ライフサイエンスコーパス: natural world

1 al systems that must robustly operate in the natural world.

2 ortant means to gain novel insights into the natural world.

3 the statistical properties of objects in the natural world.

4 t fascinating developmental processes in the natural world.

5 an aid in processing sensory features of the natural world.

6 touch helps us encounter the richness of our natural world.

7 endency to perceive intent and agency in the natural world.

8 t reflect the correlational structure of the natural world.

9 Red coloration is a salient feature of the natural world.

10 ay vision is used to guide locomotion in the natural world.

11 he most stunning color displays known in the natural world.

12 nothing short of a miraculous wonder of the natural world.

13 complexity and our collective mastery of the natural world.

14 f past societies and their connection to the natural world.

15 oveal vision in primates as they explore the natural world.

16 onarily important skeletal structures in the natural world.

17 hen we decided to open the lab's door to the natural world.

18 ssible decisions using the known laws of the natural world.

19 eir design problems by closely observing the natural world.

20 pe as a vivid, richly detailed aspect of the natural world.

21 mensional sociospatial representation of the natural world.

22 we strive to understand the dynamics of the natural world.

23 ne why division of labour is favoured in the natural world.

24 improving these systems to better mimic the natural world.

25 in conditions is a widespread problem in the natural world.

26 optimization strategies is ubiquitous in the natural world.

27 s a crucial part in our understanding of the natural world.

28 visual cues that reflect regularities in the natural world.

29 tion growth will undermine protection of the natural world.

30 y drivers of the behavior's emergence in the natural world.

31 ons stimulate ecological interactions in the natural world.

32 animal ecology is to observe species in the natural world.

33 amental renewal of humans' connection to the natural world.

34 rom fear conditioning studies operate in the natural world.

35 ge of intensities and contrasts found in the natural world.

36 y, as one of the most complex objects in the natural world.

37 extensively on colour vision to adapt to the natural world.

38 secondary structure that is not seen in the natural world.

39 ew sources of elliptical polarization in the natural world.

40 tionary principle to decisions affecting the natural world.

41 us fibre composites that have evolved in the natural world.

42 by taking into account the statistics of the natural world.

43 w to tackle a range of challenges facing the natural world.

44 ers as we seek a better understanding of the natural world.

45 l activity can be related to behavior in the natural world.

46 ofound effects that humans are having on the natural world.

47 ate change is having profound impacts on the natural world.

48 derivatives occur in a physical model of the natural world.

49 ellectual gifts and aesthetic marvels of the natural world.

50 elf-assembly processes are ubiquitous in the natural world.

51 and this could have profound impacts on the natural world.

52 nique among the communication systems of the natural world.

53 tch the highly informative components of the natural world.

54 rating that aptamers also are present in the natural world.

55 ately assess the effects of pollution on our natural world.

56 n nature can expand our understanding of the natural world.

57 d pathogens that they would encounter in the natural world.

58 chnology, enriching our understanding of the natural world.

59 equences to the greatest extent known in the natural world.

60 erstanding ethanol's potential impact on the natural world.

61 mplexity and connectedness of species in the natural world?

62 on-social tinkering to solve problems in the natural world; (2) learning and copying from the tinkeri

63 the most impressive feats of teamwork in the natural world,(4)(,)(5) including self-assembly into pul

64 In the natural world, a 30 millisecond delay could have real co

65 ion of natural images; i.e., images from the natural world, affirming the brain to be optimized for t

66 nces against predation are widespread in the natural world, allowing prey to economise on the costs o

67 laining the diversity and composition of the natural world and are aware of the inextricable linkages

68 information about the basic structure of the natural world and continue to assimilate information abo

69 largest gatherings of apex predators in the natural world and have provided model systems for studyi

70 ther, is a fundamental building block of the natural world and human society.

71 ery of protective mechanisms relevant in the natural world and improve the modeling of complex diseas

72 y studied because of their importance to the natural world and their potential applications as molecu

73 of the red, orange, and yellow colors in the natural world and, at least for most animals, these mole

74 important bioactive molecules throughout the natural world, and in many animals they serve as a sourc

75 an alternative are a constant in an animal's natural world, and in particular underlie foraging behav

76 most commonly seen colourful elements of the natural world, and in this primer we explain the evoluti

77 d on the pressure humanity is placing on the natural world, and on the continued ability of ecosystem

78 Microbes face intense competition in the natural world, and so need to wisely allocate their reso

79 y temporal characteristics of stimuli in the natural world, and this temporal capacity is a character

80 ltiple behaviors that animals exhibit in the natural world, and, as a consequence, could be pervasive

81 In the natural world, animals make decisions on an ongoing basi

82 nd feeling psychologically connected to, the natural world are all associated with better mental heal

83 for intelligent behavior and learning in the natural world are now, more than ever, within reach.

84 do not yet understand which features of the natural world are used to locate distant objects.

85 s quantitative approach to understanding the natural world arguably marks the beginning of modern sci

86 tween humans but also between humans and the natural world around them.

87 iration is increasingly being taken from the natural world because the biological mineralization of s

88 that observers handle the uncertainty of the natural world by proactively allocating gaze on the basi

89 Animals in the natural world constantly encounter geometrically complex

90 The natural world constantly inundates our senses with an ab

91 The natural world contains a rich and ever-changing landscap

92 vents.Significance Statement Survival in the natural world depends on an animal's capacity to adapt o

93 riety of timescales underlying events in the natural world, determining the temporal characteristics

94 ective behaviour occurs at all levels of the natural world, from cells aggregating to form tissues, t

95 Observations from the natural world, from patterns of disease in human populat

96 end in order to reproduce and survive in the natural world, growth-defense trade-offs have important

97 t over much of the history of the Earth, the natural world has been in stationary states, that are pu

98 Animal camouflage in the natural world has been studied for over a century, with

99 n river sediments of the Urmia Lake basin, a natural world heritage located in northwestern Iran.

100 ist approach and has remained focused on the natural world in all its complexity.

101 e can be as diverse and unpredictable as the natural world in which we study our organisms of choice.

102 f exploiting the statistical patterns in the natural world, infants would face an insurmountable comp

103 w the inherent structure and function of the natural world interacts with memory and cognition in nat

104 rates, strengthening the hypothesis that the natural world is experiencing the sixth major extinction

105 The natural world is filled with interspecies relationships

106 The natural world is full of valuable lessons about genetic

107 My curiosity about the natural world is innate, but fate has variously gifted m

108 The natural world is more complex, and also more fragile, th

109 However, the natural world is seldom predictable and rarely provides

110 As humans increasingly modify the natural world, many animals have responded by changing t

111 In the natural world, monkeys and humans judge the economic val

112 In the natural world, objects are simultaneously characterized

113 Throughout history, art has interpreted the natural world, offering vast, underexplored sources of b

114 d information to facilitate the study of the natural world on a global scale.

115 trophic consequences for both humans and the natural world on which we depend.

116 rocessing corresponds to an asymmetry in the natural world, one produced by the Poisson nature of pho

117 undance of stimuli-responsive systems in the natural world only foreshadows the creative directions t

118 late physiological phenomena relevant in the natural world outside the laboratory.

119 Objects in the natural world possess different visual attributes, inclu

120 ng environment.SIGNIFICANCE STATEMENT In the natural world, previous sensory input is predictive of c

121 unless we revisit our relationship with the natural world, protect habitats, and regulate wildlife t

122 The natural world provides many examples of multiphase trans

123 In the ongoing battle against cancer, the natural world provides promising inspiration for designi

124 However, how do we perceive the social and natural world, rationalize our behavior, and modify our

125 nition is observed abundantly throughout the natural world, regulating diverse biological processes.

126 s, an exhilarating reminder that much of the natural world remains to be explored at the molecular le

127 These contain a lot of information about the natural world, some of which can be used to answer key e

128 Such rotors are found in the natural world spanning vastly disparate length scales -

129 In the natural world, stimulus-outcome associations are often a

130 lish the value that society derives from the natural world such that the true cost of proposed develo

131 inspirations for soft robotics are from the natural world, such as octopuses, snakes, and caterpilla

132 hieved remarkable success in a wide range of natural-world tasks, such as vision, language, and speec

133 In the natural world, the statistics of sensory stimuli fluctua

134 ng the diversity of ciliate behaviors in the natural world, themes for organizing and controlling mat

135 However, in the natural world, there is often no direct correlation betw

136 us contributions to our understanding of the natural world, this field of research, which we term 'bi

137 mens, samples and data that inform about the natural world; this Formal Comment revisits a Perspectiv

138 mens, samples and data that inform about the natural world; this Reply responds to a Formal Comment t

139 Understanding of the capacity of the natural world to produce secondary metabolites is import

140 at the heart of the plankton paradox: in the natural world we observe many species sharing few resour

141 would not expect to find populations in the natural world where both stressed and unstressed individ

142 parent stability of visual experience in the natural world, where ambiguous and fleeting images are p

143 is frequently seen as the antithesis of the natural world, where the problem is framed as one of min

144 environmental change has effects across the natural world, with consequences for organismal physiolo

145 ffer dramatically in their prevalence in the natural world, with many species characterized as rare d