ライフサイエンスコーパス: social evolution

1 roup selection as a plausible force in human social evolution.

2 gy on the fixation of neutral innovations in social evolution.

3 omparative data to test hypotheses regarding social evolution.

4 ort proposed links to individual fitness and social evolution.

5 g interest in the genetic changes underlying social evolution.

6 pacts of intergroup conflict and its role in social evolution.

7 tion--a requirement for a complete theory of social evolution.

8 el system of choice for molecular studies of social evolution.

9 llowing us to evaluate alternative models of social evolution.

10 e level of individuals, can be influenced by social evolution.

11 tudy of the genetic mechanisms that underpin social evolution.

12 ty is a cause rather than an effect of human social evolution.

13 ader implications of this work for microbial social evolution.

14 ader implications of this work for microbial social evolution.

15 r interpreting transitional stages in vespid social evolution.

16 changed perspective for understanding insect social evolution.

17 by which female mate choice could influence social evolution.

18 f the interplay between network dynamics and social evolution.

19 rk for understanding the factors determining social evolution.

20 e it highly attractive as a model system for social evolution.

21 expression of complex behaviors important in social evolution.

22 ightened our understanding of the process of social evolution.

23 tedness is a central concept in the study of social evolution.

24 made much use of it in attempting to explain social evolution.

25 ples and applied to multivariate problems in social evolution.

26 theory underlies our basic understanding of social evolution [1, 2].

27 Social insects are important models for social evolution and behavior.

28 Here, we synthesize concepts and theories in social evolution and discuss its underlying ecological c

29 iscoideum is a model system for the study of social evolution and provides insights into the nature o

30 esenting multiple independent transitions in social evolution, and report three major findings.

31 Students of social evolution are concerned not only with the general

32 ps us understand and reconstruct patterns of social evolution as well as fully appreciate the biologi

33 Allee effects underlay early explanations of social evolution but current understanding focusses on k

34 ica provides the opportunity to study recent social evolution by comparing social organization in nat

35 Social evolution can be partitioned into (a) formation o

36 Here, we briefly review basic social evolution concepts as they pertain to microbes, d

37 e investigation and interpretation of vespid social evolution for more than two decades.

38 One of the enduring problems in the study of social evolution has been to understand how cooperation

39 size cognitive adaptations, but we show that social evolution has shaped patterns of human phenotypic

40 We analyze a model of social evolution in a two-habitat situation with limited

41 , clonality simplifies efforts to understand social evolution in aphids by obviating issues of intrag

42 Thus, significant recent social evolution in fire ants is consistent with theoret

43 illustrate that identical principles govern social evolution in highly diverse systems.

44 may be able to explain important aspects of social evolution in insects.

45 These results provide a glimpse of social evolution in its earliest stages and provide insi

46 raits, highlight recent empirical studies of social evolution in M. xanthus, and consider their impli

47 Phenotypic noise and social evolution in microbes have recently attracted hug

48 However, the study of social evolution in microbes tends to focus on single sp

49 s, however, and does not accurately describe social evolution in organisms such as microbes where sel

50 Social evolution in the honeybee (Apis mellifera) has re

51 ch a framework, thus integrating theories of social evolution into the evolutionary ecology of hetero

52 rge groups played an important role in human social evolution is dependent on how variation, whether

53 the division of labor in social insects and social evolution itself.

54 Suggestive examples in social evolution may be alloparental care and unicolonia

55 cific functions that are associated with the social evolution of honey bees.

56 ness of interactions between the ecology and social evolution of multispecies microbial groups, which

57 Here we describe the rapid social evolution of player-developed folding algorithms

58 es support a key role for infanticide in the social evolution of primates, and potentially, humans.

59 Here we examine the social evolution of QS experimentally in the opportunist

60 ocial insects, which demonstrates convergent social evolution of these taxa prior to agriculture.

61 within-generation bet-hedging hypothesis for social evolution predicts that (i) variance in reproduct

62 selection is central to the modern study of social evolution, recent studies of social species have

63 Studies of human social evolution tend to emphasize cognitive adaptations

64 Currently, there is no formal framework of social evolution that encompasses genetic polymorphism.

65 confirms a central theoretical prediction of social evolution: that genetic relatedness promotes coop

66 Social evolution theory offers a conceptual framework fo

67 oad agreement of different models shows that social evolution theory, rather than being in turmoil, i

68 e constructed this vertical understanding of social evolution using behavioral and anatomical analyse

69 Here we present a model of primate social evolution, whereby sociality progresses from soli