ライフサイエンスコーパス: water supply

1 s predominantly (81%) on the aquifer for its water supply.

2 ng to an urgent demand to reduce the plants' water supply.

3 ght tolerances and distributions relative to water supply.

4 en constructed in aquifers used for drinking water supply.

5 se a large fraction of their renewable local water supply.

6 mitigation policies for sustainable drinking water supply.

7 subsidiary functions like ligand binding and water supply.

8 may adversely affect the Earth's climate and water supply.

9 eriments carried out with the same municipal water supply.

10 er children with each of the three levels of water supply.

11 contact lens storage case, and the domestic water supply.

12 e-causing strain ws isolated from a domestic water supply.

13 factors led to the disruption of the Toledo water supply.

14 aused devastating impacts on crop yields and water supply.

15 ite properties, allowing a staged failure of water supply.

16 nt where they affect a major fraction of the water supply.

17 m metal release in a public and agricultural water supply.

18 ics over time can result in large changes in water supply.

19 e hydraulic conductivity recovered following water supply.

20 bances to forest watersheds used for potable water supply.

21 contribute to delta(18)OPO4 within drinking water supplies.

22 currently being overexploited for irrigation water supplies.

23 risk for contaminating airsheds and drinking water supplies.

24 nts to sensitive aquatic organisms and human water supplies.

25 tage is placing an unprecedented pressure on water supplies.

26 eds of millions of people who rely on unsafe water supplies.

27 cted PFOA serum levels from six contaminated water supplies.

28 ate alternative models for managing handpump water supplies.

29 the importance of wastewater in sustainable water supplies.

30 well as the availability of local renewable water supplies.

31 ng the processing of the commercial drinking water supplies.

32 plement mitigation options for safe drinking water supplies.

33 ainwater is safer than water from unimproved water supplies.

34 the American Southwest and its overallocated water supplies.

35 ons of people worldwide through contaminated water supplies.

36 e in the removal of impurities from drinking water supplies.

37 nd control focuses on eliminating oocysts in water supplies.

38 s to nitrate measurements for Iowa community water supplies.

39 and 2,4,6-trichloroanisole commonly found in water supplies.

40 be a reason for withholding fluoridation of water supplies.

41 ally municipal and (often separate) hospital water supplies.

42 ing concerns for contamination of downstream water supplies.

43 ure than those served by regulated community water supplies.

44 ave been detected in an increasing number of water supplies.

45 peration policies and the development of new water supplies.

46 r recycling, become disseminated in drinking water supplies.

47 hat ambient air quality can have on drinking water supplies.

48 facilities including those with intermittent water supplies.

49 mical (EDC), frequently contaminates potable water supplies.

50 prevent Legionella contamination of hospital water supplies.

51 t-effective opportunities to diversify urban water supplies.

52 assessment of delta(18)OPO4 within drinking water supplies.

53 2, a virus often detected in sewage-impacted water supplies.

54 hadows fundamental impacts on streamflow and water supplies across the western United States.

55 al concerns have arisen regarding impacts on water supplies and air quality.

56 res in forested watersheds threaten drinking water supplies and aquatic ecology.

57 looms in western Lake Erie threaten drinking water supplies and are promoted by nutrient loading, the

58 Contingency plans to maintain protected water supplies and available emergency kits with batteri

59 cobacteria (NTM) commonly colonize municipal water supplies and cause healthcare-associated outbreaks

60 ste and odor episodes associated with public water supplies and contamination of various foodstuffs,

61 an lead to arsenic contamination of drinking water supplies and deleterious consequences for human he

62 ic waste streams threaten dwindling drinking water supplies and impact terrestrial, estuarine and mar

63 he association between turbidity of drinking-water supplies and incidence of acute gastrointestinal i

64 s ecosystem is threatened due to diminishing water supplies and increasing salinity.

65 More recently, pressures from limited water supplies and needs for system reliability are prev

66 hers from the Iowa and Texas sites to public water supplies and respective nitrate measurements.

67 nt investment if they are to secure adequate water supplies and safeguard functioning freshwater ecos

68 usehold plumbing served by treated municipal water supplies and the first reports of PAM potentially

69 re the importance water safety management in water supplies and the potential benefits of point-of-us

70 hat would have impacted the sprawling city's water supply and agricultural productivity, while high-m

71 notable divergence in ecosystem services of water supply and carbon sequestration is expected to int

72 ilities, one characterized by the balance of water supply and demand and the other by the balance bet

73 We compare ensembles of water supply and demand projections from 10 global hydro

74 te change is expected to additionally affect water supply and demand.

75 as opposed to environmental factors, such as water supply and feed.

76 nera of FLA were introduced via the drinking water supply and reached mean densities of 2.5 log10 amo

77 ify the dangers hidden in America's drinking water supply and redirect attention to ensure safe water

78 graphic inequalities in coverage of drinking-water supply and sanitation (WSS) will help track progre

79 ote the use of building-scale, decentralized water supply and treatment technologies.

80 a complex and rapidly changing geography of water supply and use.

81 ation between continuous versus intermittent water supply and waterborne diseases, child mortality, a

82 at dialysis center B, reviewed the centers' water supplies, and collected water, patients' serum, an

83 their presence in drinking and environmental water supplies, and poorly understood recalcitrance coll

84 ter to snowmelt water as the main irrigation water supply, and by occasional droughts.

85 s restaurant inspection, assurance of a safe water supply, and disease surveillance.

86 the method using a sanitation mobilization, water supply, and hygiene intervention in rural India.

87 ring only the influence of future climate on water supply, and neglecting future changes in water dem

88 n the delivery of a reliable and sustainable water supply, and not only on point-of-use water quality

89 ng agricultural productivity, food security, water supply, and sanitation.

90 easure in preventing caries, but only 62% of water supplies are fluoridated, and lack of fluoridation

91 Rising temperatures and lessening fresh water supplies are threatening agricultural productivity

92 onstraints on leaf gas-exchange, mediated by water supply, are the dominant control of Delta(leaf) at

93 Consequently, the amount of water supplied as rainfall reaching the soil and directl

94 These bacteria are present in water supplies as a planktonic phase and adhere to the l

95 (P < 0.001)) with PWS As, indicating private water supplies as the dominant source of inorganic As ex

96 Whole-genome sequencing confirmed the water supply as the probable source of infection in both

97 pregnant dam, and directly through their own water supply at weaning.

98 pregnant dam, and directly through their own water supply at weaning.

99 3) maximizing potential cobenefits including water supply augmentation, flood protection, improved wa

100 cted to determine whether or not a protected water supply (bottled drinking water) could prevent or d

101 ion by-products exist as complex mixtures in water supplies, but THMs and HAAs have typically been ex

102 reforestation does not necessarily increase water supply, but does increase carbon sequestration and

103 elation to the daily variations in volume of water supplied by the town water treatment plant.

104 Many countries are extending potable water supplies by irrigating crops with wastewater.

105 e change has the potential to reduce surface-water supply by expanding the activity, density, or cove

106 onfirmatory purpose, monitoring the drinking water supply chain, training of operators, a dedicated w

107 being close to the water inlet of a drinking water supply company and their possible adverse public h

108 increasing plant P uptake more with a pulsed water supply compared to a regular supply and increasing

109 and ET, implying a possibility of cumulative water supply constraint to ET.

110 One utility with an energy-intensive water supply could abate 135,000 Mg of GHGs between 2014

111 much of Europe, and South East Asia) surplus water supply could in principle support a net increase i

112 Phosphate dosing of drinking water supplies, coupled with leakage from distribution n

113 than during normal operations in continuous water supplies (CWS).

114 Furthermore, isolates found in the water supply dating back 10 years showed the same PFGE p

115 hrough soil and xylem to quantify how canopy water supply declines with drought and ceases by hydraul

116 ed whether groundwater abstraction for urban water supply diminishes the storage of carbon (C), nitro

117 he possible contamination of air or drinking water supplies downwind by potentially carcinogenic N-ni

118 he possible contamination of air or drinking water supplies downwind of amine-based CO2 capture facil

119 with sufficient winter snow cover and ample water supply during summer from melting snow and ice as

120 blooms, creating serious threats to drinking water supplies, ecological and economic sustainability o

121 as paralleled by improvements in sanitation, water supply, education, and access to health care in th

122 ferent subsurface compartmentalized pools of water supply either plant transpiration fluxes or the co

123 es with drinking water or potential drinking-water supplies exceeding 400 microg/L Mn and peer-review

124 to wetland and peat formation: (1) long-term water supply exceeding atmospheric water demand; (2) ann

125 wad, India-a city with an intermittent piped water supply exhibiting seasonal water quality variabili

126 Water supplies expanded to meet increased demand, includ

127 s, lens cases, lens case solutions, and home water-supply faucets of patients with Acanthamoeba.

128 asic needs, urbanisation, women's education, water supply, fertility rates, and child nutrition from

129 complished by the provision of safe drinking water supplies, filtration of drinking water, chemical c

130 The investigation did not identify any water supply, food item, supplier, or distributor common

131 ime series shows how policies have increased water supplies for HF and highlights potential issues re

132 their suitability as aquatic habitats and as water supplies for human needs.

133 We recommend routine culture on the water supply for Legionella in all transplant centers.

134 Rivers provide critical water supply for many human societies and ecosystems, ye

135 egions contribute up to half of the drinking water supply for some European countries.

136 ction with previous work, a coming crisis in water supply for the western United States.

137 lant leaves depends on the efficiency of the water supply, from the vasculature to inner tissues.

138 Continuous water supply had no significant overall association with

139 past two decades, however, the safety of our water supply has been threatened by the emergence of Cry

140 gy, which aims to enhance safety of drinking water supplies, has been recommended by the World Health

141 oncentrations that exceed 1 Bq/L in drinking-water supplies have been reported from four widely separ

142 Recently, contaminated domestic water supplies have been suggested as a potential enviro

143 o surface waters used as sources for potable water supply have the potential to affect finished drink

144 ygiene" communities with sewage-contaminated water supplies, helminth infestations, bare footedness,

145 lisoborneol, which are found in many natural water supplies; however, no terpene synthases have been

146 uld need to be taken to ensure protection of water supplies in a reuse application.

147 Because of the key role of water supplies in cholera transmission, a relationship b

148 he model simulations suggest that sustaining water supplies in parts of the Southwest will be a chall

149 ural, industrial, and ecological needs, with water supplies in those regions inextricably linked to f

150 In projecting renewable water supply in future years, median projected monthly p

151 In March 1993, the municipal water supply in Milwaukee became contaminated with crypt

152 manipulating both the pattern and amount of water supply in unsterilized field soil.

153 de localized water assessment based on local water supply infrastructure and projected water demands.

154 ing anthropogenic water demand scenarios and water supply infrastructure designed to cope with climat

155 essing the risks to public health and to the water supply infrastructure.

156 vestigating the temporal association between water supply interruptions and Cholera Treatment Centre

157 nsumption of tap water were more affected by water supply interruptions, with a rate ratio of 3.71 (9

158 These results argue in favour of water supply investments that focus on the delivery of a

159 e contamination of arsenic in human drinking water supplies is a serious global health concern.

160 Monitoring this pathogen in food and water supplies is an important public health issue.

161 Excess nitrite (NO2(-)) concentrations in water supplies is considered detrimental to the environm

162 Even though access to piped water supplies is low in Uvira, improving the reliabilit

163 Removal of arsenic (As) from water supplies is needed to reduce As exposure through d

164 eness of this instrument is that the rate of water supply is adjustable to simulate varying sweat rat

165 Throughout the experiment, water supply is continuous which simulates profuse sweat

166 logical cycle, particularly in regions where water supply is currently dominated by melting snow or i

167 The key assumption is that leaf water supply is matched to water demand in the local env

168 ater was readily available, contamination of water supply is not essential for widespread infection a

169 r, independent of electrical power and piped water supply, is possible only through advanced and affo

170 t affect contamination in these intermittent water supplies (IWS) can be used to develop strategies t

171 Intermittent water supplies (IWS), in which water is provided through

172 Intermittent water supply (IWS) is prevalent throughout low and middl

173 nd geographic distribution of Mn in drinking-water supplies justify a reevaluation by the WHO of its

174 Climate change, water supply limits, and continued population growth hav

175 nes (M. abscessus) and contaminated hospital water supplies (M. xenopi).

176 The potable water supply may be a reservoir of infection.

177 w in Uvira, improving the reliability of tap water supply may substantially reduce the incidence of s

178 followed by a complete overhaul of Neapolis' water supply network.

179 irst harbor-show that lead pipes used in the water supply networks of Rome and Ostia were the only so

180 sk and increasing quartiles of the community water supplies' nitrate level.

181 We recommend that such bottled water supplies not be used in high-risk areas or be subj

182 Low-cost and simple methods to test water supplies onsite can protect vulnerable communities

183 attributed to the inappropriate treatment of water supplies or contaminated food.

184 tion strategies to protect globally critical water supplies originating in forested environments.

185 ter utilities exploiting wastewater-impacted water supplies, particularly those practicing potable re

186 and organic matter in two protected surface water supplies (Pockwock Lake and Lake Major) located in

187 orly known, but, given the magnitude of this water supply, predicted glacier loss would add considera

188 ers short-term flexibility that conventional water supply projects do not.

189 hosen to be comparable in cost to a range of water supply projects proposed in the Texas Water Develo

190 as cost-effective as conventional long-term water supply projects.

191 was limited to households with a ground-fed water supply, proximity of natural gas wells may be asso

192 For women using public water supplies (PWS) > 10 years (n = 15,577), we estimat

193 Private water supplies (PWS) in Cornwall, South West England exc

194 olera cases attributable to a suboptimal tap water supply reached 23.2% of total admissions (95% CI 1

195 studies that compared rainwater to improved water supplies (relative risk 0.82 95% CI 0.38, 1.73).

196 sideration of direct human impacts on global water supply remains a poorly articulated but potentiall

197 ater abstraction performed largely for urban water supply, revealing teleconnections between rural ec

198 disorders attributable to malnutrition, poor water supply, sanitation and personal and domestic hygie

199 household reported use of improved drinking-water supply, sanitation, and open defecation were abstr

200 disability worldwide are malnutrition; poor water supply, sanitation, and personal and domestic hygi

201 y continuous, high-resolution information on water supplies, satellite observations can provide essen

202 pal wastewater can play an important role in water supply security and ecosystem protection, the perc

203 mity to users; cost recovery and revenue for water supply services) was examined for two outcomes, ag

204 ns for early transplantation and unregulated water supplies should not be used to prepare infant feed

205 lter operation and maintenance, and improved water supply significantly reduce diarrhea health burden

206 cidental presence of treated wastewater in a water supply source.

207 additional flow aids in providing a reliable water supply source.

208 rresponding to the maximum allowed in public water supplies, stimulated proliferation of cancer cells

209 ing activities and all five features of home water supply studied bore little or no association with

210 tion of pathogenic species from a variety of water supplies suspected of containing bacterial pathoge

211 Rural water supply sustainability has remained an enduring pol

212 A water supply sustainability risk index that takes into a

213 , representing microbiological growth in the water supply system, decreased statistically significant

214 torage systems that are part of the region's water supply system.

215 common disinfectant by-product found in many water supply systems.

216 sustained deficit irrigation (SDI, 78% less water supply than the reference evapotranspiration, ET0)

217 ultivated in the Mediterranean area under no water supply, that recently has attracted the interest o

218 or could be used to contaminate the food or water supply, the Centers for Disease Control and Preven

219 n glaciers and seasonal snow packs for their water supply, the consequences of these hydrological cha

220 of a number of ecosystem services, including water supply, the production of timber and nontimber for

221 Following a day without tap water supply, the suspected cholera incidence rate incre

222 of ZLD reduces water pollution and augments water supply, the technology is constrained by high cost

223 ion of water, as well as efforts to increase water supplies through the safe re-use of wastewater and

224 on aquatic ecosystems and community drinking water supply through impacts on water quantity and quali

225 s multiple benefits including lengthening of water supply time, localization of cementation reactions

226 to compare disinfection methods for drinking water supplied to 32 hospitals that had had outbreaks of

227 es' disease with the disinfection method for water supplied to 48 control-hospitals, with control for

228 ated, filtered, and chlorinated, whereas the water supplied to dialysis center A was not.

229 However, the water supplied to dialysis center B was treated, filtere

230 highlights the vulnerability of intermittent water supplies to climate change and the urgent need for

231 of epidemiological data linking the drinking water supplies to disease incidence, we gathered physioc

232 etween washwater units and downwind drinking water supplies to meet proposed permit limits.

233 rom the crude use of cadavers to contaminate water supplies to the development of specialized munitio

234 The vulnerability of water supplies to toxic contamination calls for fast and

235 dustries in Charleston affected the drinking water supply to 300,000 people in Charleston, West Virgi

236 ., a function of soil water content, of soil water supply to demand ratio, and of actual to potential

237 low accessible to oak provided the source of water supply to shallow soils, where most of the activel

238 rd cells in the mutant result from decreased water supply to the developing leaf.

239 It is used in water supply treatment as a disinfectant and slime preve

240 nitoring access to drinking water focuses on water supply type at the source, but there is limited ev

241 agencies in six countries) and estimates of water supply type coverage from 15 countries to assess t

242 Water supply type was significantly associated with nonc

243 een contamination at each sampling point and water supply type.

244 ikely to be contaminated compared with other water supply types at both the source and in HSW.

245 embolism-forming cavitations, which cut off water supply, ultimately causing leaf death.

246 is also controlled by an ABA action on leaf water supply upstream from stomata.

247 e contact lens storage case and the domestic water supply used to clean the case.

248 2000-2003, a period when much of the area's water supply was contaminated from an industrial plant w

249 The patient's domestic water supply was implicated as the probable source of in

250 not only on well-watered soil but also when water supply was reduced.

251 d gas wells is generally limited to domestic water-supply wells, which often are not situated along p

252 ies of virus samples from six deep municipal water-supply wells.

253 es) and intermediate (improved public water) water supplies were compared with unimproved water condi

254 gle events caused massive disruption to leaf water supply, whereas safer networks in angiosperm leave

255 rom contaminated water or possibly municipal water supplies which, when chlorinated, may produce thes

256 ations continue to increase, the pressure on water supplies will inevitably intensify.

257 Nonetheless, the availability of sustainable water supplies will provide significant challenges for s

258 Drinking water or potential drinking-water supplies with Mn concentrations > 400 microg/L are

259 rns for the potential contamination of local water supplies with the approximately 1,000 chemicals th

260 nt users include "Electricity" with 64 BCM, "Water supply" with 44 BCM and other industrial sectors w

261 Arsenic, a contaminant of water supplies worldwide, is one of the most toxic inorg

262 tins (MCs) are a growing problem in drinking water supplies worldwide.

263 ional radionuclide contamination of drinking water supplies would have significant public health, soc

264 coordinated evolution of tissues regulating water supply (xylem) and water loss (stomatal pores) in

265 y water sampling at consumers' taps in eight water supply zones in and around Bradford, UK, between 2