ライフサイエンスコーパス: sustainable

1 , and financing mechanisms must be made more sustainable.

2 r, although the long-term survival is hardly sustainable.

3 to making our food system more efficient and sustainable.

4 make interventions efficient, effective, and sustainable.

5 with price reduction being more powerful and sustainable.

6 avel to deep waters, and are considered more sustainable.

7 m the technical point of view, and it is not sustainable.

8 transformation is to provide affordable and sustainable access to electricity.

9 ls as novel platforms for the development of sustainable, affordable, and safe therapeutics.

10 s obtained from farms grown under Unilever's sustainable agricultural code.

11 ude that EEFs can play a significant role in sustainable agricultural production but their prudent us

12 One of the greatest challenges in sustainable agricultural production is managing ecosyste

13 ation of research findings into improved and sustainable agricultural technologies.

14 egies that balance wildlife conservation and sustainable agriculture are still needed today.

15 lly informed breeding of legumes can enhance sustainable agriculture by reducing requirements for wat

16 ther within a scheme, such as the Unilever's sustainable agriculture code, or between schemes.

17 d provides potential leads for efficient and sustainable agriculture through microbiome engineering.

18 f using a grapevine shoot extract (VIN) as a sustainable alternative to sulfur dioxide (SO2), in this

19 Nickel precatalysts are potentially a more sustainable alternative to traditional palladium precata

20 Our research represents a safer and more sustainable alternative to typical silane, lithium alumi

21 Here, we introduce a sustainable alternative, namely nanobodies against all m

22 nsidering local production systems as a more sustainable alternative, this paper presents an insight-

23 ent of current petroleum-based plastics with sustainable alternatives is a crucial but formidable cha

24 ctants (BSs) attract increasing attention as sustainable alternatives to petroleum-derived surfactant

25 ic methods for organic synthesis could offer sustainable alternatives to traditional redox reactions,

26 For algal biofuels to be economically sustainable and avoid exacerbating nutrient pollution, a

27 h any biocides, and it is an environmentally sustainable and cheap option for disposable water purifi

28 use in crop protection as an environmentally sustainable and easy to adopt topical spray.

29 assical methods in the aim of producing more sustainable and environmentally friendly procedures for

30 trodes represents a promising approach for a sustainable and environmentally friendly production of r

31 ) strategy of disease control is potentially sustainable and environmentally friendly.

32 Here we investigate the use of bacteria, sustainable and naturally abundant materials, as a pore

33 perate Internet of Things (IoT) devices from sustainable and renewable energy sources.

34 sed a dramatic increase in the production of sustainable and renewable energy.

35 lection of the next generation of crops more sustainable and resilient to climate change, and whose b

36 gn, thus representing a promising choice for sustainable and safe energy storage.

37 wered by renewable electricity, enabling the sustainable and selective production of ammonia and biof

38 a distinct transition between energetically sustainable and unsustainable ATP concentrations for var

39 This method provides operationally simple, sustainable, and efficient access to a variety of vicina

40 s paper describes the development of simple, sustainable, and low-cost strategies for signal enhancem

41 terial design, recent advances regarding the sustainable applications of these novel wood-based mater

42 progress pertaining to materials' design and sustainable applications presented, a vision for the fut

43 s, known as biofortification, is viewed as a sustainable approach to alleviate micronutrient deficien

44 ough carbon financing could be a financially sustainable approach to scale up water treatment and imp

45 istry as a key technology ensures a safe and sustainable approach.

46 ction are essential to develop effective and sustainable approaches to disease control and prevention

47 nt upon organic solvents to one that will be sustainable, based on water as the reaction medium.

48 s on election participation, environmentally sustainable behaviors, and charitable giving.

49 vides the first attempt for development of a sustainable biogas upgrading technology and potentially

50 for their potential as a source of valuable, sustainable biomass in the food, feed, chemical and phar

51 Sustainable business models and a shared, high-quality c

52 eters, resulting in processes that are truly sustainable by design.

53 ge duration should be reduced to the minimum sustainable by the blood supply, with 35 days as an atta

54 r approach causes the naturally abundant and sustainable Candida rugose lipase to ordered-assemble in

55 Sustainable, capacity-building educational collaboration

56 romising approach for producing scalable and sustainable carbon-free energy.

57 Particular attention is paid to advances in sustainable catalytic processes, especially to additive-

58 catalysis represents the next major goal for sustainable chemistry.

59 ications have a strong potential in a future sustainable, circular bioeconomy.

60 orhood inequality can enhance the pursuit of sustainable cities, both in the United States and global

61 plantations sustainably, but on whether the sustainable conversion to drainage-based systems is poss

62 we evaluated the capacity of Iran's land for sustainable crop production based on the soil properties

63 ffect plant health is crucial for developing sustainable crop production systems.

64 o meet global demand and the search for more sustainable cropping systems are increasing the need for

65 A robust and sustainable delivery strategy demands not only good prot

66 ologies was evaluated through a quantitative sustainable design framework, and research objectives we

67 nd, potentially, the main solution to global sustainable development challenges.

68 UHC) can play an important role in achieving Sustainable Development Goal (SDG) 10, which addresses r

69 Governments seeking to meet Sustainable Development Goal (SDG) 3.4-reducing prematur

70 -based prevention and monitoring progress to Sustainable Development Goal (SDG) 5.2, but so far, popu

71 has already exceeded the developed regions' Sustainable Development Goal 2030 targets for maternal m

72 iseases 2013-2020, and in advancing the UN's Sustainable Development Goal 3, setting a global target

73 According to the UN Sustainable Development Goal 3, target eight, the provis

74 projected annual capital costs of achieving Sustainable Development Goal 6.1 of safe water for all (

75 y for countries attempting to convert the UN Sustainable Development Goal commitments into tangible a

76 nalyses should also be included in post-2015 Sustainable Development Goal projects says Joshua Salomo

77 NTDs have been included within the Sustainable Development Goal targets and are a crucial c

78 nal, newborn, and child health is central to Sustainable Development Goal targets for 2030, requiring

79 Based on current trends, the UN Sustainable Development Goal to reduce premature mortali

80 Reduction of premature mortality is a UN Sustainable Development Goal.

81 t NTDs and the global efforts to achieve the sustainable development goals (SDGs) by 2030.

82 With the adoption of the Sustainable Development Goals (SDGs) in 2015, which esta

83 The United Nations' Sustainable Development Goals (SDGs) recognize that curr

84 The ambitious development agenda of the Sustainable Development Goals (SDGs) requires substantia

85 Successful delivery of the United Nations sustainable development goals and implementation of the

86 xisting monitoring processes, such as the UN Sustainable Development Goals and WHO's climate and heal

87 be critical for achieving the United Nations Sustainable Development Goals and, conversely, each such

88 hrough enhanced policy and programmes in the Sustainable Development Goals era.

89 tential barriers to achievement of the third Sustainable Development Goals in African countries and a

90 del offers a flexible tool for balancing the Sustainable Development Goals of human development and m

91 x 20 is crucial for ultimately achieving the Sustainable Development Goals of universal access and sa

92 The Sustainable Development Goals provide a global platform

93 The UN Sustainable Development Goals provide a historic opportu

94 The Sustainable Development Goals strongly focus on equity.

95 p presidency, based on a selection of the 17 Sustainable Development Goals that apply to health.

96 o the Convention on Biological Diversity and Sustainable Development Goals), by a median average of 2

97 n on Biological Diversity and United Nations Sustainable Development Goals, but success to date has b

98 e substantially to achievement of the global Sustainable Development Goals, in terms of health, wellb

99 but also the transformative potential of the Sustainable Development Goals, including their universal

100 non-communicable diseases called for by the Sustainable Development Goals.

101 Poverty eradication is also the first of the Sustainable Development Goals.

102 nsure programs achieve benefits in line with sustainable development goals.

103 y concerns in relation to the United Nations Sustainable Development Goals.

104 ist, and need to be addressed to achieve the Sustainable Development Goals.

105 nt of progress toward internationally agreed sustainable development goals.

106 are essential to realising the vision of the Sustainable Development Goals.

107 on strategies, including the United Nation's Sustainable Development Goals.

108 We use detailed census data to construct sustainable development indices in hundreds of thousands

109 is important to take effective measures for sustainable development of eco-hydrological and socio-ec

110 at the river basin scale is critical for the sustainable development of rural agrarian regions in the

111 usive" goals in the UN's new 2030 Agenda for Sustainable Development.

112 ombat inequalities, reduce poverty and allow sustainable development.

113 n be viewed as the zero-emissions energy for sustainable development.

114 sola schola et sanitate) is needed today for sustainable development.

115 tiple climate types to address challenges of sustainable development.

116 is needed for the development of functional, sustainable early diagnosis, treatment and supportive ca

117 The Sustainable East Africa Research in Community Health (SE

118 s for the development of staghorn sumac as a sustainable economic plant for food and other industries

119 ctrics will have far-reaching impacts on the sustainable energy and will be an important research top

120 er to utilize TE technology for competitive, sustainable energy applications.

121 e materials are currently highly desired for sustainable energy applications.

122 on reaction (HER) is of great importance for sustainable energy conversion processes.

123 i.e., "overshoot") of temperature targets on sustainable energy decarbonization futures and carbon di

124 ic power generation can play a key role in a sustainable energy future by converting waste heat from

125 litting are highly competitive options for a sustainable energy future, but their commercialization i

126 at can play a key role in achieving a global sustainable energy future.

127 Research toward renewable and sustainable energy has identified specific terpenes capa

128 epresents a compelling component of a future sustainable energy portfolio.

129 Hydrogen as an energy carrier promises a sustainable energy revolution.

130 ial to revolutionize our use of intermittent sustainable energy sources such as solar and wind power

131 s: The development of environmentally benign sustainable energy storage systems is eagerly awaited.

132 e candidates for the development of safe and sustainable energy storage systems.

133 will play a key role in the realization of a sustainable energy supply.

134 a challenging step toward the development of sustainable energy technologies.

135 sents a promising platform for renewable and sustainable energy.

136 thin film materials holds great promise for sustainable, energy-efficient desalination and water tre

137 ategy (GRAS), business as might be usual and sustainable European development goals.

138 ble tools for ministries of health to ensure sustainable, evidence-informed immunization policies tha

139 urrent threats on their populations impose a sustainable exploitment based on sound scientific inform

140 areas will require a reinvigorated WHO, with sustainable financing, greater multisector engagement, e

141 change in the ecosystem approach to achieve sustainable fisheries management.

142 oving towards an ecosystem-based approach to sustainable fisheries management.

143 d anticipate these climate impacts to ensure sustainable fishery yields and livelihoods.

144 bined partial implementation delivers a more sustainable food future.

145 ivers of pollinator decline while supporting sustainable food production, by promoting biodiversity b

146 umes play an important role in human health, sustainable food production, global food security, and t

147 o assume shared responsibility for achieving sustainable food production.

148 Besides focusing on production, sustainable food systems need to address waste, crop-gra

149 role that organic agriculture could play in sustainable food systems.

150 catalysts for CO2 reduction hold promise for sustainable fuel production.

151 ues in children and their families, securing sustainable funding for health promotion and injury prev

152 This would bring the vision of a sustainable future closer to reality.

153 Sustainable future energy scenarios require significant

154 of fossil resource in transition toward more sustainable future production.

155 ies, hydrogen transport and storage, and the sustainable generation of renewable chemical feedstocks

156 But for sustainable goal in China's mollisols region, straw retu

157 h is an important variable for efficient and sustainable groundwater resources management.

158 is therefore central to the environmentally sustainable growth of the aquaculture industry.

159 ntioxidant system for disease protection and sustainable growth.

160 Delivery of optimal cancer care in a sustainable health system will necessitate future oncolo

161 g and policy stand to make China a leader in sustainable, healthy transportation.

162 a(-/-) T cells relied partly on induction of sustainable host T-cell immunity.

163 ing the house, could be integrated in a more sustainable house design in rural northeastern Tanzania,

164 ch that incentivizes protection and promotes sustainable human-wildlife coexistence across large mult

165 electrolyzers is pivotal for large-scale and sustainable hydrogen production.

166 For the large-scale sustainable implementation of polymer electrolyte membra

167 ttle while emphasizing the opportunities for sustainable improvement of livestock productivity on the

168 , and utilize improvement methods to achieve sustainable improvements in care quality.

169 f self-charge injection are quite faster and sustainable in polypyrrole based RLG, recovering more th

170 This strategy would be sustainable in the context of vertical HIV infection as

171 nality operates in the transmission mode and sustainable in the high-speed operation regime up to a 1

172 wall polysaccharides may offer solutions for sustainable industries.

173 These data point to a complex but not sustainable integration of beta cell-adaptive responses

174 s contributing to precision N management for sustainable intensification of agriculture.

175 insight into the importance of evolution for sustainable interactions between humans and our city env

176 acious template for further development of a sustainable intraocular drug delivery system to protect

177 n low-income and middle-income countries for sustainable investments in the entire continuum of cance

178 licy mix that creates lasting incentives for sustainable land-use practices.

179 verse nutrients and viable, multifunctional, sustainable landscapes.

180 e found that the oxygen level required for a sustainable level of ATP increases roughly linearly with

181 mulative effect of future climate change and sustainable levels of fishing pressure on selected targe

182 t the cVLPs induced significantly higher and sustainable levels of virus-specific antibody responses,

183 d energy gained more importance to provide a sustainable life for human and nature.

184 to address two challenges in the science of sustainable management of ecosystems.

185 Here, we argue that sustainable management of seaweed aquaculture requires f

186 field studies of a "banker plant system" for sustainable management of the rice brown planthopper (BP

187 es to changes in streamflow is important for sustainable management of water resources in an arid are

188 nders our ability to inform policy and apply sustainable management practices to these peatlands that

189 a that can serve as a baseline for designing sustainable management strategies for the species.

190 its host plant is important for developing a sustainable management system.

191 g efforts in support of effective policy and sustainable management, including national and global C

192 ly generating high-value molecules in a more sustainable manner.

193 means for producing fuels and chemicals in a sustainable manner.

194 likelihood that they would be rewarded in a sustainable manner.

195 an attractive route for rationally designed, sustainable manufacturing.

196 rriers, made from inexpensive, abundant, and sustainable materials, principally, C and Fe, demonstrat

197 a crystalline solid may directly melt into a sustainable metastable liquid.

198 We developed a sustainable method for the extraction and the production

199 ective of this study was the derivation of a sustainable method to exploit the whole fruit, both edib

200 Herein, we developed a more sustainable method to produce silicon nanowires (Si NWs)

201 towards a bioeconomy requires efficient and sustainable microbial production of chemicals and fuels.

202 humans or are too expensive and complex for sustainable monitoring.

203 ts of nanoparticle incorporation, can inform sustainable nanoenabled product design.

204 The widespread implementation of sustainable nuclear energy thus requires the development

205 d populations and to contribute to achieving sustainable nutrition security.

206 It is therefore sustainable only if a small fraction of the population s

207 backs of power consumption issues that limit sustainable operation of wearable medical devices.

208 c protocols that are not easily industrially sustainable or scalable.

209 of the art in heterobimetallic catalysis for sustainable organic syntheses (SOS), highlighting key ad

210 derably higher power generation rates may be sustainable over some open ocean areas.

211 The development of sustainable oxidation chemistry demands strategies to ha

212 roduction was certified by the Roundtable on Sustainable Palm Oil (RSPO) in 2017.

213 ade commitments to purchase or produce only "sustainable" palm oil, a commodity responsible for subst

214 n companies, and society at large to shape a sustainable path for urban growth.

215 t the organization delivers high-quality and sustainable patient care within a supportive environment

216 on and, consequently, for the development of sustainable pest control strategies based on manipulatin

217 esticide resistance have increased calls for sustainable pest management.

218 Biological control offers sustainable pest suppression, partly because evolution o

219 ign in heterobimetallic catalysis as well as sustainable photo-induced C-H transformations, among oth

220 paving the way for the development of truly sustainable photonic pigments in coatings, cosmetics, an

221 s review provides a system-level analysis of sustainable polymers and outlines key criteria with resp

222 Specifically, we define sustainable polymers as a class of materials that are de

223 abling tool to facilitate the development of sustainable polymers.

224 nities in farming systems therefore requires sustainable practices that operate both within fields an

225 CO2 represents a cheap and sustainable, preoxidized C1 source.

226 development of truly transformative drugs at sustainable prices.

227 More sustainable pricing strategies for targeted therapies ar

228 lean energy conversion, enabling a number of sustainable processes for future technologies.

229 nt of improved catalysts could allow for the sustainable production of a broad range of fuels and che

230 yanobacterium Synechocystis sp. PCC 6803 for sustainable production of a commercially valuable isopre

231 ailable for synthetic biology programmes for sustainable production of bioactive plant triterpenoids.

232 otential of these microbial biofactories for sustainable production of chemicals conventionally produ

233 e potential new opportunities they offer for sustainable production of energy from biodegradable and

234 tform molecules is an emerging route for the sustainable production of fuels and chemicals.

235 a more comprehensive picture and advancing a sustainable production of high quality fry.

236 his study provides new tools for engineering sustainable production of salidroside in heterologous ho

237 However, their sustainable production strongly depends on the availabil

238 However, achieving higher, sustainable rates of improvement in yields in various sp

239 with, on average, 400-800 years required for sustainable recovery.

240 eals great potential towards cost-effective, sustainable redox-flow batteries.

241 ses formidable challenges for establishing a sustainable relationship on a rapidly urbanizing, yet fi

242 Apart from being sustainable, renewable, and biodegradable, wood and its

243 e technological barriers for developing more sustainable replacements for petroleum-based plastics.

244 ntitious root cultures may hold promise as a sustainable resource for the large-scale production of t

245 of water, leading to large uncertainties for sustainable resource management.

246 nolyte, favoring REE extraction and allowing sustainable reuse of the leaching agent.

247 that stable, tissue-bound CCL21 gradients as sustainable "roads" ensure optimal guidance in vivo.

248 tures in plasmonic photocatalysis provides a sustainable route to high-value chemicals and reaffirms

249 molecular catalysts to reduce CO2 to CO is a sustainable route to storable solar fuels.

250 e more cognizant of the need to advocate for sustainable science funding from the federal government

251 t effective seafood traceability and promote sustainable seafood markets using one of the world's mos

252 y a key role in transitioning towards a more sustainable society.

253 rate environmental services and benefits for sustainable socioeconomic development.

254 A key requirement for a sustainable solar fuel production system is a low-cost,

255 The development of sustainable solid waste management (SWM) systems require

256 n, we report a simple, general, scalable and sustainable solid-state synthesis of OMCs and nickel OMC

257 c approaches and tools are needed to achieve sustainable solutions to protect the environment and pub

258 develop and assess options, and d) implement sustainable solutions.

259 ssil fuel-based materials to those with more sustainable sources.

260 Fiscally sustainable strategies are needed to improve patient acc

261 ertilizer subsidies may not be sufficient or sustainable strategies for production gains in Malawi.

262 Determining sustainable strategies for utilizing biomass resources,

263 great interest in developing alternative and sustainable strategies to achieve textile functionality

264 rable materials is of great significance for sustainable strategies.

265 ve organic reactions constitutes a green and sustainable strategy for organic synthesis.

266 try and academia as an inherently direct and sustainable strategy to induce chirality.

267 The hydrogel provides sustainable supplies of water and nutrients, and the ela

268 key features include rational designing and sustainable synthesis of the template, customized reacti

269 s for realizing low-power, stand-alone, self-sustainable systems.

270 New sustainable technologies for REE extraction from both pr

271 ing development of efficient, selective, and sustainable technologies for their preparation.

272 llution while also encouraging innovation of sustainable technologies.

273 operties would be a significant step towards sustainable technology.

274 at short-term positive effects on health are sustainable.The aim of this follow-up study was to compa

275 to make interventions successful, smart, and sustainable, they need to be implemented as multi-sector

276 rticularly its lignin component, hinders its sustainable transformation to fuels and biomaterials.

277 ous poultry are permissive for infection and sustainable transmissibility with the 2014 initial wild

278 To move toward environmentally sustainable transport systems, electric vehicles (EVs) a

279 plans and educate spectators to employ more sustainable travel plans to games.

280 in biocatalysis could provide affordable and sustainable treatment options to protect the public from

281 er the majority of the day, through safe and sustainable types of muscular activity, will be the opti

282 y tailored therapeutic decisions but require sustainable updating, inclusive cohorts and large sample

283 The future outlook encompasses rational and sustainable use of effective vector control tools and in

284 by extension, the economic stability and the sustainable use of natural resources.

285 developed in order to contribute with their sustainable valorization.

286 accelerate a path forward that leads to new sustainable water infrastructures.

287 in the process of developing strategies for sustainable water management.

288 The long-term sustainable water quantity available to humans is calcul

289 The main goals for sustainable water resource recovery include maximizing e

290 By providing a coarse-scale evaluation of sustainable water use from satellite and ground observat

291 water withdrawal and management policies for sustainable water utilization appear to have started rep

292 ti-biofouling characteristics can facilitate sustainable water/wastewater treatment processes.

293 of carbon dioxide with renewable energy is a sustainable way of producing carbon-neutral fuels.

294 In vitro culture emerges as a sustainable way to produce bioactives for further applic

295 l plants for health, we need to find new and sustainable ways to improve the production of the specia

296 Vertical sleeve gastrectomy (VSG) produces sustainable weight loss, remission of type 2 diabetes (T

297 rts have been shown to be more effective and sustainable when paired with a strong safety culture.

298 typic switching in prostate cancer cells was sustainable yet reversible even after long-term culture,

299 nal on the EBM-inspired multispecies maximum sustainable yield management beginning in 2017, whereas

300 hes that applied simple formulas to estimate sustainable yields of single species, current research r