by human activity and is protected wherever it is considere

94 resistance genes has been enhanced by modern human activity and its influence on the environmental re

95 Correlations between human activity and major compositional gradients, or spe

96 datasets and thus, quantifies the effect of human activity and natural processes on [Formula: see te

97 Visual search is a dominant human activity and provides not only a window into how b

98 Human activity and related land use change are the prima

99 cting subsystems, elucidate the influence of human activities, and explore possible future changes.

100 ts and interactions with landscape settings, human activities, and other factors.

101 rcadian biological timing with the timing of human activity, and is caused by rapid transmeridian tra

102 Underwater noise from human activities appears to be rising, with ramification

103 Ignitions caused by human activities are a substantial driver of overall fir

104 Human activities are altering many factors that determin

105 Given the speed and extent with which human activities are altering marine risk landscapes, it

106 Human activities are altering natural patterns of tropic

107 ic rescaling (STAR) hypothesis suggests that human activities are altering the scales of ecological p

108 Human activities are causing a global proliferation of c

109 Human activities are causing rapid environmental change

110 f evidence that collectively suggest diverse human activities are changing marine ecosystems, includi

111 t growth and microbial functioning; however, human activities are drastically altering the magnitude

112 Simultaneously, human activities are drastically reducing biodiversity.

113 hemical cycles and the climate system due to human activities are expected to change the quantity and

114 Human activities are fundamentally altering the chemistr

115 These results demonstrate the effects that human activities are having in an area of high global co

116 Species extinction rates due to human activities are high, and initial extinctions can t

117 Timings of human activities are marked by circadian clocks which in

118 imate, but it seems increasingly likely that human activities are playing a significant role.

119 Human activities are releasing gigatonnes of carbon to t

120 Human activities are releasing tiny particles (aerosols)

121 Human activities are significantly altering nutrient reg

122 Human activities are thus modifying the small mammal com

123 les can be studied due to the fact that many human activities are usually recorded in the present dig

124 into the outdoor air from natural events or human activity are an important concern affecting public

125 Patterns of daily human activity are controlled by an intrinsic circadian

126 Indirect, risk-based effects of human activity are known to be important in structuring

127 redominate and that isolated reefs, far from human activities, are generally healthier and more resil

128 ne, both of which are strongly influenced by human activities, are the most likely causes of observed

129 review is organized around four themes: (i) human activities as drivers of change; (ii) variability

130 o incidental harm from an expanding array of human activities at sea.

131 past variations in climate, disturbance, and human activity before European colonization.

132 Species moved by human activities beyond the limits of their native geogr

133 or continuous or discontinuous monitoring of human activity, biological signals such as Electroenceph

134 mmunity for its importance in many fields of human activities, but also for concerns on its effect on

135 an environments and modest correlations with human activity, but global-scale patterns have not been

136 eltas of Greenland are largely unaffected by human activity, but increased freshwater runoff and sedi

137 he most widespread genetic changes caused by human activity, but we still understand little about the

138 The complex nature of ecosystem responses to human activities calls for more elaborate approaches tha

139 Human activities can also influence the global distribut

140 Supplemental food provided to wildlife by human activities can be more abundant and predictable th

141 Human activities can create noise pollution and there is

142 Our results suggest that human activities can leave a legacy on wild birds throug

143 presents new and timely evidence of the role human activities can play in shaping evolutionary trajec

144 Natural and human activities can result in both high temporal and sp

145 Human activity can degrade ecosystem function by reducin

146 For example, human activity can strongly alter riparian vegetation, p

147 Here we assess whether it is plausible that human activity caused these earthquakes.

148 Novel selective pressures derived from human activities challenge the persistence of animal pop

149 pulation declines and extinctions because of human activities, combined with a growing recognition th

150 MPAs that restrict fishing and other human activities conserve habitats and populations and,

151 ant "joint attribution," a two-step linkage: human activities contribute significantly to temperature

152 However, human activity could strongly exacerbate certain landsca

153 es, along with relevant exposure factors and human activity data, are then used by the model to rapid

154 ctic, a region under increasing influence of human activities due to increased land and sea use.

155 ates attributable to the combined effects of human activities, ecological, and climate changes.

156 his environment is increasingly disturbed as human activity encroaches on previously unexposed region

157 he carbon dioxide added to the atmosphere by human activity enters the sea, causing ocean acidificati

158 seem to have been distributed as a result of human activities, especially commerce.

159 Human activities, especially conversion and degradation

160 Human activity has become a significant geomorphic force

161 se of fossil fuel CO(2) to the atmosphere by human activity has been implicated as the predominant ca

162 Over the past 100 years, human activity has greatly changed the rate of atmospher

163 The degree to which human activity has impacted the natural plant communitie

164 at various temporal and spatial scales, and human activity has reduced these interactions at all sca

165 Human activities have altered the biogeochemical cycle o

166 tely 0.95) than deep waters, suggesting that human activities have altered the isotope composition of

167 Emissions of greenhouse gases due to human activities have been well documented as well as th

168 surface has warmed, and models indicate that human activities have caused part of the warming by alte

169 Human activities have changed the acoustic environment o

170 ence is not always straightforward, but some human activities have clear impacts.

171 Human activities have doubled the pre-industrial supply

172 Human activities have dramatically altered rates and sca

173 Human activities have eliminated natural disturbances an

174 Human activities have greatly increased the availability

175 Human activities have increased N availability dramatica

176 Human activities have increased the availability of reac

177 d without anthropogenic forcings reveal that human activities have increased the probability that dry

178 Human activities have increased the range, intensity, an

179 amatically on Earth over the past century as human activities have intensified.

180 Human activities have more than doubled the amount of ni

181 Human activities have negatively impacted many species,

182 namata convention seeks to reduce the impact human activities have on Hg releases to the environment.

183 Human activities have placed populations of many endange

184 Human activities have released large amounts of toxic or

185 Rapid climate change and intensified human activities have resulted in water table lowering (

186 Human activities have significantly altered atmospheric

187 icates that increased phosphorus inputs from human activities have stimulated nitrogen removal proces

188 Human activities have substantially changed the world's

189 e identification and modeling of patterns of human activity have important ramifications for applicat

190 ent of insecticide resistance, together with human activities, have made these insects global pests.

191 eeps, which we hypothesize to be a result of human activity, have drastically reshaped the global C.

192 each sampling site, which may be related to human activities historically developed in those areas.

193 s issue is to observe particular features of human activities, i.e., cultural traits, such as names g

194 ding how natural environmental variation and human activity impact cancer risk, with potential implic

195 Major climate events can affect human activities in critical conjunctures that shape par

196 mes the annual atmospheric Hg emissions from human activities in Oregon.

197 nimals can support both ocean ecosystems and human activities in the future.

198 cluding farming, atmospheric deposition, and human activities in urban areas, causing concerns of pot

199 ancial securities, we analyze the correlated human activity in massive social organizations.

200 hows that there were two distinct periods of human activity in the cave, one from 37 to 33,500 y ago,

201 on dates, mainly related to the rock art and human activity in the cave.

202 The significant increase in traces of human activity in the environment worldwide provides evi

203 om ca. 5000 years ago until the present, and human activity in the watershed was revealed through the

204 Human activities increasingly take place in online envir

205 riencing elevated retreat because of intense human activities, induced a geomorphic feedback that amp

206 thesis that habitat fragmentation induced by human activities influences song complexity and song sha

207 Stressors associated with human activities interact in complex ways to affect mari

208 large herbivores on ecosystems before modern human activities is an open question in ecology and cons

209 creased production of 'greenhouse gases' via human activities is now widely accepted.

210 e importance of ecosystems in sustaining all human activities is well-known, methods for sustainable

211 Habitat destruction resulting from human activity is a serious threat to biodiversity.

212 Human activity is creating a global footprint by changin

213 s of lake systems to past climate change and human activity is critical for assessing and predicting

214 y of primary energy needed to support global human activity is in large part determined by how effici

215 t time distribution suggests that deliberate human activity is inherently non-Poissonian.

216 Human activity is intensifying fungal disease dispersal

217 Human activity is leaving a pervasive and persistent sig

218 Human activity is rapidly transforming most of Earth's n

219 n into a novel ecological niche generated by human activity is the most probable explanation for the

220 itive to increasing risks arising from local human activities, land subsidence, regional water manage

221 and sewage, as well as by the periodicity of human activities like fishing or traveling.

222 This fragmentation by human activities limits species' ability to track suitab

223 a greater use of hydrocarbon fuels for most human activities, making civilization vulnerable to decr

224 ever, it is possible to estimate by how much human activities may have increased the risk of the occu

225 egimes in response to changes in climate and human activity may be difficult to predict.

226 n hemisphere (NH) aerosol sources shows that human activities must have accounted for most of the ins

227 has been reconstituted using seven purified human activities: MutSalpha, MutLalpha, EXOI, replicatio

228 Here, we show that human activity, not biological invasion, is the primary

229 ably the result of the introduction, through human activity, of a V. cholerae strain from a distant g

230 Online traces of human activity offer novel opportunities to study the dy

231 For the purpose of detecting the effects of human activities on climate change, it is important to d

232 The negative impact of human activities on current biodiversity will not become

233 for evaluating quantitatively the effect of human activities on environmental conditions, such as th

234 ncreasing impact of both climatic change and human activities on global river systems necessitates an

235 Impacts of human activities on green sturgeon or their habitat in c

236 Human activities on land increase nutrient loads to coas

237 spite increasing concern over the effects of human activities on marine ecosystems, extinction in the

238 ssential for determining the impacts of past human activities on marine environments.

239 The impact of human activities on our planet's natural systems has bee

240 easts are likely to reflect the influence of human activities on structural genome evolution.

241 concentrations) and to assess the impact of human activities on the arsenic problem.

242 Understanding the importance of human activities on TOC changes requires knowledge of pa

243 d wine isolates reflects the crucial role of human activities on yeast population structure, through

244 information about fire, climate changes, and human activity on multiple temporal scales.

245 portant flaviviruses, consider the effect of human activity on their evolution and dispersal, and dra

246 ral and industrial sources as well as varied human activities or even from the air itself to methanol

247 high intrinsic risk are strongly affected by human activity or climate change.

248 from any natural or industrial source, from human activities, or even from the air itself.

249 y address one of the fundamental features of human activity: our ability to acquire new ideas from ex

250 vatively estimate the environmental costs of human activities over 1961-2000 in six major categories

251 Human activities over the last several centuries have tr

252 However, because of human activities, over half of the wetland ecosystems ex

253 l, compelling evidence that at least one key human activity, overfishing, can lead to distinct, casca

254 distribution of native vascular plants with human activity patterns in California.

255 s to be much less active during the day when human activity peaked.

256 The role human activities play in reshaping biodiversity is incre

257 Our results suggest that human activities played a dominant role in deduction in

258 increasing evidence that the timing of many human activities, ranging from communication to entertai

259 ) predictive DNA sequence analysis and (iii) Human activity recognition (HAR).

260 The best-fitting model entails a change in human activity regarding contacts not related to househo

261 These findings suggest that the SCN impacts human activity regulation at multiple time scales and th

262 d with the same tools to reveal variation in human activities, relationships, and interactions as the

263 Increased nutrient mobilization by human activities represents one of the greatest threats

264 , to the mid-20th century when unprecedented human activities resulted in exponential increases in po

265 The alarm clock can drive human activity rhythms but has little direct effect on o

266 riterion is that the radiant energy added by human activities should not exceed 2.5 (range: 1.7-4) wa

267 Human activities significantly influence these physical

268 Increases in noise-generating human activities since the Industrial Revolution have ch

269 h sea turtles face significant pressure from human activities, some populations are recovering due to

270 shift in isoprene photooxidation, sparked by human activities, speaks to ongoing and possible future

271 Human activities such as carbon capture and storage and

272 Furthermore, a potential role for human activities such as domestication and industrialisa

273 ecies, storms and global change or by direct human activities such as overfishing and water pollution

274 patially explicit manner and then co-mapping human activities such as the placement of renewable ener

275 osystems must strengthen connections between human activities, such as agricultural or harvesting pra

276 mine the extent of overlap with area-focused human activities, such as fishing.

277 lso subject to indirect impacts arising from human activity, such as acid deposition (sulphur and nit

278 But human activities-such as fossil fuel combustion, fertili

279 ity that life histories may be influenced by human activities that alter environmental conditions in

280 vulnerability of coastal communities and how human activities that caused deterioration of the Missis

281 We have partially purified a human activity that restores mismatch-dependent, bi-dire

282 In a world already transformed by human activity, the connection between humans and the ec

283 test these predictions on four data sets of human activity: the edit events of Wikipedia pages, the

284 Indirectly produced by human activities, they are released into the environment

285 -restricted, degraded wetlands are caused by human activity, they are anthropogenic emissions, and re

286 The rapid expansion of human activities threatens ocean-wide biodiversity.

287 Nitrogen is indispensable for sustaining human activities through its role in the production of f

288 standing contributions of climate change and human activities to changes in streamflow is important f

289 e have arisen concerning the contribution of human activities to the warming observed in previous dec

290 onnes) of mercury (Hg) have been released by human activities up to 2010, 73% of which was released a

291 as rich in endemic species and threatened by human activities), was more rapid than aggregate populat

292 (N) and phosphorus (P) to ecosystems due to human activities, we lack a predictive understanding of

293 It is also noted that the human activities were identified as the dominant driving

294 rease in Southern Ocean winds resulting from human activities, which is projected to continue in the

295 ing law to long-term correlation patterns in human activity, which surprisingly span from days to the

296 e selected aquifers in Iran are dominated by human activities, while the selected aquifers in Germany

297 conclude that in coastal areas dominated by human activities whole fractions of the UCM, as well as

298 ict that most fragmentation events caused by human activities will facilitate not speciation, but loc

299 ndirect response of soils to past and future human activities will play a major role in human prosper

300 amics have focused on the normal patterns of human activities, with the quantitative understanding of