33 results on '"Cant, A."'
Search Results
2. Kinship dynamics: patterns and consequences of changes in local relatedness
- Author
-
Croft, Darren P., primary, Weiss, Michael N., additional, Nielsen, Mia L. K., additional, Grimes, Charli, additional, Cant, Michael A., additional, Ellis, Samuel, additional, Franks, Daniel W., additional, and Johnstone, Rufus A., additional
- Published
- 2021
- Full Text
- View/download PDF
3. Age and sex influence social interactions, but not associations, within a killer whale pod
- Author
-
Weiss, Michael N., primary, Franks, Daniel W., additional, Giles, Deborah A., additional, Youngstrom, Sadie, additional, Wasser, Samuel K., additional, Balcomb, Kenneth C., additional, Ellifrit, David K., additional, Domenici, Paolo, additional, Cant, Michael A., additional, Ellis, Samuel, additional, Nielsen, Mia L. K., additional, Grimes, Charli, additional, and Croft, Darren P., additional
- Published
- 2021
- Full Text
- View/download PDF
4. Elevated aggression is associated with uncertainty in a network of dog dominance interactions
- Author
-
Eugenia Natoli, Robbie A. McDonald, Michael A. Cant, Simona Cafazzo, and Matthew J. Silk
- Subjects
0106 biological sciences ,dominance hierarchy ,Male ,Theoretical models ,social stability ,010603 evolutionary biology ,01 natural sciences ,General Biochemistry, Genetics and Molecular Biology ,Sexual Behavior, Animal ,Dogs ,Sex Factors ,Exponential random graph models ,medicine ,Animals ,0501 psychology and cognitive sciences ,Behaviour ,050102 behavioral science & comparative psychology ,exponential random graph model ,Social Behavior ,General Environmental Science ,Generality ,agonistic interaction ,General Immunology and Microbiology ,Behavior, Animal ,Aggression ,05 social sciences ,Age Factors ,General Medicine ,Dominance hierarchy ,Dominance (ethology) ,Italy ,Social Dominance ,Food ,Social relationship ,Social hierarchy ,social network ,Female ,medicine.symptom ,General Agricultural and Biological Sciences ,Psychology ,Cognitive psychology ,Research Article - Abstract
Dominance hierarchies are widespread in animal societies and reduce the costs of within-group conflict over resources and reproduction. Variation in stability across a social hierarchy may result in asymmetries in the benefits obtained from hierarchy formation. However, variation in the stability and behavioural costs of dominance interactions with rank remain poorly understood. Previous theoretical models have predicted that the intensity of dominance interactions and aggression should increase with rank, but these models typically assume high reproductive skew, and so their generality remains untested. Here we show in a pack of free-living dogs with a sex–age-graded hierarchy that the central region of the hierarchy was dominated by more unstable social relationships and associated with elevated aggression. Our results reveal unavoidable costs of ascending a dominance hierarchy, run contrary to theoretical predictions for the relationship between aggression and social rank in high-skew societies, and widen our understanding of how heterogeneous benefits of hierarchy formation arise in animal societies.
- Published
- 2019
5. Elevated aggression is associated with uncertainty in a network of dog dominance interactions
- Author
-
Silk, Matthew J., primary, Cant, Michael A., additional, Cafazzo, Simona, additional, Natoli, Eugenia, additional, and McDonald, Robbie A., additional
- Published
- 2019
- Full Text
- View/download PDF
6. Mortality risk and social network position in resident killer whales: sex differences and the importance of resource abundance
- Author
-
Ellis, S., primary, Franks, D. W., additional, Nattrass, S., additional, Cant, M. A., additional, Weiss, M. N., additional, Giles, D., additional, Balcomb, K. C., additional, and Croft, D. P., additional
- Published
- 2017
- Full Text
- View/download PDF
7. Sex-biased dispersal, haplodiploidy and the evolution of helping in social insects
- Author
-
Michael A. Cant, Rufus A. Johnstone, and Jeremy Field
- Subjects
Male ,media_common.quotation_subject ,Population ,Zoology ,Kin selection ,Biology ,Altruism ,General Biochemistry, Genetics and Molecular Biology ,Sex Factors ,Animals ,Sex Ratio ,Mating ,Social Behavior ,education ,Research Articles ,health care economics and organizations ,General Environmental Science ,media_common ,education.field_of_study ,General Immunology and Microbiology ,Reproduction ,General Medicine ,Sex Determination Processes ,Diploidy ,Hymenoptera ,Evolutionary biology ,behavior and behavior mechanisms ,Haplodiploidy ,Biological dispersal ,Female ,Philopatry ,General Agricultural and Biological Sciences ,Sex ratio - Abstract
In his famous haplodiploidy hypothesis, W. D. Hamilton proposed that high sister–sister relatedness facilitates the evolution of kin-selected reproductive altruism among Hymenopteran females. Subsequent analyses, however, suggested that haplodiploidy cannot promote altruism unless altruists capitalize on relatedness asymmetries by helping to raise offspring whose sex ratio is more female-biased than the population at large. Here, we show that haplodiploidy is in fact more favourable than is diploidy to the evolution of reproductive altruism on the part of females, provided only that dispersal is male-biased (no sex-ratio bias or active kin discrimination is required). The effect is strong, and applies to the evolution both of sterile female helpers and of helping among breeding females. Moreover, a review of existing data suggests that female philopatry and non-local mating are widespread among nest-building Hymenoptera. We thus conclude that Hamilton was correct in his claim that ‘family relationships in the Hymenoptera are potentially very favourable to the evolution of reproductive altruism’.
- Published
- 2011
8. The cost of dominance: suppressing subordinate reproduction affects the reproductive success of dominant female banded mongooses
- Author
-
Jason S. Gilchrist, Hazel J. Nichols, Sarah J. Hodge, Michael A. Cant, and Matthew B.V. Bell
- Subjects
Dominance-Subordination ,Male ,Litter (animal) ,Reproductive suppression ,Herpestidae ,Offspring ,media_common.quotation_subject ,Biology ,General Biochemistry, Genetics and Molecular Biology ,Pregnancy ,Stress, Physiological ,Cooperative breeding ,Animals ,Uganda ,Research Articles ,General Environmental Science ,media_common ,General Immunology and Microbiology ,Reproductive success ,Ecology ,Reproduction ,General Medicine ,Eusociality ,Aggression ,Dominance (ethology) ,Female ,General Agricultural and Biological Sciences ,Demography - Abstract
Social species show considerable variation in the extent to which dominant females suppress subordinate reproduction. Much of this variation may be influenced by the cost of active suppression to dominants, who may be selected to balance the need to maximize the resources available for their own offspring against the costs of interfering with subordinate reproduction. To date, the cost of reproductive suppression has received little attention, despite its potential to influence the outcome of conflict over the distribution of reproduction in social species. Here, we investigate possible costs of reproductive suppression in banded mongooses, where dominant females evict subordinates from their groups, thereby inducing subordinate abortion. We show that evicting subordinate females is associated with substantial costs to dominant females: pups born to females who evicted subordinates while pregnant were lighter than those born after undisturbed gestations; pups whose dependent period was disrupted by an eviction attained a lower weight at independence; and the proportion of a litter that survived to independence was reduced if there was an eviction during the dependent period. To our knowledge, this is the first empirical study indicating a possible cost to dominants in attempting to suppress subordinate breeding, and we argue that much of the variation in reproductive skew both within and between social species may be influenced by adaptive variation in the effort invested in suppression by dominants.
- Published
- 2011
9. The role of threats in animal cooperation
- Author
-
Michael A. Cant
- Subjects
cooperative breeding ,genetic structures ,media_common.quotation_subject ,mutualism ,Social behaviour ,General Biochemistry, Genetics and Molecular Biology ,within-group conflict ,Empirical research ,Game Theory ,Punishment ,negotiation ,reproductive skew ,Selfishness ,Animals ,Cooperative Behavior ,Social Behavior ,Review Articles ,General Environmental Science ,media_common ,General Immunology and Microbiology ,Behavior, Animal ,Environmental ethics ,General Medicine ,biparental care ,Negotiation ,Cooperative behavior ,General Agricultural and Biological Sciences ,Psychology ,Game theory ,Social psychology - Abstract
In human societies, social behaviour is strongly influenced by threats of punishment, even though the threats themselves rarely need to be exercised. Recent experimental evidence suggests that similar hidden threats can promote cooperation and limit within-group selfishness in some animal systems. In other animals, however, threats appear to be ineffective. Here I review theoretical and empirical studies that help to understand the evolutionary causes of these contrasting patterns, and identify three factors—impact, accuracy and perception—that together determine the effectiveness of threats to induce cooperation.
- Published
- 2010
10. The evolution of menopause in cetaceans and humans: the role of demography
- Author
-
Rufus A. Johnstone and Michael A. Cant
- Subjects
life history ,Male ,Population Dynamics ,Zoology ,Cetacea ,cooperation ,Kin selection ,Models, Biological ,General Biochemistry, Genetics and Molecular Biology ,Kinship ,Animals ,Humans ,Family ,Mating ,dispersal ,Research Articles ,General Environmental Science ,General Immunology and Microbiology ,biology ,Grandmother hypothesis ,Age Factors ,General Medicine ,reproductive conflict ,biology.organism_classification ,Biological Evolution ,Biological dispersal ,Philopatry ,Female ,Menopause ,General Agricultural and Biological Sciences ,Human Females ,Demography - Abstract
Human females stop reproducing long before they die. Among other mammals, only pilot and killer whales exhibit a comparable period of post-reproductive life. The grandmother hypothesis suggests that kin selection can favour post-reproductive survival when older females help their relatives to reproduce. But although there is an evidence that grandmothers can provide such assistance, it is puzzling why menopause should have evolved only among the great apes and toothed whales. We have previously suggested ( Cant & Johnstone 2008 Proc. Natl Acad. Sci. USA 105 , 5332–5336 ( doi:10.1073/pnas.0711911105 )) that relatedness asymmetries owing to female-biased dispersal in ancestral humans would have favoured younger females in reproductive competition with older females, predisposing our species to the evolution of menopause. But this argument appears inapplicable to menopausal cetaceans, which exhibit philopatry of both sexes combined with extra-group mating. Here, we derive general formulae for ‘kinship dynamics’, the age-related changes in local relatedness that occur in long-lived social organisms as a consequence of dispersal and mortality. We show that the very different social structures of great apes and menopausal whales both give rise to an increase in local relatedness with female age, favouring late-life helping. Our analysis can therefore help to explain why, of all long-lived, social mammals, it is specifically among the great apes and toothed whales that menopause and post-reproductive helping have evolved.
- Published
- 2010
11. Adaptation to public goods cheats in Pseudomonas aeruginosa
- Author
-
O'Brien, Siobhán, primary, Luján, Adela M., additional, Paterson, Steve, additional, Cant, Michael A., additional, and Buckling, Angus, additional
- Published
- 2017
- Full Text
- View/download PDF
12. Biased escorts: offspring sex, not relatedness explains alloparental care patterns in a cooperative breeder
- Author
-
Vitikainen, Emma I. K., primary, Marshall, Harry H., additional, Thompson, Faye J., additional, Sanderson, Jenni L., additional, Bell, Matthew B. V., additional, Gilchrist, Jason S., additional, Hodge, Sarah J., additional, Nichols, Hazel J., additional, and Cant, Michael A., additional
- Published
- 2017
- Full Text
- View/download PDF
13. Escalated conflict in a social hierarchy
- Author
-
Hudson K. Reeve, Jeremy Field, Sinead English, and Michael A. Cant
- Subjects
Male ,Reproductive suppression ,Wasps ,Helping behavior ,Body size ,CONTEST ,Models, Biological ,General Biochemistry, Genetics and Molecular Biology ,medicine ,Animals ,Body Size ,Cooperative Behavior ,Productivity ,General Environmental Science ,Behavior, Animal ,General Immunology and Microbiology ,Aggression ,General Medicine ,Helping Behavior ,Dominance hierarchy ,Social Dominance ,Social hierarchy ,Female ,medicine.symptom ,General Agricultural and Biological Sciences ,Psychology ,Social psychology ,Research Article - Abstract
Animals that live in cooperative societies form hierarchies in which dominant individuals reap disproportionate benefits from group cooperation. The stability of these societies requires subordinates to accept their inferior status rather than engage in escalated conflict with dominants over rank. Applying the logic of animal contests to these cases predicts that escalated conflict is more likely where subordinates are reproductively suppressed, where group productivity is high, relatedness is low, and where subordinates are relatively strong. We tested these four predictions in the field on co-foundress associations of the paper wasp Polistes dominulus by inducing contests over dominance rank experimentally. Subordinates with lower levels of ovarian development, and those in larger, more productive groups, were more likely to escalate in conflict with their dominant, as predicted. Neither genetic relatedness nor relative body size had significant effects on the probability of escalation. The original dominant emerged as the winner in all except one escalated contest. The results provide the first evidence that reproductive suppression of subordinates increases the threat of escalated conflict, and hence that reproductive sharing can promote stability of the dominant–subordinate relationship.
- Published
- 2006
14. Endogenous timing in competitive interactions among relatives
- Author
-
Sheng-Feng Shen and Michael A. Cant
- Subjects
Competitive Behavior ,Time Factors ,General Immunology and Microbiology ,Sequential game ,Reproduction ,Evolutionary game theory ,Context (language use) ,General Medicine ,Commit ,Biological Evolution ,Models, Biological ,General Biochemistry, Genetics and Molecular Biology ,Competition (economics) ,Social group ,Microeconomics ,Game Theory ,Economics ,Stackelberg competition ,General Agricultural and Biological Sciences ,Social psychology ,Game theory ,Research Article ,General Environmental Science - Abstract
Most evolutionary game theory models solve for equilibrium levels of some behaviour on the restrictive assumptions that players choose their actions simultaneously, and that a player cannot change its action after observing that of its opponent. An alternative framework is provided by sequential or ‘Stackelberg’ games in which one player commits to a ‘first move’ and the other has an opportunity to observe this move before choosing its response. Recent interest in the economic literature has focused on Stackelberg games which exhibit ‘endogenous timing’, i.e. games in which a leader and a follower arise spontaneously as a consequence of each player attempting to maximize its reward. Here, we provide the first demonstration of endogenous timing in an evolutionary context using a simple model of resource competition (the ‘tug-of-war’ model). We show that whenever two related individuals compete for a share of communal resources, both do best to adopt distinct roles in a sequential game rather than engage in simultaneous competition. Somewhat counterintuitively, the stable solution is for the weaker individual to act as leader and commit to a first move, because this arrangement leads to a lower total effort invested in competition. Endogenous timing offers a new explanation for the spontaneous emergence of leaders and followers in social groups, and highlights the benefits of commitment in social interaction.
- Published
- 2005
15. Using social parasitism to test reproductive skew models in a primitively eusocial wasp
- Author
-
Green, J. P., Cant, M. A., and Field, J.
- Published
- 2014
- Full Text
- View/download PDF
16. Reproductive competition triggers mass eviction in cooperative banded mongooses
- Author
-
Thompson, Faye J., primary, Marshall, Harry H., additional, Sanderson, Jennifer L., additional, Vitikainen, Emma I. K., additional, Nichols, Hazel J., additional, Gilchrist, Jason S., additional, Young, Andrew J., additional, Hodge, Sarah J., additional, and Cant, Michael A., additional
- Published
- 2016
- Full Text
- View/download PDF
17. Sex-biased dispersal, haplodiploidy and the evolution of helping in social insects
- Author
-
Johnstone, Rufus A., primary, Cant, Michael A., additional, and Field, Jeremy, additional
- Published
- 2011
- Full Text
- View/download PDF
18. The cost of dominance: suppressing subordinate reproduction affects the reproductive success of dominant female banded mongooses
- Author
-
Bell, M. B. V., primary, Nichols, H. J., additional, Gilchrist, J. S., additional, Cant, M. A., additional, and Hodge, S. J., additional
- Published
- 2011
- Full Text
- View/download PDF
19. The role of threats in animal cooperation
- Author
-
Cant, Michael A., primary
- Published
- 2010
- Full Text
- View/download PDF
20. The evolution of menopause in cetaceans and humans: the role of demography
- Author
-
Johnstone, Rufus A., primary and Cant, Michael A., additional
- Published
- 2010
- Full Text
- View/download PDF
21. Reproductive control via eviction (but not the threat of eviction) in banded mongooses
- Author
-
Cant, Michael A., primary, Hodge, Sarah J., additional, Bell, Matthew B. V., additional, Gilchrist, Jason S., additional, and Nichols, Hazel J., additional
- Published
- 2010
- Full Text
- View/download PDF
22. Escalated conflict in a social hierarchy
- Author
-
Cant, M.A, primary, English, S, additional, Reeve, H.K, additional, and Field, J, additional
- Published
- 2006
- Full Text
- View/download PDF
23. Endogenous timing in competitive interactions among relatives
- Author
-
Cant, Michael A, primary and Shen, Sheng-Feng, additional
- Published
- 2005
- Full Text
- View/download PDF
24. Tracking butterfly flight paths across the landscape with harmonic radar
- Author
-
Cant, E.T, primary, Smith, A.D, additional, Reynolds, D.R, additional, and Osborne, J.L, additional
- Published
- 2005
- Full Text
- View/download PDF
25. Sex-biased dispersal, haplodiploidy and the evolution of helping in social insects.
- Author
-
Rufus A., Johnstone, Michael A., Cant, and Jeremy, Field
- Subjects
- *
HAPLODIPLOIDY , *DISPERSAL of insects , *INSECT societies , *KIN selection (Evolution) , *INSECT reproduction , *INSECT locomotion - Abstract
In his famous haplodiploidy hypothesis, W. D. Hamilton proposed that high sistersister relatedness facilitates the evolution of kin-selected reproductive altruism among Hymenopteran females. Subsequent analyses, however, suggested that haplodiploidy cannot promote altruism unless altruists capitalize on relatedness asymmetries by helping to raise offspring whose sex ratio is more female-biased than the population at large. Here, we show that haplodiploidy is in fact more favourable than is diploidy to the evolution of reproductive altruism on the part of females, provided only that dispersal is male-biased (no sex-ratio bias or active kin discrimination is required). The effect is strong, and applies to the evolution both of sterile female helpers and of helping among breeding females. Moreover, a review of existing data suggests that female philopatry and non-local mating are widespread among nest-building Hymenoptera. We thus conclude that Hamilton was correct in his claim that family relationships in the Hymenoptera are potentially very favourable to the evolution of reproductive altruism. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
26. The cost of dominance: suppressing subordinate reproduction affects the reproductive success of dominant female banded mongooses.
- Author
-
M. B. V., Bell, H. J., Nichols, J. S., Gilchrist, M. A., Cant, and S. J., Hodge
- Subjects
ANIMAL social behavior ,MONGOOSES ,ANIMAL reproduction ,ANIMAL variation ,COOPERATIVE breeding in animals ,EMPIRICAL research ,PREGNANCY in animals - Abstract
Social species show considerable variation in the extent to which dominant females suppress subordinate reproduction. Much of this variation may be influenced by the cost of active suppression to dominants, who may be selected to balance the need to maximize the resources available for their own offspring against the costs of interfering with subordinate reproduction. To date, the cost of reproductive suppression has received little attention, despite its potential to influence the outcome of conflict over the distribution of reproduction in social species. Here, we investigate possible costs of reproductive suppression in banded mongooses, where dominant females evict subordinates from their groups, thereby inducing subordinate abortion. We show that evicting subordinate females is associated with substantial costs to dominant females: pups born to females who evicted subordinates while pregnant were lighter than those born after undisturbed gestations; pups whose dependent period was disrupted by an eviction attained a lower weight at independence; and the proportion of a litter that survived to independence was reduced if there was an eviction during the dependent period. To our knowledge, this is the first empirical study indicating a possible cost to dominants in attempting to suppress subordinate breeding, and we argue that much of the variation in reproductive skew both within and between social species may be influenced by adaptive variation in the effort invested in suppression by dominants. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
27. The role of threats in animal cooperation.
- Author
-
Cant, Michael A.
- Subjects
- *
ANIMAL social behavior , *PUNISHMENT , *MUTUALISM (Biology) , *COOPERATIVE breeding in animals , *EMPIRICAL research , *NEGOTIATION - Abstract
In human societies, social behaviour is strongly influenced by threats of punishment, even though the threats themselves rarely need to be exercised. Recent experimental evidence suggests that similar hidden threats can promote cooperation and limit within-group selfishness in some animal systems. In other animals, however, threats appear to be ineffective. Here I review theoretical and empirical studies that help to understand the evolutionary causes of these contrasting patterns, and identify three factors--impact, accuracy and perception--that together determine the effectiveness of threats to induce cooperation. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
28. Reproductive control via eviction (but not the threat of eviction) in banded mongooses.
- Author
-
Michael A. Cant
- Subjects
- *
REGULATION of reproduction , *BANDED mongoose , *BIOLOGICAL variation , *ANIMAL breeding , *SEX (Biology) , *LIFE (Biology) - Abstract
Considerable research has focused on understanding variation in reproductive skew in cooperative animal societies, but the pace of theoretical development has far outstripped empirical testing of the models. One major class of model suggests that dominant individuals can use the threat of eviction to deter subordinate reproduction (the ‘restraint’ model), but this idea remains untested. Here, we use long-term behavioural and genetic data to test the assumptions of the restraint model in banded mongooses (Mungos mungo), a species in which subordinates breed regularly and evictions are common. We found that dominant females suffer reproductive costs when subordinates breed, and respond to these costs by evicting breeding subordinates from the group en masse, in agreement with the assumptions of the model. We found no evidence, however, that subordinate females exercise reproductive restraint to avoid being evicted in the first place. This means that the pattern of reproduction is not the result of a reproductive ‘transaction’ to avert the threat of eviction. We present a simple game theoretical analysis that suggests that eviction threats may often be ineffective to induce pre-emptive restraint among multiple subordinates and predicts that threats of eviction (or departure) will be much more effective in dyadic relationships and linear hierarchies. Transactional models may be more applicable to these systems. Greater focus on testing the assumptions rather than predictions of skew models can lead to a better understanding of how animals control each other's reproduction, and the extent to which behaviour is shaped by overt acts versus hidden threats. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
29. Escalated conflict in a social hierarchy.
- Author
-
M.A. Cant, S. English, H.K. Reeve, and J. Field
- Subjects
- *
COOPERATIVE societies , *CONTESTS , *PATRONAGE dividends , *PAPER wasps - Abstract
Animals that live in cooperative societies form hierarchies in which dominant individuals reap disproportionate benefits from group cooperation. The stability of these societies requires subordinates to accept their inferior status rather than engage in escalated conflict with dominants over rank. Applying the logic of animal contests to these cases predicts that escalated conflict is more likely where subordinates are reproductively suppressed, where group productivity is high, relatedness is low, and where subordinates are relatively strong. We tested these four predictions in the field on co-foundress associations of the paper wasp Polistes dominulus by inducing contests over dominance rank experimentally. Subordinates with lower levels of ovarian development, and those in larger, more productive groups, were more likely to escalate in conflict with their dominant, as predicted. Neither genetic relatedness nor relative body size had significant effects on the probability of escalation. The original dominant emerged as the winner in all except one escalated contest. The results provide the first evidence that reproductive suppression of subordinates increases the threat of escalated conflict, and hence that reproductive sharing can promote stability of the dominant–subordinate relationship. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
30. Endogenous timing in competitive interactions among relatives.
- Author
-
Michael A. Cant and Sheng-Feng Shen
- Subjects
- *
INTERPERSONAL relations , *RELATIVES , *COMPETITION (Biology) , *SOCIAL interaction - Abstract
Most evolutionary game theory models solve for equilibrium levels of some behaviour on the restrictive assumptions that players choose their actions simultaneously, and that a player cannot change its action after observing that of its opponent. An alternative framework is provided by sequential or ‘Stackelberg’ games in which one player commits to a ‘first move’ and the other has an opportunity to observe this move before choosing its response. Recent interest in the economic literature has focused on Stackelberg games which exhibit ‘endogenous timing’, i.e. games in which a leader and a follower arise spontaneously as a consequence of each player attempting to maximize its reward. Here, we provide the first demonstration of endogenous timing in an evolutionary context using a simple model of resource competition (the ‘tug-of-war’ model). We show that whenever two related individuals compete for a share of communal resources, both do best to adopt distinct roles in a sequential game rather than engage in simultaneous competition. Somewhat counterintuitively, the stable solution is for the weaker individual to act as leader and commit to a first move, because this arrangement leads to a lower total effort invested in competition. Endogenous timing offers a new explanation for the spontaneous emergence of leaders and followers in social groups, and highlights the benefits of commitment in social interaction. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
31. Tracking butterfly flight paths across the landscape with harmonic radar.
- Author
-
E.T. Cant, A.D. Smith, D.R. Reynolds, and J.L. Osborne
- Subjects
- *
BUTTERFLIES , *INSECTS , *RADAR , *LEPIDOPTERA - Abstract
For the first time, the flight paths of five butterfly species were successfully tracked using harmonic radar within an agricultural landscape. Until now, butterfly mobility has been predominantly studied using visual observations and mark–recapture experiments. Attachment of a light-weight radar transponder to the butterfly's thorax did not significantly affect behaviour or mobility. Tracks were analysed for straightness, duration, displacement, ground speed, foraging and the influence of linear landscape features on flight direction. Two main styles of track were identified: (A) fast linear flight and (B) slower nonlinear flights involving a period of foraging and/or looped sections of flight. These loops potentially perform an orientation function, and were often associated with areas of forage. In the absence of forage, linear features did not provide a guiding effect on flight direction, and only dense treelines were perceived as barriers. The results provide tentative support for non-random dispersal and a perceptual range of 100–200m for these species. This study has demonstrated a methodology of significant value for future investigation of butterfly mobility and dispersal. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
32. Insurance-based advantages for subordinate co-foundresses in a temperate paper wasp.
- Author
-
Gavin Shreeves, Michael A. Cant, Alan Bolton, and Jeremy Field
- Subjects
- *
POLISTES , *VERTEBRATES , *CHORDATA , *BEHAVIOR - Abstract
Recent explanations for the evolution of eusociality, focusing more on costs and benefits than relatedness, are largely untested. We validate one such model by showing that helpers in foundress groups of the paper wasp Polistes dominulus benefit from an insurance-based mechanism known as Assured Fitness Returns (AFRs). Experimental helper removals left remaining group members with more offspring than they would normally rear. Reduced groups succeeded in preserving the dead helpers' investment by rearing these extra offspring, even when helper removals occurred long before worker emergence. While helpers clearly gained from AFRs, offspring of lone foundresses failed after foundress death, so that AFRs represent a true advantage for helpers. Smaller, less valuable offspring were probably sacrificed to feed larger offspring, but reduced groups did not preferentially attract joiners or increase their foraging effort to compensate for their smaller workforce. We failed to detect a second insurance-based advantage, Survivorship Insurance, in which larger groups are less likely to fail than smaller groups. We suggest that through their use of small offspring as a food store to cope with temporary shortages, wasps may be less susceptible than vertebrates to offspring failure following the death of group members. [ABSTRACT FROM AUTHOR]
- Published
- 2003
- Full Text
- View/download PDF
33. Using social parasitism to test reproductive skew models in a primitively eusocial wasp.
- Author
-
†, Jonathan P., Cant, Michael A., and Field, Jeremy
- Subjects
- *
SPECIES distribution , *COOPERATIVE breeding in animals , *ANIMAL sexual behavior , *HYMENOPTERA behavior , *PARASITISM , *BIOLOGICAL variation - Abstract
Remarkable variation exists in the distribution of reproduction (skew) among members of cooperatively breeding groups, both within and between species. Reproductive skew theory has provided an important framework for understanding this variation. In the primitively eusocial Hymenoptera, two models have been routinely tested: concessions models, which assume complete control of reproduction by a dominant individual, and tug-of-war models, which assume on-going competition among group members over reproduction. Current data provide little support for either model, but uncertainty about the ability of individuals to detect genetic relatedness and difficulties in identifying traits conferring competitive ability mean that the relative importance of concessions versus tug-of-war remains unresolved. Here, we suggest that the use of social parasitism to generate meaningful variation in key social variables represents a valuable opportunity to explore the mechanisms underpinning reproductive skew within the social Hymenoptera. We present a direct test of concessions and tug-of-war models in the paper wasp Polistes dominulus by exploiting pronounced changes in relatedness and power structures that occur following replacement of the dominant by a congeneric social parasite. Comparisons of skew in parasitized and unparasitized colonies are consistent with a tug-of-war over reproduction within P. dominulus groups, but provide no evidence for reproductive concessions. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
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