ライフサイエンスコーパス: extreme weather

1 nd climate change (such as flooding and more extreme weather).

2 , which offers protection from predators and extreme weather.

3 ur decades, linked to significant impacts on extreme weather.

4 nsion in understanding the social impacts of extreme weather.

5 rbanization influences regional climates and extreme weather.

6 ts are highly vulnerable to the detriment of extreme weather.

7 nerable to the effects of climate change and extreme weather.

8 al loss is one of the most costly impacts of extreme weather(1-3), and without mitigation, climate ch

9 tions demonstrated variation in responses to extreme weather across species' ranges, with predicted d

10 re to determine: (i) how 2-year sequences of extreme weather affect 2-year cumulative N losses across

11 Extreme weather and air pollution are associated with in

12 Extreme weather and climate change-related health impact

13 Increasing frequency of extreme weather and climate events (EWCEs) is one of the

14 The increasing frequency and intensity of extreme weather and climate events (EWCEs), such as hurr

15 In 2021, extreme weather and climate events caused preventable in

16 Extreme weather and climate events, such as heat waves,

17 iological changes are linked to responses to extreme weather and climate events.

18 and the related increase in the incidence of extreme weather and climate events.

19 Extreme weather and coronavirus-type pandemics are both

20 demonstrate an important interaction between extreme weather and disturbance by fire that may make fl

21 Many of these risks, including extreme weather and drastic inflation, pose significant

22 references, although the association between extreme weather and experience and climate change is mor

23 the costs of increased power outages due to extreme weather and natural disasters, and the urgency f

24 sms through which the adversity unleashed by extreme weather and potentially other natural disasters

25 earliest consequences of climate change are extreme weather and rising sea levels-two challenges to

26 ion infrastructure plays a vital role during extreme weather and supply disruptions and can enable lo

27 concern different scales: One quantifies the extreme weather and the other the mean climate.

28 imate is expected to become warmer with more extreme weather and variable precipitation, resulting in

29 iable measure for climate-related changes in extreme weather, and can be used for better risk assessm

30 ecreational opportunities are compromised by extreme weather, and children may suffer delayed cogniti

31 nst a backdrop of shattered climate records, extreme weather, and climate events in 2023 that resulte

32 and health crises due to disease outbreaks, extreme weather, and conflict.

33 ciated with sea-level rise, land subsidence, extreme weather, and public health.

34 ecially worry and perceived vulnerability to extreme weather, are the strongest predictors.

35 stical and climate-model-based approaches to extreme weather attribution.

36 With extreme weather becoming ever more frequent due to globa

37 Given the rising risk of extreme weather caused by climate change, enhancement of

38 ith legacy contaminant remobilization due to extreme weather climate effects and past remedial action

39 62.1% of 8+ hour outages co-occur with extreme weather/climate events, particularly heavy preci

40 paredness for compound health crises such as extreme weather coinciding with pandemics.

41 s surpassing these limits, especially during extreme weather conditions and due to transboundary dust

42 ntration of PM2.5 that can be exposed during extreme weather conditions and natural events aligns wit

43 nd greenhouse gases are alarmingly high, and extreme weather conditions are becoming increasingly com

44 Extreme weather conditions associated with climate chang

45 ing that increased variability and resulting extreme weather conditions may be more difficult for soc

46 firm that refugee populations are exposed to extreme weather conditions postdisplacement, which, in c

47 tions are exposed to increasingly severe and extreme weather conditions that can promote migration.

48 assify turnout support deteriorations facing extreme weather conditions which will be beneficial for

49 Atmospheric rivers (ARs), responsible for extreme weather conditions, are mid-latitude systems tha

50 Favored by extreme weather conditions, fire activity has dramatical

51 The findings also suggest that extreme weather conditions, which are likely to increase

52 fire management strategies and increases in extreme weather conditions.

53 hts the resiliency of turtles in response to extreme weather conditions.

54 fer more on weekends, holidays and days with extreme weather conditions.

55 h boundaries to wave action under normal and extreme weather conditions.

56 ses across the globe resulting from reported extreme weather disasters during 1964-2007.

57 detailed regional accounts of the effects of extreme weather disasters exist, the global scale effect

58 In recent years, several extreme weather disasters have partially or completely d

59 lation, utility provider practices, and more extreme weather driven by climate change.

60 s compounding the population health risks of extreme weather episodes.

61 ng to profound practical consequences of the extreme weather event for local adaptation, population r

62 al inequalities in climate change-attributed extreme weather event impacts.

63 Here, we study this impact during an extreme weather event observed over Israel on January 8

64 within 87 countries in the year that a major extreme weather event occurred, with a targeted focus on

65 nge in nutrient supply during the year of an extreme weather event relative to its historical context

66 shorebird population were interrupted by an extreme weather event that coincided with spring migrati

67 The effect of an extreme weather event was especially magnified among lan

68 can likely withstand the consequences of an extreme weather event.

69 tive percentage change during the year of an extreme weather event; of these effects, those that reac

70 Extreme weather events (e.g., cyclones, floods, droughts

71 in frost and moisture conditions as well as extreme weather events (e.g., drought- and heat-stress,

72 synergistically determine their response to extreme weather events (EWE) remains poorly understood.

73 ted the frequency, intensity, and impacts of extreme weather events (EWEs), such as tropical cyclones

74 Extreme weather events (EWEs; for example, heatwaves, co

75 k between weather variables, e.g., rainfall, extreme weather events (floods/droughts), seasonality, a

76 This review examines the trends in extreme weather events (including temperature extremes,

77 increases in the prevalence and severity of extreme weather events accompanying changes in climatic

78 ents and socio-environmental consequences of extreme weather events across the region via an anti-col

79 rivers (ARs) play important roles in various extreme weather events across the US.

80 to withstand harsh conditions, and although extreme weather events affect their breeding success and

81 tent results for self-reported experience of extreme weather events and climate change attitudes and

82 limate change has increased the frequency of extreme weather events and compounded natural disasters.

83 in observed trends and future projections in extreme weather events and discuss the associated uncert

84 ilience of invertebrates in cereal fields to extreme weather events and examined the effect of long-t

85 tems thinking to develop a framework linking extreme weather events and HIV and summarised the result

86 not establish a causal relationship between extreme weather events and HIV incidence, highlighting a

87 This work quantifies the influences of extreme weather events and land use practices on Escheri

88 ging global changes such as climate warming, extreme weather events and nitrogen deposition.

89 climate change impacts, including those from extreme weather events and slow-onset events such as sea

90 in predicting the ecological consequences of extreme weather events and the key role of behavioural f

91 Understanding the spatial variation of extreme weather events and their health impacts is criti

92 Oscillation (ENSO) is a key driver of global extreme weather events and vegetation dynamics, its impa

93 Extreme weather events are associated with disruptions t

94 tic is facing higher summer temperatures and extreme weather events are becoming more common.

95 Extreme weather events are becoming more severe due to c

96 Extreme weather events are expected to increase due to c

97 emperature fluctuations and the frequency of extreme weather events are increasing, it is needed to e

98 Extreme weather events are intensified by the Mediterran

99 ms to public health is likely to increase as extreme weather events are predicted to become more freq

100 Although extreme weather events are predicted to increase in freq

101 nstability as the frequency and intensity of extreme weather events are predicted to increase.

102 Climate change-amplified extreme weather events are reshaping ecological communit

103 g of people living with HIV during and after extreme weather events are warranted.

104 shown a marked increase since the 1990s, and extreme weather events arising from climate change have

105 obal climate patterns continue to change and extreme weather events become increasingly common, it is

106 As the world warms and extreme weather events become more common, this diagnost

107 ommunities in developing countries cope with extreme weather events brought by climate change: (i) th

108 Our results demonstrate that extreme weather events can cause legacy effects in soil

109 elated preservation biases, illustrating how extreme weather events can distort the fossil record.

110 ovide unexpected further mechanisms by which extreme weather events can threaten wildlife health, pop

111 e dual forces of landscape fragmentation and extreme weather events continue to intensify, researcher

112 High-intensity fires associated with extreme weather events could accelerate this degradation

113 In Alaska, repeated extreme weather events coupled with climate change-induc

114 Extreme weather events disproportionately affect vulnera

115 ddition, we establish conditions under which extreme weather events drive both prey and predator popu

116 With the increase in extreme weather events due to climate change and the con

117 Extreme weather events during the winter and spring seas

118 Attribution of extreme weather events has expanded rapidly as a field o

119 Extreme weather events have become a dominant feature of

120 The earth is warming, and the frequency of extreme weather events have been rapidly growing globall

121 Long-term climate change and near-term extreme weather events have multiple negative effects on

122 Extreme weather events have the potential to alter both

123 el presented a robust yield estimation under extreme weather events in 2012, which reduced the root-m

124 step toward mitigating risks associated with extreme weather events in a future warmer world.

125 Extreme weather events in Asia have been occurring with

126 ncreased risk of summer heat waves and other extreme weather events in Europe's future.

127 rctic and midlatitudes has been connected to extreme weather events in midlatitudes via, e.g., shifts

128 hey could exacerbate or mitigate warming and extreme weather events in the future, depending on their

129 othermality, which are likely to change with extreme weather events in the future.

130 (QRA) have been linked to persistent summer extreme weather events in the Northern Hemisphere.

131 nsus tracts spanning 16 states and across 12 extreme weather events in the USA from 2007 to 2023 usin

132 Economic losses from extreme weather events increased by 23% between 2010-14

133 g a carbon neutrality pathway on climate and extreme weather events individually using the Community

134 asonal loss of Arctic sea ice to midlatitude extreme weather events is applied to the 21st-century in

135 for critical infrastructure failures during extreme weather events is rising.

136 uture abiotic stresses on ecosystems through extreme weather events leading to more extreme drought a

137 o closures and disruptions, especially after extreme weather events like hurricanes.

138 of advanced age-inviting the hypothesis that extreme weather events may accelerate aging.

139 wave, suggesting that habitat loss following extreme weather events may have prolonged, negative impa

140 Hence, extreme weather events may lead to failure of biological

141 This implies that extreme weather events may lead to predator extinction a

142 more reliable and forecast probabilities of extreme weather events more accurately.

143 Adaptation to extreme weather events often occurs in response to an ev

144 s occupancy model to quantify the effects of extreme weather events on a coastal freshwater wetland s

145 The goal was to assess the impact of recent extreme weather events on acute NOM concentration increa

146 We aimed to investigate the effects of extreme weather events on HIV testing uptake, HIV treatm

147 The global effects of extreme weather events on nutrient supply found in this

148 To date, the effects of extreme weather events on nutrient supply within the pop

149 buted to or exacerbated the effects of these extreme weather events on the biota of isolated coastal

150 This study investigates the effects of extreme weather events on the efficacy of biological con

151 Extreme weather events perturb ecosystems and increasing

152 Extreme weather events pose a risk to health and disprop

153 increased mean temperatures and frequency of extreme weather events predicted.

154 ttent renewable generation and more frequent extreme weather events put stress on the electricity gri

155 Extreme weather events radically alter ecosystems.

156 Although extreme weather events recur periodically everywhere, th

157 We showed that invasive rabbits and extreme weather events reduce reproductive output in alb

158 ion of change and spatial co-localisation of extreme weather events since 1961.

159 Extreme weather events strongly influence marine, freshw

160 Extreme weather events such as droughts decrease agricul

161 Trends in climate suggest that extreme weather events such as heat waves will become mo

162 ctions, and most notably outbreaks linked to extreme weather events such as heatwaves in temperate re

163 Better warnings for extreme weather events such as hurricanes and cyclones w

164 Extreme weather events such as hurricanes and floods cau

165 Beyond invasive lionfish, we suggest that extreme weather events such as hurricanes likely help to

166 In many regions across the globe, extreme weather events such as storms have increased in

167 change is already increasing the severity of extreme weather events such as with rainfall during hurr

168 emisphere has a stronger jet stream and more extreme weather events than the Northern Hemisphere.

169 riation in disease outbreaks associated with extreme weather events that are becoming more common wit

170 Heat waves are extreme weather events that have been associated with ad

171 Marine heatwaves (MHWs) are extreme weather events that have major impacts on the st

172 nge increases the frequency and intensity of extreme weather events that negatively impact wildlife,

173 This suggests that extreme weather events that only impact the initial popu

174 Extreme weather events threaten food security, yet globa

175 We identified five main themes linking extreme weather events to HIV: economic and livelihood c

176 oncomitant aerosol reductions on climate and extreme weather events under carbon neutrality in the fu

177 we propose a methodology for attribution of extreme weather events using the operational European Ce

178 Plausible future P-loss due to extreme weather events was then modelled using climate c

179 ation growth in flood-prone regions and more extreme weather events will increase the number of peopl

180 lity and is predicted to cause more frequent extreme weather events with higher levels of heat and co

181 utrient, and fibre supply changes during 175 extreme weather events within 87 countries in the year t

182 ht) and climate change (eg, heat, wildfires, extreme weather events) are increasingly recognized as c

183 in Europe, through more frequent and severe extreme weather events, alterations to water and food sy

184 ures such as air pollution, heat, wildfires, extreme weather events, and biodiversity loss significan

185 ning exposure to temperature, precipitation, extreme weather events, and malnutrition to discuss find

186 tal changes including temperature elevation, extreme weather events, and rising air pollution.

187 Climate change intensifies extreme weather events, and these events trigger cascadi

188 tory health threats-heat, wildfires, pollen, extreme weather events, and viruses-and discuss their im

189 f climate change, such as sea-level rise and extreme weather events, are expected to increase and alt

190 though climate change impacts, particularly extreme weather events, are known to disproportionally a

191 n addition to causing arctic ice melting and extreme weather events, climatologic factors are linked

192 Climate change-driven extreme weather events, combined with increasing tempera

193 alone and must also include interactions of extreme weather events, fire, and land-use change.

194 Extreme weather events, including droughts, are expected

195 Climate change is intensifying extreme weather events, including marine heatwaves, whic

196 The NRE is impacted by extreme weather events, including recent increases in pr

197 Our analysis shows that in the aftermath of extreme weather events, lower-income neighbourhoods are

198 tical to increase our capability to forecast extreme weather events, manage water resources, and opti

199 rgue that experience of climate variability, extreme weather events, or weather-related events and cr

200 patterns as well as increased occurrence of extreme weather events, posing an immediate threat to ag

201 d average temperatures and more frequent and extreme weather events, pressure from biotic stresses wi

202 wer grids are increasingly under strain from extreme weather events, such as heatwaves, high winds, a

203 round-level ozone, 45 wildfire smoke, and 63 extreme weather events, such as hurricanes, dust storms,

204 Extreme weather events, such as hurricanes, were associa

205 severe convective storms are representative extreme weather events, the heaviest rainfall events are

206 With intensifying climate and extreme weather events, the possibility of redistributio

207 is a critical precursor to preparedness for extreme weather events, understanding Americans' percept

208 ions are becoming increasingly vulnerable to extreme weather events, which are responsible for most n

209 Climate change is intensifying extreme weather events, with severe implications for eco

210 Simultaneously, extreme weather events-such as tropical cyclones, megafi

211 inental-scale events including wildfires and extreme weather events.

212 sters, such as hurricanes, floods, and other extreme weather events.

213 ctioning, such as aboveground biomass, after extreme weather events.

214 velihoods will increasingly be threatened by extreme weather events.

215 Climate change is intensifying extreme weather events.

216 power supply in a secure manner to withstand extreme weather events.

217 domised controlled trials related to HIV and extreme weather events.

218 w studies have examined natural disasters or extreme weather events.

219 est fires, desert (dust and sand) storms and extreme weather events.

220 lnerability of nursing home residents during extreme weather events.

221 uency, intensity, timing and distribution of extreme weather events.

222 o increasingly at risk from life-threatening extreme weather events.

223 r accurate weather forecasting and analyzing extreme weather events.

224 ases global temperature and the frequency of extreme weather events.

225 rucial for enhancing community resilience to extreme weather events.

226 nhanced observability of roadways in case of extreme weather events.

227 l and subtropical Americas are vulnerable to extreme weather events.

228 g to reduce the food system vulnerability to extreme weather events.

229 f natural selection, such as those involving extreme weather events.

230 the forecasting of ecological outcomes under extreme weather events.

231 AE performance substantially, especially for extreme weather events.

232 t may explain unequal community responses to extreme weather events.

233 d governance can support risk reduction from extreme weather events.

234 groups examined, eleven proved sensitive to extreme weather events.

235 monthly fluctuations that we associate with extreme weather events.

236 her aspects of climate, such as rainfall and extreme weather events.

237 requency and intensity of both warm and cold extreme-weather events, contemporary climate change will

238 istance to increased climate variability and extreme weather expected under global warming.

239 ational autoencoders (VAE) better synthesize extreme weather fields from conventional historical trai

240 and consider the effects of global warming, extreme weather, flooding and other consequences of clim

241 rvention efforts, as rising temperatures and extreme weather (for example, wildfires, dust storms) in

242 e El Nino-Southern Oscillation (ENSO) shapes extreme weather globally, causing myriad socioeconomic i

243 Extreme weather has major implications for state and nat

244 The observed increase in extreme weather has prompted recent methodological advan

245 Our results highlight that extreme weather has variable and potentially strong impl

246 Understanding extreme weather impacts on staple crops such as wheat is

247 Persistent episodes of extreme weather in the Northern Hemisphere summer have b

248 Extreme weather, including heat waves, droughts, and hig

249 synergistic effects of movement barriers and extreme weather increased mortality rates by 3.7-fold su

250 Here, we examine how extreme weather influences the likelihood of undocumente

251 Extreme weather is common in high malaria burden areas a

252 As the frequency of extreme weather is expected to increase, these data sugg

253 f a climate change effect in which a type of extreme weather is likely to decrease, rather than incre

254 Projected increases in extreme weather may change relationships between rain-re

255 Changes in the frequency and severity of extreme weather may introduce new threats to species tha

256 Climate physical risk is mainly caused by extreme weather, natural disasters and other events caus

257 ween corn and soybean mitigate the effect of extreme weather on N losses.

258 Cover crops reduced the effects of extreme weather on NO3(-) leaching but had a lesser effe

259 lation exposure (frequency and intensity) to extreme weather over the coming decades.

260 Increased temperatures and more extreme weather patterns associated with global climate

261 Notably, the increasingly extreme weather patterns associated with ongoing anthrop

262 e European rabbits Oryctolagus cuniculus and extreme weather patterns on breeding probability and suc

263 c markers for improving yield of crops under extreme weather patterns.

264 o return to their communities of origin when extreme weather persisted.

265 Recent increases in the occurrence of some extreme weather phenomena have led to multiple mechanist

266 nal MHW forecasts, analogous to forecasts of extreme weather phenomena, to promote climate resilience

267 e of QRA-favorable conditions and associated extreme weather, possibly linked to amplified Arctic war

268 imate change intensifies AD symptoms through extreme weather, proliferation of more and higher allerg

269 gly important, given the higher frequency of extreme weather recorded in recent years and its forecas

270 ide reliable estimates of human influence on extreme weather risk, which is critical to supporting ef

271 Comprehensive models of extreme weather risks, exposure, and effects should take

272 ormal-normal 2-year weather scenario, 2-year extreme weather scenarios affected 2-year cumulative NO3

273 can deteriorate from other incidences due to extreme weather such as floods which undermine cohesion

274 Flooding due to extreme weather threatens crops and ecosystems.

275 and increase the frequency and intensity of extreme weathers toward carbon neutrality and aerosol im

276 ogenic or environmental perturbations (e.g., extreme weather, toxic spills or epizootics) severely re

277 320 targets we evaluated and better predicts extreme weather, tropical cyclone tracks and wind power

278 ly, populations could still be vulnerable to extreme weather variability coupled with detrimental agr

279 However, the sequence of extreme weather years (e.g., wet-dry vs. dry-wet) may af

280 The frequency and intensity of extreme weather years, characterized by abnormal precipi