ライフサイエンスコーパス: sustainability

1 en exhibits advantages in terms of costs and sustainability.

2 ssion may further optimize yield and improve sustainability.

3 modifying leaf physiology for improved plant sustainability.

4 nt practices risk severely undermining ocean sustainability.

5 s in terms of environmental-friendliness and sustainability.

6 ucture to achieve economic and environmental sustainability.

7 tified broader issues to address for program sustainability.

8 mising battery technology for their cost and sustainability.

9 mplementation strategies for improvement and sustainability.

10 sors benefits as low-cost, recyclability and sustainability.

11 highlight the need for improvements in crop sustainability.

12 her hinder or promote a global shift towards sustainability.

13 s might affect human wellbeing and ecosystem sustainability.

14 m planning are critical for local uptake and sustainability.

15 ntal impact, and improve green synthesis and sustainability.

16 anic synthesis from the standpoint of global sustainability.

17 ine health workers is crucial for impact and sustainability.

18 a significant opportunity for future energy sustainability.

19 n other parts of the world to achieve global sustainability.

20 r to increase its economic and environmental sustainability.

21 suitability, functionality, flexibility, and sustainability.

22 ogy on corn ethanol production economics and sustainability.

23 s usually terminates PersAF and prevents its sustainability.

24 icultural inputs and improving environmental sustainability.

25 applications because of its low-toxicity and sustainability.

26 ed extraction was applied for efficiency and sustainability.

27 e-offs, and care must be taken to ensure its sustainability.

28 nd environmental changes that threaten their sustainability.

29 cost-effectiveness, wide accessibility, and sustainability.

30 and the dynamic management of oceans towards sustainability.

31 that play a key role in urban livability and sustainability.

32 sleep, and well-being may impact burnout and sustainability.

33 dopted a services centered economy driven by sustainability.

34 rtant ecosystem service and enhance palm oil sustainability.

35 re important criteria for assuring long-term sustainability.

36 he most enduring outcome and led to enhanced sustainability.

37 tions, responsive self-assembly and improved sustainability.

38 s for health, agriculture, and environmental sustainability.

39 ications owing to their biocompatibility and sustainability.

40 l food ingredients along with socio-economic sustainability.

41 eat to global food security and agricultural sustainability.

42 implementation, indicating the potential for sustainability.

43 diation of hydrocarbon pollutants and energy sustainability.

44 pulation while maintaining food supply chain sustainability.

45 l to deliver food security and environmental sustainability.

46 it their selectivity, energy efficiency, and sustainability.

47 nical metamaterials with a long lifetime and sustainability.

48 elates to both plant health and agricultural sustainability.

49 evel approaches, stakeholder engagement, and sustainability.

50 for agriculture production and environmental sustainability.

51 ents, our workforce, our work practices, and sustainability.

52 s are the natural choice of materials toward sustainability.

53 driving societal transitions toward greater sustainability.

54 lobal importance of diseases to agricultural sustainability.

55 egard to their scalability, originality, and sustainability.

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

57 e consider each technology in the context of sustainability, a largely neglected key factor, which ma

58 ntinuing the trial through 12 months to test sustainability, a necessary precondition for implementat

59 atalysts for OER tested to date, in terms of sustainability, activity and stability.

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

61 mediate efforts, consistent with the broader sustainability agenda but of unprecedented ambition and

62 n air pollution is high on global health and sustainability agendas, but information is limited on as

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

64 The best-case land-use scenario ("Sustainability") alone causes a 10.6% increase in the ar

65 foods would generally improve environmental sustainability, although processed foods high in sugars

66 The diet sustainability among 29,210 participants of the NutriNet

67 ned achievements of the SUS and threaten its sustainability and ability to fulfil its constitutional

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

69 in small-scale tropical fisheries, improving sustainability and building resilience to climate change

70 Global commitment to sustainability and demands for a sustainable world are g

71 n metal in homogeneous catalysis in terms of sustainability and economy.

72 f human metabolic disorders, has limited the sustainability and efficacy of current pharmacological o

73 o society's grand challenges associated with sustainability and energy future, currently lies in the

74 pment for emerging applications ranging from sustainability and energy harvesting/storage to tissue e

75 oses new challenges with regard to long-term sustainability and fair allocation of resources.

76 al effects and implications for agricultural sustainability and food safety.

77 efficiency for improved future agricultural sustainability and food security.

78 water supplies is important for local-scale sustainability and for regional-, national-, and global-

79 ent to groups, personnel input and training, sustainability and funding, risk management, and measuri

80 ices-have had a less than expected record of sustainability and have sometimes not delivered on their

81 rs are important when assessing programmatic sustainability and impact, and data on these are quite l

82 arrangement has led to underappreciation of sustainability and maintainability of scientific softwar

83 tors (e.g., stakeholders and users, networks sustainability and maintenance, application scenarios, a

84 technology have raised concerns about their sustainability and motivated recent studies for improved

85 s and management strategies for co-promoting sustainability and productivity under future elevated [C

86 Here, we test the long-term environmental sustainability and profitability of continuous no-till a

87 The optimistic climate-land-use projection (Sustainability and RCP 4.5) causes a 21.3% increase in t

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

89 ledge-based approach that aims to ensure the sustainability and resilience of marine ecosystems while

90 ights ADP1 as an ideal host for a variety of sustainability and synthetic biology applications.

91 motion programs are required to assess their sustainability and the need for reintervention.

92 rich biotic reservoir is essential for soil sustainability and, ultimately, the sustainability of hu

93 al performance, human interaction, long-term sustainability, and even higher efficiency.

94 ing in practice, how it has ensured database sustainability, and how it is meeting emerging annotatio

95 drought resilience and benefits groundwater sustainability, and in turn, maintaining groundwater at

96 Remarkably, the benign conditions, sustainability, and quantifying forbearance of wide hori

97 ocus on commercial competency, environmental sustainability, and scalability of organic-semiconductor

98 ocesses that govern groundwater recharge and sustainability-and their sensitivity to climatic variabi

99 ethods to define benefits, harms, reach, and sustainability; and to understand related resource utili

100 ate change, food security, and environmental sustainability are pressing issues faced by today's glob

101 to their biocompatibility, renewability, and sustainability, are highly attractive for realizing sola

102 roversial topics on bioplastic alternatives, sustainability assessment and their impact on the plasti

103 Clarifying and improving sanitation sustainability assessment frameworks could increase thei

104 Diverse and numerous sanitation sustainability assessment frameworks have been created t

105 A subset of existing sanitation sustainability assessment frameworks was reviewed after

106 and four EU policies, and seven agricultural sustainability assessment tools aimed at farmers.

107 pproaches within a framework of Constructive Sustainability Assessment.

108 nts to integrate impacts on productivity and sustainability at two different intensification levels (

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

110 p species diversity can enhance agricultural sustainability, but the scale dependency of the processe

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

112 Any transition towards sustainability can only be effective if far-reaching lif

113 Sustainability certification is the tool most used to fu

114 ty has been globally recognized as a pivotal sustainability challenge in the UN Sustainable Developme

115 systems in the face of uncertainty is a key sustainability challenge.

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

117 Modern sustainability challenges in recent years have warranted

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

119 requires new agronomic practices to address sustainability challenges while increasing food producti

120 reservation of these goods is fundamental to sustainability challenges, ranging from local fisheries

121 With the increase in global sustainability challenges, there is a broad spectrum of

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

123 IUU) fishing is a premier issue facing ocean sustainability, characterizing it is challenging due to

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

125 Companies and governments with sustainability commitments struggle to understand their

126 e amounts of end-of-life wastes, which raise sustainability concerns in terms of manufacturing, envir

127 nded definition of performance that includes sustainability considerations.

128 ility restrictions, social distancing), in a sustainability context.

129 luated frameworks did not share a sanitation sustainability definition or core set of essential indic

130 worldwide cereal yields, future agricultural sustainability demands enhanced nitrogen use efficiency.

131 Sustainability education needs to be considered as part

132 etic engineering of plants is at the core of sustainability efforts, natural product synthesis and cr

133 t the planet if tightly coupled with ongoing sustainability efforts.

134 regulations, could substantially accelerate sustainability efforts.

135 d on observational data, was to compare some sustainability features of diets from consumers with var

136 Here, we probe this capacity for sustainability for the case of bio-based nylon using bot

137 need of restoration aiming toward long-term sustainability for the forest environment.

138 cost devices are highly valued in the era of sustainability for their capability to be applied in low

139 eported consumptive water use to determine a sustainability fraction.

140 the global diversity and evolution of GIWs' sustainability from 2015 to 2050, which highlights the i

141 econcile trade-offs between global and local sustainability goals.

142 y and have a wider significance for holistic sustainability governance.

143 ch as biocompatibility, biorenewability, and sustainability has drawn significant attention.

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

145 ptide synthesis and purification in terms of sustainability, highlight possible solutions, and encour

146 However, their sustainability implications are unclear.

147 tter understand and become responsive to the sustainability implications of their products, systems a

148 a variety of long-term states with different sustainability implications.

149 nomic, health equity, national security, and sustainability implications; 2) the current federal nutr

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

151 emographics, social being, and environmental sustainability in 150 countries.

152 iquity raises important questions concerning sustainability in an ancient international economy and o

153 eral fertilisers while promoting long-term P sustainability in Brazil.

154 ntly, our analysis suggests that groundwater sustainability in California may be poorly safeguarded i

155 ntroduction in some settings and threatening sustainability in others.

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

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

158 relevant means to valorize waste and improve sustainability in polymer manufacturing.

159 peseed has important impacts on agricultural sustainability in semi-arid and arid climates.

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

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

162 that food supply from the NCP promoted food sustainability in the rest of China, but the NCP consume

163 lumes were calculated using the Water Supply Sustainability Index (WaSSI) tool developed by the USDA

164 p a repository for automatic API testing and sustainability indexing.

165 The successful incorporation of sustainability into battery design suggests that closed-

166 The critical link between water scarcity and sustainability is adaptation.

167 s a need to better understand how sanitation sustainability is defined and measured and the potential

168 and creating virtual or physical centers for sustainability is essential.

169 The reaction sustainability is explained with a few controlled experi

170 continuous and healthy progress toward true sustainability is outlined.

171 es derived from different parts of trees for sustainability is prsented here.

172 rient content in the human diet, without the sustainability issues and costs associated with conventi

173 obalt prices poses serious environmental and sustainability issues.

174 Combining the Sustainability land-use and RCP 8.5 scenarios causes a 3

175 In order to achieve marine resources sustainability, large no-take marine protected areas (MP

176 ition, we discuss strategies used to promote sustainability, lessons learned during the first year of

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

178 (LCA) for algal biorefineries to compare the sustainability metrics of monocultures and polycultures

179 Tackling the pressing sustainability needs of society will require the develop

180 Therefore, the recyclability and sustainability of a battery should be considered at the

181 ritize crop health management to improve the sustainability of agroecosystems in delivering services

182 tory of water purification and the long-term sustainability of an ancient Maya city.

183 enging phenomenon in cattle that reduces the sustainability of beef production worldwide.

184 The sustainability of beekeeping is at risk through factors

185 may enhance the dissemination and long-term sustainability of behavioral health integration.

186 r factors that affect the implementation and sustainability of CHAMPS surveillance across 7 diverse l

187 al questions influencing the feasibility and sustainability of CHAMPS.

188 ctive of synthetic biology is to improve the sustainability of chemical manufacturing.

189 n acute bacterial disease that threatens the sustainability of citrus production across the world.

190 , which poses a major risk to the safety and sustainability of coastal communities worldwide.

191 impact on crop yields, thereby enhancing the sustainability of corn-based cropping systems.

192 rification studies, examining the demand and sustainability of critical metals, have focused on light

193 opportunities in which ENMs can advance the sustainability of crop-based agriculture.

194 Improving the sustainability of current food systems may prevent futur

195 The sustainability of current programmes remains unknown and

196 ble fit-for-purpose treatment, improving the sustainability of current water-treatment processes and

197 per we afford a quantitative analysis of the sustainability of current world population growth in rel

198 tanding of these phenomena might enhance the sustainability of dairying.

199 sers should review policies to influence the sustainability of dental providers.

200 We analyzed the water-related sustainability of energy extraction, focusing on: (a) me

201 functioning, including in the assessment of sustainability of fisheries and aquaculture.

202 lations and community structure threaten the sustainability of fisheries, our capacity to adapt by tr

203 tats and thereby contribute to the long-term sustainability of fisheries.

204 t, reputations of seafood businesses and the sustainability of fishery resources.

205 pportunities to improve diet quality and the sustainability of food production, being rich in nutrien

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

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

208 n GWS (groundwater storage) could affect the sustainability of freshwater resources.

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

210 The sustainability of ground-source geothermal systems can b

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

212 stay healthy for longer is key to the future sustainability of health, social and economic policy.

213 for soil sustainability and, ultimately, the sustainability of human society.

214 al action to implement strategies and ensure sustainability of initiatives; and (9) research to suppo

215 Overall, our study highlights the sustainability of integrated co-production of biofuels a

216 Longer-term data are vital to inform the sustainability of interventions.

217 cision-making processes toward improving the sustainability of irrigated agriculture.

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

219 ing of nitrogen in the biosphere and for the sustainability of life.

220 will be crucial to the clinical utility and sustainability of machine learning-based molecular diagn

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

222 MHD BEVs significantly improve environmental sustainability of MHDVs by providing deep reductions in

223 ticide research and evaluation, and thus the sustainability of modern agriculture.

224 To increase the impact and sustainability of modern science, it will be crucial to

225 oso bamboo and thereby are necessary for the sustainability of moso bamboo forest.

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

227 mistry promises to impact the efficiency and sustainability of organic synthesis.

228 of this notorious invader could threaten the sustainability of oyster aquaculture in Washington, whic

229 ited published experience on the utility and sustainability of PCR based surveillance testing in area

230 h could be used to increase the lifespan and sustainability of power cables for electronics and energ

231 transcription factors, likely explaining the sustainability of protection and the observed bystander

232 Metabolic resistance threatens the sustainability of pyrethroid-based malaria control inter

233 mentation research is required to assess the sustainability of QI interventions and quality of care.

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

235 f rangeland cattle production and ecological sustainability of rangeland resources.

236 in SCP production would further increase the sustainability of salmon farming.

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

238 ublic concern over the identity, safety, and sustainability of seafood.

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

240 re we review methods of improving the direct sustainability of structural metals, in areas including

241 Therefore, to improve the efficacy and sustainability of such therapy, we sought to identify bi

242 , low cost, abundance, nontoxicity, and high sustainability of sulfur.

243 an assessment and guidance of the long-term sustainability of the 'time zero' landscapes but also a

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

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

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

247 f catastrophic events clearly threatened the sustainability of the city and likely contributed to its

248 f our planet and the development of life and sustainability of the deep subsurface biosphere.

249 oupled with low profitability jeopardize the sustainability of the dominant rice-wheat (RW) system.

250 We evaluated the sustainability of the effects after treatment terminatio

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

252 To assess the sustainability of the intervention, this study evaluated

253 eptability, feasibility, cost, coverage, and sustainability of the interventions, is needed to ensure

254 erm experiment and plant assay show the high sustainability of the method and its feasibility for agr

255 ty for increasing the economic viability and sustainability of the overall grain-to-fuels process.

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

257 derived from capture fisheries, challenging sustainability of the production system.

258 to conduct proper land use for the long-term sustainability of the saline-alkali reclamation region.

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

260 eir efforts much more closely to improve the sustainability of their supply chains in their sourcing

261 The enhanced sustainability of these materials suggested that peanut

262 gs across the country; the effectiveness and sustainability of these pilots remain to be seen.

263 introduction to ensure the establishment and sustainability of these species at these sites.

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

265 Sustainability of VESPA over time was also evaluated.

266 However, there are barriers to the sustainability of VIA programs including declining provi

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

268 ut increasing pressure on the management and sustainability of water.

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

270 odel yields a wide range of system outcomes: sustainability or collapse, infrastructure at full or pa

271 DAH that prioritise equity, efficiency, and sustainability, particularly through domestic resource u

272 Innovation for Vehicle efficiency and Energy sustainability Partnership (U.S. DRIVE).

273 onomies when identifying regionally relevant sustainability pathways.

274 ation from a multi-criteria productivity and sustainability perspective is likely required to help dr

275 ntify the characteristics of stakeholders in sustainability planning and engagement.

276 Yet, the sustainability potential of biotechnology is not without

277 n drug developers to take more seriously the sustainability ramifications of this modality.

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

279 To improve agricultural output and sustainability, research should develop breeding methods

280 cenarios, yet the decline was smaller in the sustainability scenario (-0.02) than the regional rivalr

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

282 Within CHANS research, and sustainability science more generally, the path to accum

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

284 for reasons of food security, environmental sustainability, social and health benefits.

285 emissions scenarios (RCP2.6) combined with a sustainability socioeconomic scenario (SSP1) resulted in

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

287 pathways [RCPs]): a future oriented towards sustainability (SSP1xRCP2.6), a future determined by a p

288 Voluntary sustainability standards (VSS) are stakeholder-derived p

289 , such as including aspects of environmental sustainability that consider resource recovery.

290 duction number (R(0)) is used to specify the sustainability threshold.

291 The SDI ranges from 4 (lowest sustainability) to 20 points and includes 4 subindexes r

292 evelopment outcomes is key for understanding sustainability transitions.

293 However, achieving deep-ocean sustainability under the UN Sustainable Development Goal

294 synthetic communities with optimized growth sustainability using phototrophic partners.

295 off frontier framework to quantify the water sustainability value of SWE through a case study in Cali

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

297 Sustainability was demonstrated by the continuation of 3

298 nvironment, economy, and toxicology) of diet sustainability were assessed using: 1) nutritional indic

299 Sustainability within planetary boundaries requires conc

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