scholarly journals Does kin selection moderate sexual conflict in Drosophila ?

2015 ◽  
Vol 282 (1813) ◽  
pp. 20151417 ◽  
Author(s):  
Adam K. Chippindale ◽  
Meredith Berggren ◽  
Joshua H. M. Alpern ◽  
Robert Montgomerie
Keyword(s):  
Sexual Conflict ◽  
Kin Selection ◽  
Social Evolution ◽  
Kin Recognition ◽  
Fruit Flies ◽  
Male Reproductive Success ◽  
Laboratory Populations ◽  
Different Populations ◽  
Experimental Findings ◽  
Unrelated Male

Two recent studies provide provocative experimental findings about the potential influence of kin recognition and cooperation on the level of sexual conflict in Drosophila melanogaster . In both studies, male fruit flies apparently curbed their mate-harming behaviours in the presence of a few familiar or related males, suggesting some form of cooperation mediated by kin selection. In one study, the reduction in agonistic behaviour by brothers apparently rendered them vulnerable to dramatic loss of paternity share when competing with an unrelated male. If these results are robust and generalizable, fruit flies could be a major new focus for the experimental study of kin selection and social evolution. In our opinion, however, the restrictive conditions required for male cooperation to be adaptive in this species make it unlikely to evolve. We investigated these phenomena in two different populations of D. melanogaster using protocols very similar to those in the two previous studies. Our experiments show no evidence for a reduction in mate harm based upon either relatedness or familiarity between males, and no reduction in male reproductive success when two brothers are in the presence of an unfamiliar, unrelated, ‘foreign’ male. Thus, the reduction of sexual conflict owing to male cooperation does not appear to be a general feature of the species, at least under domestication, and these contrasting results call for further investigation: in new populations, in the field and in the laboratory populations in which these phenomena have been reported.

scholarly journals Dissecting ant recognition systems in the age of genomics

2013 ◽  
Vol 9 (6) ◽  
pp. 20130416 ◽  
Author(s):  
Neil D. Tsutsui
Keyword(s):  
Molecular Biology ◽  
Kin Selection ◽  
Social Evolution ◽  
Molecular Mechanisms ◽  
Kin Recognition ◽  
Genome Sequences ◽  
The Social ◽  
Colony Recognition ◽  
Recognition Systems

Hamilton is probably best known for his seminal work demonstrating the role of kin selection in social evolution. His work made it clear that, for individuals to direct their altruistic behaviours towards appropriate recipients (kin), mechanisms must exist for kin recognition. In the social insects, colonies are typically comprised of kin, and colony recognition cues are used as proxies for kinship cues. Recent years have brought rapid advances in our understanding of the genetic and molecular mechanisms that are used for this process. Here, I review some of the most notable advances, particularly the contributions from recent ant genome sequences and molecular biology.

scholarly journals No evidence that relatedness or familiarity modulate male harm in wild Drosophila melanogaster

2021 ◽  
Author(s):  
Ana Marquez-Rosado ◽  
Clara García-Có ◽  
Claudia Londoño-Nieto ◽  
Pau Carazo
Keyword(s):  
Drosophila Melanogaster ◽  
Sexual Conflict ◽  
Kin Selection ◽  
Kin Recognition ◽  
Natural Populations ◽  
Male Competition ◽  
Natural Conditions ◽  
Population Average ◽  
In The Wild

Sexual selection frequently promotes the evolution of aggressive behaviours that help males compete against their rivals, but which may harm females and hamper their fitness. Kin selection theory predicts that optimal male-male competition levels can be reduced when competitors are more genetically related to each other than to the population average, contributing to resolve this sexual conflict. Work in Drosophila melanogaster has spearheaded empirical tests of this idea, but studies so far have been conducted in lab-adapted populations in homogeneous rearing environments that may hamper kin recognition, and used highly skewed sex ratios that may fail to reflect average natural conditions. Here, we performed a fully factorial design with the aim of exploring how rearing environment (i.e. familiarity) and relatedness affect male-male aggression, male harassment, and overall male harm levels in a natural population of Drosophila melanogaster, under more natural conditions. Namely, we: a) manipulated relatedness and familiarity so that larvae reared apart were raised in different environments, as is common in the wild, and b) studied the effects of relatedness and familiarity under average levels of male-male competition in the field. We show that, contrary to previous findings, groups of unrelated-unfamiliar males were as likely to fight with each other and harass females than related-familiar males, and that overall levels of male harm to females were similar across treatments. Our results suggest that the role of kin selection in modulating sexual conflict is yet unclear in Drosophila melanogaster, and call for further studies that focus on natural populations and realistic socio-sexual and ecological environments.

scholarly journals Sex-biased dispersal, kin selection and the evolution of sexual conflict

2015 ◽  
Vol 28 (10) ◽  
pp. 1901-1910 ◽  
Author(s):  
Gonçalo S. Faria ◽  
Susana A. M. Varela ◽  
Andy Gardner
Keyword(s):  
Sexual Conflict ◽  
Kin Selection

Dream-Sharing and Human Self-Domestication

2021 ◽  
Author(s):  
Mark Blagrove ◽  
Julia Lockheart
Keyword(s):  
Emotional Reactivity ◽  
Social Evolution ◽  
Cultural Practices ◽  
Neural Mechanisms ◽  
The Social ◽  
Primary Driver ◽  
Group Members ◽  
Human Social Evolution ◽  
Dream Sharing ◽  
Experimental Findings

There are many theories of the function of dreams, such as memory consolidation, emotion processing, threat simulation and social simulation. In general, such theories hold that the function of dreams occurs within sleep; occurs for unrecalled dreams as well as for dream that are recalled on awakening; and that conscious recall of dreams is not necessary for their function to occur. In contrast, we propose that dreams have an effect of enhancing empathy and group bonding when dreams are shared and discussed with others. We propose also that this effect would have occurred in history and pre-history and, as it would have enhanced the cohesiveness and mutual understanding of group members, the fictional and engaging characteristics of dream content would have been selected for during human social evolution, interacting with cultural practices of dream-sharing. Such dream-sharing may have taken advantage of the long REM periods that occur for biological reasons near the end of the night. Dream-production and dream-sharing may have developed alongside story-telling, utilising common neural mechanisms. Dream-sharing hence would have contributed to Human Self-Domestication, held by many researchers to be the primary driver of the evolution of human prosociality, tolerance and reduced intragroup emotional reactivity. We note that within-sleep theories of dream function rely on correlational rather than experimental findings, and have as yet untested and speculative mechanisms, whereas post-sleep effects of dream-sharing are easily testable and have mechanisms congruent with the social processes proposed by the theory of Human Self-Domestication.

Evidence, Other Approaches, and Further Topics

2015 ◽  
Author(s):  
James A.R. Marshall
Keyword(s):  
Social Evolution ◽  
Inclusive Fitness ◽  
Kin Recognition ◽  
Replicator Dynamics ◽  
Empirical Support ◽  
Natural World ◽  
Price Equation ◽  
Evolution Theory ◽  
Inclusive Fitness Theory ◽  
The Many

This book has examined the genesis, the logic, and the generality of social evolution theory. In particular, it has presented evolutionary explanations of the many social behaviors we observe in the natural world by showing that William D. Hamilton's inclusive fitness theory provides the necessary generalization of classical Darwin–Wallace–Fisher fitness. This concluding chapter discusses the limitations of the analyses presented in this book and assesses the empirical support for inclusive fitness theory, focusing on microbial altruism, help in cooperative breeders, reproductive restraint in eusocial species, and the evolution of eusociality and cooperative breeding. It also considers more advanced topics in social evolution theory, including sex allocation, genetic kin recognition, spite, and the evolution of organismality. Finally, it reviews theoretical approaches to studying social evolution other than replicator dynamics and the Price equation, such as population genetics, class-structured populations, and maximization approaches.

scholarly journals Naive Juvenile Diamondback Terrapins: Kin Recognition in Controlled Encounter Experiments

Elements ◽  
2007 ◽  
Vol 3 (1) ◽  
Author(s):  
Brad Macdonald ◽  
Alexis Rife
Keyword(s):  
Social Behavior ◽  
Kin Selection ◽  
Kin Recognition ◽  
Diamondback Terrapin ◽  
Malaclemys Terrapin ◽  
Selection Theory ◽  
Boston College ◽  
Diamondback Terrapins ◽  
Existing Data

Northern diamondback terrapin (<span style="font-family: mceinline;"><em>malaclemys terrapin</em>) turtle </span>hatchlings raised as part of a laboratory headstarting program are the focus of kin recognition studies taking place at Boston College. Experiments examining basking behaviors in 13 trials of familiar kin and 11 trials of unfamiliar non-kin. Familiar kin averaged more aggressive engagements per trial (2.44 vs. 0.36), more displacements per trial (13.36 vs. 3.91), and more instances of climbing on one another (13.36 vs. 2.36). Familiar kin basked in congregations more frequently per trial than unfamiliar non-kin. These data suggest that diamondback terrapins treat each other differently based on either kinship or familiarity-or both. Further research will be conducted on familiar and unfamiliar kin and non-kin groupings to help elucidate the existing data by determining which variable has greater consequence and if Hamilton's kin selection theory can be applied to terrapin juvenile social behavior.

scholarly journals The validity and value of inclusive fitness theory

2011 ◽  
Vol 278 (1723) ◽  
pp. 3313-3320 ◽  
Author(s):  
Andrew F. G. Bourke
Keyword(s):  
Kin Selection ◽  
Evolutionary Biology ◽  
Social Evolution ◽  
Inclusive Fitness ◽  
Evidence Base ◽  
Alternative Theory ◽  
Selection Theory ◽  
Inclusive Fitness Theory ◽  
Evolution Of Eusociality ◽  
Natural Selection Theory

Social evolution is a central topic in evolutionary biology, with the evolution of eusociality (societies with altruistic, non-reproductive helpers) representing a long-standing evolutionary conundrum. Recent critiques have questioned the validity of the leading theory for explaining social evolution and eusociality, namely inclusive fitness (kin selection) theory. I review recent and past literature to argue that these critiques do not succeed. Inclusive fitness theory has added fundamental insights to natural selection theory. These are the realization that selection on a gene for social behaviour depends on its effects on co-bearers, the explanation of social behaviours as unalike as altruism and selfishness using the same underlying parameters, and the explanation of within-group conflict in terms of non-coinciding inclusive fitness optima. A proposed alternative theory for eusocial evolution assumes mistakenly that workers' interests are subordinate to the queen's, contains no new elements and fails to make novel predictions. The haplodiploidy hypothesis has yet to be rigorously tested and positive relatedness within diploid eusocial societies supports inclusive fitness theory. The theory has made unique, falsifiable predictions that have been confirmed, and its evidence base is extensive and robust. Hence, inclusive fitness theory deserves to keep its position as the leading theory for social evolution.

scholarly journals Kin and multilevel selection in social evolution: a never-ending controversy?

F1000Research ◽  
2016 ◽  
Vol 5 ◽  
pp. 776 ◽  
Author(s):  
Jos Kramer ◽  
Joël Meunier
Keyword(s):  
Kin Selection ◽  
Group Selection ◽  
Evolutionary Biology ◽  
Social Evolution ◽  
Selection Process ◽  
Structured Populations ◽  
Multilevel Selection ◽  
Current Debate ◽  
The Relationship ◽  
Shed Light

Kin selection and multilevel selection are two major frameworks in evolutionary biology that aim at explaining the evolution of social behaviors. However, the relationship between these two theories has been plagued by controversy for almost half a century and debates about their relevance and usefulness in explaining social evolution seem to rekindle at regular intervals. Here, we first provide a concise introduction into the kin selection and multilevel selection theories and shed light onto the roots of the controversy surrounding them. We then review two major aspects of the current debate: the presumed formal equivalency of the two theories and the question whether group selection can lead to group adaptation. We conclude by arguing that the two theories can offer complementary approaches to the study of social evolution: kin selection approaches usually focus on the identification of optimal phenotypes and thus on the endresult of a selection process, whereas multilevel selection approaches focus on the ongoing selection process itself. The two theories thus provide different perspectives that might be fruitfully combined to promote our understanding of the evolution in group-structured populations.

scholarly journals Computing with Arrays of Coupled Oscillators: An Application to Preattentive Texture Discrimination

1990 ◽  
Vol 2 (4) ◽  
pp. 458-471 ◽  
Author(s):  
Pierre Baldi ◽  
Ronny Meir
Keyword(s):  
Long Range ◽  
Cortical Neurons ◽  
Coupled Oscillators ◽  
Dynamic Evolution ◽  
Coupled Oscillator ◽  
Texture Discrimination ◽  
Oscillator Networks ◽  
Neural Computations ◽  
Different Populations ◽  
Experimental Findings

Recent experimental findings (Gray et al. 1989; Eckhorn et al. 1988) seem to indicate that rapid oscillations and phase-lockings of different populations of cortical neurons play an important role in neural computations. In particular, global stimulus properties could be reflected in the correlated firing of spatially distant cells. Here we describe how simple coupled oscillator networks can be used to model the data and to investigate whether useful tasks can be performed by oscillator architectures. A specific demonstration is given for the problem of preattentive texture discrimination. Texture images are convolved with different sets of Gabor filters feeding into several corresponding arrays of coupled oscillators. After a brief transient, the dynamic evolution in the arrays leads to a separation of the textures by a phase labeling mechanism. The importance of noise and of long range connections is briefly discussed.

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