ライフサイエンスコーパス: water resource

1 f from an environmental threat to a valuable water resource.

2 lic fracturing (HF) of hydrocarbon assets on water resources.

3 ectively manage and control the treatment of water resources.

4 tion, which in turn depends on the access to water resources.

5 r energy costs, and reduce energy impacts on water resources.

6 use gas emissions, but also impacts land and water resources.

7 endent on an effective storage and supply of water resources.

8 s maintain their barrier function to protect water resources.

9 years, which would negatively impact Andean water resources.

10 gainst agribusiness in the face of dwindling water resources.

11 detection of ciprofloxacin (CPX) molecule in water resources.

12 he potential loss of fisheries, forests, and water resources.

13 in hair provide a weekly record of diet and water resources.

14 will depend on a plant's capacity to exploit water resources.

15 ss water ecosystem health and the quality of water resources.

16 e globe attempt to better-manage their fresh water resources.

17 ive analytical method for virus detection in water resources.

18 t face increased conflicts and tensions over water resources.

19 the overall human appropriation of land and water resources.

20 aps with the intention to better protect our water resources.

21 n water usage may significantly impact local water resources.

22 nvironment is a threat to the quality of our water resources.

23 tainably manage future human needs for clean water resources.

24 ng-related chemicals were to impact drinking water resources.

25 drologic response and manage our terrestrial water resources.

26 uture total precipitation as an indicator of water resources.

27 of its using in various food items and other water resources.

28 the challenges for sustainable management of water resources.

29 lly leading to the contamination of drinking water resources.

30 ainty in quality and quantity of traditional water resources.

31 rtant controls on Tibetan Plateau (TP) fresh water resources.

32 n used as target for monitoring of the fresh water resources.

33 fecal pollution to protect public health and water resources.

34 eing sought as an alternative to traditional water resources.

35 globally, increase the pressure on available water resources.

36 nt knowledge about climate change impacts on water resources.

37 s well as increasing the industry's need for water resources.

38 ry with significant but unevenly distributed water resources.

39 We searched the MEDLINE, EMBASE, Water Resources Abstracts, and TOXNET databases through

40 or excessive nutrient enrichment, threatens water resources across the globe.

41 critical to the management of this important water resource and ecosystem relies primarily on a syste

42 s on aquatic ecosystem functioning, drinking water resources and carbon cycling between land and sea.

43 uel refineries, transportation, agriculture, water resources and crop/ethanol markets.

44 As water resources and demands are spatially variable, it i

45 udy in observation scarce mountainous areas, water resources and ecosystem managements in the region.

46 to crops is a serious cause of pollution of water resources and environment.

47 how an important imbalance between origin of water resources and final destination, with significant

48 rease seasonal snowpack and provide critical water resources and hydropower for the state.

49 s and thus could help to remediated polluted water resources and prevents eutrophication.

50 r quality monitoring is crucial for managing water resources and protecting public health.

51 implications of such increased production on water resources and stream quality at regional and local

52 at several countries heavily rely on foreign water resources and that many countries have significant

53 erica has implications for the allocation of water resources and the course of regional development.

54 decade due to their widespread detection in water resources and their potential to affect ecosystem

55 global population with a severe decrease in water resources and will increase the number of people l

56 lls has led to considerable controversy over water-resource and environmental impacts.

57 g-term rainfall variability is essential for water-resource and land-use management in sub-humid regi

58 egative impacts on downstream ecosystems and water resources, and complications created for the estab

59 ater-stressed countries to augment available water resources, and construction of new desalination pl

60 screpancy among fossil fuel resources, fresh water resources, and energy demand.

61 eparate the governance of mineral expansion, water resources, and local development, and of relations

62 tions and economies grow, new constraints on water resources are appearing, raising questions about l

63 Four potential risks for water resources are identified: (1) the contamination of

64 tudy provides an analysis of how efficiently water resources are used for unconventional shale develo

65 Cyanobacteria pose a serious threat to water resources around the world.

66 ltivation ponds require appropriate land and water resources, as well as transportation and utility i

67 distributed irrigation systems, and land and water resource availability across sub-Saharan Africa (S

68 Treated wastewater is a valuable water resource, but its reuse for agricultural irrigatio

69 Contamination of water resources by cleaning products is more likely to o

70 the potential for conserving both energy and water resources by measuring the life-cycle economic eff

71 However, contamination of water resources by trace organic compounds (TOrCs), incl

72 Heavy metals in water resources can come from various industrial activit

73 ssential component of energy production, and water resource constraints will limit our options for me

74 n events are increasingly valuable as global water resources continue to be stretched to their limits

75 d facilitated long-term sharing of a limited water resource, decreased aggression, and strongly defin

76 rters of net virtual water at the expense of water resource depletion in other water scarce provinces

77 The warm spring also depleted soil water resources earlier, and thus exacerbated water limi

78 The potential impact on water resources, ecosystems and human livelihood require

79 ven though they have relatively few land and water resource endowments.

80 Results show that sufficient reclaimed water resources exist within 25 miles of 92 power plants

81 r monsoon (ASM) precipitation is the primary water resource for agriculture in many Asian countries t

82 here acid deposition has negatively affected water resources for decades and caused the extirpation o

83 ependence of demographic growth on available water resources for exporting and importing nations.

84 r spill sites; and (4) the overextraction of water resources for high-volume hydraulic fracturing tha

85 the world's natural water towers and provide water resources for millions of people.

86 ion suggests that, from the point of view of water resource forecasting, climate model development sh

87 This suggested that surface-water resources form passive traps and contribute to the

88 can enter surface, drinking and recreational water resources from aquatic birds.

89 irect effects of biofuels on global land and water resources, global ecosystems, air quality, public

90 Due to the scarcity of water resources, growers use deficit irrigation (DI) - w

91 dies of fisheries, forests, and pastoral and water resources have identified many variables that infl

92 alternatives that can reduce GHG emissions, water resource impacts, and energy costs.

93 from 125 shallow wells, a dominant drinking water resource in rural Bangladesh, monitored over a 17

94 n turn might contribute to the protection of water resources in a truly sustainable manner.

95 and migration on land use and transboundary water resources in an active war zone remains a challeng

96 w is important for sustainable management of water resources in an arid area.

97 orld, resulting in contamination of drinking water resources in aquifers as well as eutrophication of

98 The management of water resources in arid and semiarid areas has long been

99 The energy sector is a major user of fresh water resources in China.

100 cal step toward monitoring and investigating water resources in climate-sensitive regions, so the hum

101 The sustainability of water resources in future decades is likely to be affect

102 s significant impacts on the availability of water resources in other different and often drier regio

103 groundwater recharge, which is critical for water resources in semiarid and arid regions.

104 Vast water resources in the oceans can only be tapped into if

105 istent snow cover, slow runoff, and increase water resources in the UCRB may represent an important m

106 oped coastal provinces is largely relying on water resources in the water-scarce northern provinces,

107 climate variability influences hydrology and water resources in water-limited landscapes.

108 Water resources in western North America depend on winte

109 onmental impacts of shale-gas development on water resources, including methane migration to shallow

110 One potential irrigation water resource is treated wastewater for agricultural fi

111 Thus, the biological integrity of global water resources is at a substantial risk.

112 Pressure on farm land and water resources is increasing in China due to rising foo

113 fuels, metals, minerals, nuclear resources, water resources, land resources, abiotic renewable resou

114 mprove sustainability and reduce pressure on water resources, land, and ecosystem in Iran.

115 eting anions in distilled as well as natural water resources like a sea, lake, and river.

116 ressures that mining expansion has placed on water resources, livelihood assets, and social relations

117 Water resource management and governance at the river ba

118 has important ecological, biogeochemical and water resource management implications, such as for the

119 in streamflow responses poses a challenge to water resource management in the northeastern United Sta

120 nto the future, with strong implications for water resource management, food security, ecosystem stud

121 variability, have important implications for water resource management.

122 lar importance for effective agriculture and water resource management.

123 e precipitation measurements are crucial for water resources management, agriculture, weather predict

124 ating these concepts into land use planning, water resources management, and preparations for, and re

125 GWET and BWET, which could lead to improved water resources management.

126 supporting tool in algal bloom monitoring or water-resource management.

127 Water resource managers often tout the potential of pota

128 This insight may assist water-resources managers in alleviating one of the world

129 serves as a blueprint for future large-scale water resource monitoring.

130 ver, management of drinking and recreational water resources needs to be improved by incorporating ef

131 The global occurrence in water resources of organic micropollutants, such as pest

132 precedented pressure on the limited land and water resources of the planet, underpinning concerns ove

133 ences between the electricity grid mixes and water resources of the two regions.

134 ios to quantify the climate change impact on water resources of two contrasting catchments vulnerable

135 sessments of LULC change impacts on climate, water resources or biodiversity.

136 gration allowed sauropods access to food and water resources over a wide region or during times of dr

137 trade has led to enhanced savings in global water resources over time, indicating its growing effici

138 d risk for contamination of shallow drinking water resources, particularly by fugitive gases, because

139 The development of water resources, particularly in Africa, has changed the

140 ther, flooding and climate models and inform water resource policies.

141 irrigation and possible changes to existing water resource policy.

142 , the rainfall response may adversely affect water resources, potentially impacting human livelihoods

143 es, suggesting a high potential for improved water resource projections through hydrological model de

144 s before the present, ka) has been linked to water resources provided by large Himalayan river system

145 ing, but there appear to be adequate surface water resources, provided that access is available.

146 carbon dioxide (CO2) emissions generated by water resource recovery facilities (WRRFs) during treatm

147 energy increase may be especially useful at water resource recovery facilities that already combust

148 logies and processes that are needed for the water resource recovery facility of the future.

149 The main goals for sustainable water resource recovery include maximizing energy genera

150 ia coli (E. coli) contamination in foods and water resources represents a major threat for human heal

151 erall impact of climate change mitigation on water resources requires accounting for the second part

152 iate food demand without compromising future water resources seem critical for the sustainability of

153 they are continuously defiling limited fresh water resources, seriously affecting the terrestrial, aq

154 xtreme environment with multiple but limited water resources (such as dew, fog, snow and rain), yet t

155 minant in many regions affected by declining water resources, suggesting a high potential for improve

156 linking climatic and hydrologic processes to water resource supply and demand management and other hu

157 vide a means of exploiting locally available water resources that are currently considered to be unsa

158 ssful management of water infrastructure and water resources that was accomplished largely without in

159 of freshwater supply constraints and saline water resources, the geographic conclusions are similar

160 ncy, however, the capability of its land and water resources to realize this goal is largely unknown.

161 sults on the effects of land cover change on water resources vary greatly and the topic remains contr

162 n, in order to evaluate the pressures on the water resources, virtual water flows, and water footprin

163 ely contributed to an increasing scarcity in water resources, which may in turn be endangering food s

164 On the supply side, renewable water resources will be affected by projected changes in

165 tial risks that shale gas operations pose to water resources, with an emphasis on case studies mostly