Your search keyword '"Clutton‐Brock, Tim"' showing total 15 results

1. Two decades of tuberculosis surveillance reveal disease spread, high levels of exposure and mortality and marked variation in disease progression in wild meerkats.

Author

Müller‐Klein, Nadine, Risely, Alice, Schmid, Dominik W., Manser, Marta, Clutton‐Brock, Tim, and Sommer, Simone

Subjects

TUBERCULOSIS, INFECTIOUS disease transmission, DISEASE progression, MYCOBACTERIUM tuberculosis, GROUP dynamics, SOCIAL groups

Abstract

Infections with tuberculosis (TB)‐causing agents of the Mycobacterium tuberculosis complex threaten human, livestock and wildlife health globally due to the high capacity to cross trans‐species boundaries. Tuberculosis is a cryptic disease characterized by prolonged, sometimes lifelong subclinical infections, complicating disease monitoring. Consequently, our understanding of infection risk, disease progression, and mortality across species affected by TB remains limited. The TB agent Mycobacterium suricattae was first recorded in the late 1990s in a wild population of meerkats inhabiting the Kalahari in South Africa and has since spread considerably, becoming a common cause of meerkat mortality. This offers an opportunity to document the epidemiology of naturally spreading TB in a wild population. Here, we synthesize more than 25 years' worth of TB reporting and social interaction data across 3420 individuals to track disease spread, and quantify rates of TB social exposure, progression, and mortality. We found that most meerkats had been exposed to the pathogen within eight years of first detection in the study area, with exposure reaching up to 95% of the population. Approximately one quarter of exposed individuals progressed to clinical TB stages, followed by physical deterioration and death within a few months. Since emergence, 11.6% of deaths were attributed to TB, although the true toll of TB‐related mortality is likely higher. Lastly, we observed marked variation in disease progression among individuals, suggesting inter‐individual differences in both TB susceptibility and resistance. Our results highlight that TB prevalence and mortality could be higher than previously reported, particularly in species or populations with complex social group dynamics. Long‐term studies, such as the present one, allow us to assess temporal variation in disease prevalence and progression and quantify exposure, which is rarely measured in wildlife. Long‐term studies are highly valuable tools to explore disease emergence and ecology and study host–pathogen co‐evolutionary dynamics in general, and its impact on social mammals. [ABSTRACT FROM AUTHOR]

Published

2022

2. Territoriality and home-range dynamics in meerkats, Suricata suricatta: a mechanistic modelling approach.

Author

Bateman, Andrew W., Lewis, Mark A., Gall, Gabriella, Manser, Marta B., Clutton‐Brock, Tim H., and Borger, Luca

Subjects

MEERKAT, TERRITORIALITY (Zoology), TERRITORIAL marking (Animals), HABITATS

Abstract

Multiple approaches exist to model patterns of space use across species, among them resource selection analysis, statistical home-range modelling and mechanistic movement modelling. Mechanistic home-range models combine the benefits of these approaches, describing emergent territorial patterns based on fine-scale individual- or group-movement rules and incorporating interactions with neighbours and the environment. These models have not, to date, been extended to dynamic contexts., Using mechanistic home-range models, we explore meerkat ( Suricata suricatta) territorial patterns, considering scent marking, direct group interactions and habitat selection. We also extend the models to accommodate dynamic aspects of meerkat territoriality (territory development and territory shift)., We fit models, representing multiple working hypotheses, to data from a long-term meerkat study in South Africa, and we compare models using Akaike's and Bayesian Information Criteria., Our results identify important features of meerkat territorial patterns. Notably, larger groups do not seem to control larger territories, and groups apparently prefer dune edges along a dry river bed., Our model extensions capture instances in which 1) a newly formed group interacts more strongly with its parent groups over time and 2) a group moves its territory core out of aversive habitat. This extends our mechanistic modelling framework in previously unexplored directions. [ABSTRACT FROM AUTHOR]

Published

2015

3. Inbreeding and inbreeding depression of early life traits in a cooperative mammal.

Author

NIELSEN, JOHANNA F., ENGLISH, SINEAD, GOODALL-COPESTAKE, WILL P., WANG, JINLIANG, WALLING, CRAIG A., BATEMAN, ANDREW W., FLOWER, TOM P., SUTCLIFFE, ROBERT L., SAMSON, JAMIE, THAVARAJAH, NATHAN K., KRUUK, LOESKE E. B., CLUTTON-BROCK, TIM H., and PEMBERTON, JOSEPHINE M.

Subjects

MAMMALOGICAL research, INBREEDING, MEERKAT, ANIMAL sexual behavior

Abstract

Mating between relatives often results in negative fitness consequences or inbreeding depression. However, the expression of inbreeding in populations of wild cooperative mammals and the effects of environmental, maternal and social factors on inbreeding depression in these systems are currently not well understood. This study uses pedigree-based inbreeding coefficients from a long-term study of meerkats ( Suricata suricatta) in South Africa to reveal that 44% of the population have detectably non-zero ( F > 0) inbreeding coefficients. 15% of these inbred individuals were the result of moderate inbreeding ( F ≥ 0.125), although such inbreeding events almost solely occurred when mating individuals had no prior experience of each other. Inbreeding depression was evident for a range of traits: pup mass at emergence from the natal burrow, hind-foot length, growth until independence and juvenile survival. However, we found no evidence of significant inbreeding depression for skull and forearm length or for pup survival. This research provides a rare investigation into inbreeding in a cooperative mammal, revealing high levels of inbreeding, considerable negative consequences and complex interactions with the social environment. [ABSTRACT FROM AUTHOR]

Published

2012

4. Sex differences in responsiveness to begging in a cooperative mammal.

Author

English, Sinead, Kunc, Hansjoerg P., Madden, Joah R., and Clutton-Brock, Tim H.

Subjects

MEERKAT, GENDER differences (Psychology), SEXUAL objectification, ANIMAL dispersal

Abstract

The article discusses the results of a playback experiment that investigated responsiveness to begging in meerkats, Suricata suricatta, in Northern Cape, South Africa. The findings revealed that increased begging rate raised the feeding rate of adults of both sexes, but lacked consistent tendency for females to be more responsive than males. The results are also explained in terms of sex differences in dispersal.

Published

2008

5. The development of individual differences in cooperative behaviour: maternal glucocorticoid hormones alter helping behaviour of offspring in wild meerkats.

Author

Dantzer B, Dubuc C, Goncalves IB, Cram DL, Bennett NC, Ganswindt A, Heistermann M, Duncan C, Gaynor D, and Clutton-Brock TH

Subjects

Animals, Biological Variation, Individual, Herpestidae genetics, Maternal Inheritance, South Africa, Cooperative Behavior, Glucocorticoids metabolism, Helping Behavior, Herpestidae physiology

Abstract

The phenotype of parents can have long-lasting effects on the development of offspring as well as on their behaviour, physiology and morphology as adults. In some cases, these changes may increase offspring fitness but, in others, they can elevate parental fitness at a cost to the fitness of their offspring. We show that in Kalahari meerkats ( Suricata suricatta), the circulating glucocorticoid (GC) hormones of pregnant females affect the growth and cooperative behaviour of their offspring. We performed a 3-year experiment in wild meerkats to test the hypothesis that GC-mediated maternal effects reduce the potential for offspring to reproduce directly and therefore cause them to exhibit more cooperative behaviour. Daughters (but not sons) born to mothers treated with cortisol during pregnancy grew more slowly early in life and exhibited significantly more of two types of cooperative behaviour (pup rearing and feeding) once they were adults compared to offspring from control mothers. They also had lower measures of GCs as they aged, which could explain the observed increases in cooperative behaviour. Because early life growth is a crucial determinant of fitness in female meerkats, our results indicate that GC-mediated maternal effects may reduce the fitness of offspring, but may elevate parental fitness as a consequence of increasing the cooperative behaviour of their daughters. This article is part of the theme issue 'Developing differences: early-life effects and evolutionary medicine'.

Published

2019

6. Cost of dispersal in a social mammal: body mass loss and increased stress.

Author

Maag N, Cozzi G, Bateman A, Heistermann M, Ganswindt A, Manser M, Clutton-Brock T, and Ozgul A

Subjects

Animal Migration physiology, Animals, Feces chemistry, Female, Glucocorticoids metabolism, Social Behavior, South Africa, Animal Distribution physiology, Body Weight, Herpestidae physiology, Stress, Physiological

Abstract

Dispersal is a key process influencing the dynamics of socially and spatially structured populations. Dispersal success is determined by the state of individuals at emigration and the costs incurred after emigration. However, quantification of such costs is often difficult, due to logistical constraints of following wide-ranging individuals. We investigated the effects of dispersal on individual body mass and stress hormone levels in a cooperative breeder, the meerkat ( Suricata suricatta). We measured body mass and faecal glucocorticoid metabolite (fGCM) concentrations from 95 dispersing females in 65 coalitions through the entire dispersal process. Females that successfully settled lost body mass, while females that did not settle but returned to their natal group after a short period of time did not. Furthermore, dispersing females had higher fGCM levels than resident females, and this was especially pronounced during the later stages of dispersal. By adding information on the transient stage of dispersal and by comparing dispersers that successfully settled to dispersers that returned to their natal group, we expand on previous studies focusing on the earlier stages of dispersal. We propose that body mass and stress hormone levels are good indicators to investigate dispersal costs, as these traits often play an important role in mediating the effects of the environment on other life-history events and individual fitness.

Published

2019

7. Incidence and biomarkers of pregnancy, spontaneous abortion, and neonatal loss during an environmental stressor: Implications for female reproductive suppression in the cooperatively breeding meerkat.

Author

Dimac-Stohl KA, Davies CS, Grebe NM, Stonehill AC, Greene LK, Mitchell J, Clutton-Brock T, and Drea CM

Subjects

Animals, Climate Change, Desert Climate, Droughts, Estradiol blood, Feces chemistry, Female, Glucocorticoids metabolism, Herpestidae, Incidence, Progesterone blood, Sexual Behavior, Animal physiology, South Africa, Abortion, Veterinary epidemiology, Abortion, Veterinary metabolism, Pregnancy metabolism, Reproduction physiology, Social Dominance, Stress, Physiological physiology

Abstract

Meerkats are group-living, insectivorous herpestids in which subordinate members provide extensive care for the dominant female's young. In contrast to some cooperative breeders, subordinate female meerkats are physiologically able to reproduce and occasionally do so successfully; their attempts are more frequently 'suppressed' via eviction or infanticide by the dominant female. Spontaneous abortion and neonatal loss occur with some regularity, further negatively impacting reproductive success. Here, we compared the reproductive outcomes and endocrine profiles, including of serum progesterone (P 4 ), serum estradiol (E 2 ), and fecal glucocorticoid metabolites (fGCm), of dominant and subordinate dams residing within their clans in the Kalahari Desert of South Africa. Our study spanned years of drought, which reduced insect abundance and represented a substantial environmental stressor. Meerkat pregnancies were identified at mid-term and culminated either in spontaneous abortions or full-term deliveries, after which pups were either lost prior to emergence from the natal den (usually within 2days of birth) or emerged at 2-3weeks. Neonatal loss exceeded fetal loss for all females, and contributed to narrowing the status-related disparity in female reproductive output seen during less arid periods. Although E 2 concentrations were significantly lower in subordinate than dominant females, they were sufficient to support gestation. Absolute E 2 concentrations may owe to androgenic precursors that also attain highest concentrations in dominant dams and may mediate aggression underlying female reproductive skew. Pregnancies terminating in fetal loss were marked by significantly lower P 4 concentrations in mid-gestation and modestly lower E 2 concentrations overall. Consistently high fGCm concentrations further increased across trimesters, particularly (but not consistently) in subordinates and in aborted pregnancies. Environmental stressors may modulate reproductive outcomes in meerkats through their influence on sex steroids and their effects on intragroup competition. The social and eco-physiological factors affecting intraspecific variation in reproductive output, even in obligate cooperative breeders, may be most apparent during extreme conditions, reflecting the benefits of long-term studies for assessing the impact of climate change., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

8. Socially informed dispersal in a territorial cooperative breeder.

Author

Cozzi G, Maag N, Börger L, Clutton-Brock TH, and Ozgul A

Subjects

Animals, Female, Male, Models, Biological, Population Dynamics, South Africa, Animal Distribution, Ecosystem, Herpestidae physiology, Social Behavior

Abstract

Dispersal is a key process governing the dynamics of socially and spatially structured populations and involves three distinct stages: emigration, transience and settlement. At each stage, individuals have to make movement decisions, which are influenced by social, environmental and individual factors. Yet, a comprehensive understanding of the drivers that influence such decisions is still lacking, particularly for the transient stage during which free-living individuals are inherently difficult to follow. Social circumstances such as the likelihood of encountering conspecifics can be expected to strongly affects decision-making during dispersal, particularly in territorial species where encounters with resident conspecifics are antagonistic. Here, we analysed the movement trajectories of 47 dispersing coalitions of Kalahari meerkats Suricata suricatta through a landscape occupied by constantly monitored resident groups, while simultaneously taking into account environmental and individual characteristics. We used GPS locations collected on resident groups to create a georeferenced social landscape representing the likelihood of encountering resident groups. We used a step-selection function to infer the effect of social, environmental and individual covariates on habitat selection during dispersal. Finally, we created a temporal mismatch between the social landscape and the dispersal event of interest to identify the temporal scale at which dispersers perceive the social landscape. Including information about the social landscape considerably improved our representation of the dispersal trajectory compared to analyses that only accounted for environmental variables. The latter were only marginally selected or avoided by dispersers. Before leaving their natal territory, dispersers selected areas frequently used by their natal group. In contrast, after leaving their natal territory, they selectively used areas where they were less likely to encounter unrelated groups. This pattern was particularly marked in larger dispersing coalitions and when unrelated males were part of the dispersing coalition. Our results suggest that, in socially and spatially structured species, dispersers gather and process social information during dispersal, and that reducing risk of aggression from unrelated resident groups outweighs benefits derived from conspecific attraction. Finally, our work underlines the intimate link between the social structure of a population and dispersal, which affect each other reciprocally., (© 2018 The Authors. Journal of Animal Ecology © 2018 British Ecological Society.)

Published

2018

9. No apparent benefits of allonursing for recipient offspring and mothers in the cooperatively breeding meerkat.

Author

MacLeod KJ, McGhee KE, and Clutton-Brock TH

Subjects

Animals, Animals, Suckling, Behavior, Animal, Female, Maternal Behavior, Social Behavior, Social Dominance, South Africa, Cooperative Behavior, Herpestidae physiology, Lactation physiology

Abstract

Cooperative behaviours by definition are those that provide some benefit to another individual. Allonursing, the nursing of non-descendent young, is often considered a cooperative behaviour and is assumed to provide benefits to recipient offspring in terms of growth and survival, and to their mothers, by enabling them to share the lactation load. However, these proposed benefits are not well understood, in part because maternal and litter traits and other ecological and social variables are not independent of one another, making patterns hard to discern using standard univariate analyses. Here, we investigate the potential benefits of allonursing in the cooperatively breeding Kalahari meerkat, where socially subordinate females allonurse the young of a dominant pair without having young of their own. We use structural equation modelling to allow us to account for the interdependence of maternal traits, litter traits and environmental factors. We find no evidence that allonursing provides benefits to pups or mothers. Pups that received allonursing were not heavier at emergence and did not have a higher survival rate than pups that did not receive allonursing. Mothers whose litters were allonursed were not in better physical condition, did not reconceive faster and did not reduce their own nursing investment compared to mothers who nursed their litters alone. These patterns were not significantly influenced by whether mothers were in relatively good, or poor, condition. We suggest that allonursing may persist in this species because the costs to allonurses may be low. Alternatively, allonursing may confer other, more cryptic, benefits to pups or allonurses, such as immunological or social benefits., (© 2015 The Authors. Journal of Animal Ecology © 2015 British Ecological Society.)

Published

2015

10. Linking body mass and group dynamics in an obligate cooperative breeder.

Author

Ozgul A, Bateman AW, English S, Coulson T, and Clutton-Brock TH

Subjects

Animals, Female, Male, Models, Biological, Population Dynamics, Reproduction, Seasons, South Africa, Body Weight, Herpestidae physiology, Social Behavior

Abstract

Social and environmental factors influence key life-history processes and population dynamics by affecting fitness-related phenotypic traits such as body mass. The role of body mass is particularly pronounced in cooperative breeders due to variation in social status and consequent variation in access to resources. Investigating the mechanisms underlying variation in body mass and its demographic consequences can help elucidate how social and environmental factors affect the dynamics of cooperatively breeding populations. In this study, we present an analysis of the effect of individual variation in body mass on the temporal dynamics of group size and structure of a cooperatively breeding mongoose, the Kalahari meerkat, Suricata suricatta. First, we investigate how body mass interacts with social (dominance status and number of helpers) and environmental (rainfall and season) factors to influence key life-history processes (survival, growth, emigration and reproduction) in female meerkats. Next, using an individual-based population model, we show that the models explicitly including individual variation in body mass predict group dynamics better than those ignoring this morphological trait. Body mass influences group dynamics mainly through its effects on helper emigration and dominant reproduction. Rainfall has a trait-mediated, destabilizing effect on group dynamics, whereas the number of helpers has a direct and stabilizing effect. Counteracting effects of number of helpers on different demographic rates, despite generating temporal fluctuations, stabilizes group dynamics in the long term. Our study demonstrates that social and environmental factors interact to produce individual variation in body mass and accounting for this variation helps to explain group dynamics in this cooperatively breeding population., (© 2014 The Authors. Journal of Animal Ecology © 2014 British Ecological Society.)

Published

2014

11. Maternal, social and abiotic environmental effects on growth vary across life stages in a cooperative mammal.

Author

English S, Bateman AW, Mares R, Ozgul A, and Clutton-Brock TH

Subjects

Animals, Body Weight, Cooperative Behavior, Female, Herpestidae growth & development, Male, South Africa, Environment, Herpestidae physiology, Maternal Behavior, Social Behavior

Abstract

Resource availability plays a key role in driving variation in somatic growth and body condition, and the factors determining access to resources vary considerably across life stages. Parents and carers may exert important influences in early life, when individuals are nutritionally dependent, with abiotic environmental effects having stronger influences later in development as individuals forage independently. Most studies have measured specific factors influencing growth across development or have compared relative influences of different factors within specific life stages. Such studies may not capture whether early-life factors continue to have delayed effects at later stages, or whether social factors change when individuals become nutritionally independent and adults become competitors for, rather than providers of, food. Here, we examined variation in the influence of the abiotic, social and maternal environment on growth across life stages in a wild population of cooperatively breeding meerkats. Cooperatively breeding vertebrates are ideal for investigating environmental influences on growth. In addition to experiencing highly variable abiotic conditions, cooperative breeders are typified by heterogeneity both among breeders, with mothers varying in age and social status, and in the number of carers present. Recent rainfall had a consistently marked effect on growth across life stages, yet other seasonal terms only influenced growth during stages when individuals were growing fastest. Group size and maternal dominance status had positive effects on growth during the period of nutritional dependence on carers, but did not influence mass at emergence (at 1 month) or growth at independent stages (>4 months). Pups born to older mothers were lighter at 1 month of age and subsequently grew faster as subadults. Males grew faster than females during the juvenile and subadult stage only. Our findings demonstrate the complex ways in which the external environment influences development in a cooperative mammal. Individuals are most sensitive to social and maternal factors during the period of nutritional dependence on carers, whereas direct environmental effects are relatively more important later in development. Understanding the way in which environmental sensitivity varies across life stages is likely to be an important consideration in predicting trait responses to environmental change., (© 2013 The Authors. Journal of Animal Ecology published by John Wiley & Sons Ltd on behalf of the British Ecological Society.)

Published

2014

12. Odour-based kin discrimination in the cooperatively breeding meerkat.

Author

Leclaire S, Nielsen JF, Thavarajah NK, Manser M, and Clutton-Brock TH

Subjects

Animals, Discrimination, Psychological, Female, Herpestidae genetics, Male, Phenotype, Recognition, Psychology, Social Behavior, South Africa, Anal Canal metabolism, Cues, Herpestidae physiology, Odorants, Smell

Abstract

Kin recognition is a useful ability for animals, facilitating cooperation among relatives and avoidance of excessive kin competition or inbreeding. In meerkats, Suricata suricatta, encounters between unfamiliar kin are relatively frequent, and kin recognition by phenotype matching is expected to avoid inbreeding with close relatives. Here, we investigate whether female meerkats are able to discriminate the scent of unfamiliar kin from unfamiliar non-kin. Dominant females were presented with anal gland secretion from unfamiliar individuals that varied in their relatedness. Our result indicates that females spent more time investigating the scent of related than unrelated unfamiliar individuals, suggesting that females may use a phenotype matching mechanism (or recognition alleles) to discriminate the odour of their kin from the odour of their non-kin. Our study provides a key starting point for further investigations into the use of kin recognition for inbreeding avoidance in the widely studied meerkat.

Published

2012

13. Individual contributions to territory defence in a cooperative breeder: weighing up the benefits and costs.

Author

Mares R, Young AJ, and Clutton-Brock TH

Subjects

Animals, Female, Herpestidae growth & development, Male, Reproduction, Sex Factors, South Africa, Aggression, Herpestidae physiology, Territoriality, Weight Gain

Abstract

While investment in territory defence is expected to be influenced by its benefits, the additional role that costs may play is rarely considered. Here, we quantify both benefits and costs of repelling prospecting males in cooperative meerkats, and demonstrate that both are required to explain the substantial variation in individual contributions to the defence observed. Males benefit more from repelling prospectors than females, as males may lose dominance and be expelled during intrusions. Accordingly, males invest the most in repelling prospectors. We also show that males experience an associated cost in the form of reduced weight gain and, as such, heavier males contribute more to chasing prospectors. Finally, we show evidence of a cost not restricted to individuals engaged in chasing: both males and females reduce their contributions to feeding dependent pups when prospectors are present, resulting in a reduction in pup weight gain in this context. Males appear to adjust their contributions to chasing in light of this cost, chasing at lower rates when their group contains dependent young. Our findings support the view that investment in cooperative behaviours can be attributed to benefits and costs, and highlight the additional importance of considering trade-offs in investment between cooperative behaviours.

Published

2012

14. Subordinate male meerkats prospect for extra-group paternity: alternative reproductive tactics in a cooperative mammal.

Author

Young AJ, Spong G, and Clutton-Brock T

Subjects

Animals, Appetitive Behavior physiology, Desert Climate, Fertility physiology, Likelihood Functions, Male, Selection, Genetic, South Africa, Statistics, Nonparametric, Herpestidae physiology, Hierarchy, Social, Sexual Behavior, Animal physiology

Abstract

In cooperatively breeding species, subordinates typically suffer strong constraints on within-group reproduction. While numerous studies have highlighted the additional fitness benefits that subordinates might accrue through helping, few have considered the possibility that subordinates may also seek extra-group matings to improve their chances of actually breeding. Here, we show that subordinate males in cooperative meerkat, Suricata suricatta, societies conduct frequent extraterritorial forays, during periods of peak female fertility, which give rise to matings with females in other groups. Genetic analyses reveal that extra-group paternity (EGP) accrued while prospecting contributes substantially to the reproductive success of subordinates: yielding the majority of their offspring (approx. 70%); significantly reducing their age at first reproduction and allowing them to breed without dispersing. We estimate that prospecting subordinates sire 20-25% of all young in the population. While recent studies on cooperative birds indicate that dominant males accrue the majority of EGP, our findings reveal that EGP can also arise from alternative reproductive tactics employed exclusively by subordinates. It is important, therefore, that future attempts to estimate the fitness of subordinate males in animal societies quantify the distribution of extra-group as well as within-group paternity, because a substantial proportion of the reproductive success of subordinates may otherwise go undetected.

Published

2007

15. Adaptive size modification by dominant female meerkats.

Author

Russell AF, Carlson AA, McIlrath GM, Jordan NR, and Clutton-Brock T

Subjects

Animals, Body Weights and Measures, Carnivora physiology, Female, Linear Models, Litter Size, South Africa, Adaptation, Physiological, Body Constitution physiology, Carnivora growth & development, Reproduction physiology, Social Dominance

Abstract

In species of cooperative insects that live in large groups, selection for increased fecundity has led to the evolution of an increased body size among female reproductives, but whether this is also true of cooperative vertebrates is unknown. Among vertebrates, morphological modification of female breeders has only been documented in a single species; in naked mole rats (Heterocephalus glaber), acquisition of alpha status is associated with a significant increase in body size through an elongation of the lumbar vertebrae. Here we provide evidence of morphological modification among breeding females of a cooperative carnivore, the meerkat (Suricata suricatta), and demonstrate that this modification is likely to be adaptive. The same female meerkats were significantly larger when they were dominant than when they were subordinate. This increased body size was not explained by differences in age, foraging efficiency, or investment in offspring care, but may have arisen, in part, through increased levels of hormone that govern bone growth. Increases in body size are likely to result in fitness benefits, for large females delivered larger litters and had heavier offspring, both of which are known to correlate positively with measures of breeding success in meerkats. Our results suggest that the acquisition of alpha status in female meerkats is associated with an adaptive increase in body size and hence that morphological modification of female vertebrates may be more widespread than has been previously supposed.

Published

2004