ライフサイエンスコーパス: sustainability

1 ate the program to foster further growth and sustainability.

2 n guide interdisciplinary efforts to measure sustainability.

3 tance with respect to energy and environment sustainability.

4 rs to increase agricultural productivity and sustainability.

5 ives in the surge to develop novel means for sustainability.

6 was launched in 2014 to expand its reach and sustainability.

7 ng, and (in concert with government) program sustainability.

8 and d) creation of a plan for governance and sustainability.

9 ng fair access to treatment and its economic sustainability.

10 ge of global food security and environmental sustainability.

11 ts of human wellbeing, welfare and ecosystem sustainability.

12 be overcome for innovation to improve urban sustainability.

13 vironmental impacts and improve agricultural sustainability.

14 agricultural productivity and environmental sustainability.

15 ad significance in striving for agricultural sustainability.

16 els have high transactional costs, affecting sustainability.

17 technology to ensure water, energy, and food sustainability.

18 sion processes is critical for global energy sustainability.

19 natural capital is fundamental to measuring sustainability.

20 s of dietary pulses on long-term weight-loss sustainability.

21 cators of technical independence and program sustainability.

22 the future impact of these viruses on koala sustainability.

23 t sufficient conditions for local and global sustainability.

24 act, high strength, functionalizability, and sustainability.

25 ysical and chemical changes that limit their sustainability.

26 enhance plant productivity and agricultural sustainability.

27 inical support, regulatory requirements, and sustainability.

28 s between rising energy demand and water use sustainability.

29 some temperate forests beyond thresholds of sustainability.

30 o ensure economic, social, and environmental sustainability.

31 mic institutions, but there are questions of sustainability.

32 ications owing to their biocompatibility and sustainability.

33 ted risks and progress towards environmental sustainability.

34 l food ingredients along with socio-economic sustainability.

35 eat to global food security and agricultural sustainability.

36 implementation, indicating the potential for sustainability.

37 acing Atlantic Salmon aquaculture after feed sustainability.

38 developing cities and their consequences for sustainability.

39 hat characterize contemporary cities bear on sustainability.

40 fecting public health and aquatic ecological sustainability.

41 itized to advance economic and environmental sustainability.

42 r an analysis of affordability and financial sustainability.

43 adverse outcomes that may reduce population sustainability.

44 e (3 months), implementation (2 months), and sustainability (12 months).

45 icultural system, but also its environmental sustainability(4-7).

46 al and individual productivity and financial sustainability after 4 years.

47 lignocellulosic biomass remains high on the sustainability agenda, but is challenged by the costs of

48 of ensuring food security and environmental sustainability, agricultural production must be improved

49 ing demand for robust assessments of fishery sustainability and a need to address local depletion con

50 The need to increase sustainability and add value to traditional foods claimi

51 Sustainability and cost concerns require that we greatly

52 re of local auditors and managers to support sustainability and country ownership of a NLQA program.

53 ng soil health are essential to agricultural sustainability and ecosystem function.

54 The findings of the research support the sustainability and efficacy at 12 months of partner-assi

55 als, but have the advantage of environmental sustainability and efficient utilization of natural reso

56 Food sustainability and food security are increasingly in the

57 resistance in crops to achieve agricultural sustainability and food security for a growing world pop

58 t nighttime warming may facilitate ecosystem sustainability and highlight the need to assess the effe

59 Little is known about the sustainability and long-term effect of surgical safety c

60 rse outcomes from decisions meant to enhance sustainability and lost opportunities for benefiting fro

61 g was studied, which aimed at increasing the sustainability and lowering the cost.

62 rmed to determine statistical bounds for key sustainability and performance measures including life c

63 both look to natural systems to enhance the sustainability and performance of engineered products, s

64 cropland to more suitable areas may improve sustainability and reduce pressure on water resources, l

65 netic variation to enhance the productivity, sustainability and resilience of crop varieties.

66 associations contribute significantly to the sustainability and sustainagility of these ecosystems th

67 d impact on future populations, facilitating sustainability and the adoption of a fishery based on in

68 astructure that potentially challenge social sustainability and the capacity of cities to collectivel

69 enhance both food security and environmental sustainability and therefore has received considerable a

70 our ability to evaluate chemical safety and sustainability and to protect public health.

71 armonization (coordination, integration, and sustainability) and 5 components of a conceptual framewo

72 ent use of resources, enhance resilience and sustainability, and avoid unintended negative consequenc

73 ure could, on its own, drive the resilience, sustainability, and even conservation of ecological comm

74 tions for biodiversity conservation, fishery sustainability, and food security.

75 ector city planning that prioritises health, sustainability, and liveability outcomes, particularly i

76 the past twenty years regarding soil health, sustainability, and soil health management practices, wi

77 include energy and complexity, expansion and sustainability, and the accelerating evolution of human

78 and to develop plants for environmental and sustainability applications.

79 se reactions is demonstrated, and aspects of sustainability are highlighted by the use of unsymmetric

80 They have framed sustainability as a technical problem that, at the farm

81 are considered as subjects for an integrated sustainability assessment (LCSA: life cycle sustainabili

82 We review the primary environmental sustainability assessment approaches, categorizing them

83 The framework is useful for sustainability assessment of groundwater systems and all

84 sustainability assessment (LCSA: life cycle sustainability assessment), that is, incorporating socia

85 makes it crucial to factor global trade into sustainability assessments.

86 aches used for assessing economic and social sustainability because sustainability necessitates integ

87 Furthermore, with their multiple sustainability benefits, organic farming systems can con

88 arger groups, and that the difference in the sustainability between these species originates from the

89 very, packaging, etc., due to their inherent sustainability, biocompatibility, and biodegradability.

90 behavior-change campaigns in the service of sustainability, but attention is turning toward understa

91 management is a major goal for environmental sustainability, but current progress has only reduced em

92 Local capacity building ensures sustainability by creating country buy-in, reducing cost

93 contribute to agricultural and environmental sustainability by increasing soil reactivity.

94 been advocated as a means to increase urban sustainability by reducing food-related transport and ta

95 Sustainability certification is the tool most used to fu

96 erfished and in decline, as well as multiple sustainability challenges associated with a rapid growth

97 In the light of daunting global sustainability challenges such as climate change, biodiv

98 Global sustainability challenges, from maintaining biodiversity

99 Thus, addressing contemporary sustainability challenges, which tend to involve transna

100 ecosystem services as an approach to address sustainability challenges.

101 consider how both narratives (prosperity and sustainability) clearly exclude important considerations

102 ted (or not) to meet the requirements of the sustainability, closed-loop and resource-security agenda

103 logists to take advantage of an explosion of sustainability commitments from business leaders and exp

104 systems to trap and retain solids and their sustainability depend on the magnitude of TSS loads orig

105 logy to compile food metrics describing diet sustainability dimensions into a single database and to

106 s, environmental decontamination, ecological sustainability, etc.

107 factors would benefit organic production and sustainability evaluation.

108 , to determine what controls hydrogeological sustainability, flow rate and preferred flow direction i

109 eported consumptive water use to determine a sustainability fraction.

110 To achieve sustainability, future wildlife management should accoun

111 been identified that better balance multiple sustainability goals.

112 ing links between knowledge and practice for sustainability have largely succeeded when incentives ar

113 eloping the practice for the higher goals of sustainability have resulted in sludge becoming an econo

114 distinguished by its operational simplicity, sustainability, high functional-group tolerance, and ame

115 olumes of PPW may affect deep well formation sustainability highlighting the need for effective PPW m

116 The sustainability impacts of many of these changes chain ar

117 New approaches to freshwater sustainability - implemented through scientifically info

118 es and the rising awareness of environmental sustainability impose growing new demands on the nature

119 stemic strategy that would result in greater sustainability in both areas.

120 Increasing water scarcity challenges crop sustainability in many regions.

121 ibit greater potential for social-ecological sustainability in one dimension do not necessarily exhib

122 al stewardship, critical to advancing global sustainability in our increasingly connected world.

123 to attain a balance between performance and sustainability in photonics.

124 ic gains for key traits to improve yield and sustainability in pigeonpea.

125 for efforts to harness science in support of sustainability in the developing world.

126 tion and adaptation measures to ensure their sustainability in the face of increasing and inevitable

127 c synthesis meets the urgent demand for more sustainability in the production of chemicals.

128 Three sustainability indicators were considered: embodied ener

129 to the chemical industry (individual set of sustainability indicators, composite indices methods, ma

130 revalence of the disease, budget impact, and sustainability into the cost-effectiveness analysis are

131 While sustainability is an essential concept to ensure the fut

132 n incentives of actors with broader goals of sustainability is an underused approach that can provide

133 The Zambian fishery's sustainability is based on exploiting an assemblage domi

134 he holistic approach required to assess diet sustainability is hindered by lack of comprehensive data

135 d top-down approaches, and that the field of sustainability is largely fragmented, with a range of ac

136 Feed sustainability is one of the biggest challenges for the

137 continuous and healthy progress toward true sustainability is outlined.

138 rated perspective on technology, economy and sustainability is provided.

139 Here, giant polarization sustainability is reported in a series of ultrathin PbTi

140 ajor barrier to transitions to environmental sustainability is that consumers lack information about

141 king in the context of ecological and social sustainability is unclear.

142 t of rising health care costs and decreasing sustainability, it is becoming increasingly common to re

143 ange is frequently considered as a threat to sustainability, its role as a conflict amplifier in hist

144 in developed countries, fostering legions of sustainability leaders rests upon a fundamental renewal

145 Although the hazard and sustainability literature often frames vulnerability con

146 sive yet realistic way to assess and enhance sustainability may be one of the most difficult challeng

147 problem of incentives, discoverability, and sustainability may be the most pressing.

148 ricted environments, the factors threatening sustainability may differ from those in high-income coun

149 onents to be better included in wealth-based sustainability measures.

150 The sustainability metrics that could be applied to the chem

151 inclusion of the value of natural capital in sustainability metrics, such as inclusive wealth.

152 ance of organic farming in light of four key sustainability metrics: productivity, environmental impa

153 regulatory frameworks addressing RA within a sustainability mindset.

154 upport for program development and long-term sustainability must be sought from sources both internat

155 us evaluation of the four dimensions of diet sustainability, namely health, economic, social and envi

156 g economic and social sustainability because sustainability necessitates integrating environmental, e

157 making it more expensive to fulfill climate sustainability objectives.

158 tive workers are necessary for the long-term sustainability of a colony.

159 ed by the dataset can be used to improve the sustainability of activities which affect sediment compo

160 h other agricultural-practices to ensure the sustainability of agricultural production in salinized s

161 tility to improve economic and environmental sustainability of agriculture.

162 nce of two key population thresholds for the sustainability of any irrigation system: or the critical

163 ated with their wider use, we must integrate sustainability of battery materials into our research en

164 iency and cost-effectiveness and, hence, the sustainability of biocatalytic reactions.

165 The sustainability of biological, social, economic and ecolo

166 The sustainability of Bt crops faces a great challenge becau

167 ty factors must be implemented to ensure the sustainability of Bt crops.

168 Here, we explored the energetic sustainability of cardiomyocytes, using a model for cell

169 Sea-level rise can threaten the long-term sustainability of coastal communities and valuable ecosy

170 Overfishing threatens the sustainability of coastal marine biodiversity, especiall

171 ortunities and enabling turnover facilitates sustainability of communities reliant on renewable resou

172 draw water from a subsurface ocean, but the sustainability of conduits linking ocean and surface is

173 of H. contortus in Europe, affect the future sustainability of contemporary control strategies, and p

174 integration which enhances the environmental sustainability of Cu-EDTA treatment via TiO2 photocataly

175 The long-term sustainability of DMEK was confirmed.

176 potential contributions to the environmental sustainability of EV life cycles.

177 Ensuring the resilience, safety and sustainability of fast-growing cities will require much

178 ted CO2 on future aquatic ecosystems and the sustainability of fish and shellfish aquaculture.

179 erosion and nutriment loss, questioning the sustainability of food security for the 300 million peop

180 njection wellbores, undermine the mechanical sustainability of formation rocks and increase the likel

181 king water supplies, ecological and economic sustainability of freshwater ecosystems.

182 dings highlight an urgent need to manage the sustainability of game hunting in both protected and unp

183 resistance and cross-resistance threaten the sustainability of genetically engineered crops that prod

184 Our results could help to improve the sustainability of global food production and groundwater

185 cifically highlight a trending threat to the sustainability of groundwater in northwest Iran and Cali

186 te globally, threatening crop production and sustainability of groundwater resources.

187 or minimizing risk to bees and improving the sustainability of grower pest management programs.

188 on of value-based pricing would maintain the sustainability of health care systems and would improve

189 ts has stimulated debate about the long-term sustainability of healthcare systems and whether these n

190 ining key ecosystem functions upon which the sustainability of human well-being depends.

191 important technologies to address the future sustainability of humans.

192 The overall sustainability of implementing RWH depends on the site-s

193 ce supporting the safety, effectiveness, and sustainability of incentive-based quality improvement in

194 Metrics calculate the sustainability of individual ecosystem services at multi

195 hich is increasingly putting pressure on the sustainability of its health system.

196 ther control tactics could also increase the sustainability of management strategies.

197 mage could increase the lifetime, safety and sustainability of many manufactured items.

198 lgal biomass could substantially enhance the sustainability of marine biomass use.

199 -economic features with the conservation and sustainability of marine ecosystems presents major chall

200 ional diagnostic methods limit the scope and sustainability of newborn screening for sickle cell dise

201 d forest is of equal value for the long-term sustainability of orangutan populations.

202 ces has led us to seek means to maintain the sustainability of our society.

203 ith teachers is essential for the growth and sustainability of outreach and school collaborations.

204 priori claims concerning the possibility of sustainability of peat swamp exploitation via drainage-b

205 l implementation, development, and long-term sustainability of pediatric cancer programs in LMICs tha

206 ure, thereby helping to ensure the continued sustainability of pitcher pumps in Madagascar.

207 MAMP perception to ensure the robustness and sustainability of PTI outputs.

208 rs of moisture availability to determine the sustainability of rainfed agriculture and help policymak

209 ederal and state support threatens long-term sustainability of research in publicly supported academi

210 Research has shown that sustainability of rural water infrastructure in developi

211 Existing efforts aimed to improve the sustainability of seafood production have generated impo

212 plications, which also helps to increase the sustainability of semiconductor material and device manu

213 y loss impairs ecosystem functioning and the sustainability of services beneficial to humanity.

214 ls, and industry leaders concerned about the sustainability of shrimp aquaculture believe they know w

215 Experiment (GRACE) satellite to evaluate the sustainability of surface water and groundwater use over

216 y decrease environmental pollution and impel sustainability of textile industry.

217 However, because of the poor sustainability of the active materials in complex stress

218 ty remains a critical issue underpinning the sustainability of the agricultural sector.

219 ntial implications for the replicability and sustainability of the approach.

220 Numerous concerns have been raised about the sustainability of the biomedical research enterprise in

221 heir postdoctoral workforces and improve the sustainability of the biomedical research enterprise.

222 raninite, raise concerns about the long-term sustainability of the bioremediation of U-contaminated s

223 We evaluated the sustainability of the effects after treatment terminatio

224 We evaluated the sustainability of the effects after treatment terminatio

225 the baseline for red coral and question the sustainability of the exploitation of a species that is

226 and will increase the economical profit and sustainability of the fishery industry.

227 future water resources seem critical for the sustainability of the food production system.

228 s, many detrimental to the social-ecological sustainability of the Galapagos Islands.

229 sewhere but still significantly threaten the sustainability of the global HIV response without additi

230 Coral bleaching events threaten the sustainability of the Great Barrier Reef (GBR).

231 sing health care expenditures are taxing the sustainability of the health care system.

232 rdiovascular disease, as well as the overall sustainability of the healthcare system, a paradigm shif

233 essment reported here to determine long-term sustainability of the improvements associated with peer

234 tion, more studies are needed to investigate sustainability of the increased ankle ROM after physical

235 ated on facilitating community ownership and sustainability of the network after research funds have

236 human food constitutes a major threat to the sustainability of the planet in terms of reactive nitrog

237 managers to promote institutionalization and sustainability of the program within the MOH.

238 reducing species, will impact the long-term sustainability of the remediation effort.

239 The novelty, efficiency, versatility, and sustainability of the reported bottom-up and (predominat

240 e' betrays the ultimate futility and lack of sustainability of the state.

241 r engagement with natural resources, and the sustainability of their actions.

242 cerns about the impacts of this trade on the sustainability of these low productivity species.

243 -resistant weed populations, threatening the sustainability of this valuable once-in-a-century agroch

244 Evolution of resistance threatens sustainability of transgenic crops producing insecticida

245 To this end, we introduce the concept of sustainability of transient kinetic regimes.

246 eas and contexts to assess the environmental sustainability of transport systems.

247 To ensure sustainability of treatment programmes, a transition to

248 s motivated extensive efforts to promote the sustainability of urban ecosystems and physical infrastr

249 Sustainability of VESPA over time was also evaluated.

250 of implementation impacts the environmental sustainability of wastewater treatment integrated with w

251 led to efforts to improve the environmental sustainability of wastewater treatment plants (WWTPs).

252 s are significant challenges to the enhanced sustainability of wastewater treatment plants (WWTPs).

253 how the scale of implementation impacts the sustainability of WWTPs integrated with resource recover

254 l as a deeper understanding of the long-term sustainability of yields, and research into how other so

255 h the goal of advancing human well-being and sustainability on a highly urbanized planet.

256 ey among scholars and researchers engaged in sustainability or transition research.

257 tems critically contribute to our collective sustainability outcomes.

258 onsidering energy storage options to improve sustainability performance of the grid.

259 micals, it would be highly desirable, from a sustainability perspective, to produce them instead from

260 ent- and production-oriented perspectives to sustainability perspectives.

261 ducted ongoing monitoring, and had a project sustainability plan.

262 n developing countries and may inform future sustainability planning.

263 The increasing importance of sustainability promotes the development of bio-based and

264 ssed this question by exposing subjects to a sustainability-related monetary donation task, with the

265 lecules and, in line with the major trend to sustainability, relying on green oxidants H2O2 and O2 as

266 s in areas such as product certification and sustainability reporting, but a major challenge remains

267 tional income and wealth accounts, corporate sustainability reporting, land-use planning, and environ

268 ndividual responses to ecological and social sustainability require a shift in personal priorities aw

269 Improving food system sustainability requires life cycle thinking, measurement

270 prises, is among the most pressing areas for sustainability research.

271 ropland is likely to be accompanied by other sustainability risks and threatens livelihoods, with div

272 For sustainability's sake, the establishment of bioenergy pr

273 To ensure sustainability, safe phlebotomy practices were integrate

274 ance in complex dynamical systems as well as sustainability science and engineering.

275 ng effects of increasing complexity provides sustainability science and governance actors with a stro

276 contribute to identifying key competences in sustainability science and hold promises for other secto

277 A growing field of sustainability science examines how environments are tra

278 ing of large-scale private actors within the sustainability science literature.

279 ng overview of the varied landscape of SI in sustainability science, ranging from the kinds of topics

280 of EWS in human systems for archaeology and sustainability science.

281 environmental interconnections and to create sustainability solutions.

282 We found that the sustainability space is very small.

283 tions pertaining to energy and environmental sustainability, specifically materials for carbon captur

284 industry faces tighter regulation and higher sustainability standards.

285 ch that can provide a pathway toward scaling sustainability successes.

286 ns may have a larger impact on environmental sustainability than the implementation scale in some cas

287 d for future research in rural water service sustainability that investigates the dynamic interaction

288 g the need for a comprehensive definition of sustainability (that integrates environmental, economic,

289 that there is not a consistent definition of sustainability, that the approaches are generally not co

290 Designed for sustainability, the Arabidopsis Information Portal strat

291 rsity, DRD) containing taxa of lower hunting sustainability, the other in the northern rainforest-sav

292 pproach to city design to enhance health and sustainability through active transport and a move towar

293 range of topics, from career achievement and sustainability to team dynamics and efficiency.

294 ringing life cycle approaches to food system sustainability to the fore.

295 From a sustainability viewpoint, sodium exchange softening, alt

296 ons has become attractive from both cost and sustainability viewpoints.

297 To improve regional sustainability, we studied the spatial distributions and

298 ation about legacy P to improve agricultural sustainability while mitigating water quality deteriorat

299 A follow up assessment to measure sustainability will take place at 6 and 12 months.

300 ife cycle assessment (LCA) to evaluate their sustainability, yet commonly-used LCA methodologies lack