Your search keyword '"Hamilton, Patrick B."' showing total 5 results

1. Social dominance and rainfall predict telomere dynamics in a cooperative arid‐zone bird.

Author

Wood, Emma M., Capilla‐Lasheras, Pablo, Cram, Dominic L., Walker, Lindsay A., York, Jenny E., Lange, Anke, Hamilton, Patrick B., Tyler, Charles R., and Young, Andrew J.

Subjects

TELOMERES, SOCIAL dominance, RAINFALL, QUEENS (Insects), INSECT societies, BIRD breeding

Abstract

In many vertebrate societies dominant individuals breed at substantially higher rates than subordinates, but whether this hastens ageing remains poorly understood. While frequent reproduction may trade off against somatic maintenance, the extraordinary fecundity and longevity of some social insect queens highlight that breeders need not always suffer more rapid somatic deterioration than their nonbreeding subordinates. Here, we used extensive longitudinal assessments of telomere dynamics to investigate the impact of dominance status on within‐individual age‐related changes in somatic integrity in a wild social bird, the white‐browed sparrow‐weaver (Plocepasser mahali). Dominant birds, who monopolise reproduction, had neither shorter telomeres nor faster telomere attrition rates over the long‐term (1–5 years) than their subordinates. However, over shorter (half‐year) time intervals dominants with shorter telomeres showed lower rates of telomere attrition (and evidence suggestive of telomere lengthening), while the same was not true among subordinates. Dominants may therefore invest more heavily in telomere length regulation (and/or somatic maintenance more broadly); a strategy that could mitigate the long‐term costs of reproductive effort, leaving their long‐term telomere dynamics comparable to those of subordinates. Consistent with the expectation that reproduction entails short‐term costs to somatic integrity, telomere attrition rates were most severe for all birds during the breeding seasons of wetter years (rainfall is the key driver of reproductive activity in this arid‐zone species). Our findings suggest that, even in vertebrate societies in which dominants monopolise reproduction, dominants may experience long‐term somatic integrity trajectories indistinguishable from those of their nonreproductive subordinates. [ABSTRACT FROM AUTHOR]

Published

2022

2. Application of a novel molecular method to age free‐living wild Bechstein's bats.

Author

Wright, Patrick G. R., Mathews, Fiona, Schofield, Henry, Morris, Colin, Burrage, Joe, Smith, Adam, Dempster, Emma L., and Hamilton, Patrick B.

Subjects

WILDLIFE conservation, ENDANGERED species, ANIMALS, DNA methylation, LABORATORY mice

Abstract

The age profile of populations fundamentally affects their conservation status. Yet, age is frequently difficult to assess in wild animals. Here, we assessed the use of DNA methylation of homologous genes to establish the age structure of a rare and elusive wild mammal: the Bechstein's bat (Myotis bechsteinii). We collected 62 wing punches from individuals whose ages were known as a result of a long‐term banding study. DNA methylation was measured at seven CpG sites from three genes, which have previously shown age‐associated changes in humans and laboratory mice. All CpG sites from the tested genes showed a significant relationship between DNA methylation and age, both individually and in combination (multiple linear regression R2 = 0.58, p < 0.001). Despite slight approximation around estimates, the approach is sufficiently precise to place animals into practically useful age cohorts. This method is of considerable practical benefit as it can reliably age individual bats. It is also much faster than traditional capture–mark–recapture techniques, with the potential to collect information on the age structure of an entire colony from a single sampling session to better inform conservation actions for Bechstein's bats. By identifying three genes where DNA methylation correlates with age across distantly related species, this study also suggests that the technique can potentially be applied across a wide range of mammals. [ABSTRACT FROM AUTHOR]

Published

2018

3. Population-level consequences for wild fish exposed to sublethal concentrations of chemicals - a critical review.

Author

Hamilton, Patrick B, Cowx, Ian G, Oleksiak, Marjorie F, Griffiths, Andrew M, Grahn, Mats, Stevens, Jamie R, Carvalho, Gary R, Nicol, Elizabeth, and Tyler, Charles R

Subjects

*FISHES, *BIOMARKERS, *THREESPINE stickleback, *ROACH (Fish), *SEAFOOD, *MARICULTURE

Abstract

Concentrated chemical spills have been shown to impact adversely on fish populations and even cause localized population extinctions. Evaluating population-level impacts of sublethal exposure concentrations is, however, complex and confounded by other environmental pressures. Applying effect measures derived from laboratory-based chemical exposures to impacts in wild fish populations is constrained by uncertainty on how biochemical response measures (biomarkers) translate into health outcomes, lack of available data for chronic exposures and the many uncertainties in available fish population models. Furthermore, wild fish show phenotypic plasticity and local adaptations can occur that adds geographic and temporal variance on responses. Such population-level factors are rarely considered in the chemical risk assessment process and can probably be derived only from studies on wild fish. Molecular technologies, including microsatellite and SNP genotyping, and RNASeq for gene expression studies, are advancing our understanding of mechanisms of eco-toxicological response, tolerance, adaptation and selection in wild populations. We examine critically the application of such approaches with examples including using microsatellites that has identified roach ( Rutilus rutilus) populations living in rivers contaminated with sewage effluents that are self-sustaining, and studies of stickleback ( Gasterosteus aculeatus) and killifish ( Fundulus heteroclitus) that have identified genomic regions under selection putatively related to pollution tolerance. Integrating data on biological effects between laboratory-based studies and wild populations, and building understanding on adaptive responses to sublethal exposure are some of the priority research areas for more effective evaluation of population risks and resilience to contaminant exposure. [ABSTRACT FROM AUTHOR]

Published

2016

4. Do stressful conditions make adaptation difficult? Guppies in the oil-polluted environments of southern Trinidad.

Author

Rolshausen, Gregor, Phillip, Dawn A. T., Beckles, Denise M., Akbari, Ali, Ghoshal, Subhasis, Hamilton, Patrick B., Tyler, Charles R., Scarlett, Alan G., Ramnarine, Indar, Bentzen, Paul, and Hendry, Andrew P.

Subjects

GUPPIES, FISH adaptation, FISH populations, OIL spills, POLLUTION

Abstract

The ability of populations to rapidly adapt to new environments will determine their future in an increasingly human-modified world. Although meta-analyses do frequently uncover signatures of local adaptation, they also reveal many exceptions. We suggest that particular constraints on local adaptation might arise when organisms are exposed to novel stressors, such as anthropogenic pollution. To inform this possibility, we studied the extent to which guppies ( Poecilia reticulata) show local adaptation to oil pollution in southern Trinidad. Neutral genetic markers revealed that paired populations in oil-polluted versus not-polluted habitats diverged independently in two different watersheds. Morphometrics revealed some divergence (particularly in head shape) between these environments, some of which was parallel between rivers. Reciprocal transplant experiments in nature, however, found little evidence of local adaptation based on survival and growth. Moreover, subsequent laboratory experiments showed that the two populations from oil-polluted sites showed only weak local adaptation even when compared to guppies from oil-free northern Trinidad. We conclude that guppies show little local adaptation to oil pollution, which might result from the challenges associated with adaptation to particularly stressful environments. It might also reflect genetic drift owing to small population sizes and/or high gene flow between environments. [ABSTRACT FROM AUTHOR]

Published

2015

5. Interactive effects of inbreeding and endocrine disruption on reproduction in a model laboratory fish.

Author

Bickley, Lisa K., Brown, Andrew R., Hosken, David J., Hamilton, Patrick B., Le Page, Gareth, Paull, Gregory C., Owen, Stewart F., and Tyler, Charles R.

Subjects

INBREEDING, FISH reproduction, FISH as laboratory animals, POLLUTION, FUNGICIDES

Abstract

Inbreeding depression is expected to be more severe in stressful environments. However, the extent to which inbreeding affects the vulnerability of populations to environmental stressors, such as chemical exposure, remains unresolved. Here we report on the combined impacts of inbreeding and exposure to an endocrine disrupting chemical (the fungicide clotrimazole) on zebrafish (Danio rerio). We show that whilst inbreeding can negatively affect reproductive traits, not all traits are affected equally. Inbreeding depression frequently only became apparent when fish were additionally stressed by chemical exposure. Embryo viability was significantly reduced in inbred exposed fish and there was a tendency for inbred males to sire fewer offspring when in direct competition with outbred individuals. Levels of plasma 11-ketotestosterone, a key male sex hormone, showed substantial inbreeding depression that was unaffected by addition of the fungicide. In contrast, there was no effect of inbreeding or clotrimazole exposure on egg production. Overall, our data provide evidence that stress may amplify the effects of inbreeding on key reproductive traits, particularly those associated with male fitness. This may have important implications when considering the consequences of exposure to chemical pollutants on the fitness of wild populations. [ABSTRACT FROM AUTHOR]

Published

2013