ライフサイエンスコーパス: clean water

1 alization of Sustainable Development Goal 6 (clean water).

2 the challenge of how to provide people with clean water.

3 , resulting in the difficulties of access to clean water.

4 , thereby inducing phase separation to yield clean water.

5 and second-generation descendants raised in clean water.

6 and four generations of offspring reared in clean water.

7 can address the global issue of scarcity of clean water.

8 ual success as roach with mothers exposed to clean water.

9 12.7 mug Se/g d.m and raised to adulthood in clean water.

10 s located in a region with greater access to clean water.

11 nd after a 4 d depuration/recovery period in clean water.

12 ng food security, human health and access to clean water.

13 scale membrane filtration is used to provide clean water.

14 able property enables simple separation from clean water.

15 over 74.5%, along with over 1.1 L/h/m(2) of clean water.

16 nsuring a sustainable and reliable supply of clean water.

17 can also lead to applications in energy and clean water.

18 are needed to meet rising global demand for clean water.

19 for a sustainable supply of antibiotic-free clean water.

20 lems: lack of food (41%), shelter (18%), and clean water (14%).

21 Most of the households (87%) have access to clean water, 98% have electricity, and 69% have access t

22 wn that, as these waves approach breaking in clean water, a ripple pattern that is dominated by surfa

23 is, income, health spending, median age, and clean water access were associated positively with spend

24 drinking water, thus substantially limiting clean water access.

25 of infection control, sanitation, access to clean water, access to assured quality antimicrobials an

26 These investments come both from the 1972 Clean Water Act and the largely voluntary efforts to con

27 king Water Act Serious Violation, and 21,035 Clean Water Act permittees in Significant Noncompliance.

28 We assess which waters the Clean Water Act protects and how Supreme Court and White

29 Under a 2006 Supreme Court ruling, the Clean Water Act protects two-thirds of US streams and mo

30 index (WQI) to estimate benefits of proposed Clean Water Act regulations.

31 mining are not meeting the objectives of the Clean Water Act to replace lost or degraded streams ecos

32 ulatory jurisdiction under the United States Clean Water Act, including the current standard adopted

33 in the 1970s prior the implementation of the Clean Water Act.

34 conditions regulated under the Clean Air and Clean Water Acts.

35 Gravid females were transferred to clean water after 10 days, and larvae were collected at

36 h as improvement in sanitation, provision of clean water and behaviour changes through public health

37 pon the availability of food, clean air, and clean water and by potentially expanding the burden of d

38 come promising green technologies to provide clean water and clean energy from abundantly available r

39 good infrastructure, and reliable sources of clean water and electricity.

40 isk of transmission while breastfeeding, and clean water and formula are readily available.

41 L) dose for 4 weeks, followed by transfer to clean water and injection with an LD(40) dose of the Gra

42 of human excreta as fertilizers, the lack of clean water and poor quality toilets.

43 Fish were transferred to clean water and raised to adulthood (5-7 months post hat

44 ons that improve child nutrition and provide clean water and sanitation and clean household fuels to

45 roblem, despite efforts to enhance access to clean water and sanitation facilities, appropriate diagn

46 ineering and health communities to implement clean water and sanitation on a broad scale to prevent r

47 le effort has been made to improve access to clean water and sanitation services in the country, ther

48 able Development Goals, particularly SDG 6 ('Clean Water and Sanitation').

49 hest synergies in SDG1 (No Poverty) or SDG6 (Clean Water and Sanitation) consistent with the national

50 nable development goals, particularly SDG 6 (Clean Water and Sanitation), SDG 12 (Responsible Consump

51 Sustainable Development Goals (SDGs): SDG 6 (Clean Water and Sanitation), SDG 14 (Life Below Water),

52 infection prevention and control, access to clean water and sanitation, and vaccination coverage can

53 ervention ever introduced and, together with clean water and sanitation, it has eliminated a large pa

54 men and children, and services and access to clean water and sanitation.

55 throughout the world is inadequate access to clean water and sanitation.

56 durans, and S. epidermidis, respectively, in clean water and secondary/tertiary wastewater effluents

57 This strategy aims to produce clean water and simultaneously enhance MPs removal.

58 provide important ecosystem services such as clean water and timber supply to the American people.

59 they like (e.g., blues with clear skies and clean water) and dislike colors strongly associated with

60 ns, increased heat stress, lack of access to clean water, and pollution, threatening both the environ

61 tion, undercut federal regulations regarding clean water, and possibly allow state legislatures to re

62 ays post hatch (dph), reared to adulthood in clean water at elevated temperatures, and spawned.

63 ly influenced by the quality and quantity of clean water available for drinking and washing.

64 ns such as improved sanitation and access to clean water become widely available.

65 Within 2 weeks after provision of clean water, blood sampling was performed in all 26 airp

66 sustainable system could effectively produce clean water by simultaneous removal of tetracycline and

67 by housing perch in one of four treatments: clean water + clean food; clean water + Hg spiked food;

68 Solid-water interfaces are crucial for clean water, conventional and renewable energy, and effe

69 er can recover valuable resources, including clean water, energy, and ammonia.

70 Successfully restoring a clean water environment in China will further require tr

71 quently exposed to full spectrum sunlight in clean water experienced significant mortality that corre

72 In this prospect, supplying clean water for the ecosystems is as important as the re

73 branes in parallel to simultaneously extract clean water from an activated sludge reactor for nonpota

74 The passive capture of clean water from humid air without reliance on bulky equ

75 freshwater scarcity and inadequate access to clean water globally have rallied tremendous efforts in

76 steam generation technology that can provide clean water globally, especially for rural or remote are

77 ncluding microfluidics, drag reduction, self-cleaning, water harvesting, anti-corrosion, anti-fogging

78 f four treatments: clean water + clean food; clean water + Hg spiked food; Hg spiked water + clean fo

79 deposits are probably composed of relatively clean water ice and also refine the martian surface-wate

80 Limited supply of clean water in urbanizing watersheds creates challenges

81 total carbon stock and 66% and 89.8% of all clean water, in addition to meeting conservation targets

82 eplacement and consumables by employing only clean water instead of dedicated regeneration solutions.

83 f different water samples was analyzed since clean water is becoming increasingly rare.

84 Clean water is paramount to human health.

85 Clean water obtained by desalinating sea water or by pur

86 and mass, irrespective of whether exposed to clean water or salt erosion, as well as during dry-wet o

87 However, associated recolonization by clean water organisms can potentially result in exposure

88 otons as efficiently as possible to maximize clean water output.

89 dissolution phase was conducted by injecting clean water (pH = 4).

90 ies for a broad spectrum of applications for clean water production that were once thought impractica

91 e environmental benefits simultaneously: (1) clean water production, (2) hydrogen (H2) generation, an

92 as a promising and sustainable strategy for clean water production.

93 be achieved through improved sanitation and clean water provision supported by vaccination.

94 Combined, clean water provision, vaccination, and expanded access

95 However, PAH-tolerant fish reared in clean water recover CYP1A inducibility, indicating a non

96 ons with limited resources, the provision of clean water remains challenging.

97 uted drinking water, already occurred in the clean water reservoir at the treatment plant before furt

98 to sustainably manage future human needs for clean water resources.

99 approach introduced in the US in 2015 is the Clean Water Rule, which clarified the jurisdictional sco

100 xclusion of versatile hazardous species from clean water samples based on toxicity characteristic lea

101 DGs (improving child nutrition and providing clean water, sanitation, and fuels) and to estimate how

102 ity-based intervention combined provision of clean water, sanitation, and health education (WSH) with

103 ines along with measures designed to improve clean water, sanitation, and hygiene practices.

104 ation score, community setting, or access to clean water, sanitation, and hygiene.

105 rity than public health fundamentals such as clean water, sanitation, and vaccination.

106 nutrition-sensitive interventions, including clean water, sanitation, family planning, girls' educati

107 SDG1 (No poverty), SDG2 (Zero hunger), SDG6 (Clean water), SDG12 (Responsible consumption and product

108 Vaccines and clean water shortages continue to give rise to cholera o

109 to reconcentrate the diluted DS and produce clean water suitable for direct potable reuse.

110 der natural sunlight to ensure an affordable clean water supply.

111 Healthy, uncontaminated soils and clean water support all life on Earth and are essential

112 icroneedles and microribbons, are grown on a clean water surface.

113 can cause outbreaks wherever sanitation and clean water systems break down.

114 Those knowledgeable of cleaning water tanks were 0.28 times as likely to have m

115 opment in fish can be a sensitive measure of clean water technology effectiveness.

116 Surviving eleutheroembryos were reared in clean water to 14 days post fertilization (dpf), during

117 r wastewater (glycerol) to cogenerate H2 and clean water under both UV-visible and visible light.

118 arable doses and were followed by rearing in clean water until adulthood.

119 ll as promotion of health behaviors, such as clean-water use and good hygiene and sanitation practice

120 1 to Nov 30, 2011, to estimate the effect of clean water, vaccination, and enhanced antibiotic distri

121 lination technology that promises to deliver clean water while storing energy in the electrical doubl