ライフサイエンスコーパス: sustainable

1 ions and make dentistry more environmentally sustainable.

2 t would make oligonucleotide production more sustainable.

3 demic and suggest ways to make these changes sustainable.

4 tial applications that offer environmentally sustainable advances in the fields of biofuels, wastewat

5 e gaps in the exploitation of AMF for future sustainable agricultural practices within the context of

6 The globally recognized need to advance more sustainable agriculture and food systems has motivated t

7 n making at farm and policy level to develop sustainable agriculture in order to minimize environment

8 To face the need for a more sustainable agriculture system, the circularization of t

9 system carbon and nutrient sequestration and sustainable agriculture.

10 r-use efficiency (WUE(plant) ) is needed for sustainable agriculture.

11 istance, and have potential to contribute to sustainable agriculture.

12 enerality of this scalable method provides a sustainable alternative for preparing N,O-biaryl compoun

13 cedented at iron for imines, also provides a sustainable alternative for the preparation of quinoxali

14 extracted by emerging technologies led to a sustainable alternative to control microorganisms.

15 concentrations in the environment require a sustainable alternative to current removal practices, wh

16 establishes the potential of TSSE as a more sustainable alternative to current thermal evaporation m

17 ols presented herein are viewed as promising sustainable alternatives to BPA and BPF.

18 barrels, research has sought to develop more sustainable alternatives to do it.

19 use microbial products are considered a more sustainable and benign technology.

20 uce valuable fuels and feedstocks provides a sustainable and carbon-neutral approach to the storage o

21 Seeking sustainable and cost-effective energy sources is one of

22 ) is emerging as a promising alternative for sustainable and distributed production of NH(3) .

23 ariation makes Schistosoma transmission less sustainable and easier to control than predicted by earl

24 needed to stabilize wines and may provide a sustainable and effective alternative to bentonite, nota

25 l, comparative strategies for the relatively sustainable and efficient synthesis of 1,2-disubstituted

26 can contribute for the development of novel sustainable and healthier snacks for the food industry.

27 rrepresented crop varieties for facilitating sustainable and innovative agroecological solutions.

28 igh-performance K-ion batteries that offer a sustainable and low-cost alternative to lithium (Li)-ion

29 t plants in the climate change scenario is a sustainable and meaningful strategy.

30 More importantly, the self-sustainable and reversible operation is successfully dem

31 propose and verify an environment-friendly, sustainable, and cost-effective strategy of harvesting s

32 s for criteria that contribute to equitable, sustainable, and effective partnerships.

33 of being effectuated in an array of emerging sustainable applications and being fabricated into high-

34 Marine aquaponics is a promising sustainable approach for the production of profitable cr

35 The present work aims to develop a novel and sustainable approach to adsorb and recover low-concentra

36 of resistance (R) genes is an effective and sustainable approach to controlling crop diseases.

37 study reveal high potential of LC(+mcra) as sustainable approach to decrease colonization of C. jeju

38 abundant sunlight, has been recognized as a sustainable approach to harvest fresh water.

39 powered by renewable energy is an attractive sustainable approach to mitigate CO(2) emissions and to

40 trait "hygienic behavior" has emerged as one sustainable approach to reducing the mites' impact on ho

41 The handshake method is an effective and sustainable approach to stewardship.

42 ffluents with no energy input in a green and sustainable approach.

43 astic pollution demands discovery of new and sustainable approaches to degrade robust plastics such a

44 ation or environmental conditions than other sustainable approaches.

45 acement of fishmeal in feeds is critical for sustainable aquaculture growth.

46 he valorization of halophytes produced under sustainable aquaculture practices.

47 Our results show that effective and sustainable As(III) removal can be achieved at 0 V once

48 To ensure that food systems are sustainable, as well as nourishing, one solution often s

49 ty, as well as potential strategies toward a sustainable ASSB recycling model.

50 l materials from abundant, fast-growing, and sustainable bamboo.

51 process in nature and for the development of sustainable biorefineries.

52 ophs and heterotrophs hold great promise for sustainable biotechnology.

53 A sustainable boron-based catalytic approach for chemosele

54 ove, and the greater mission of SER to build sustainable career trajectories that produce the best sc

55 rtunity to address outstanding challenges in sustainable catalysis.

56 Development of sustainable catalysts for synthetic transformations is o

57 A highly sustainable catalytic protocol for the coupling of alcoh

58 pan January 2015-August 2019, describing the sustainable catalytic synthesis of rigid diols from biom

59 isobutanol, have been long envisioned for a sustainable chemical production.

60 on vessel is one of the key points of modern sustainable chemistry.

61 logical enzymes offers new opportunities for sustainable chemistry.

62 raw material in line with the principles of sustainable chemistry.

63 ties as major limiting factors to developing sustainable climate services for health.

64 s to ensure generalizability and to define a sustainable clinical delivery model.

65 oming an increasingly important component of sustainable coastal risk management.

66 The more sustainable conditions give good to excellent yields in

67 response to stresses for engineering of more sustainable crops for food and biofuels.

68 provides an introduction to environmentally sustainable dentistry and offers perspectives on managin

69 tion, there is the opportunity to inform the sustainable design of nano-enabled agrochemicals.

70 Sustainable development aims for a viable interaction be

71 is essential to track global efforts towards sustainable development and guide policy development and

72 ve designs of novel membranes, promoting the sustainable development and steadily increasing prosperi

73 he idea that mobile phones are a vehicle for sustainable development at the global scale.

74 iding principles for sanitation that advance sustainable development at the nature-society interface.

75 mortality by 2030 is the ambitious target of Sustainable Development Goal (SDG) 3.4.

76 Each Sustainable Development Goal (SDG) has the potential to

77 of hunger by 2030, as set forward in the UN-Sustainable Development Goal 2 (UN-SDG2), is a daunting

78 The sixth Sustainable Development Goal seeks to achieve universal

79 Reducing suicides is a key Sustainable Development Goal target for improving global

80 will be crucial for dentistry in view of the Sustainable Development Goal's push for universal health

81 a pivotal sustainability challenge in the UN Sustainable Development Goals (86).

82 nt tool to achieve two of the United Nations Sustainable Development Goals (alleviate poverty and pro

83 family planning satisfied by modern methods, Sustainable Development Goals (SDG) indicator 3.7.1, was

84 This will contribute towards achieving the Sustainable Development Goals (SDGs) and maximising regi

85 es the empirical links between achieving the Sustainable Development Goals (SDGs) and subjective well

86 oped as we enter the last decade to meet the Sustainable Development Goals (SDGs) and targets.

87 International Sustainable Development Goals (SDGs) for elimination of

88 The Sustainable Development Goals (SDGs) prioritize progress

89 ries have committed to the 17 United Nations Sustainable Development Goals (SDGs)(5).

90 The Sustainable Development Goals (SDGs), which aim to halve

91 riorities outlined in the United Nations' 17 Sustainable Development Goals (SDGs).

92 's Contributions to People (NCPs) and the 17 Sustainable Development Goals (SDGs).

93 rotection investment and outcomes related to sustainable development goals (SDGs): "no poverty" (SDG

94 In the context of the Sustainable Development Goals and the shifting global bu

95 inable plant production that supports the UN Sustainable Development Goals for 2030 is proposed.(Post

96 ternative scenarios suggest that meeting the Sustainable Development Goals targets for education and

97 nsions, and synergies and trade-offs between sustainable development goals, including environmental p

98 ribution toward achieving the United Nations Sustainable Development Goals.

99 accelerate achievement of the health-related sustainable development goals.

100 l sources of expertise in our pursuit of the Sustainable Development Goals.

101 ment of its effect on the achievement of the Sustainable Development Goals.

102 erate stunting reduction to achieve the 2030 Sustainable Development Goals.

103 now also incorporated in the United Nations Sustainable Development Goals.

104 ence can help deliver climate mitigation and sustainable development goals.

105 is one of the significant challenges for the sustainable development of modern society.

106 we propose a hierarchical model to describe sustainable development of the Golden Inland Waterways (

107 ence on social and environmental outcomes of sustainable development policies remains scarce.

108 Successful policies for sustainable development should take this heterogeneity i

109 rmland is a widespread practice that fosters sustainable development via resource reuse.

110 short run there may be certain trade-offs to sustainable development, and further heterogeneity is re

111 er in decentralized systems are critical for sustainable development.

112 le of biodiversity and ecosystem services in sustainable development.

113 ng, there are increasing marginal returns to sustainable development.

114 between biodiversity, ecosystem services and sustainable development.

115 ty is one of the most threatening issues for sustainable development.

116 rvices, as called for in the 2030 Agenda for Sustainable Development.

117 ainable dietary patterns, assessed using the Sustainable Diet Index (SDI), and the risk of obesity, o

118 4 subindexes representing the 4 pillars of a sustainable diet.

119 ed in the first SDI Q, reflecting the lowest sustainable dietary patterns (Q1), than in Q5 (29.83% co

120 was to investigate the associations between sustainable dietary patterns, assessed using the Sustain

121 re complication of IDA.With rising calls for sustainable diets and rising evidence for a plant-based

122 erein, we report an operationally simple and sustainable direct meta-selective H(2)N amination of ben

123 observational data from the ongoing SEARCH (Sustainable East Africa Research in Community Health) st

124 llen paper opens the door to a wide range of sustainable, eco-friendly, and biocompatible material in

125 hese changes is crucial for conservation and sustainable economic development.

126 chemicals present an attractive avenue to a sustainable economy, yet screening of genetically divers

127 t elements with high spin-orbit coupling for sustainable electroluminescent devices.

128 ng of nanoparticles to ensure their safe and sustainable employment.

129 rts to reduce poverty and hunger by pursuing sustainable energy and agricultural practices, a third o

130 rrent development of hydrogel materials into sustainable energy and water technologies.

131 Electrocatalysis is at the center of many sustainable energy conversion technologies that are bein

132 The ever-increasing demand for clean sustainable energy has driven tremendous worldwide inves

133 lectrochemistry has the potential to advance sustainable energy solutions by offering environmentally

134 power, utilizing solar energy as a green and sustainable energy source is of great interest.

135 modern society, and advanced technologies on sustainable energy storage and conversion as well as wat

136 inant effect and potential for the future of sustainable engineering.

137 pecially in regard to land use practices and sustainable environmental interactions.

138 xtiles with energy harvesters will provide a sustainable, environmentally friendly, pervasive, and we

139 a global perspective: current costs are not sustainable, even for HICs, and globally, most people wh

140 In order to enable sustainable expansion of aquaculture, we need to underst

141 The sustainable exploitation of fruit and cereal processing

142 lability and accessibility of affordable and sustainable farmed aquatic foods should focus on freshwa

143 e to the supply of new potato genotypes into sustainable farming systems, supporting the protection o

144 tom bonds for complex organic molecules in a sustainable fashion under mild reaction conditions.

145 promotion of phosphorus bioavailability and sustainable fertilizer use.

146 bat stigma and discrimination, and provide a sustainable financial solution for pandemic control.

147 Sustainable food production in the context of climate ch

148 apid increase of aquaculture contributing to sustainable food security, comes the need to better unde

149 important role in a future, environmentally sustainable food system.

150 community and transportation infrastructure, sustainable food systems, reduction in climate forcing a

151 ill aid the food industry in engineering new sustainable food systems.

152 Sustainable food-based approaches are being advocated to

153 ctions that would make the Lightning Network sustainable for a given level of fees or, alternatively,

154 rvation efforts to maintain wild populations sustainable for both commercial and ecological considera

155 e size of the carbon sink in the region, and sustainable forest management practices such as precisio

156 protection of these large tracts of forest, sustainable forest policies and management should be imp

157 tion of CO(2) is being intensely studied for sustainable fuel production and as a means for energy st

158 de holds immense promise for applications in sustainable fuel synthesis and hydrogen storage.

159 ve review of the different parts of trees as sustainable functional materials and devices for critica

160 erts, backed by robust political support and sustainable funding, is the key to reducing this burden.

161 ther pest species for an efficient, safe and sustainable genetic control program.

162 ion, and contribute towards a step-change in sustainable global food production through improved aqua

163 on, potentially leading to economically more sustainable grape production.

164 environmentally sound approach for achieving sustainable grape production.

165 Recently, we achieved sustainable H(2) photoproduction by shifting algae from

166 considered a promising fruit candidate for a sustainable healthy diet.

167 Aluminium batteries constitute a safe and sustainable high-energy-density electrochemical energy-s

168 facile microwave treatment paves the way to sustainable, high yield and cost-effective synthesis of

169 electrolysis is crucial to the deployment of sustainable hydrogen economy but is currently constraine

170 This protocol provides a sustainable, indirect way for CO(2) methanation as the p

171 Sustainable inland waterways should meet the needs of na

172 Sustainable intensification of pasture is most promising

173 tify future research areas to accelerate the sustainable intensification of vertical farming using ae

174 tal goals are required to identify promising sustainable intensification options in high-yielding cer

175 fed croplands hold significant potential for sustainable irrigation expansion and that different irri

176 teries, a great interest has been raised for sustainable K-based honeycomb layer oxide materials, bot

177 Sustainable land-use management must account for the pot

178 ecious materials is critically important for sustainable large-scale applications of fuel cells and m

179 rovskite solid exhibits superior temperature sustainable lifetime over 1100 h.

180 pave the way for the further development of sustainable light-harvesting applications.

181 itting single-material sources are ideal for sustainable lighting applications.

182 ion by abundant water to alcohols can supply sustainable liquid fuels and alleviate global warming.

183 of drug resistance is a constant obstacle to sustainable malaria control.

184 Conservation and sustainable management activities are critical for enhan

185 and population modelling was adopted for the sustainable management of the Amaranthus palmeri weed in

186 ater storage (TWS) in China are critical for sustainable management of water resources but remain ver

187 ientists should harmonize methods to develop sustainable management options for increased food and nu

188 pical forest dynamics and planning for their sustainable management require efficient, yet accurate,

189 ards accessing these same products in a more sustainable manner.

190 se gases are mitigated in an environmentally sustainable manner.

191 s to deal with environmental challenges in a sustainable manner.

192 g to be a feasible waste stream option and a sustainable marketing edge while treading the path towar

193 ing photosynthesis using designer, green and sustainable materials offers an attractive alternative t

194 o one that is supplied by more renewable and sustainable materials.

195 yses demonstrate that in commercial settings sustainable microencapsulated diets facilitate improved

196 form the bedrock of individual decisions on sustainable mobility and have a wider significance for h

197 nd comprehensive impact on how people assess sustainable mobility debates.

198 tionality in transport since a transition to sustainable mobility is crucial in dealing with global c

199 tween the worldviews and social attitudes to sustainable mobility.

200 In order for sustainable nanomaterials such as cellulose nanocrystals

201 ng fruit quality through an eco-friendly and sustainable nanotechnological approach.

202 Sustainable nanotechnology requires a scientifically bas

203 Ultrasensitive and sustainable near-infrared (NIR)-emitting piezoluminescen

204 n reduction reaction (NRR) for efficient and sustainable NH(3) production, catalysts should exhibit h

205 ackaging, which can also benefit from having sustainable, nontoxic, and degradable materials.

206 butes to an understanding of how to obtain a sustainable ocean.

207 failure, a historically fatal condition now sustainable only by administration of exogenous insulin.

208 biochemical detection, water monitoring, and sustainable optoelectronics.

209 e phase space where the Lightning Network is sustainable or not is elucidated.

210 This is particularly true in the search for sustainable or renewable aviation fuels.

211 m stray, weak environmental energies through sustainable pathways could enable viable schemes for sel

212 ctivity to improve YG estimates and identify sustainable pathways toward intensification.

213 hich is a major impediment for the design of sustainable peptide-based antibiotics that can be hydrol

214 re candidates for incorporation into new and sustainable peptide-based antibiotics.

215 or scientific papers, and for effective and sustainable personal workflows.

216 The drive toward sustainable phosphorus (P) recovery from agricultural an

217 sets for a non-native product indigoidine, a sustainable pigment, in Pseudomonas putida KT2440, an em

218 e of PMA interactions for crop protection in sustainable plant production that supports the UN Sustai

219 PMA): Impacts, mechanisms, and prospects for sustainable plant protection.

220 in marine organisms and hence is a promising sustainable polymeric candidate.

221 presents a platform to employ live cells for sustainable power generation and biosynthesis.

222 irst is to harvest energy from the body as a sustainable power source for cardiovascular electronic d

223 s JACC State-of-the-Art Review, an early and sustainable preventive care plan is described for cardio

224 In this study, the effect of sustainable probiotics on Campylobacter jejuni colonizat

225 This new reaction represents an efficient, sustainable process for the production of chemical mater

226 This work has great potential for the sustainable production of densely functionalized pyrrole

227 ued and essential for the cost-effective and sustainable production of different kinds of amines and

228 th emerged as promising technologies for the sustainable production of fine chemicals.

229 molecular oxygen is a promising route toward sustainable production of hydrogen peroxide (H(2)O(2)).

230 text] reduction is a potential route to the sustainable production of valuable fuels and chemicals.

231 of intercontinental commerce in maintaining sustainable production within important supply regions a

232 developed for the dental industry to produce sustainable products.

233 The 3WP is a transferrable, affordable, and sustainable program that provides value to dying patient

234 compared to hydrolysates obtained from other sustainable protein sources such as soy (SPH) and blue w

235 Such a sustainable protein transition includes the use of highl

236 ox flow batteries, made from inexpensive and sustainable redox-active materials, are promising storag

237 fuels are produced from carbon dioxide using sustainable renewable hydrogen and energy.

238 oducer of oil and is considered a viable and sustainable resource for biofuel feedstocks.

239 arriers to universal sanitation coverage and sustainable resource management requires approaches that

240 sanitation for informal settlements and more sustainable resource systems.

241 ing brands it as potentially compatible with sustainable resource use, conservation, and human nutrit

242 parameters, will help to better exploit this sustainable resource.

243 r ecosystem function, atmospheric processes, sustainable resources and global biogeochemical cycles.

244 ed robust epigenetic mechanisms that provide sustainable responses and buffers against extreme enviro

245 olymers, and their exploitation to fabricate sustainable, responsive soft photonic objects.

246 With exciting new NASA plans for a sustainable return to the moon, astronauts will once aga

247 ent protocol provides an atom-economical and sustainable route for the synthesis of various quinoxali

248 fluids, the presented approach is a safe and sustainable route to meet the power requirements in wear

249 ns and their roles in HIV implementation and sustainable scale-up is needed in Asia and beyond.

250 nequities and has long-term consequences for sustainable schistosomiasis control.

251 ated two implicit assumptions of two popular sustainable seafood consumer-based initiatives: (1) seaf

252 The "best choice" species compiled from two sustainable seafood guides had less mislabelling, and wh

253 The material basis of a sustainable society will depend on chemical products and

254 landscapes have the resilience to provide a sustainable soil condition such as soil organic carbon (

255 ed during processing, an attractive and more sustainable solution is biofortification, which could im

256 Therefore, sustainable solutions are in high demand.

257 lectricity (or hydrogen) are one of the most sustainable solutions to meet the increasing worldwide e

258 lular model for beta-thalassemia providing a sustainable source of disease cells for studying underly

259 ement of new materials from biorenewable and sustainable sources because of great concerns about the

260 spent LIBs is an effective, ecofriendly, and sustainable strategy to minimize the environmental footp

261 ived from an earth-abundant metal provides a sustainable strategy to olefins.

262 culture and bivalve mariculture-to estimate 'sustainable supply curves' that account for ecological,

263 we question whether, because of the limited sustainable supply of biomass, BECCS should continue to

264 ates and represents a key advancement in the sustainable synthesis of these ubiquitous heterocycles.

265 insights should assist in developing novel, sustainable technologies for tick control.

266 anets, and their significant applications in sustainable technologies including but not limited to ga

267 ration for antimicrobial applications, a new sustainable technology, called electrodialysis with ultr

268 rugs in patients with NS, but might not be a sustainable therapeutic option.

269 While the state of global lockdown is not sustainable, these findings allude to the potential for

270 this study, IFGEM were proven effective and sustainable through an isotherm study, a column study of

271 ht susceptibility (S genes) can help achieve sustainable tolerance.

272 he provision of CRRT in the ICU that enabled sustainable tracking of CRRT deliverables and reduced fi

273 t efforts of APAC economies and attention to sustainable transformation are needed.

274 anic synthesis is a promising tool to design sustainable transformations and discover new reactivitie

275 g point dynamics are fundamental drivers for sustainable transition pathways of social-ecological sys

276 cumulative knowledge about how to encourage sustainable travel.

277 al populations is crucial for designing more sustainable treatment strategies.

278 development of flexible and environmentally sustainable ubiquitous electronic systems, which, combin

279 w and expanding cities as a top priority for sustainable urban development.

280 logical research, with implications for more sustainable use of marginal regions today.

281 not to undermine recent progress made in the sustainable use of plastics.

282 development of management strategies for the sustainable use of the Vip3Aa technology to control H. z

283 e chemical diversity, were important for the sustainable use of these herbicides.

284 nderstudied that could be promoted for their sustainable use.

285 Future research should be focused on sustainable uses of underutilized resources as functiona

286 energy is critical to the more efficient and sustainable utilization of energy.

287 obal nitrogen cycle and play a major role in sustainable wastewater treatment.

288 efficient energy storage and conversion via sustainable water and nitrogen reactions have attracted

289 ill increasingly be required to move towards sustainable water management.

290 ured coatings are forging a path toward more sustainable water treatment technologies and potential c

291 er finisher diets have positive effects in a sustainable way on the productive performance, litter an

292 The most sustainable way to control this disease is through plant

293 ctive peptides via enzymatic hydrolysis is a sustainable way to take advantage of proteinaceous by-pr

294 ticles, we can provide a global, simple, and sustainable way to track processes such as multi-annual

295 step toward increasing crop production in a sustainable way.

296 gen prevalence was possible and economically sustainable when canine detection was followed by interv

297 is efficient, fast, economically viable, and sustainable while simultaneously producing pre-dehydrate

298 ting devices and promotes the utilization of sustainable wood materials.

299 mmitment to sustainability and demands for a sustainable world are growing.

300 A sustainable world must meet the needs of the present wit