ライフサイエンスコーパス: mitigation

1 ethane emissions and clarify pathways toward mitigation.

2 declines impedes prediction, prevention, and mitigation.

3 making community usable information to guide mitigation.

4 ng to enable timely decision making and risk mitigation.

5 ctional antagonism strategy could lead to NP mitigation.

6 in food, and ultimately opening avenues for mitigation.

7 may surpass those averted by climate change mitigation.

8 ased consumption can facilitate global CO(2) mitigation.

9 odiversity, ecosystem processes, and climate mitigation.

10 responses are unknown, preventing effective mitigation.

11 implemented to contribute to climate change mitigation.

12 ssessment of the efficiency of air pollution mitigation.

13 cal deforestation comprising 30-54% of total mitigation.

14 information when deciding on priorities for mitigation.

15 ch airline's operational efficiency in delay mitigation.

16 icts our ability to implement cost-effective mitigation.

17 eillance to inform public health and disease mitigation.

18 the importance of fire management in climate mitigation.

19 rest of the world in terms of climate change mitigation.

20 nable its potential to aid in climate change mitigation.

21 ease efficiency of elephant crop consumption mitigation.

22 m C storage and contribute to climate change mitigation.

23 ung resection surgery and proposed steps for mitigation.

24 on and management efforts for climate change mitigation.

25 tions and future potential to climate change mitigation.

26 eferences and expectations for technological mitigations.

27 perceptions of drowsy driving and potential mitigations.

28 ents to identify facility-specific risks and mitigations.

29 pression (0.001%), partial suppression (1%), mitigation (10%), and do nothing (80%).

30 Discounted damages due to delayed mitigation action rise by 0.6 trillion US dollars per ye

31 Modeling suggests that climate change mitigation actions can have substantial human health ben

32 opulation health effects from climate change mitigation actions.

33 bitious and health-protective climate change mitigation actions; however, documenting the adverse hea

34 These bottom-up mitigation activities, however, require individual targe

35 ignificant challenge for risk evaluation and mitigation among cancer patients.

36 zone offers opportunities for local climate mitigation and adaptation.

37 would benefit the development of prevention, mitigation and alternate therapeutic strategies.

38 heat waves increases the urgency to consider mitigation and intervention tools that support organisma

39 reak forecasts and informing stakeholders on mitigation and preventive measures.

40 Therefore, risk mitigation and prompt treatment rely on a sophisticated

41 nagement tools, extending far beyond climate mitigation and reef protection, to also include more agg

42 Mitigation and suppression of new infections have emerge

43 rom past experience can help deliver climate mitigation and sustainable development goals.

44 n the immediate future, while global climate mitigation and/or intervention are formulated.

45 es richness potential under RCP 2.6 ('strong mitigation') and RCP 8.5 scenarios, respectively, by the

46 st efficient method for greenhouse gas (GHG) mitigation, and its total GHG mitigation potential in th

47 tructure designs, degradation mechanisms and mitigations, and battery architectures and integrations.

48 and suggests interfering with adhesion as a mitigation approach.

49 multivariable regression to explore optimal mitigation approaches.

50 ar more data on which to base regulation and mitigation, as well as for deciding on future research p

51 l contributions of forests in climate change mitigation associated with tree planting.

52 lan) on population health and climate change mitigation, assuming primary, sustained use of LPG for d

53 history scenarios in which explicit climate mitigation begins before the present day, estimating the

54 In all cases, there are climate change mitigation benefits compared to fossil fuel alternatives

55 protected areas will deliver global climate mitigation benefits, while ensuring local peoples' healt

56 and sequester soil carbon for climate change mitigation, but a renewal of high methane emissions has

57 ation can be dramatically delayed, and total mitigation by 2030 or 2050 can be more than halved compa

58 We project 0.6-6.0 GtCO(2 )yr(-1) in global mitigation by 2055 at costs of 2-393 billion USD yr(-1),

59 protection and land use-based greenhouse gas mitigation call for increases in the effectiveness and e

60 y deployment and natural carbon gain, actual mitigation can be dramatically delayed, and total mitiga

61 The development of new specific mitigation climate simulations now provides an unprecede

62 the global land challenges of climate change mitigation, climate change adaptation, combatting land d

63 g option to align global agendas for climate mitigation, conservation, environmental justice and sust

64 om the generic temperature-dependence of the mitigation costs and the level of damages inferred from

65 This implies mitigation costs as well as avoided climate damages.

66 Mitigation costs borne by private land managers comprise

67 imate sensitivity, socioeconomic future, and mitigation costs.

68 Further mitigation delay costs a best estimate of an additional

69 out these effects have led to regulation and mitigation, despite there being few data on which to bas

70 when a shark bite occurs can also be used as mitigation devices.

71 ticing ways to design high-performance noise mitigation devices.

72 or efficient energy harvesting and vibration mitigation devices.

73 eguards to ensure that expansion of land for mitigation does not impact natural systems and food secu

74 is study, for the first time, we analyze the mitigation effect of the kinship relationships among bea

75 the formation of clove oil nanoemulsion, the mitigation effects on mycotoxin levels and fungal biomas

76 Using the index of Emission Mitigation Efficiency for primary emission-to-particle p

77 Here, we quantify a distribution of mitigation effort whereby each country is economically b

78 NO(2), and the results can inform pollution mitigation efforts across different cities of India.

79 t the best proactive response is to continue mitigation efforts against the introduction and establis

80 Future water levels without any mitigation efforts are anticipated to decline by up to 2

81 Since greenhouse gas mitigation efforts are mostly being implemented in citie

82 ed are the key places in which collaborative mitigation efforts between China and downstream parties

83 rgence 4 years in advance, during which time mitigation efforts could have been implemented.

84 Mitigation efforts require knowing the extent to which t

85 ne and other shellfish production, and these mitigation efforts should be incorporated into breeding

86 beyond which coastal land will be lost, and mitigation efforts should shift upstream.

87 land climate-carbon cycle feedbacks, climate mitigation efforts should strive to reduce land-use emis

88 In sharp contrast to modern-day flood mitigation efforts, ancient farmers used floodwaters to

89 responses must be initiated in parallel with mitigation efforts, but resources are limited.

90 rval [CI], 2.30-3.24 days) before widespread mitigation efforts, increasing by 460% to 15 days (12.89

91 n, thereby informing exposure assessment and mitigation efforts.

92 given the expected large health benefit, the mitigation emission pathway is a reasonable tradeoff for

93 514,600) deaths can be averted following the mitigation emission pathway relative to the baseline emi

94 ing the short-lived climate pollutant (SLCP) mitigation emission pathway.

95 2020, when other clinical and societal risk mitigation factors (such as telephone consultations, fac

96 sponses to the COVID-19 pandemic: no action, mitigation for 6 months, suppression for 2 months, or su

97 (1)O(2), is an important reaction requiring mitigation for most applications.

98 ed significant potentials for climate change mitigation from protecting and managing natural systems.

99 can also contribute to greenhouse gas (GHG) mitigation goals.

100 Estimating the health effects of mitigation (HEM) actions can help policy makers prioriti

101 on, use, and demolition) in carbon emissions mitigation, however, remains hitherto unexplored.

102 rol with contact tracing and quarantine) and mitigation (hygiene, sanitation, ventilation, and social

103 CP 8.5 than simulations with moderate carbon mitigation (i.e., RCP 4.5).

104 gene expression by orchestrating an overall mitigation in host intrinsic/innate restrictions.

105 However, advantages of S-150 for NH(3)(g) mitigation include wastewater valorization, minimal synt

106 sessment of the potential for greenhouse gas mitigation, including additional effects of biochar appl

107 understanding, we conclude that the climate mitigation induced by increased SOC storage is generally

108 future land management decisions or climate mitigation interventions for protecting and restoring fr

109 Quantifying the impact of stigma mitigation interventions necessitates improved measureme

110 e efforts to track progress on global stigma mitigation interventions.

111 the physical realization of qubits, and its mitigation is critical for the development of quantum sc

112 Allergen mitigation is recommended only in individuals with expos

113 itable habitats may be a useful conservation mitigation measure.

114 rological influences, the effective emission mitigation measures achieved an average decrease of fine

115 y 9, 2020, we illustrate that the impacts of mitigation measures are discernable from the trends of t

116 ntify the effects of demand- and supply-side mitigation measures considering this material-energy-emi

117 Various mitigation measures have been implemented to fight the c

118 ell configurations with and without emission mitigation measures in place.

119 By analyzing the trend and mitigation measures in Wuhan, China, Italy, and New York

120 ecifically, in less productive environments, mitigation measures should promote abundance of locally

121 We also propose mitigation measures to address these risks that we have

122 sion during laparoscopic surgery and propose mitigation measures to address these risks.

123 Other mitigation measures, such as social distancing implement

124 ffecting risk assessment and compliance with mitigation measures.

125 This severely limits our capacity to devise mitigation measures.

126 o current medical knowledge of the virus and mitigation measures.

127 Additional risk mitigation methods outside of PPE were: reduction in pat

128 Experiences and mitigation methods traversed through the nurses' social

129 an result in sex segregation in responses to mitigation methods.

130 For forests to contribute ~10% of mitigation needed to limit global warming to 1.5 degrees

131 nfarction is a viable target for therapeutic mitigation of adverse remodeling.

132 Our results suggest that Si-governed mitigation of Buta toxicity is linked with favorable mod

133 owerful and simple-to-implement approach for mitigation of cascading failures on complex networks bas

134 pathways in the venom gland, suggesting that mitigation of cellular stress is a crucial component of

135 ndings suggest that ACC is necessary for the mitigation of competing inputs and validates many of the

136 oxygenation: patient selection, management, mitigation of complications, coordination of multidiscip

137 esting to enable the efficient treatment and mitigation of COVID-19.

138 prerequisite to population reduction and the mitigation of crop yield losses.

139 The mitigation of decomposition reactions of lithium-ion bat

140 the fungal community in tombs, promoting the mitigation of deterioration phenomena of such building h

141 sess the utility of HRM-based approaches for mitigation of false positives and false negatives in dPC

142 or airlines, potentially contributing to the mitigation of future departure delays.

143 compass AESs are needed to provide long-term mitigation of growing pressures on Southern Ocean ecosys

144 the NSRL to accelerate our understanding and mitigation of health risks faced by astronauts.

145 etabolites caused long-term radioprotection, mitigation of hematopoietic and gastrointestinal syndrom

146 Further mitigation of human intrinsic clearance and time-depende

147 h resonant inclusions then exhibits adaptive mitigation of incident vibroacoustic dynamic loads via a

148 nstrated that this could be explained by the mitigation of increased neutrophil extracellular traps (

149 l permit its use as a P-gp inhibitor through mitigation of its distribution into the myocardium.

150 ners of the association, discussing that the mitigation of light stress offered by host pigments coul

151 cur after temperatures return to normal, and mitigation of local stressors does not appear to augment

152 fied by ultracentrifugation resulting in the mitigation of MCPDE levels by a factor of 10.

153 ad to improved fertilizer use efficiency and mitigation of N(2) O emissions.

154 This study aimed at evaluating mitigation of nivalenol (NIV) in alcoholic fermentation

155 amount of organic aerosol (OA) is crucial to mitigation of particulate pollution in China.

156 hese results suggest that the elimination or mitigation of photoinduced electron transfer could subst

157 e, which scavenges hydrogen peroxide for the mitigation of potential cytotoxicity.

158 primary reason for the lack of action in the mitigation of release of antibiotics into the aquatic en

159 e avoidance in situations requiring flexible mitigation of response conflicts, but also aids in withh

160 NA (miR-124) as a potential candidate in the mitigation of RICD.

161 ursued only if the threat is substantial and mitigation of spread cannot be achieved through other me

162 eview discusses signaling during sensing and mitigation of stress involving mitochondrial communicati

163 Effective mitigation of such pollution is paramount to the safegua

164 The mitigation of TDP-43 neuropathology by IkappaBalpha-SR,

165 We confirm a mitigation of the amplitude of modulation and a red-shif

166 te cortex (ACC) as a key brain region in the mitigation of the competition that arises from two simul

167 Mitigation of the DBM will require major societal shifts

168 ion pairing was concentration-dependent, the mitigation of the dominant salting-out effect became gre

169 of immune cells infiltrating into the brain, mitigation of the inflammatory status of the infiltratin

170 As such, there was substantially less mitigation of the net salting-out effect for these ions,

171 s with respect to both patient care, and the mitigation of the risk of viral transmission during surg

172 Characterization and mitigation of these risks requires a significant reducti

173 Mitigation of this effect by a longer duration of deafne

174 ion droplets (emulsion PCR, ePCR) allows the mitigation of this problem.

175 To aid mitigation of this risk in early drug discovery, we deve

176 d this protection appeared to be mediated by mitigation of vascular mitochondrial oxidative stress an

177 missions from composting offers the greatest mitigation opportunities for reducing the climate and ai

178 odel household consumption and lifestyles as mitigation options through their impact on economy-wide

179 oader ecological, social, and climate change mitigation outcomes.

180 have the intended policy and climate change mitigation outcomes.

181 al for stabilizing our climate, but costs of mitigation over space, time, and stakeholder group remai

182 of hybrid approach is the so-called tsunami mitigation park, which combines a designed hillscape wit

183 The protective benefit of tsunami mitigation parks is thus comparable to that of a small w

184 Despite the increasing popularity of tsunami mitigation parks, the protective benefits they provide a

185 maximize the protective benefits of tsunami mitigation parks.

186 eful tool for hazard management and disaster mitigation, particularly for multi-hazard modeling.

187 We find that the lower PM(2.5) in the mitigation pathway (34.2% and 32.6%, respectively for RC

188 Additional simulations show how optimal mitigation pathways evolve without imposing a warming li

189 that the diffusion of CCS in climate change mitigation pathways, when normalised for economic growth

190 60% to 15 days (12.89-17.94 days) during the mitigation phase.

191 However, this mitigation phenomenon is an experiment- and mechanism-de

192 enefit both climate/air-quality modeling and mitigation policies in South Asia.

193 re applicable to developing effective source mitigation policies.

194 t drivers is crucial for designing efficient mitigation policies.

195 inter in the formulation of future pollution mitigation policies.

196 change, which hampers the implementation of mitigation policies.

197 help prioritize the case for climate change mitigation policies.

198 acility scales to guide and verify effective mitigation policy and action.

199 ranular emissions, enabling optimal emission mitigation policy choices.

200 about 40% at higher latitudes under the 'no mitigation policy' scenario (RCP 8.5) by the mid-21st ce

201 Five options have large mitigation potential (>3 Gt CO(2) eq/year) without adver

202 Using the Global Timber Model, we project mitigation potential and costs for four abatement activi

203 climate solution, available estimates of the mitigation potential are based on coarse assessments of

204 ers prioritize investments based not only on mitigation potential but also on expected health benefit

205 Conversely, we conclude that maximum climate mitigation potential from natural forest regrowth is 11

206 Relative climate change mitigation potential in comparison with equivalent diese

207 ouse gas (GHG) mitigation, and its total GHG mitigation potential in the Midwest is 0.16 GtCO(2) year

208 The climate change mitigation potential of ESS for electricity grid operati

209 We then estimate the climate mitigation potential of multiple scenarios of integratio

210 ge of costs and benefits, we investigate the mitigation potential of regionalized urban food systems

211 1.84 Pg CO(2) -equivalent/year) could reduce mitigation potential of terrestrial net ecosystem produc

212 ere, we provide a first fleet-wide emissions mitigation potential of US-based PHEV drivers adopting h

213 Five options have moderate mitigation potential, with no adverse impacts on the oth

214 en reported for these ecosystems, offsetting mitigation potential.

215 s favoring both bat conservation and disease mitigation promotes domain integration and network conne

216 Higher prices incentivize larger mitigation proportions via rotation and forest managemen

217 ter and reached sooner with a later start to mitigation, reaching 15(17)% of global GDP in 2085(2070)

218 Effective mitigation relies on understanding global sources and si

219 etween 2010 and 2100 under the 'no effective mitigation' representative concentration pathway (RCP8.5

220 Mitigation requires the identification and protection of

221 ne whether planting trees for climate change mitigation results in increased C storage.

222 In a mitigation scenario, we estimated 18 374 excess deaths w

223 Climate mitigation scenarios limiting global temperature increas

224 We model an unmitigated scenario and 12 mitigation scenarios which differ in compliance behavior

225 t supply chain targets with ambitious carbon mitigation scenarios, our approach can be used by nonsta

226 We argue that regulation and mitigation should always be developed by looking at pote

227 When used, allergen mitigation should be allergen specific and include multi

228 st noninvasive approach to rehospitalization mitigation should be further tested.

229 Although many nonlethal mitigation solutions are available, they rarely use the

230 d access (2010-2017) and Risk Evaluation and Mitigation Strategies (2008-2018); and user fees paid to

231 c fistula risk, and to define the utility of mitigation strategies amongst some of the most prevalent

232 genetic tools needed to establish ecological mitigation strategies and answer broader questions in ev

233 ivacy-protection methods, highlight possible mitigation strategies and suggest future research opport

234 In response, multilevel mitigation strategies are being adopted but with a lack

235 oling have significant implications for heat mitigation strategies as urban green spaces can reduce [

236 gs can contribute to refining cost-effective mitigation strategies based on fostering carbon storage

237 lid for resource-management and flood-hazard-mitigation strategies for coastal communities in the Gul

238 e propose a model that could be the basis of mitigation strategies for neurologic adverse events asso

239 eoperative opioid exposure and creating risk mitigation strategies for patients.

240 , we describe key ADE mechanisms and discuss mitigation strategies for SARS-CoV-2 vaccines and therap

241 Current mitigation strategies for severe acute respiratory syndr

242 ant implications for clinical management and mitigation strategies for this disease.

243 Current mitigation strategies involve the calibration of sensors

244 Large-scale deployment of other climate mitigation strategies is also necessary.

245 s to determine deployment readiness and risk mitigation strategies is not well understood.

246 Among students, mitigation strategies reduced COVID-19 cases from 3746 w

247 sed on our collective experience, we discuss mitigation strategies such as donor screening, resource

248 erstand the scientific rationale of pandemic-mitigation strategies such as wearing facemasks and soci

249 CO(2), and challenge the efficacy of climate mitigation strategies that rely on ubiquitous CO(2) fert

250 Mitigation strategies that slow but do not interrupt tra

251 Health systems have developed multiple mitigation strategies to address emergency department bo

252 These data may be useful to inform mitigation strategies to minimize the potential for aero

253 of zoonotic IAV, we can inform public health mitigation strategies to ultimately reduce zoonotic IAV

254 Statewide mitigation strategies were strongly associated with incr

255 l health impacts, prioritizing air pollution mitigation strategies, and enabling global chemical tran

256 ublic health guidance for risk reduction and mitigation strategies, e.g., the "6-foot rule." Here we

257 COVID-19 mitigation strategies, including social distancing, mask

258 e a roadblock to implementation of effective mitigation strategies, independently monitor long-term t

259 For effective pandemic mitigation strategies, it is critical that models encomp

260 Despite use of mitigation strategies, MD1003 led to inaccurate laborato

261 Mitigation strategies, together with river sanctuary and

262 cific and include multiple allergen-specific mitigation strategies.

263 y post-alloHCT may require specific toxicity mitigation strategies.

264 l planers through the implementation of risk mitigation strategies.

265 ation model, was used to examine alternative mitigation strategies.

266 llows and related Cr compounds and to define mitigation strategies.

267 f fibrillation is key to developing rational mitigation strategies.

268 trainees' concerns may inform development of mitigation strategies.

269 o better predict population fates and design mitigation strategies.

270 e zone tidal wetlands through climate change mitigation strategies.

271 t regional variations will require different mitigation strategies.

272 rops as a useful component of climate change mitigation strategies.

273 ique CD22 CAR T-cell toxicities and toxicity mitigation strategies.

274 efits and harms of SGLT2 inhibitors and risk mitigation strategies.

275 occur in 2020, possibly related to COVID-19 mitigation strategies.

276 ns to provide customized information on CBLF mitigation strategies.

277 is article discusses the risk evaluation and mitigation strategy (REMS) program imposed by the Food a

278 the finished product, could be an efficient mitigation strategy for acrylamide formation in coffee,

279 A promising mitigation strategy is the identification and breeding o

280 age search, ten from the Risk Evaluation and Mitigation Strategy Review, and 256 from the EMA reports

281 A potential mitigation strategy would be to breed selected animals f

282 hese findings suggest that a highly targeted mitigation strategy, such as postponing swine shows for

283 sessing natural forest regrowth as a climate mitigation strategy.

284 metabolite concept with a discussion of risk mitigation tactics to support the progression of reactiv

285 at do not identify agroforestry as a climate mitigation technique.

286 of our approach compared to various standard mitigation techniques.

287 ailed categorisation of potential biases and mitigation techniques.

288 centered solution to achieve natural climate mitigation through reductions in illegal logging in rura

289 ies reduced COVID-19 cases from 3746 with no mitigation to 493 with extensive social distancing and m

290 ion of CCS also decreases the cost of carbon mitigation to as low as $52-$78/t CO(2), depending on th

291 a versatile hybrid design that allows burden mitigation to be achieved across different cell-lines wi

292 SOC) content to contribute to climate change mitigation, to enhance resilience to climate change and

293 rategy, thermal-disrupting interface induced mitigation (TRIM), is reported, to minimize intercellula

294 esources for detected cases provides further mitigation under a range of scenarios.

295 Mitigation was related to both the glutathione (GSH) red

296 mediately after they observe a sign of local mitigation, we identify several states and counties with

297 data gap to enable regulation and subsequent mitigation (where required) to lower the risk of selecti

298 ategies have fallen into two categories: 1) "mitigation," which aims to achieve herd immunity by allo

299 Natural mitigation would require substantial increases in sedime

300 on based hotspots is a smart approach to HIV mitigation yet remains poorly evaluated and implemented

301 as a means to sequester C for climate change mitigation, yet little is known about how reactive Fe an