ライフサイエンスコーパス: natural resource

1 rocarbon fuels from a renewable and abundant natural resource.

2 ing unprecedented demands on agriculture and natural resources.

3 rived from nonrenewable resources or limited natural resources.

4 ation by exhausting, rather than conserving, natural resources.

5 s can help alleviate the demands for limited natural resources.

6 o plan better policies for the management of natural resources.

7 services and the economic potential of these natural resources.

8 ems and for promoting the sustainable use of natural resources.

9 conomic stability and the sustainable use of natural resources.

10 on as an effective tool in the governance of natural resources.

11 sustainability and efficient utilization of natural resources.

12 high consumption of fossil and nuclear-based natural resources.

13 ntal to humans for habitation, commerce, and natural resources.

14 his paper proposes an elaboration of the AoP Natural Resources.

15 oPs): Natural Environment, Human Health, and Natural Resources.

16 Pennsylvania Department of Conservation and Natural Resources.

17 s of biomedicine, environmental science, and natural resources.

18 hnologies that reverse rising consumption of natural resources.

19 tainability of the current and future use of natural resources.

20 ve livelihoods and, thereby, their impact on natural resources.

21 e altered for other applications to preserve natural resources, a facile template-free process is sug

22 nates pathways that may broadly link reduced natural resource access to declines in childhood health.

23 Phosphorus (P) is a finite natural resource and an essential plant macronutrient wi

24 Harvesting diverse portfolios of natural resources and adapting portfolios in response to

25 more sustainable because they use many fewer natural resources and are less taxing on the environment

26 s for understanding intergroup conflict over natural resources and are relevant to efforts to improve

27 and severity threaten local populations and natural resources and contribute carbon emissions into t

28 recognizing the immense value of depletable natural resources and ecosystems.

29 peration, for example, the overharvesting of natural resources and human-induced global warming.

30 al distributions and quantities of renewable natural resources and net primary productivity (NPP) in

31 ed-from selection of precursors derived from natural resources and their conversion into functional b

32 Abrupt shifts in natural resources and their markets are a ubiquitous cha

33 change could stabilize economies reliant on natural resources and their markets, both of which are p

34 es, such as animal production, extraction of natural resources, and antimicrobial application change

35 ystem services, achieving sustainable use of natural resources, and conserving biodiversity, at both

36 disasters, greater disease prevalence, fewer natural resources, and greater degree of external threat

37 h private interests: pollution, depletion of natural resources, and intergroup conflicts, are at thei

38 es can be more abundant and predictable than natural resources, and subsequent changes in wildlife ec

39 ems, like chemical pollution or depletion of natural resources, and the focus on CFP brings the risk

40 shifted their effort, their engagement with natural resources, and the sustainability of their actio

41 utrition Board, the Board on Agriculture and Natural Resources, and the U.S. Department of Agricultur

42 rts with analyzing different perspectives on Natural Resources as they are somehow sandwiched in betw

43 nd no evidence of a similar interaction with natural resources (as measured by oil exports) or risk f

44 ular and Cellular Biology and the College of Natural Resources at Berkeley.

45 oor are generally reliant on their immediate natural resource base for subsistence and suffer high ra

46 red to intensify production from a shrinking natural resource base.

47 nd highlight the importance of understanding natural resource-based livelihoods in the context of the

48 nd size as sea ice melts and abundant Arctic natural resources become more accessible.

49 tigation is commonly used to replace aquatic natural resources being lost or degraded but little is k

50 stitute a province characterized by abundant natural resources but low population density.

51 from sewage sludge has the potential to save natural resources, but the potential risks connected to

52 Depletion of natural resources, climate protection, security of energ

53 agricultural development and exploitation of natural resources, concerns have been raised about their

54 The Natural Resources Conservation Service (NRCS) soil serie

55 of biosolids management systems (BMS) from a natural resource consumption point of view.

56 issippi, using data collected as part of the natural resource damage assessment (NRDA).

57 onomic development away from a dependence on natural resource depletion toward recognition of the dep

58 ess on water and energy utilities, including natural resource depletion, infrastructure deterioration

59 Canine cancers represent a tremendous natural resource due to their incidence and striking sim

60 ndertaken in the fields of environmental and natural resource economics, but studies have not typical

61 The relative use intensity of natural resources encompassing land and ecosystem goods

62 t due to projected economic growth linked to natural resource exploitation.

63 Individuals relying on natural resource extraction for their livelihood face hi

64 tial to affect ecosystem services related to natural resources, food production, climate regulation,

65 hallenges associated with managing a limited natural resource for a growing population.

66 pens up a possibility for diversification in natural resources for energy-starved countries.

67 The increasing demands placed on natural resources for fuel and food production require t

68 ct has been identified: recognizing the role Natural Resources for human welfare, either specifically

69 with recurrent illness and rely directly on natural resources for sustenance.

70 ularly important that individuals relying on natural resources for their livelihood have effective st

71 Although natural resources form the basis of our economy, they ar

72 ollaborations to inform network theories for natural resource governance.

73 The depletion of natural resources has become a major issue in many parts

74 d projected environmental, human health, and natural resource implications of electricity generated f

75 Conservation of biodiversity and natural resources in a changing climate requires underst

76 oil spills occur in fish spawning habitats, natural resource injury assessments often rely on conven

77 he human-designed economic system depends on natural resource inputs, and in turn its metabolic waste

78 al. show that the power available from this natural resource is comparable to wind and solar power,

79 incorporating social dynamics into models of natural resources is critical for understanding how reso

80 istoric trade and long-distance transport of natural resources is essential for determining the impac

81 nue to rise, the pressure on water and other natural resources is expected to intensify.

82 lead to improvements in or deterioration of natural resources is limited, because scientific discipl

83 ditions and simultaneously provide access to natural resources, land parcels for development, and rec

84 anism's fitness on such complex and variable natural resource landscapes remains poorly understood.

85 stal displays (LCDs) and the efforts to save natural resources, LCDs are even replacing paper to disp

86 ind's destructive tendencies when exploiting natural resources leads to irreparable harm to the envir

87 This study of natural resource management and environmental resilience

88 Evaluating the success of natural resource management approaches requires methods

89 nce, and is thus directly applicable to most natural resource management decision-making situations.

90 Natural resource management is littered with cases of ov

91 d out a multicountry comparative analysis of natural resource management programs conducted under the

92 As part of a natural resource management strategy, we suggest that pr

93 Adaptive management (AM), long-used in natural resource management, is a structured decision-ma

94 of paramount importance for conservation and natural resource management.

95 s and robustness-vulnerability trade-offs in natural resource management.

96 United States despite decades of spending on natural resource management.

97 discuss the implications of our findings for natural resources management with respect to context-spe

98 The time is ripe for natural resource managers and microbial ecologists to wo

99 ed ecological change in which ecologists and natural resource managers are increasingly challenged to

100 ocation of the invasion front is valuable to natural resource managers because future ecological and

101 effects appear unlikely before mid-century, natural resource managers have time to implement conserv

102 will be an outstanding tool for scientists, natural resource managers, and policy-makers.

103 ersity as a result of human appropriation of natural resources, modification of habitats and climate,

104 The proposition that natural resources need protection from the destructive a

105 on-biodegradable and contaminate most of the natural resources occurring in the environment including

106 rves as a model for efficient utilization of natural resources of sulfur feedstock in oil and technol

107 atial distributions of the flow of renewable natural resources of the Hokkaido region are presented i

108 o the environment and unnecessarily consumes natural resources, potentially affecting future food sec

109 d, Spain, Finland and Sweden, representing a natural resource quality range of C, N and P.

110 rs that reflects both health-related IRB and natural-resource-related IPR considerations.

111 munity-based participatory health-related or natural-resource-related research with American Indian n

112 Production of natural resources required for food security, patterns o

113 census size, sedentism, exploitation of the natural resources, social stratification or connectivity

114 ls to include benefits of avoided damages to natural resources, specifically, poisoned fish and wildl

115 Renewable natural resources, such as solar radiation, rainfall, wi

116 Governing natural resources sustainably is a continuing struggle.

117 emicelluloses stands out as a very promising natural resource that can be utilized as a biobased mate

118 Lignin is an abundant natural resource that is a potential source of valuable

119 lt in three safeguard subjects: the Asset of Natural Resources, their Provisioning Capacity, and thei

120 ock, the source of P fertilizer, is a finite natural resource, there is a need to enhance P fertilize

121 isms provides opportunities to use renewable natural resources to develop better materials and design

122 d include the effective and efficient use of natural resources to promote the overall health of popul

123 Bay, a highly productive ecosystem providing natural resources, transportation, and recreation for ne

124 kaline stabilization, with 35% lower overall natural resource use.

125 nments and civil society groups are engaging natural resource users in collaborative management arran

126 te map of the flow of all types of renewable natural resources was also generated by map layer overla

127 distribution maps for each type of renewable natural resource were generated by kriging interpolation

128 Disease resistance genes are valuable natural resources which should be deployed in a way whic

129 intensive use of renewable and nonrenewable natural resources, which has brought significant basin-w

130 strategies applied to terrestrial and marine natural resources, with crop rotations dating back to th