Your search keyword '"Hannah L. Dugdale"' showing total 88 results

1. A major myna problem; invasive predator removal benefits female survival and population growth of a translocated island endemic

Author

Thomas J. Brown, Max Hellicar, Wilna Accouche, Jildou van der Woude, Hannah L. Dugdale, Jan Komdeur, and David S. Richardson

Subjects

Invasive alien species, Translocations, Island conservation, Predation, Demography, Eradication, Ecology, QH540-549.5

Abstract

Invasive predators are a major driver of extinctions and continue to threaten native populations worldwide. Island eradications of (mostly mammalian) invasive predators have facilitated the reestablishment of numerous island-endemic populations. Other invasive taxa, such as some predatory birds, could pose a more persistent threat due to their ability to fly and actively re-invade even remote and isolated islands. However, the impact of invasive predatory birds has been largely overlooked. We report on a novel sex-specific impact of an invasive-nest predator, the common myna (Acridotheres tristis), on a reintroduced population of Seychelles warblers (Acrocephalus sechellensis); translocated from Cousin Island to Denis Island in 2004. Regular post-translocation monitoring revealed that female mortality was 20 % higher than males, leading to a 60–70 % male-biased population sex-ratio between 2005 and 2015. This was attributed to common mynas inflicting severe injuries to incubating female Seychelles warblers while attempting to prey upon eggs in their nests. These effects likely contributed to the slower-than-expected population growth observed (relative to previous translocations of Seychelles warblers to other islands) over the same period. An eradication programme beginning in 2011 removed all common mynas from Denis by 2015. Subsequently, we observed a balancing of sex-specific survival and the population sex-ratio of Seychelles warblers and, consequently, accelerated population growth. This study demonstrates the importance of assessing the threat posed by all invasive taxa (not just mammals) to island conservation. Furthermore, we show how extended monitoring is needed to identify problems, and develop solutions, post-translocation.

Published

2023

2. Assessing the causes and consequences of gut mycobiome variation in a wild population of the Seychelles warbler

Author

Sarah F. Worsley, Charli S. Davies, Maria-Elena Mannarelli, Jan Komdeur, Hannah L. Dugdale, and David S. Richardson

Subjects

Gut microbiome, Fungi, Major histocompatibility complex, Genetic variation, Fitness, Acrocephalus sechellensis, Microbial ecology, QR100-130

Abstract

Abstract Background Considerable research has focussed on the importance of bacterial communities within the vertebrate gut microbiome (GM). However, studies investigating the significance of other microbial kingdoms, such as fungi, are notably lacking, despite their potential to influence host processes. Here, we characterise the fungal GM of individuals living in a natural population of Seychelles warblers (Acrocephalus sechellensis). We evaluate the extent to which fungal GM structure is shaped by environment and host factors, including genome-wide heterozygosity and variation at key immune genes (major histocompatibility complex (MHC) and Toll-like receptor (TLR)). Importantly, we also explore the relationship between fungal GM differences and subsequent host survival. To our knowledge, this is the first time that the genetic drivers and fitness consequences of fungal GM variation have been characterised for a wild vertebrate population. Results Environmental factors, including season and territory quality, explain the largest proportion of variance in the fungal GM. In contrast, neither host age, sex, genome-wide heterozygosity, nor TLR3 genotype was associated with fungal GM differences in Seychelles warblers. However, the presence of four MHC-I alleles and one MHC-II allele was associated with changes in fungal GM alpha diversity. Changes in fungal richness ranged from between 1 and 10 sequencing variants lost or gained; in some cases, this accounted for 20% of the fungal variants carried by an individual. In addition to this, overall MHC-I allelic diversity was associated with small, but potentially important, changes in fungal GM composition. This is evidenced by the fact that fungal GM composition differed between individuals that survived or died within 7 months of being sampled. Conclusions Our results suggest that environmental factors play a primary role in shaping the fungal GM, but that components of the host immune system—specifically the MHC—may also contribute to the variation in fungal communities across individuals within wild populations. Furthermore, variation in the fungal GM can be associated with differential survival in the wild. Further work is needed to establish the causality of such relationships and, thus, the extent to which components of the GM may impact host evolution. Video Abstract

Published

2022

3. Sex‐dependent effects of parental age on offspring fitness in a cooperatively breeding bird

Author

Alexandra M. Sparks, Martijn Hammers, Jan Komdeur, Terry Burke, David S. Richardson, and Hannah L. Dugdale

Subjects

Ageing, fitness, intergenerational effects, Lansing effect, life span, maternal age effect, Evolution, QH359-425

Abstract

Abstract Parental age can have considerable effects on offspring phenotypes and health. However, intergenerational effects may also have longer term effects on offspring fitness. Few studies have investigated parental age effects on offspring fitness in natural populations while also testing for sex‐ and environment‐specific effects. Further, longitudinal parental age effects may be masked by population‐level processes such as the selective disappearance of poor‐quality individuals. Here, we used multigenerational data collected on individually marked Seychelles warblers (Acrocephalus sechellensis) to investigate the impact of maternal and paternal age on offspring life span and lifetime reproductive success. We found negative effects of maternal age on female offspring life span and lifetime reproductive success, which were driven by within‐mother effects. There was no difference in annual reproductive output of females born to older versus younger mothers, suggesting that the differences in offspring lifetime reproductive success were driven by effects on offspring life span. In contrast, there was no association between paternal age and female offspring life span or either maternal or paternal age and male offspring life span. Lifetime reproductive success, but not annual reproductive success, of male offspring increased with maternal age, but this was driven by between‐mother effects. No paternal age effects were found on female offspring lifetime reproductive success but there was a positive between‐father effect on male offspring lifetime reproductive success. We did not find strong evidence for environment‐dependent parental age effects. Our study provides evidence for parental age effects on the lifetime fitness of offspring and shows that such effects can be sex dependent. These results add to the growing literature indicating the importance of intergenerational effects on long‐term offspring performance and highlight that these effects can be an important driver of variation in longevity and fitness in the wild.

Published

2022

4. Immunogenetic variation shapes the gut microbiome in a natural vertebrate population

Author

Charli S. Davies, Sarah F. Worsley, Kathryn H. Maher, Jan Komdeur, Terry Burke, Hannah L. Dugdale, and David S. Richardson

Subjects

Major Histocompatibility Complex, Gut microbiome, Microbial diversity, Acrocephalus sechellensis, Genetic variation, Life history, Microbial ecology, QR100-130

Abstract

Abstract Background The gut microbiome (GM) can influence many biological processes in the host, impacting its health and survival, but the GM can also be influenced by the host’s traits. In vertebrates, Major Histocompatibility Complex (MHC) genes play a pivotal role in combatting pathogens and are thought to shape the host’s GM. Despite this—and the documented importance of both GM and MHC variation to individual fitness—few studies have investigated the association between the GM and MHC in the wild. Results We characterised MHC class I (MHC-I), MHC class II (MHC-II) and GM variation in individuals within a natural population of the Seychelles warbler (Acrocephalus sechellensis). We determined how the diversity and composition of the GM varied with MHC characteristics, in addition to environmental factors and other host traits. Our results show that the presence of specific MHC alleles, but not MHC diversity, influences both the diversity and composition of the GM in this population. MHC-I alleles, rather than MHC-II alleles, had the greatest impact on the GM. GM diversity was negatively associated with the presence of three MHC-I alleles (Ase-ua3, Ase-ua4, Ase-ua5), and one MHC-II allele (Ase-dab4), while changes in GM composition were associated with the presence of four different MHC-I alleles (Ase-ua1, Ase-ua7, Ase-ua10, Ase-ua11). There were no associations between GM diversity and TLR3 genotype, but GM diversity was positively correlated with genome-wide heterozygosity and varied with host age and field period. Conclusions These results suggest that components of the host’s immune system play a role in shaping the GM of wild animals. Host genotype—specifically MHC-I and to a lesser degree MHC-II variation—can modulate the GM, although whether this occurs directly, or indirectly through effects on host health, is unclear. Importantly, if immune genes can regulate host health through modulation of the microbiome, then it is plausible that the microbiome could also influence selection on immune genes. As such, host–microbiome coevolution may play a role in maintaining functional immunogenetic variation within natural vertebrate populations. Video abstract

Published

2022

5. Gut microbiome composition, not alpha diversity, is associated with survival in a natural vertebrate population

Author

Sarah F. Worsley, Charli S. Davies, Maria-Elena Mannarelli, Matthew I. Hutchings, Jan Komdeur, Terry Burke, Hannah L. Dugdale, and David S. Richardson

Subjects

Gut microbiome, Microbial diversity, Fitness, Life history, Acrocephalus sechellensis, Veterinary medicine, SF600-1100, Microbiology, QR1-502

Abstract

Abstract Background The vertebrate gut microbiome (GM) can vary substantially across individuals within the same natural population. Although there is evidence linking the GM to health in captive animals, very little is known about the consequences of GM variation for host fitness in the wild. Here, we explore the relationship between faecal microbiome diversity, body condition, and survival using data from the long-term study of a discrete natural population of the Seychelles warbler (Acrocephalus sechellensis) on Cousin Island. To our knowledge, this is the first time that GM differences associated with survival have been fully characterised for a natural vertebrate species, across multiple age groups and breeding seasons. Results We identified substantial variation in GM community structure among sampled individuals, which was partially explained by breeding season (5% of the variance), and host age class (up to 1% of the variance). We also identified significant differences in GM community membership between adult birds that survived, versus those that had died by the following breeding season. Individuals that died carried increased abundances of taxa that are known to be opportunistic pathogens, including several ASVs in the genus Mycobacterium. However, there was no association between GM alpha diversity (the diversity of bacterial taxa within a sample) and survival to the next breeding season, or with individual body condition. Additionally, we found no association between GM community membership and individual body condition. Conclusions These results demonstrate that components of the vertebrate GM can be associated with host fitness in the wild. However, further research is needed to establish whether changes in bacterial abundance contribute to, or are only correlated with, differential survival; this will add to our understanding of the importance of the GM in the evolution of host species living in natural populations.

Published

2021

6. Seychelles warblers with silver spoons: Juvenile body mass is a lifelong predictor of annual survival, but not annual reproduction or senescence

Author

Thomas J. Brown, Hannah L. Dugdale, Martijn Hammers, Jan Komdeur, and David S. Richardson

Subjects

aging, avian, body mass, juvenile condition, senescence, silver‐spoon, Ecology, QH540-549.5

Abstract

Abstract The environment experienced during development, and its impact on intrinsic condition, can have lasting outcomes for individual phenotypes and could contribute to variation in adult senescence trajectories. However, the nature of this relationship in wild populations remains uncertain, owing to the difficulties in summarizing natal conditions and in long‐term monitoring of individuals from free‐roaming long‐lived species. Utilizing a closely monitored, closed population of Seychelles warblers (Acrocephalus sechellensis), we determine whether juvenile body mass is associated with natal socioenvironmental factors, specific genetic traits linked to fitness in this system, survival to adulthood, and senescence‐related traits. Juveniles born in seasons with higher food availability and into smaller natal groups (i.e., fewer competitors) were heavier. In contrast, there were no associations between juvenile body mass and genetic traits. Furthermore, size‐corrected mass—but not separate measures of natal food availability, group size, or genetic traits—was positively associated with survival to adulthood, suggesting juvenile body mass is indicative of natal condition. Heavier juveniles had greater body mass and had higher rates of annual survival as adults, independent of age. In contrast, there was no association between juvenile mass and adult telomere length attrition (a measure of somatic stress) nor annual reproduction. These results indicate that juvenile body mass, while not associated with senescence trajectories, can influence the likelihood of surviving to old age, potentially due to silver‐spoon effects. This study shows that measures of intrinsic condition in juveniles can provide important insights into the long‐term fitness of individuals in wild populations.

Published

2022

7. Early‐life conditions impact juvenile telomere length, but do not predict later life‐history strategies or fitness in a wild vertebrate

Author

Janske van deCrommenacker, Martijn Hammers, Hannah L. Dugdale, Terry A. Burke, Jan Komdeur, and David S. Richardson

Subjects

constraints, early‐life environmental conditions, future life span expectation hypothesis, juvenile telomere length, natural wild population, predictive adaptive responses, Ecology, QH540-549.5

Abstract

Abstract Environmental conditions experienced during early life may have long‐lasting effects on later‐life phenotypes and fitness. Individuals experiencing poor early‐life conditions may suffer subsequent fitness constraints. Alternatively, individuals may use a strategic “Predictive Adaptive Response” (PAR), whereby they respond—in terms of physiology or life‐history strategy—to the conditions experienced in early life to maximize later‐life fitness. Particularly, the Future Lifespan Expectation (FLE) PAR hypothesis predicts that when poor early‐life conditions negatively impact an individual's physiological state, it will accelerate its reproductive schedule to maximize fitness during its shorter predicted life span. We aimed to measure the impact of early‐life conditions and resulting fitness across individual lifetimes to test predictions of the FLE hypothesis in a wild, long‐lived model species. Using a long‐term individual‐based dataset, we investigated how early‐life conditions are linked with subsequent fitness in an isolated population of the Seychelles warbler Acrocephalus sechellensis. How individuals experience early‐life environmental conditions may vary greatly, so we also tested whether telomere length—shorter telomers are a biomarker of an individual's exposure to stress—can provide an effective measure of the individual‐specific impact of early‐life conditions. Specifically, under the FLE hypothesis, we would expect shorter telomeres to be associated with accelerated reproduction. Contrary to expectations, shorter juvenile telomere length was not associated with poor early‐life conditions, but instead with better conditions, probably as a result of faster juvenile growth. Furthermore, neither juvenile telomere length, nor other measures of early‐life conditions, were associated with age of first reproduction or the number of offspring produced during early life in either sex. We found no support for the FLE hypothesis. However, for males, poor early‐life body condition was associated with lower first‐year survival and reduced longevity, indicating that poor early‐life conditions pose subsequent fitness constraints. Our results also showed that using juvenile telomere length as a measure of early‐life conditions requires caution, as it is likely to not only reflect environmental stress but also other processes such as growth.

Published

2022

8. Helpers compensate for age‐related declines in parental care and offspring survival in a cooperatively breeding bird

Author

Martijn Hammers, Sjouke A. Kingma, Lotte A. vanBoheemen, Alexandra M. Sparks, Terry Burke, Hannah L. Dugdale, David S. Richardson, and Jan Komdeur

Subjects

Ageing, cooperative breeding, parental care, senescence, sociality, Evolution, QH359-425

Abstract

Abstract Offspring from elderly parents often have lower survival due to parental senescence. In cooperatively breeding species, where offspring care is shared between breeders and helpers, the alloparental care provided by helpers is predicted to mitigate the impact of parental senescence on offspring provisioning and, subsequently, offspring survival. We test this prediction using data from a long‐term study on cooperatively breeding Seychelles warblers (Acrocephalus sechellensis). We find that the nestling provisioning rate of female breeders declines with their age. Further, the total brood provisioning rate and the first‐year survival probability of offspring decline progressively with age of the female breeder, but these declines are mitigated when helpers are present. This effect does not arise because individual helpers provide more care in response to the lower provisioning of older dominant females, but because older female breeders have recruited more helpers, thereby receiving more overall care for their brood. We do not find such effects for male breeders. These results indicate that alloparental care can alleviate the fitness costs of senescence for breeders, which suggests an interplay between age and cooperative breeding.

Published

2021

9. Hematocrit, age, and survival in a wild vertebrate population

Author

Thomas J. Brown, Martijn Hammers, Martin Taylor, Hannah L. Dugdale, Jan Komdeur, and David S. Richardson

Subjects

aging, biomarkers, birds, condition markers, hematocrit, life history, Ecology, QH540-549.5

Abstract

Abstract Understanding trade‐offs in wild populations is difficult, but important if we are to understand the evolution of life histories and the impact of ecological variables upon them. Markers that reflect physiological state and predict future survival would be of considerable benefit to unraveling such trade‐offs and could provide insight into individual variation in senescence. However, currently used markers often yield inconsistent results. One underutilized measure is hematocrit, the proportion of blood comprising erythrocytes, which relates to the blood's oxygen‐carrying capacity and viscosity, and to individual endurance. Hematocrit has been shown to decline with age in cross‐sectional studies (which may be confounded by selective appearance/disappearance). However, few studies have tested whether hematocrit declines within individuals or whether low hematocrit impacts survival in wild taxa. Using longitudinal data from the Seychelles warbler (Acrocephalus sechellensis), we demonstrated that hematocrit increases with age in young individuals (

Published

2021

10. Breeders that receive help age more slowly in a cooperatively breeding bird

Author

Martijn Hammers, Sjouke A. Kingma, Lewis G. Spurgin, Kat Bebbington, Hannah L. Dugdale, Terry Burke, Jan Komdeur, and David S. Richardson

Subjects

Science

Abstract

Sociality explains substantial variation in ageing across species, but less is known about this relationship within species. Here, the authors show that female dominant Seychelles warblers with helpers at the nest have higher late-life survival and lower telomere attrition and the probability of having helpers increases with age.

Published

2019

11. Causes and consequences of telomere lengthening in a wild vertebrate population

Author

Hannah L. Dugdale, Jan Komdeur, Lewis G. Spurgin, Terry Burke, Thomas M. Brown, David S. Richardson, Dugdale group, and Komdeur lab

Subjects

0106 biological sciences, 0301 basic medicine, Senescence, senescence, Population, Physiology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Telomere Lengthening, stress, Seychelles warbler, biology.animal, Cooperative breeding, Genetics, Acrocephalus, education, Ecology, Evolution, Behavior and Systematics, education.field_of_study, biology, life-history, Stressor, Vertebrate, biomarkers, wild populations, biology.organism_classification, telomeres, Telomere, 030104 developmental biology, Ageing, ageing, vertebrates

Abstract

Telomeres have been advocated to be important markers of biological age in evolutionary and ecological studies. Telomeres usually shorten with age, and shortening is frequently associated with environmental stressors and increased subsequent mortality. Telomere lengthening – an apparent increase in telomere length between repeated samples from the same individual – also occurs. However, the exact circumstances, and consequences, of telomere lengthening are poorly understood. Using longitudinal data from the Seychelles warbler (Acrocephalus sechellensis), we tested whether telomere lengthening – which occurs in adults of this species – is associated with specific stressors (reproductive effort, food availability, malarial infection and cooperative breeding) and predicts subsequent survival. In females, telomere shortening was observed under greater stress (i.e. low food availability, malaria infection), while telomere lengthening was observed in females experiencing lower stress (i.e. high food availability, assisted by helpers, without malaria). The telomere dynamics of males were not associated with the key stressors tested. These results indicate that, at least for females, telomere lengthening occurs in circumstances more conducive to self-maintenance. Importantly, both females and males with lengthened telomeres had improved subsequent survival relative to individuals that displayed unchanged, or shortened, telomeres – indicating that telomere lengthening is associated with individual fitness. These results demonstrate that telomere dynamics are bidirectionally responsive to the level of stress that an individual faces, but may poorly reflect the accumulation of stress over the lifetime. This study challenges how we think of telomeres as a marker of biological age.

Published

2022

12. Telomere heritability and parental age at conception effects in a wild avian population

Author

Hannah L. Dugdale, David S. Richardson, Eleanor A. Fairfield, Marco van der Velde, Terry Burke, Alexandra M. Sparks, Jan Komdeur, Lewis G. Spurgin, Behavioural & Physiological Ecology, Komdeur lab, and Dugdale group

Subjects

0106 biological sciences, 0301 basic medicine, education.field_of_study, biology, Offspring, Population, Confounding, bepress|Life Sciences|Ecology and Evolutionary Biology|Other Ecology and Evolutionary Biology, Heritability, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, bepress|Life Sciences|Ecology and Evolutionary Biology, Telomere, Evolvability, 03 medical and health sciences, 030104 developmental biology, bepress|Life Sciences, Evolutionary biology, Seychelles warbler, Genetic variation, Genetics, education, Ecology, Evolution, Behavior and Systematics

Abstract

Individual variation in telomere length is predictive of health and mortality risk across a range of species. However, the relative influence of environmental and genetic variation on individual telomere length in wild populations remains poorly understood. Heritability of telomere length has primarily been calculated using parent-offspring regression which can be confounded by shared environments. To control for confounding variables, quantitative genetic "animal models" can be used, but few studies have applied animal models in wild populations. Furthermore, parental age at conception may also influence offspring telomere length, but most studies have been cross-sectional. We investigated within- and between-parental age at conception effects and heritability of telomere length in the Seychelles warbler using measures from birds caught over 20 years and a multigenerational pedigree. We found a weak negative within-paternal age at conception effect (as fathers aged, their offspring had shorter telomeres) and a weak positive between-maternal age at conception effect (females that survived to older ages had offspring with longer telomeres). Animal models provided evidence that heritability and evolvability of telomere length were low in this population, and that variation in telomere length was not driven by early-life effects of hatch period or parental identities. Quantitative polymerase chain reaction plate had a large influence on telomere length variation and not accounting for it in the models would have underestimated heritability. Our study illustrates the need to include and account for technical variation in order to accurately estimate heritability, as well as other environmental effects, on telomere length in natural populations.

Published

2022

13. A meta‐analysis on the heritability of vertebrate telomere length

Author

Heung Ying Janet Chik, Alexandra M. Sparks, Julia Schroeder, and Hannah L. Dugdale

Subjects

Vertebrates, Animals, Telomere, Phylogeny, Ecology, Evolution, Behavior and Systematics

Abstract

Telomere dynamics are linked with both cellular and organismal senescence, and life history, individual quality and health. Telomere dynamics, particularly telomere length, have therefore garnered much research interest in evolutionary biology. To examine the evolution of telomere length, it is important to quantify its heritability, the proportion of total variation explained by additive genetic effects. Many studies have quantified telomere length heritability, but estimates are varied, and no general conclusion has been drawn. Additionally, it is unclear whether biological and methodological factors influence telomere length heritability estimates. We present the first meta-analysis of telomere length heritability, using 104 estimates from 43 studies over 18 vertebrate species. We calculated an overall mean heritability and examined how estimates varied by study, phylogeny, species-specific ecology, environmental setting, age at sampling, laboratory methods, statistical methods, sex and repeated measurements. Overall heritability was moderate (44.9%, 95% CI: 25.2-64.7%), and there was considerable heterogeneity in heritability estimates, in particular among studies and estimates. Laboratory method influenced heritability estimates, with in-gel hybridization TRF yielding higher heritabilities than qPCR and Southern blot TRF. There was also an effect from statistical method, with twin-based and SNP-based estimates lower than correlation-based or pedigree-based estimates. Our results highlight an overall heritable basis of telomere length, and we recommend future research on a wider range of taxa, and the use of variance-partitioning methods with relatedness or SNP data over correlation methods to minimize heritability estimation bias.

Published

2022

14. The long-lasting legacy of reproduction: lifetime reproductive success shapes expected genetic contributions of humans after 10 generations

Author

Euan A. Young, Ellie Chesterton, Virpi Lummaa, Erik Postma, and Hannah L. Dugdale

Subjects

General Immunology and Microbiology, General Medicine, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology, General Environmental Science

Abstract

An individual's lifetime reproductive success (LRS) measures its realized genetic contributions to the next generation, but how well does it predict this over longer periods? Here we use human genealogical data to estimate expected individual genetic contributions (IGC) and quantify the degree to which LRS, relative to other fitness proxies, predicts IGC over longer periods. This allows an identification of the life-history stages that are most important in shaping variation in IGC. We use historical genealogical data from two non-isolated local populations in Switzerland to estimate the stabilized IGC for 2230 individuals approximately 10 generations after they were born. We find that LRS explains 30% less variation in IGC than the best predictor of IGC, the number of grandoffspring. However, albeit less precise than the number of grandoffspring, we show that LRS does provide an unbiased prediction of IGC. Furthermore, it predicts IGC better than lifespan, and accounting for offspring survival to adulthood does not improve the explanatory power. Overall, our findings demonstrate the value of human genealogical data to evolutionary biology and suggest that reproduction—more than lifespan or offspring survival—impacts the long-term genetic contributions of historic humans, even in a population with appreciable migration.

Published

2023

15. Lifetime inclusive fitness effects of cooperative polygamy in the acorn woodpecker

Author

Walter D. Koenig, Sahas Barve, Joseph Haydock, Hannah L. Dugdale, Madan K. Oli, and Eric L. Walters

Subjects

Multidisciplinary

Abstract

Although over 50 y have passed since W. D. Hamilton articulated kin selection and inclusive fitness as evolutionary explanations for altruistic behavior, quantifying inclusive fitness continues to be challenging. Here, using 30 y of data and two alternative methods, we outline an approach to measure lifetime inclusive fitness effects of cooperative polygamy (mate-sharing or cobreeding) in the cooperatively breeding acorn woodpecker Melanerpes formicivorus . For both sexes, the number of offspring (observed direct fitness) declined while the number of young parented by related cobreeders (observed indirect fitness effect) increased with cobreeding coalition size. Combining these two factors, the observed inclusive fitness effect of cobreeding was greater than breeding singly for males, while the pattern for females depended on whether fitness was age-weighted, as females breeding singly accrued greater fitness at younger ages than cobreeding females. Accounting for the fitness birds would have obtained by breeding singly, however, lifetime inclusive fitness effects declined with coalition size for males, but were greater for females breeding as duos compared to breeding singly, due largely to indirect fitness effects of kin. Our analyses provide a road map for, and demonstrate the importance of, quantifying indirect fitness as a powerful evolutionary force contributing to the costs and benefits of social behaviors.

Published

2023

16. Structural equation modeling reveals determinants of fitness in a cooperatively breeding bird

Author

Michela Busana, Franz J Weissing, Martijn Hammers, Joke Bakker, Hannah L Dugdale, Sara Raj Pant, David S Richardson, Terrence A Burke, Jan Komdeur, Komdeur lab, Dugdale group, Weissing group, Conservation Ecology Group, and Theoretical Research in Evolutionary Life Sciences

Subjects

Diergedrag, Broedvogels, Animal Science and Zoology, Voortplanting, Ecology, Evolution, Behavior and Systematics

Abstract

Even in well-studied organisms, it is often challenging to uncover the social and environmental determinants of fitness. Typically, fitness is determined by a variety of factors that act in concert, thus forming complex networks of causal relationships. Moreover, even strong correlations between social and environmental conditions and fitness components may not be indicative of direct causal links, as the measured variables may be driven by unmeasured (or unmeasurable) causal factors. Standard statistical approaches, like multiple regression analyses, are not suited for disentangling such complex causal relationships. Here, we apply structural equation modeling (SEM), a technique that is specifically designed to reveal causal relationships between variables, and which also allows to include hypothetical causal factors. Therefore, SEM seems ideally suited for comparing alternative hypotheses on how fitness differences arise from differences in social and environmental factors. We apply SEM to a rich data set collected in a long-term study on the Seychelles warbler (Acrocephalus sechellensis), a bird species with facultatively cooperative breeding and a high rate of extra-group paternity. Our analysis reveals that the presence of helpers has a positive effect on the reproductive output of both female and male breeders. In contrast, per capita food availability does not affect reproductive output. Our analysis does not confirm earlier suggestions on other species that the presence of helpers has a negative effect on the reproductive output of male breeders. As such, both female and male breeders should tolerate helpers in their territories, irrespective of food availability.

Published

2022

17. Immunogenetic variation shapes the gut microbiome in a natural vertebrate population

Author

Hannah L. Dugdale, Kathryn H. Maher, David S. Richardson, Charli S. Davies, Jan Komdeur, Terry Burke, Sarah F. Worsley, Komdeur lab, and Dugdale group

Subjects

Microbiology (medical), education.field_of_study, Gut microbiome, Microbial diversity, Population, Vertebrate, Acrocephalus sechellensis, chemical and pharmacologic phenomena, Biology, Microbiology, Natural (archaeology), Gastrointestinal Microbiome, Major Histocompatibility Complex, Variation (linguistics), Evolutionary biology, biology.animal, Vertebrates, Immunogenetics, Animals, Genetic variation, Selection, Genetic, education, Life history, Alleles

Abstract

BackgroundThe gut microbiome (GM) can influence many biological processes in the host, impacting its health and survival, but the GM can also be influenced by the host’s traits. In vertebrates, Major Histocompatibility Complex (MHC) genes play a pivotal role in combatting pathogens and are thought to shape the host’s GM. Despite this—and the documented importance of both GM and MHC variation to individual fitness—few studies have investigated the association between the GM and MHC in the wild.ResultsWe characterised MHC class I (MHC-I), MHC class II (MHC-II) and GM variation in individuals within a natural population of the Seychelles warbler (Acrocephalus sechellensis). We determined how the diversity and composition of the GM varied with MHC characteristics, in addition to environmental factors and other host traits. Our results show that the presence of specific MHC alleles, but not MHC diversity, influences both the diversity and composition of the GM in this population. MHC-I alleles, rather than MHC-II alleles, had the greatest impact on the GM. GM diversity was negatively associated with the presence of three MHC-I alleles (Ase-ua3, Ase-ua4, Ase-ua5), and one MHC-II allele (Ase-dab4), while changes in GM composition were associated with the presence of four different MHC-I alleles (Ase-ua1, Ase-ua7, Ase-ua10, Ase-ua11). There were no associations between GM diversity andTLR3genotype, but GM diversity was positively correlated with genome-wide heterozygosity and varied with host age and field period.ConclusionsThese results suggest that components of the host’s immune system play a role in shaping the GM of wild animals. Host genotype—specifically MHC-I and to a lesser degree MHC-II variation—can modulate the GM, although whether this occurs directly, or indirectly through effects on host health, is unclear. Importantly, if immune genes can regulate host health through modulation of the microbiome, then it is plausible that the microbiome could also influence selection on immune genes. As such, host–microbiome coevolution may play a role in maintaining functional immunogenetic variation within natural vertebrate populations.

Published

2022

18. Gender differences in authorships are not associated with publication bias in an evolutionary journal.

Author

Hannah A Edwards, Julia Schroeder, and Hannah L Dugdale

Subjects

Medicine, Science

Abstract

The loss of talented women from senior academic positions has partly resulted from a lower number of published papers and the accompanying reduced visibility of female compared to male scientists. The reasons for these gender-differences in authorship is unclear. One potential reason is a bias in the editorial and review process of scientific journals. We investigated whether patterns of authorship and editorial outcome were biased according to gender and geographic location in the Journal of Evolutionary Biology. Such potential bias may contribute to inequality in the field. We found patterns of gender differences in authorship, but this was unrelated to the editorial decision of whether to publish the manuscript. Female first-authors (the lead role) were six times less likely to be named as the corresponding author than male first-authors, and female first-authors were more likely to be displaced as corresponding authors by female co-authors than were male first-authors. We found an under-representation of female first- and last-authors compared to baseline populations of members of the European Society for Evolutionary Biology (which publishes the Journal of Evolutionary Biology) and of Evolutionary Biology faculty at the world top-10 universities for the Life Sciences. Also, manuscripts from Asia were five times more likely to be rejected on the final decision, independent of gender. Overall our results suggest that the peer review processes we investigated at the Journal of Evolutionary Biology are predominately gender-neutral, but not neutral to geographic location. Editorial gender-bias is thus unlikely to be a contributing factor to differences in authorship in this journal.

Published

2018

19. Population level consequences of facultatively cooperative behaviour in a stochastic environment

Author

Hannah L. Dugdale, David S. Richardson, Michela Busana, Jan Komdeur, Terrence A Burke, Dylan Z. Childs, Komdeur lab, and Dugdale group

Subjects

Facultative, education.field_of_study, biology, Reproduction, Survival of the fittest, Population Dynamics, Population, Social environment, Helping Behavior, biology.organism_classification, Social group, Population model, Cooperative breeding, Acrocephalus, Animals, Female, Animal Science and Zoology, Passeriformes, Cooperative Behavior, education, Ecology, Evolution, Behavior and Systematics, Demography

Abstract

1. The social environment in which individuals live affects their fitness and in turn population dynamics as a whole. Birds with facultative cooperative breeding can live in social groups with dominants, subordinate helpers that assist with the breeding of others, and subordinate non-helpers. Helping behaviour benefits dominants through increased reproductive rates and reduced extrinsic mortality, such that cooperative breeding might have evolved in response to unpredictable, harsh conditions affecting reproduction and/or survival of the dominants. Additionally, there may be different costs and benefits to both helpers and non-helpers, depending on the time-scale. For example, early-life costs might be compensated by later-life benefits. These differential effects are rarely analysed in the same study. 2. We examined whether helping behaviour affects population persistence in a stochastic environment and whether there are direct fitness consequences of different life-history tactics adopted by helpers and non-helpers. 3. We parameterised a matrix population model describing the population dynamics of female Seychelles warblers Acrocephalus sechellensis, birds that display facultative cooperative breeding. The stochastic density-dependent model is defined by a (st)age structure that includes life-history differences between helpers and non-helpers and thus can estimate the demographic mechanisms of direct benefits of helping behaviour. 4. We found that population dynamics are strongly influenced by stochastic variation in the reproductive rates of the dominants, that helping behaviour promotes population persistence and that there are only early-life differences in the direct fitness of helpers and non-helpers. 5. Through a matrix population model, we captured multiple demographic rates simultaneously and analysed their relative importance in determining population dynamics of these cooperative breeders. Disentangling early-life versus lifetime effects of individual tactics sheds new light on the costs and benefits of helping behaviour. For example, the finding that helpers and non-helpers have similar lifetime reproductive outputs and that differences in reproductive values between the two life-history tactics arise only in early life suggests that overall, helpers and non-helpers have a similar balance of costs and benefits when analysing direct benefits. We recommend analysing the consequence of different life-history tactics, during both early life and over the lifetime, as analyses of these different time frames may produce conflicting results.

Published

2021

20. Assessing the causes and consequences of gut mycobiome variation in a wild vertebrate population

Author

Sarah F. Worsley, Charli S. Davies, Maria-Elena Mannarelli, Jan Komdeur, Hannah L. Dugdale, and David S. Richardson

Abstract

Background Considerable research has focussed on the importance of bacterial communities within the vertebrate gut microbiome (GM). However, studies investigating the significance of other microbial kingdoms, such as fungi, are notably lacking, despite their potential to influence host processes. Here, we characterise the fungal GM of individuals living in a natural population of Seychelles warblers (Acrocephalus sechellensis). We evaluate the extent to which fungal GM structure is shaped by environment and host factors, including genome-wide heterozygosity and variation at key immune genes (Major histocompatibility Complex (MHC) and Toll-like receptor (TLR) genes). Importantly, we also explore the relationship between fungal GM differences and subsequent host survival. To our knowledge, this is the first time that the genetic drivers and fitness consequences of fungal GM variation have been characterised for a wild vertebrate population. Results Environmental factors, including season and territory quality, explain the largest proportion of variance in the fungal GM. In contrast, neither host age, sex, genome-wide heterozygosity, or TLR3 genotype were associated with fungal GM differences in Seychelles warblers. However, the presence of four MHC-I alleles and one MHC-II allele were associated with changes in fungal GM alpha diversity. Changes in fungal richness ranged from between 1 and 10 sequencing variants lost or gained; in some cases, this accounted for 20% of the fungal variants carried by an individual. In addition to this, overall MHC-I allelic diversity was associated with small, but potentially important, changes in fungal GM composition. This is evidenced by the fact that fungal GM composition differed between individuals that survived or died within seven months of being sampled. Conclusions Our results suggest that environmental factors play a primary role in shaping the fungal GM, but that components of the host immune system – specifically the MHC – may also contribute to variation in fungal communities across individuals within wild populations. Furthermore, variation in the fungal GM can be associated with differential survival in the wild. Further work is needed to establish the causality of such relationships and, thus, the extent to which components of the GM may impact upon host evolution.

Published

2022

21. The long-lasting legacy of reproduction: lifetime reproductive success shapes expected genetic contributions of humans after ten generations

Author

Euan A. Young, Ellie Chesterton, Virpi Lummaa, Erik Postma, and Hannah L. Dugdale

Abstract

An individual’s lifetime reproductive success (LRS) measures its realised genetic contributions to the next generation, but how well does it predict these over longer periods? Here we use human genealogical data to estimate expected individual genetic contributions (IGC) and quantify the degree to which LRS, relative to other fitness proxies, predicts IGC over longer periods in natural populations. This allows an identification of the life-history stages that are most important in shaping variation in IGC. We use historical genealogical data from two non-isolated local populations in Switzerland to estimate the stabilised IGC for 2,230 individuals ~10 generations after they were born. We find that LRS explains 30% less variation in IGC than the best predictor of IGC, the number of grandoffspring. However, albeit less precise than the number of grandoffspring, we show that LRS does provide an unbiased prediction of IGC and overall predicts IGC better than lifespan and similarly when accounting for offspring survival to adulthood. Overall, our findings demonstrate the value of human genealogy data to evolutionary biology and showing that reproduction - more than lifespan or offspring survival - impacts the long-term genetic contributions of historic humans, even in a population with appreciable migration.

Published

2022

22. Genetic, social and maternal contributions to Mycobacterium bovis infection status in European badgers (Meles meles)

Author

Robbie A. McDonald, Hannah L. Dugdale, Alastair J. Wilson, Paula H. Marjamäki, Richard J. Delahay, and Dugdale group

Subjects

0106 biological sciences, 0301 basic medicine, Male, Badger, Zoology, Disease, Meles, 010603 evolutionary biology, 01 natural sciences, Models, Biological, Social group, 03 medical and health sciences, Quantitative Trait, Heritable, biology.animal, Mustelidae, Animals, Tuberculosis, Social Behavior, Ecology, Evolution, Behavior and Systematics, Mycobacterium bovis, biology, Host (biology), Maternal effect, Heritability, biology.organism_classification, 030104 developmental biology, Host-Pathogen Interactions, Female

Abstract

Within host populations, individuals can vary in their susceptibility to infections and in the severity and progression of disease once infected. Though mediated through differences in behaviour, resistance or tolerance, variation in disease outcomes ultimately stems from genetic and environmental (including social) factors. Despite obvious implications for the evolutionary, ecological and epidemiological dynamics of disease traits, the relative importance of these factors has rarely been quantified in naturally infected wild animal hosts. Here, we use a long-term capture-mark-recapture study of group-living European badgers (Meles meles) to characterise genetic and environmental sources of variation in host infection status by Mycobacterium bovis, the causative agent of bovine tuberculosis (bTB). We find that genetic factors contribute to M. bovis infection status, whether measured over a lifetime or across repeated captures. In the latter case the heritability (h2 ) of infection status is close to zero in cubs and yearlings but increases in adulthood. Overall, environmental influences arising from a combination of social group membership (defined in time and space) and maternal effects appear to be more important than genetic factors. Thus, while genes do contribute to among-individual variation, they play a comparatively minor role, meaning that rapid evolution of host defences under parasite-mediated selection is unlikely (especially if selection is on young animals where h2 is lowest). Conversely, our results lend further support to the view that social and early-life environments are important drivers of the dynamics of bTB infection in badger populations specifically, and of disease traits in wild hosts more generally.

Published

2021

23. No Compensatory Relationship between the Innate and Adaptive Immune System in Wild-Living European Badgers.

Author

Yung Wa Sin, Chris Newman, Hannah L Dugdale, Christina Buesching, Maria-Elena Mannarelli, Geetha Annavi, Terry Burke, and David W Macdonald

Subjects

Medicine, Science

Abstract

The innate immune system provides the primary vertebrate defence system against pathogen invasion, but it is energetically costly and can have immune pathological effects. A previous study in sticklebacks found that intermediate major histocompatibility complex (MHC) diversity correlated with a lower leukocyte coping capacity (LCC), compared to individuals with fewer, or many, MHC alleles. The organization of the MHC genes in mammals, however, differs to the highly duplicated MHC genes in sticklebacks by having far fewer loci. Using European badgers (Meles meles), we therefore investigated whether innate immune activity, estimated functionally as the ability of an individual's leukocytes to produce a respiratory burst, was influenced by MHC diversity. We also investigated whether LCC was influenced by factors such as age-class, sex, body condition, season, year, neutrophil and lymphocyte counts, and intensity of infection with five different pathogens. We found that LCC was not associated with specific MHC haplotypes, MHC alleles, or MHC diversity, indicating that the innate immune system did not compensate for the adaptive immune system even when there were susceptible MHC alleles/haplotypes, or when the MHC diversity was low. We also identified a seasonal and annual variation of LCC. This temporal variation of innate immunity was potentially due to physiological trade-offs or temporal variation in pathogen infections. The innate immunity, estimated as LCC, does not compensate for MHC diversity suggests that the immune system may function differently between vertebrates with different MHC organizations, with implications for the evolution of immune systems in different taxa.

Published

2016

24. Gut microbiome composition, not alpha diversity, is associated with survival in a natural vertebrate population

Author

Hannah L. Dugdale, Maria-Elena Mannarelli, Sarah F. Worsley, Jan Komdeur, David S. Richardson, Matthew I. Hutchings, Terry Burke, Charli S. Davies, Komdeur lab, and Dugdale group

Subjects

education.field_of_study, Gut microbiome, Microbial diversity, biology, Veterinary medicine, Population, Zoology, Vertebrate, Acrocephalus sechellensis, General Medicine, Microbiology, Natural (archaeology), QR1-502, biology.animal, Fitness, SF600-1100, Alpha diversity, Composition (visual arts), education, Life history, Research Article

Abstract

Background The vertebrate gut microbiome (GM) can vary substantially across individuals within the same natural population. Although there is evidence linking the GM to health in captive animals, very little is known about the consequences of GM variation for host fitness in the wild. Here, we explore the relationship between faecal microbiome diversity, body condition, and survival using data from the long-term study of a discrete natural population of the Seychelles warbler (Acrocephalus sechellensis) on Cousin Island. To our knowledge, this is the first time that GM differences associated with survival have been fully characterised for a natural vertebrate species, across multiple age groups and breeding seasons. Results We identified substantial variation in GM community structure among sampled individuals, which was partially explained by breeding season (5% of the variance), and host age class (up to 1% of the variance). We also identified significant differences in GM community membership between adult birds that survived, versus those that had died by the following breeding season. Individuals that died carried increased abundances of taxa that are known to be opportunistic pathogens, including several ASVs in the genus Mycobacterium. However, there was no association between GM alpha diversity (the diversity of bacterial taxa within a sample) and survival to the next breeding season, or with individual body condition. Additionally, we found no association between GM community membership and individual body condition. Conclusions These results demonstrate that components of the vertebrate GM can be associated with host fitness in the wild. However, further research is needed to establish whether changes in bacterial abundance contribute to, or are only correlated with, differential survival; this will add to our understanding of the importance of the GM in the evolution of host species living in natural populations.

Published

2021

25. No Association between Personality and Candidate Gene Polymorphisms in a Wild Bird Population.

Author

Hannah A Edwards, Gabriela K Hajduk, Gillian Durieux, Terry Burke, and Hannah L Dugdale

Subjects

Medicine, Science

Abstract

Consistency of between-individual differences in behaviour or personality is a phenomenon in populations that can have ecological consequences and evolutionary potential. One way that behaviour can evolve is to have a genetic basis. Identifying the molecular genetic basis of personality could therefore provide insight into how and why such variation is maintained, particularly in natural populations. Previously identified candidate genes for personality in birds include the dopamine receptor D4 (DRD4), and serotonin transporter (SERT). Studies of wild bird populations have shown that exploratory and bold behaviours are associated with polymorphisms in both DRD4 and SERT. Here we tested for polymorphisms in DRD4 and SERT in the Seychelles warbler (Acrocephalus sechellensis) population on Cousin Island, Seychelles, and then investigated correlations between personality and polymorphisms in these genes. We found no genetic variation in DRD4, but identified four polymorphisms in SERT that clustered into five haplotypes. There was no correlation between bold or exploratory behaviours and SERT polymorphisms/haplotypes. The null result was not due to lack of power, and indicates that there was no association between these behaviours and variation in the candidate genes tested in this population. These null findings provide important data to facilitate representative future meta-analyses on candidate personality genes.

Published

2015

26. Lifetime reproductive benefits of cooperative polygamy vary for males and females in the acorn woodpecker (Melanerpes formicivorus)

Author

Sahas Barve, Hannah L. Dugdale, Walter D. Koenig, Joseph Haydock, Christina Riehl, Eric L. Walters, and Dugdale group

Subjects

reproductive benefits, Male, cooperative breeding, polygynandry, media_common.quotation_subject, Biology, Woodpecker, Breeding, Acorn, General Biochemistry, Genetics and Molecular Biology, long-term data, Polygynandry, Birds, Nest, Cooperative breeding, Animals, Humans, Behaviour, reproductive costs, Marriage, Research Articles, General Environmental Science, media_common, General Immunology and Microbiology, Reproductive success, Reproduction, reproductive conflict, General Medicine, biology.organism_classification, Female, General Agricultural and Biological Sciences, Melanerpes, Demography

Abstract

Cooperative breeding strategies lead to short-term direct fitness losses when individuals forfeit or share reproduction. The direct fitness benefits of cooperative strategies are often delayed and difficult to quantify, requiring data on lifetime reproduction. Here, we use a longitudinal dataset to examine the lifetime reproductive success of cooperative polygamy in acorn woodpeckers ( Melanerpes formicivorus ), which nest as lone pairs or share reproduction with same-sex cobreeders. We found that males and females produced fewer young per successful nesting attempt when sharing reproduction. However, males nesting in duos and trios had longer reproductive lifespans, more lifetime nesting attempts and higher lifetime reproductive success than those breeding alone. For females, cobreeding in duos increased reproductive lifespan so the lifetime reproductive success of females nesting in duos was comparable to those nesting alone and higher than those nesting in trios. These results suggest that for male duos and trios, reproductive success alone may provide sufficient fitness benefits to explain the presence of cooperative polygamy, and the benefits of cobreeding as a duo in females are higher than previously assumed. Lifetime individual fitness data are crucial to reveal the full costs and benefits of cooperative polygamy.

Published

2021

27. Socio-ecological conditions and female infidelity in the Seychelles warbler

Author

Terry Burke, Sara Raj Pant, David S. Richardson, Jan Komdeur, Hannah L. Dugdale, and Komdeur lab

Subjects

relatedness, 0106 biological sciences, Population, REPRODUCTIVE PROMISCUITY, INBREEDING AVOIDANCE, TERRITORY QUALITY, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Seychelles warbler, Cooperative breeding, GENETIC SIMILARITY, Acrocephalus, Inbreeding avoidance, education, cooperative breeders, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, education.field_of_study, biology, EXPLICIT EXPERIMENTAL-EVIDENCE, MATING SYSTEM, Original Articles, EXTRA-PAIR PATERNITY, BREEDING SYNCHRONY, biology.organism_classification, Mating system, Natural population growth, socio-ecological conditions, PARENTAGE ASSIGNMENT, Animal Science and Zoology, MULTIPLE PATERNITY, infidelity, Inbreeding, group size, Demography

Abstract

Within socially monogamous breeding systems, levels of extra-pair paternity can vary not only between species, populations, and individuals, but also across time. Uncovering how different extrinsic conditions (ecological, demographic, and social) influence this behavior will help shed light on the factors driving its evolution. Here, we simultaneously address multiple socio-ecological conditions potentially influencing female infidelity in a natural population of the cooperatively breeding Seychelles warbler, Acrocephalus sechellensis. Our contained study population has been monitored for more than 25 years, enabling us to capture variation in socio-ecological conditions between individuals and across time and to accurately assign parentage. We test hypotheses predicting the influence of territory quality, breeding density and synchrony, group size and composition (number and sex of subordinates), and inbreeding avoidance on female infidelity. We find that a larger group size promotes the likelihood of extra-pair paternity in offspring from both dominant and subordinate females, but this paternity is almost always gained by dominant males from outside the group (not by subordinate males within the group). Higher relatedness between a mother and the dominant male in her group also results in more extra-pair paternity—but only for subordinate females—and this does not prevent inbreeding occurring in this population. Our findings highlight the role of social conditions favoring infidelity and contribute toward understanding the evolution of this enigmatic behavior., Infidelity is common in animals that form breeding pairs. Why this behavior occurs—and varies in frequency between species, populations, and individuals—remains unresolved. We investigate the role of social, demographic, and ecological factors on the occurrence of infidelity in Seychelles warblers. In this species, dominant pairs are often joined by subordinates to form breeding groups. We find that social conditions—group size and pair relatedness—promote female infidelity, but this infidelity almost always occurs with extra-group males.

Published

2019

28. Compensatory and additive helper effects in the cooperatively breeding Seychelles warbler (Acrocephalus sechellensis)

Author

Martijn Hammers, Hannah L. Dugdale, Lotte A. van Boheemen, Jan Komdeur, David S. Richardson, Sjouke A. Kingma, Terry Burke, and Komdeur lab

Subjects

0106 biological sciences, compensatory care, cooperative breeding, Seychelles warbler, FAIRY-WRENS, Offspring, LONG-TERM, media_common.quotation_subject, Helping behavior, parental care, Biology, Affect (psychology), 010603 evolutionary biology, 01 natural sciences, Behavioral Ecology, 03 medical and health sciences, MATERNAL INVESTMENT, Cooperative breeding, REPRODUCTIVE SUCCESS, BENEFITS, Acrocephalus, INVESTMENT STRATEGIES, AEGITHALOS-CAUDATUS, Parental investment, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Original Research, 030304 developmental biology, media_common, 0303 health sciences, Ecology, Reproductive success, Provisioning, CARE, biology.organism_classification, load-lightening, FEMALE BREEDERS, Brood, Gedragsecologie, load‐lightening, PARENTAGE ASSIGNMENT, additive care, investment strategies, Reproduction, Paternal care, Demography

Abstract

In cooperatively breeding species, helper aid may affect dominant breeders’ investment trade-offs between current and future reproduction. By compensating for the care provided by helpers, breeders can reduce the costs of reproduction and improve chances of survival. Also, helper care can be additive to that of dominants, resulting in higher success of the current brood.However, the influence of helpers on offspring care itself may be the by-product of group size and territory quality. Therefore to make conclusive inferences about causation of additive and compensatory care as a result of helpper serequires disentangling the impact of helping from other factors determining parental investment.In this study, we use 20 years of offspring provisioning data to investigate the effect of helping on breeder and overall offspring provisioning rates in the facultative cooperatively breeding Seychelles warbler (Acrocephalus sechellensis). Our extensive dataset allowed us to effectively control for the effects of living in a larger group and in territories with higher food availability.We show compensatory and additive care in response to helper aid. Helpers lightened the provisioning load of the dominant male and female and increased the total provisioning to the nestlings. This was irrespective of group size or territory quality (food availability).Our results illustrate how multiple benefits of helping behaviour can simultaneously be fundamental to the evolutionary maintenance of cooperative behaviour.

Published

2019

29. Author response for 'Genetic, social and maternal contributions to Mycobacterium bovis infection status in European badgers (Meles meles)'

Author

Hannah L. Dugdale, Paula H. Marjamäki, Robbie A. McDonald, Richard J. Delahay, and Alastair J. Wilson

Subjects

Mycobacterium bovis, biology, Zoology, Meles, biology.organism_classification

Published

2021

30. Hematocrit, age, and survival in a wild vertebrate population

Author

Hannah L. Dugdale, Martijn Hammers, Jan Komdeur, Thomas J. Brown, Martin I. Taylor, David S. Richardson, Conservation Ecology Group, Dugdale group, and Komdeur lab

Subjects

0106 biological sciences, Senescence, life history, senescence, media_common.quotation_subject, hematocrit, trade‐offs, Population, Biology, Hematocrit, 010603 evolutionary biology, 01 natural sciences, survival, 03 medical and health sciences, Seychelles warbler, biology.animal, Acrocephalus, medicine, education, Ecology, Evolution, Behavior and Systematics, QH540-549.5, 030304 developmental biology, Nature and Landscape Conservation, media_common, Original Research, 0303 health sciences, education.field_of_study, medicine.diagnostic_test, Ecology, aging, Longevity, Vertebrate, biomarkers, wild populations, biology.organism_classification, condition markers, birds, Reproduction, Demography

Abstract

Understanding trade‐offs in wild populations is difficult, but important if we are to understand the evolution of life histories and the impact of ecological variables upon them. Markers that reflect physiological state and predict future survival would be of considerable benefit to unraveling such trade‐offs and could provide insight into individual variation in senescence. However, currently used markers often yield inconsistent results. One underutilized measure is hematocrit, the proportion of blood comprising erythrocytes, which relates to the blood's oxygen‐carrying capacity and viscosity, and to individual endurance. Hematocrit has been shown to decline with age in cross‐sectional studies (which may be confounded by selective appearance/disappearance). However, few studies have tested whether hematocrit declines within individuals or whether low hematocrit impacts survival in wild taxa. Using longitudinal data from the Seychelles warbler (Acrocephalus sechellensis), we demonstrated that hematocrit increases with age in young individuals (, Using long‐term data we investigated the association between haematocrit, longitudinal age and survival in a wild vertebrate population—the Seychelles warbler (Acrocephalus sechellensis). Haematocrit exhibited a distinctive age‐dependent pattern within‐individuals, and young individuals with high haematocrit had poorer survival prospects. This study highlights a novel physiological change with age that is indicative of individual condition in wild populations.

Published

2021

31. Author response for 'Estimation of environmental, genetic and parental age at conception effects on telomere length in a wild mammal'

Author

null Sil H.J. van Lieshout, null Alexandra M. Sparks, null Amanda Bretman, null Chris Newman, null Christina D. Buesching, null Terry Burke, null David W. Macdonald, and null Hannah L. Dugdale

Published

2020

32. Haematocrit, age and survival in a vertebrate population

Author

Hannah L. Dugdale, Martin Taylor, Martijn Hammers, Jan Komdeur, David S. Richardson, and Thomas M. Brown

Subjects

Senescence, education.field_of_study, media_common.quotation_subject, High haematocrit, Population, Longevity, Vertebrate, Biology, biology.organism_classification, Seychelles warbler, biology.animal, Acrocephalus, Reproduction, education, circulatory and respiratory physiology, media_common, Demography

Abstract

Understanding trade-offs in wild populations is difficult, but important if we are to understand the evolution of life histories and the impact of ecological variables upon them. Markers that reflect physiological state and predict future survival would be of considerable benefit to unravelling such trade-offs and could provide insight into individual variation in senescence. However, currently used markers often yield inconsistent results. One underutilised measure is haematocrit, the proportional of blood comprising of erythrocytes, which relates to the blood’s oxygen-carrying capacity and viscosity, and to individual endurance. Haematocrit has been shown to decline with age in cross-sectional studies (which may be confounded by selective appearance/disappearance). However, few studies have tested whether haematocrit declines within-individuals or whether low haematocrit impacts survival in wild taxa. Using longitudinal data from the Seychelles warbler (Acrocephalus sechellensis), we demonstrated that haematocrit increases with age in young individuals (

Published

2020

33. Slicing: a sustainable approach to structuring samples for analysis in long-term studies

Author

Sil H. J. van Lieshout, Julia Schroeder, Hannah L. Dugdale, Mirre J. P. Simons, Hannah Froy, and Terry Burke

Subjects

0106 biological sciences, Mixed model, mixed models, Computer science, Sample (statistics), computer.software_genre, 010603 evolutionary biology, 01 natural sciences, Slicing, Statistical power, nested, Statistical inference, Ecology, Evolution, Behavior and Systematics, long-term studies, 010604 marine biology & hydrobiology, Ecological Modeling, Aggregate (data warehouse), slicing, Data structure, telomeres, Term (time), biobank, Ecological Modelling, Ageing, ageing, Data mining, computer, cross-classified

Abstract

The longitudinal study of populations is a core tool for understanding ecological and evolutionary processes. Long-term studies typically collect samples repeatedly over individual lifetimes and across generations. These samples are then analysed in batches (e.g. qPCR-plates) and clusters (i.e. group of batches) over time in the laboratory. However, these analyses are constrained by cross-classified data structures introduced biologically or through experimental design. The separation of biological variation from the confounding among-batch and among-cluster variation is crucial, yet often ignored. The commonly used approaches to structuring samples for analysis, sequential and randomisation, generate bias due to the non-independence between time of collection and the batch and cluster they are analysed in. We propose a new sample structuring strategy, called slicing, designed to separate confounding among-batch and among-cluster variation from biological variation. Through simulations we tested the statistical power and precision to detect within-individual, between-individual, year and cohort effects of this novel approach. Our slicing approach, whereby recently and previously collected samples are sequentially analysed in clusters together, enables the statistical separation of collection time and cluster effects by bridging clusters together, for which we provide a case study. Our simulations show, with reasonable slicing width and angle, similar precision and similar or greater statistical power to detect year, cohort, within- and between-individual effects when samples are sliced across batches, compared with strategies that aggregate longitudinal samples or use randomised allocation. While the best approach to analysing long-term datasets depends on the structure of the data and questions of interest, it is vital to account for confounding among-cluster and batch variation. Our slicing approach is simple to apply and creates the necessary statistical independence of batch and cluster from environmental or biological variables of interest. Crucially, it allows sequential analysis of samples and flexible inclusion of current data in later analyses without completely confounding the analysis. Our approach maximises the scientific value of every sample, as each will optimally contribute to unbiased statistical inference from the data. Slicing thereby maximises the power of growing biobanks to address important ecological, epidemiological and evolutionary questions.

Published

2020

34. Subordinate females in the cooperatively breeding Seychelles warbler obtain direct benefits by joining unrelated groups

Author

Terry Burke, Hannah L. Dugdale, David S. Richardson, Jan Komdeur, Sjouke A. Kingma, Frank Groenewoud, Martijn Hammers, Komdeur lab, and Weissing group

Subjects

Male, 0106 biological sciences, 0301 basic medicine, LIFE-HISTORY, cooperative breeding, ECOLOGICAL CONSTRAINTS, Breeding, Seychelles, 010603 evolutionary biology, 01 natural sciences, Population density, Songbirds, joint nesting, 03 medical and health sciences, Seychelles warbler, Cooperative breeding, ACROCEPHALUS-SECHELLENSIS, Acrocephalus, Animals, Passeriformes, R PACKAGE, Ecology, Evolution, Behavior and Systematics, GROUP-SIZE, communal breeding, TERRITORY ACQUISITION, biology, Reproductive success, Reproduction, DELAYED DISPERSAL, benefits of philopatry, biology.organism_classification, subordinate between-group dispersal, Breed, EVOLUTION, 030104 developmental biology, natal dispersal, Biological dispersal, PARENTAGE ASSIGNMENT, Female, Animal Science and Zoology, Philopatry, PREDATION RISK, Demography

Abstract

1. In many cooperatively breeding animals, a combination of ecological constraints and benefits of philopatry favours offspring taking a subordinate position on the natal territory instead of dispersing to breed independently. However, in many species individuals disperse to a subordinate position in a non-natal group ("subordinate between-group" dispersal), despite losing the kin-selected and nepotistic benefits of remaining in the natal group. It is unclear which social, genetic and ecological factors drive between-group dispersal. 2. We aim to elucidate the adaptive significance of subordinate between-group dispersal by examining which factors promote such dispersal, whether subordinates gain improved ecological and social conditions by joining a non-natal group, and whether between-group dispersal results in increased lifetime reproductive success and survival. 3. Using a long-term dataset on the cooperatively-breeding Seychelles warbler (Acrocephalus sechellensis), we investigated how a suite of proximate factors (food availability, group composition, age and sex of focal individuals, population density) promote subordinate between-group dispersal by comparing such dispersers with subordinates that dispersed to a dominant position or became floaters. We then analysed whether subordinates that moved to a dominant or non-natal subordinate position, or became floaters, gained improved conditions relative to the natal territory, and compared fitness components between the three dispersal strategies. 4. We show that individuals that joined another group as non-natal subordinates were mainly female and that, similar to floating, between-group dispersal was associated with social and demographic factors that constrained dispersal to an independent breeding position. Between-group dispersal was not driven by improved ecological or social conditions in the new territory and did not result in higher survival. Instead, between-group dispersing females often became co-breeders, obtaining maternity in the new territory, and were likely to inherit the territory in the future, leading to higher lifetime reproductive success compared to females that floated. Males never reproduced as subordinates, which may be one explanation why subordinate between-group dispersal by males is rare. 5. Our results suggest that subordinate between-group dispersal is used by females to obtain reproductive benefits when options to disperse to an independent breeding position are limited. This provides important insight into the additional strategies that individuals can use to obtain reproductive benefits.

Published

2018

35. Social effects on age-related and sex-specific immune cell profiles in a wild mammal

Author

Hannah L. Dugdale, Michael W. T. Mason, Sil H. J. van Lieshout, Chris Newman, David W. Macdonald, Elisa P. Badás, Christina D. Buesching, Verhulst lab, and Dugdale group

Subjects

0106 biological sciences, Male, Lymphocyte, media_common.quotation_subject, animal diseases, Population, European badger, bepress|Life Sciences|Ecology and Evolutionary Biology|Other Ecology and Evolutionary Biology, Meles, lymphocyte, 010603 evolutionary biology, 01 natural sciences, bepress|Life Sciences|Ecology and Evolutionary Biology, Competition (biology), 03 medical and health sciences, Immune system, bepress|Life Sciences, Immunity, social effects, medicine, Mustelidae, Animals, Lymphocytes, education, innate immunity, 030304 developmental biology, media_common, 0303 health sciences, education.field_of_study, Evolutionary Biology, Innate immune system, biology, neutrophil, adaptive immunity, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Acquired immune system, Agricultural and Biological Sciences (miscellaneous), Immunity, Humoral, medicine.anatomical_structure, Immunology, bacteria, Female, General Agricultural and Biological Sciences, Research Article

Abstract

Evidence for age-related changes in innate and adaptive immune responses is increasing in wild populations. Such changes have been linked to fitness, and knowledge of the factors driving immune response variation is important for understanding the evolution of immunity. Age-related changes in immune profiles may be owing to factors such as immune system development, sex-specific behaviour and responses to environmental conditions. Social environments may also contribute to variation in immunological responses, for example, through transmission of pathogens and stress arising from resource and mate competition. Yet, the impact of the social environment on age-related changes in immune cell profiles is currently understudied in the wild. Here, we tested the relationship between leukocyte cell composition (proportion of neutrophils and lymphocytes [innate and adaptive immunity, respectively] that were lymphocytes) and age, sex and group size in a wild population of European badgers ( Meles meles ). We found that the proportion of lymphocytes in early life was greater in males in smaller groups compared to larger groups, but with a faster age-related decline in smaller groups. By contrast, the proportion of lymphocytes in females was not significantly related to age or group size. Our results provide evidence of sex-specific age-related changes in immune cell profiles in a wild mammal, which are influenced by the social environment.

Published

2019

36. Dynamics in numbers of group-roosting individuals in relation to pair-sleeping occurence and onset of egg-laying in European bee-eaters Merops apiaster

Author

Hannah L. Dugdale, Sjouke A. Kingma, Liviu G. Pârâu, Simon E. Weigl, Julia Schroeder, Catherine M. Lessells, Komdeur lab, and Animal Ecology (AnE)

Subjects

0106 biological sciences, Ecology, Hatching, fungi, Zoology, Biology, Burrow, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Egg laying, Sleep in non-human animals, 010605 ornithology, Nest, international, Seasonal breeder, Merops apiaster

Abstract

Sleeping in the nest at the beginning of the breeding season is common for birds nesting in cavities. Here, we report evidence that European Bee-eaters Merops apiaster sleep in pairs in the nesting burrow. In 3.2% of the nest checks, we found two individuals sleeping together. This behaviour ceased once hatching started. A decrease in the number of birds at a communal roost coincided with the incidences of pair-sleeping and initiation of egg-laying. Thus, checking the burrows of European Bee-eaters at the beginning of the breeding season increases the chance of observing pair-sleeping.

Published

2017

37. Helpers compensate for age-related declines in parental care and offspring survival in a cooperatively breeding bird

Author

Lotte A. van Boheemen, Jan Komdeur, David S. Richardson, Terry Burke, Alexandra M. Sparks, Martijn Hammers, Sjouke A. Kingma, Hannah L. Dugdale, Conservation Ecology Group, Behavioural & Physiological Ecology, and Komdeur lab

Subjects

Senescence, Letter, cooperative breeding, senescence, Offspring, lcsh:Evolution, parental care, bepress|Life Sciences|Ecology and Evolutionary Biology, Behavioral Ecology, bepress|Life Sciences, Cooperative breeding, Genetics, Acrocephalus, lcsh:QH359-425, Terrestrial Ecology and Nature Conservation, Terrestrische ecologie en natuurbeheer, Letters, Ecology, Evolution, Behavior and Systematics, Sociality, reproductive and urinary physiology, biology, food and beverages, Provisioning, sociality, biology.organism_classification, Brood, Ageing, Gedragsecologie, WIAS, Paternal care, Demography

Abstract

Offspring from elderly parents often have lower survival due to parental senescence. In cooperatively breeding species, where offspring care is shared between breeders and helpers, the alloparental care provided by helpers is predicted to mitigate the impact of parental senescence on offspring provisioning and, subsequently, offspring survival. We test this prediction using data from a long-term study on cooperatively breeding Seychelles warblers (Acrocephalus sechellensis). We find that the nestling provisioning rate of female breeders declines with their age. Further, the total brood provisioning rate and the first-year survival probability of offspring decline progressively with age of the female breeder, but these declines are mitigated when helpers are present. This effect does not arise because individual helpers provide more care in response to the lower provisioning of older dominant females, but because older female breeders have recruited more helpers, thereby receiving more overall care for their brood. We do not find such effects for male breeders. These results indicate that alloparental care can alleviate the fitness costs of senescence for breeders, which suggests an interplay between age and cooperative breeding.

Published

2019

38. Individual variation in early‐life telomere length and survival in a wild mammal

Author

Chris Newman, Amanda Bretman, Hannah L. Dugdale, Sil H. J. van Lieshout, Christina D. Buesching, and David W. Macdonald

Subjects

Male, 0106 biological sciences, 0301 basic medicine, Senescence, Longevity, Animals, Wild, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Survival probability, Confidence Intervals, Leukocytes, Mustelidae, Genetics, Animals, Ecology, Evolution, Behavior and Systematics, Sex Characteristics, Genetic Variation, Reproducibility of Results, Telomere Homeostasis, Survival Analysis, Early life, Telomere, 030104 developmental biology, Evolutionary biology, Female, Mammal

Abstract

Individual variation in survival probability due to differential responses to early-life environmental conditions is important in the evolution of life histories and senescence. A biomarker allowing quantification of such individual variation, and which links early-life environmental conditions with survival by providing a measure of conditions experienced, is telomere length. Here, we examined telomere dynamics among 24 cohorts of European badgers (Meles meles). We found a complex cross-sectional relationship between telomere length and age, with no apparent loss over the first 29 months, but with both decreases and increases in telomere length at older ages. Overall, we found low within-individual consistency in telomere length across individual lifetimes. Importantly, we also observed increases in telomere length within individuals, which could not be explained by measurement error alone. We found no significant sex differences in telomere length, and provide evidence that early-life telomere length predicts lifespan. However, while early-life telomere length predicted survival to adulthood (≥1 year old), early-life telomere length did not predict adult survival probability. Furthermore, adult telomere length did not predict survival to the subsequent year. These results show that the relationship between early-life telomere length and lifespan was driven by conditions in early-life, where early-life telomere length varied strongly among cohorts. Our data provide evidence for associations between early-life telomere length and individual life history, and highlight the dynamics of telomere length across individual lifetimes due to individuals experiencing different early-life environments.

Published

2019

39. Age-dependent changes in infidelity in Seychelles warblers

Author

David S. Richardson, Sara Raj Pant, Terry Burke, Hannah L. Dugdale, Martijn Hammers, Jan Komdeur, Komdeur lab, Conservation Ecology Group, and Dugdale group

Subjects

0106 biological sciences, 0301 basic medicine, Senescence, Male, Offspring, media_common.quotation_subject, Population, Paternity, Seychelles, 010603 evolutionary biology, 01 natural sciences, Songbirds, 03 medical and health sciences, Sexual Behavior, Animal, Genetics, Acrocephalus, Animals, WITHIN-PAIR, Passeriformes, REPRODUCTIVE-PERFORMANCE, education, Ecology, Evolution, Behavior and Systematics, media_common, Aged, education.field_of_study, BIRDS, biology, Reproductive success, Reproduction, Longevity, EXTRA-PAIR PATERNITY, INDIRECT SELECTION, biology.organism_classification, EVOLUTION, MATE CHOICE, 030104 developmental biology, Mate choice, SENESCENCE, PARENTAGE ASSIGNMENT, Female, GREAT TITS, Demography

Abstract

Extra-pair paternity (EPP) is often linked to male age in socially monogamous vertebrates; that is, older males are more likely to gain EPP and less likely to be cuckolded. However, whether this occurs because males improve at gaining paternity as they grow older, or because “higher quality” males that live longer are preferred by females, has rarely been tested, despite being central to our understanding of the evolutionary drivers of female infidelity. Moreover, how extra-pair reproduction changes with age within females has received even less attention. Using 18 years of longitudinal data from an individually marked population of Seychelles warblers (Acrocephalus sechellensis), we found considerable within-individual changes in extra-pair reproduction in both sexes: an early-life increase and a late-life decline. Furthermore, males were cuckolded less as they aged. Our results indicate that in this species age-related patterns of extra-pair reproduction are determined by within-individual changes with age, rather than differences among individuals in longevity. These results challenge the hypothesis—based on longevity reflecting intrinsic quality—that the association between male age and EPP is due to females seeking high-quality paternal genes for offspring. Importantly, EPP accounted for up to half of male reproductive success, emphasizing the male fitness benefits of this reproductive strategy. Finally, the occurrence of post-peak declines in extra-pair reproduction provides explicit evidence of senescence in infidelity in both males and females.

Published

2019

40. Use of microsatellite-based paternity assignment to establish where Corn Crake Crex crex chicks are at risk from mechanized mowing

Author

Patricia Brekke, Rhys E. Green, Jan Komdeur, Hannah L. Dugdale, Matt Slaymaker, Hannah Ward, Marco van der Velde, Green, RE [0000-0001-8690-8914], Apollo - University of Cambridge Repository, Behavioural & Physiological Ecology, Komdeur lab, and Butler, S

Subjects

animal structures, biology, Corn-crake, Crex, ranging behaviour, Zoology, biology.organism_classification, conservation management, agri-environment, embryonic structures, behavior and behavior mechanisms, age-related movement change, Microsatellite, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics

Abstract

We used microsatellite DNA to assign probable parentage of young Corn Crakes to adult males and females and used these assignments to estimate the distribution of distances between broods of chicks and juveniles and the night-time singing place of the father at the time of initiation of the clutch. Estimated distances for broods of young chicks were in accord with those estimated previously by radiotracking, but distances were greater for older unfledged independent chicks not studied previously. Our results indicate that modifications of the timing and method of mowing to reduce losses of nests and chicks should be implemented inside an area within about 500 m of the singing places of male Corn Crakes, rather than the 250 m previously considered to be safe.

Published

2019

41. Correction: Gender differences in authorships are not associated with publication bias in an evolutionary journal

Author

Hannah A. Edwards, Julia Schroeder, and Hannah L. Dugdale

Subjects

Multidisciplinary, lcsh:R, lcsh:Medicine, lcsh:Q, lcsh:Science

Abstract

In the article byline, Julia Schroeder should be listed as co-corresponding author for this paper. Dr. Schroeder’s email address is julia.schroeder@imperial.ac.uk.

Published

2019

42. Are you my baby?

Author

Eric L. Walters, Hannah L. Dugdale, Walter D. Koenig, Anna C. B. Prinz, Joseph Haydock, and Dugdale group

Subjects

010601 ecology, 0106 biological sciences, behavior and behavior mechanisms, Zoology, Animal Science and Zoology, Biology, Acorn, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, reproductive and urinary physiology

Abstract

Natural selection is expected to favor males that invest more in offspring they sire. We investigated the relationship between paternity and male behavior in the acorn woodpecker (Melanerpes formicivorus), a cooperative breeder that lives in family groups including offspring that remain on their natal territory, sometimes for years, and cobreeders of both sexes. Regardless of group composition, only one communal nest is attended at a time. Whereas cobreeding females share maternity equally, one male usually sires the majority of young in the group’s communal nest. Copulations are rarely observed, and thus it has not been possible to link paternity to sexual behavior. There were no differences among cobreeder males that did or did not sire young in their propensity to roost in the nest cavity at night. However, cobreeder males that attended females continuously prior to egg-laying were more likely to successfully sire young than males that did not, and the relative share of feeding visits and time spent at the subsequent nest were positively related to a male’s realized paternity. These differences in male behavior were partly due to differences among males and partly to plasticity in male behavior covarying with paternity share. Feedings by males successfully siring young also involved a larger proportion of nutritionally valuable insect prey. Males are aware of their paternity success, apparently because of their relative access to females prior to egg laying, and provide more paternal care at nests in which they are more likely to have sired young.

Published

2021

43. The importance of post-translocation monitoring of habitat use and population growth: insights from a Seychelles Warbler (Acrocephalus sechellensis) translocation

Author

Hannah L. Dugdale, David S. Richardson, Thomas Johnson, and Thomas J. Brown

Subjects

0106 biological sciences, 0301 basic medicine, education.field_of_study, biology, Ecology, Population size, Population, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Habitat, Seychelles warbler, Behavioral ecology, Acrocephalus, Population growth, Regeneration (ecology), education

Abstract

Translocations are a valuable tool within conservation, and when performed successfully can rescue species from extinction. However, to label a translocation a success, extensive post-translocation monitoring is required, ensuring the population is growing at the expected rate. In 2011, a habitat assessment identified Fregate Island as a suitable island to host a Seychelles Warbler (Acrocephalus sechellensis) population. Later that year, 59 birds were translocated from Cousin Island to Fregate Island. Here, we determine Seychelles Warbler habitat use and population growth on Fregate Island, assessing the status of the translocation and identifying any interventions that may be required. We found that territory quality, an important predictor of fledgling production on Cousin Island, was a poor predictor of bird presence on Fregate Island. Instead, tree diversity, middle-storey vegetation density, and broad-leafed vegetation density all predicted bird presence positively. A habitat suitability map based on these results suggests most of Fregate Island contains either a suitable or a moderately suitable habitat, with patches of unsuitable overgrown coconut plantation. To achieve the maximum potential Seychelles Warbler population size on Fregate Island, we recommend habitat regeneration, such that the highly diverse subset of broad-leafed trees and a dense middle storey should be protected and replace the unsuitable coconut. Fregate Island’s Seychelles Warbler population has grown to 141 birds since the release, the slowest growth rate of all Seychelles Warbler translocations; the cause of this is unclear. This study highlights the value of post-translocation monitoring, identifying habitat use and areas requiring restoration, and ultimately ensuring that the population is growing.

Published

2018

44. Extra-pair parentage and personality in a cooperatively breeding bird

Author

Hannah L. Dugdale, Hannah A. Edwards, David S. Richardson, Jan Komdeur, Terry Burke, Dugdale group, and Komdeur lab

Subjects

0106 biological sciences, 0301 basic medicine, Offspring, Population, FITNESS CONSEQUENCES, 010603 evolutionary biology, 01 natural sciences, SEXUAL SELECTION, 03 medical and health sciences, Seychelles warbler, REPRODUCTIVE SUCCESS, Journal Article, education, SEYCHELLES WARBLER, Ecology, Evolution, Behavior and Systematics, education.field_of_study, Natural selection, Reproductive success, biology, Reproductive behaviour, EXPLICIT EXPERIMENTAL-EVIDENCE, AVIAN PERSONALITIES, biology.organism_classification, MATE CHOICE, NATURAL-SELECTION, 030104 developmental biology, Mate choice, Animal ecology, Sexual selection, Extra-pair paternity, Animal Science and Zoology, Original Article, Exploration, WARBLER ACROCEPHALUS-SECHELLENSIS, GREAT TITS, Demography, Personality

Abstract

Why so much variation in extra-pair parentage occurs within and among populations remains unclear. Often the fitness costs and benefits of extra-pair parentage are hypothesised to explain its occurrence; therefore, linking extra-pair parentage with traits such as personality (behavioural traits that can be heritable and affect reproductive behaviour) may help our understanding. Here, we investigate whether reproductive outcomes and success are associated with exploratory behaviour in a natural population of cooperatively breeding Seychelles warblers (Acrocephalus sechellensis) on Cousin Island. Exploratory behaviour correlates positively with traits such as risk-taking behaviour and activity in other wild bird species and might promote extra-pair mating by increasing the rate at which potential extra-pair partners are encountered. We therefore predicted that fast-exploring individuals would have more extra-pair offspring. There is also a potential trade-off between pursuing extra-pair parentage and mate guarding in males. We therefore also predicted that fast-exploring males would be more likely to pursue extra-pair parentage and that this would increase the propensity of their mate to gain extra-pair parentage. We found that neither the total number of offspring nor the number of extra-pair offspring were associated with a male’s or female’s exploratory behaviour. However, there was a small but significant propensity for females to have extra-pair fertilisations in pairs that were behaviourally disassortative. Overall, we conclude that, due to the small effect size, the association between exploratory behaviour and extra-pair paternity is unlikely to be biologically relevant. Significance statement True genetic monogamy is rare, even in socially monogamous systems, and multiple factors, such as behaviour, social structure, morphology and physiology, determined by the biological system can cause variation in extra-pair parentage (EPP). Therefore, investigating the inherent differences in these factors among individuals could be informative. We investigated whether reproductive outcomes/success are associated with differences in the propensity to explore novel environments/objects in a promiscuous, island-dwelling cooperatively breeding bird, the Seychelles warbler. Our results showed that exploratory behaviour was not associated with the number of offspring produced by an individual, and thus the long-term fitness consequences of different exploratory tendencies did not differ. We also found that the propensity to engage in EPP in females was higher in dissimilar behavioural pairs, but due to the small effect size, we hesitate to conclude that there are personality-dependent mating outcomes in the population. Electronic supplementary material The online version of this article (10.1007/s00265-018-2448-z) contains supplementary material, which is available to authorized users.

Published

2018

45. Individual variation and the source-sink group dynamics of extra-group paternity in a social mammal

Author

Paula H, Marjamäki, Hannah L, Dugdale, Deborah A, Dawson, Robbie A, McDonald, Richard, Delahay, Terry, Burke, and Alastair J, Wilson

Subjects

extra-group paternity, source-sink dynamics, individual variation, parentage assignment, Original Articles, Meles meles

Abstract

Movement of individuals, or their genes, can influence eco-evolutionary processes in structured populations. We have limited understanding of the extent to which spatial behavior varies among groups and individuals within populations. Here, we use genetic pedigree reconstruction in a long-term study of European badgers (Meles meles) to characterize the extent of extra-group paternity, occurring as a consequence of breeding excursions, and to test hypothesized drivers of variation at multiple levels. We jointly estimate parentage and paternity distance (PD; distance between a cub’s natal and its father’s social group), and test whether population density and sex ratio influence mean annual PD. We also model cub-level PD and extra-group paternity (EGP) to test for variation among social groups and parental individuals. Mean PD varied among years but was not explained by population density or sex ratio. However, cub-level analysis shows strong effects of social group, and parental identities, with some parental individuals being consistently more likely to produce cubs with extra-group partners. Group effects were partially explained by local sex ratio. There was also a strong negative correlation between maternal and paternal social group effects on cub paternity distance, indicating source-sink dynamics. Our analyses of paternity distance and EGP indicate variation in extra-group mating at multiple levels—among years, social groups and individuals. The latter in particular is a phenomenon seldom documented and suggests that gene flow among groups may be disproportionately mediated by a nonrandom subset of adults, emphasizing the importance of the individual in driving eco-evolutionary dynamics., Variation in breeding behavior exists at multiple levels. Based on indirect observations from a genetic pedigree, we found that individual badgers show consistent differences in their tendency to mate with the members of other groups and the distance they travelled to breed. Social groups also differ from each other, with some acting as sinks, both attracting and retaining genes. Average distance travelled also varied annually, but not because of changes in population density or sex ratio.

Published

2018

46. MHC class II-assortative mate choice in European badgers (Meles meles)

Author

Hannah L. Dugdale, Chris Newman, Christina D. Buesching, Terry Burke, David W. Macdonald, Geetha Annavi, Yung Wa Sin, Weissing group, and Komdeur lab

Subjects

Male, Genotype, Genes, MHC Class II, Molecular Sequence Data, Population, EXTRA-GROUP PATERNITY, chemical and pharmacologic phenomena, Meles, Major histocompatibility complex, SEXUAL SELECTION, ATLANTIC SALMON, MHC class I, Mustelidae, Genetics, Animals, Inbreeding, HIGH-DENSITY POPULATION, CONFORMATION ANALYSIS, education, Alleles, Ecology, Evolution, Behavior and Systematics, education.field_of_study, MHC class II, Models, Genetic, biology, re- and postcopulatory mate choice, Genetic compatibility hypothesis, Genetic Variation, Mating Preference, Animal, biology.organism_classification, United Kingdom, major histocompatibility complex, Mating preferences, MHC-assortative mating, SUBCAUDAL GLAND SECRETION, GENETIC COMPATIBILITY, Mate choice, Evolutionary biology, Sexual selection, biology.protein, Female, MATING PREFERENCES, EURASIAN BADGER, Microsatellite Repeats

Abstract

The major histocompatibility complex (MHC) plays a crucial role in the immune system, and in some species, it is a target by which individuals choose mates to optimize the fitness of their offspring, potentially mediated by olfactory cues. Under the genetic compatibility hypothesis, individuals are predicted to choose mates with compatible MHC alleles, to increase the fitness of their offspring. Studies of MHC-based mate choice in wild mammals are under-represented currently, and few investigate more than one class of MHC genes. We investigated mate choice based on the compatibility of MHC class I and II genes in a wild population of European badgers (Meles meles). We also investigated mate choice based on microsatellite-derived pairwise relatedness, to attempt to distinguish MHC-specific effects from genomewide effects. We found MHC-assortative mating, based on MHC class II, but not class I genes. Parent pairs had smaller MHC class II DRB amino acid distances and smaller functional distances than expected from random pairings. When we separated the analyses into within-group and neighbouring-group parent pairs, only neighbouring-group pairs showed MHC-assortative mating, due to similarity at MHC class II loci. Our randomizations showed no evidence of genomewide-based inbreeding, based on 35 microsatellite loci; MHC class II similarity was therefore the apparent target of mate choice. We propose that MHC-assortative mate choice may be a local adaptation to endemic pathogens, and this assortative mate choice may have contributed to the low MHC genetic diversity in this population.

Published

2015

47. Kinship and familiarity mitigate costs of social conflict between Seychelles warbler neighbors

Author

Hannah L. Dugdale, Kathryn Bebbington, Lewis G. Spurgin, Sjouke A. Kingma, Eleanor A. Fairfield, David S. Richardson, Jan Komdeur, Komdeur lab, and Strassmann, JE

Subjects

Male, 0106 biological sciences, 0301 basic medicine, Genotype, Kin recognition, Evolution, mutualism, Population, INBREEDING AVOIDANCE, MOLECULAR MARKERS, Kin selection, Territoriality, Seychelles, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Seychelles warbler, KIN RECOGNITION, territoriality, ACROCEPHALUS-SECHELLENSIS, TERRITORIAL BEHAVIOR, REPRODUCTIVE SUCCESS, Kinship, Animals, Social conflict, kin selection, Passeriformes, education, Ecosystem, HETEROZYGOSITY-FITNESS CORRELATIONS, education.field_of_study, Multidisciplinary, biology, Social environment, Recognition, Psychology, Biological Sciences, 15. Life on land, biology.organism_classification, telomeres, social conflict, Aggression, 030104 developmental biology, PNAS Plus, PAIRWISE RELATEDNESS, PARENTAGE ASSIGNMENT, Female, Animal Distribution, Social psychology, PREDATION RISK

Abstract

Significance In nature, animals must compete with their neighbors for access to limited resources. Since conflict over resources can be extremely costly in terms of time, energy, and reproductive success, investigating how individuals resolve conflict is crucial to understanding the evolution of social behaviors. In the Seychelles warbler, we demonstrate two mechanisms by which individuals minimize costs of conflict and show the benefits individuals gain from doing so. Birds that live near relatives or familiar individuals invest less energy in defending and maintaining territory borders and also show less aging-related signs of physiological damage. Our results suggest that conflict between neighbors can be mitigated by kin-selected benefits of sharing resources with relatives but also through direct mutual benefits of cooperation., Because virtually all organisms compete with others in their social environment, mechanisms that reduce conflict between interacting individuals are crucial for the evolution of stable families, groups, and societies. Here, we tested whether costs of social conflict over territorial space between Seychelles warblers (Acrocephalus sechellensis) are mitigated by kin-selected (genetic relatedness) or mutualistic (social familiarity) mechanisms. By measuring longitudinal changes in individuals’ body mass and telomere length, we demonstrated that the fitness costs of territoriality are driven by a complex interplay between relatedness, familiarity, local density, and sex. Physical fights were less common at territory boundaries shared between related or familiar males. In line with this, male territory owners gained mass when living next to related or familiar males and also showed less telomere attrition when living next to male kin. Importantly, these relationships were strongest in high-density areas of the population. Males also had more rapid telomere attrition when living next to unfamiliar male neighbors, but mainly when relatedness to those neighbors was also low. In contrast, neither kinship nor familiarity was linked to body mass or telomere loss in female territory owners. Our results indicate that resolving conflict over territorial space through kin-selected or mutualistic pathways can reduce both immediate energetic costs and permanent somatic damage, thus providing an important mechanism to explain fine-scale population structure and cooperation between different social units across a broad range of taxa.

Published

2017

48. Heritability of telomere variation: it is all about the environment!

Author

Hannah L, Dugdale and David S, Richardson

Subjects

Time Factors, environmental effects, Age Factors, Genetic Variation, Telomere Homeostasis, Articles, Review Article, Environment, Telomere, heritability, telomeres, Biological Evolution, animal models, Linear Models, Animals, Humans, genetic effects, variation

Abstract

Individual differences in telomere length have been linked to survival and senescence. Understanding the heritability of telomere length can provide important insight into individual differences and facilitate our understanding of the evolution of telomeres. However, to gain accurate and meaningful estimates of telomere heritability it is vital that the impact of the environment, and how this may vary, is understood and accounted for. The aim of this review is to raise awareness of this important, but much under-appreciated point. We outline the factors known to impact telomere length and discuss the fact that telomere length is a trait that changes with age. We highlight statistical methods that can separate genetic from environmental effects and control for confounding variables. We then review how well previous studies in vertebrate populations including humans have taken these factors into account. We argue that studies to date either use methodological techniques that confound environmental and genetic effects, or use appropriate methods but lack sufficient power to fully separate these components. We discuss potential solutions. We conclude that we need larger studies, which also span longer time periods, to account for changing environmental effects, if we are to determine meaningful estimates of the genetic component of telomere length. This article is part of the theme issue ‘Understanding diversity in telomere dynamics'.

Published

2017

49. Corrigendum

Author

Eleanor A. Fairfield, David S. Richardson, Hannah L. Dugdale, Lewis G. Spurgin, Terry Burke, Kat Bebbington, and Jan Komdeur

Subjects

0106 biological sciences, 0301 basic medicine, telomere, Seychelles warbler, biology, inbreeding, 010603 evolutionary biology, 01 natural sciences, Passerine, Telomere, heterozygote advantage, 03 medical and health sciences, 030104 developmental biology, Transgenerational epigenetics, Evolutionary biology, biology.animal, Genetics, Original Article, lifetime fitness, ORIGINAL ARTICLES, Kinship, Parentage and Behaviour, Inbreeding, trans‐generational effects, Ecology, Evolution, Behavior and Systematics

Abstract

Inbreeding results in more homozygous offspring that should suffer reduced fitness, but it can be difficult to quantify these costs for several reasons. First, inbreeding depression may vary with ecological or physiological stress and only be detectable over long time periods. Second, parental homozygosity may indirectly affect offspring fitness, thus confounding analyses that consider offspring homozygosity alone. Finally, measurement of inbreeding coefficients, survival and reproductive success may often be too crude to detect inbreeding costs in wild populations. Telomere length provides a more precise measure of somatic costs, predicts survival in many species and should reflect differences in somatic condition that result from varying ability to cope with environmental stressors. We studied relative telomere length in a wild population of Seychelles warblers (Acrocephalus sechellensis) to assess the lifelong relationship between individual homozygosity, which reflects genome‐wide inbreeding in this species, and telomere length. In juveniles, individual homozygosity was negatively associated with telomere length in poor seasons. In adults, individual homozygosity was consistently negatively related to telomere length, suggesting the accumulation of inbreeding depression during life. Maternal homozygosity also negatively predicted offspring telomere length. Our results show that somatic inbreeding costs are environmentally dependent at certain life stages but may accumulate throughout life.

Published

2017

50. Spatio-temporal variation in lifelong telomere dynamics in a long-term ecological study

Author

Lewis G, Spurgin, Kat, Bebbington, Eleanor A, Fairfield, Martijn, Hammers, Jan, Komdeur, Terry, Burke, Hannah L, Dugdale, and David S, Richardson

Subjects

Male, life history, telomere, senescence, Seychelles warbler, Age Factors, Telomere Homeostasis, biomarkers, Environment, Seychelles, intra‐ and inter‐individual variation, Cohort Studies, Songbirds, Sex Factors, Life Histories, Animals, Female, Telomere Shortening, Research Article

Abstract

Understanding individual‐level variation in response to the environment is fundamental to understanding life‐history evolution and population dynamics. Telomeres, the protective caps at the ends of chromosomes, shorten in response to oxidative stress, and telomere shortening is correlated with reduced survival and life span. Investigating telomere dynamics may help us quantify individual variation in the costs experienced from social and ecological factors, and enhance our understanding of the dynamics of natural populations.Here, we study spatio‐temporal variation in lifelong telomere dynamics in the Seychelles warbler, Acrocephalus sechellensis. We combine long‐term life history and ecological data with a large longitudinal dataset of mean telomere lengths, consisting of 1,808 samples from 22 cohorts born between 1993 and 2014. We provide a detailed analysis of how telomere dynamics vary over individual life spans and cohorts, and with spatio‐temporal variation in the social and ecological environment.We found that telomere length decreases with cross‐sectional and longitudinal measures of age, and most rapidly very early in life. However, both cross‐sectional and longitudinal data suggested that against this overall pattern of shortening, bouts of telomere length increase occur in some individuals. Using a large number of repeated measurements we show statistically that these increases are unlikely to be explained solely by qPCR measurement error.Telomere length varied markedly among cohorts. Telomere length was positively associated with temporal variation in island‐wide insect abundance—a key resource for the insectivorous Seychelles warbler—suggesting that the costs associated with living in harsher environments can be studied by investigating telomere dynamics. We also found evidence for sex‐specific relationships between telomeres and tarsus length, potentially reflecting differential costs of growth.Our long‐term data show that in a natural population, telomere dynamics vary in a complex manner over individual life spans, and across space and time. Variance in telomere dynamics among individuals is the product of a wide array of genetic, parental and environmental factors. Explaining this variation more fully will require the integration of comprehensive long‐term ecological and genetic data from multiple populations and species.

Published

2017