ライフサイエンスコーパス: macroevolution

1 s major shifts in evolutionary trajectories (macroevolution).

2 n between many other disciplines relevant to macroevolution.

3 require conceptual bridges between micro and macroevolution.

4 question at the interface between micro- and macroevolution.

5 etween fossil and phylogenetic approaches to macroevolution.

6 applied to both cultural microevolution and macroevolution.

7 phylogenetic methods to reconstruct cultural macroevolution.

8 have explanatory limitations with regard to macroevolution.

9 t contributors to adaptation, speciation and macroevolution.

10 nd systems underpin much of our knowledge of macroevolution.

11 epts in understanding pattern and process in macroevolution.

12 selection on variability is a major force of macroevolution.

13 and duplication can catalyse major steps of macroevolution.

14 ) have been proposed to reconcile micro- and macroevolution.

15 use in community ecology, macroecology, and macroevolution.

16 helping us bridge the gap between micro- and macroevolution.

17 tentially at incongruence between micro- and macroevolution.

18 ay of research questions in macroecology and macroevolution.

19 ional way to evaluate the ultimate causes of macroevolution.

20 g the interpretation of historical events of macroevolution.

21 mpacting the tempo and mode of morphological macroevolution.

22 sed on the theoretical framework of cultural macroevolution.

23 struction) is central to classic concepts of macroevolution(1,2).

24 rsity of extant species is a central goal of macroevolution(1-3).

25 rming a conceptual bridge between micro- and macroevolution.(1)(,)(2)(,)(3)(,)(4) Evolution by natura

26 vital role of fossil data for understanding macroevolution.(10)(,)(11)(,)(12) Our results indicate t

27 n organisms and for interpreting patterns of macroevolution and biogeography.

28 redator-induced morphological and behavioral macroevolution and contribute to our understanding of ho

29 o the challenges imposed by tumor micro- and macroevolution and developing deeper insight into parall

30 Here, I will discuss why microevolution, macroevolution and developmental biology all have to be

31 he Extended Evolutionary Synthesis (cultural macroevolution and evolutionary cognitive archaeology).

32 ndicator of a need for new theory connecting macroevolution and microevolution.

33 We argue that macroevolution and speciation on "rugged" fitness landsc

34 Lifespan extension could equate with macroevolution and subsequent modifications with microev

35 tial independent contributions to explaining macroevolution, and are rarely linked.

36 WGD) likely plays an important role in plant macroevolution, and has been implicated in diversificati

37 hesis of genetics and evolution: embryology, macroevolution, and homology.

38 m animal behavior and ecology to speciation, macroevolution, and human language.

39 ty assembly, biotic interactions, micro- and macroevolution, and overall ecosystem functioning.

40 unusual role of biotic interactions in Homo macroevolution, and speciation in particular.

41 The mechanisms underlying rapid macroevolution are controversial.

42 -Pleistocene and EV's influence on mammalian macroevolution are two outstanding foci of research in A

43 nthesis is emerging that attempts to explain macroevolution as well as microevolutionary events.

44 sm for maintaining genetic variation, and in macroevolution, as a means of generating phenotypic nove

45 a novel body plan may be a common feature of macroevolution, as first hypothesized by G.G. Simpson mo

46 ons or unusual physical events as drivers of macroevolution, but they do suggest that the turnover of

47 causes and ultimate consequences of squamate macroevolution by combining individual-based natural his

48 novel CoV sequences) in China to study their macroevolution, cross-species transmission and dispersal

49 novel CoV sequences) in China to study their macroevolution, cross-species transmission and dispersal

50 of cetaceans is one of the best examples of macroevolution documented from the fossil record.

51 This finding suggests that cell fusion, as macroevolution event, favours specific sarcoma developme

52 Macroevolution examines the temporal patterns of biologi

53 Exploring how hominin macroevolution fits into the general vertebrate macroevo

54 ly similar models found in phylogenetics and macroevolution, for example.

55 the trends of atomic composition during the macroevolution from prokaryote to eukaryote, five atoms

56 Vertebrate macroevolution has been punctuated by fundamental habita

57 Its importance in speciation and macroevolution has been questioned, however, because phe

58 Although macroevolution has been subject to considerable controve

59 ir markedly different life-history phases to macroevolution has rarely been analysed.

60 species may represent the principle mode of macroevolution in RNA viruses.

61 reported associations between diversity and macroevolution in vertebrates, underscoring that the rel

62 ique spatiotemporal view of Cenozoic pelagic macroevolution, in which global biogeographic responses

63 Here we use an explicit model of macroevolution including gene birth, transfer, duplicati

64 ve similarity with the empirical facts about macroevolution, including broadly distributed extinction

65 r model permits numerous applications beyond macroevolution, including protein and RNA evolution.

66 that the relationship between diversity and macroevolution is complex.

67 rivers of geological-scale patterns in plant macroevolution is limited by a hesitancy to use measurab

68 As a result, the role of predation in macroevolution is often dismissed in favor of competitio

69 escales - its origin and deep evolution, its macroevolution, its microevolution and finally, the rece

70 tions and their related functional groups in macroevolution made eukaryotic proteins carry more usefu

71 as been made to reconcile microevolution and macroevolution, much work remains to identify the links

72 Patterns of mammalian macroevolution must be reinterpreted in light of these n

73 ic analysis of the Apidae sheds light on the macroevolution of a bee family that is of evolutionary,

74 ture facilitates both the microevolution and macroevolution of a broad spectrum of hues.

75 ogeny and comparative method to evaluate the macroevolution of body and egg mass, incubation and fled

76 events have played an important role in the macroevolution of certain groups, but only when ecologic

77 I assessed the macroevolution of fruit traits in response to variation

78 ical processes which, in turn, influence the macroevolution of functional traits.

79 d quantifying universal hypotheses about the macroevolution of gene regulatory mechanisms.

80 Across environmentally diverse habitats, the macroevolution of leaf defenses can be predicted by the

81 s of epicontinental seas have influenced the macroevolution of marine animals, but the extent to whic

82 We then use these data to simulate the macroevolution of mass and metabolic rate, and show that

83 portant, yet overlooked, role in shaping the macroevolution of plant defenses against arthropod herbi

84 -plant genes, an event that is linked to the macroevolution of plant vegetative and reproductive orga

85 er, our results provide new insight into the macroevolution of sexual signalling in insects.

86 to the importance of natural enemies in the macroevolution of species.

87 Here we apply this approach to study the macroevolution of the forelimb in primates, a structure

88 used phylogenomic methods to reconstruct the macroevolution of the NRC family.

89 out contrasting evolutionary dynamics in the macroevolution of the NRC network over the last 125 mill

90 owever, remarkably little is known about the macroevolution of the relative allocation in seed compon

91 To study the macroevolution of vomeronasal sensitivity, we identified

92 Macroevolution posed difficulties for Darwin and later t

93 deep time and the extent of its influence on macroevolution remain poorly understood.

94 play among the biotic and abiotic drivers of macroevolution remains limited.

95 'stepping stone' model of marine-freshwater macroevolution saw adoption of low salinity habitats pre

96 To understand how macroevolution shapes communities, we surveyed Anolis li

97 ed both in nature and in the laboratory, and macroevolution (speciation and the origin of the divisio

98 tackle long-standing questions of polyploid macroevolution, supplies the foundation for mechanistic

99 s a simple functional logic to explain virus macroevolution that appears to define the course of viru

100 observed for oxygen and sulfur atoms in the macroevolution; the variation of oxygen and sulfur compo

101 This is challenging because macroevolution typically uses lineage-based models, wher

102 We explored bird macroevolution using full genomes from 48 avian species

103 These include: biological time, direction, macroevolution verses microevolution, ageing and the ext

104 r results also indicate a basic asymmetry in macroevolution: very large decreases (such as extreme in

105 his process onto a model of Prochlorococcus' macroevolution, we propose that niche-constructing adapt

106 om molecular biology, functional ecology and macroevolution, we provide a framework to better underst

107 ssential examples of Court Jester drivers of macroevolution, whereby abiotic pressures drive a suite

108 Innovations often shape the trajectory of macroevolution, yet their effects are usually considered