Your search keyword '"Keith, SA"' showing total 45 results

1. Rereading

Author

Keith, Sally

Published

2025

2. A global horizon scan of issues impacting marine and coastal biodiversity conservation

Author

Herbert-Read, JE, Thornton, A, Amon, DJ, Birchenough, SNR, Côté, IM, Dias, MP, Godley, BJ, Keith, SA, McKinley, E, Peck, LS, Calado, R, Defeo, O, Degraer, S, Johnston, EL, Kaartokallio, H, Macreadie, Peter, Metaxas, A, Muthumbi, AWN, Obura, DO, Paterson, DM, Piola, AR, Richardson, AJ, Schloss, IR, Snelgrove, PVR, Stewart, BD, Thompson, PM, Watson, GJ, Worthington, TA, Yasuhara, M, Sutherland, WJ, Herbert-Read, JE, Thornton, A, Amon, DJ, Birchenough, SNR, Côté, IM, Dias, MP, Godley, BJ, Keith, SA, McKinley, E, Peck, LS, Calado, R, Defeo, O, Degraer, S, Johnston, EL, Kaartokallio, H, Macreadie, Peter, Metaxas, A, Muthumbi, AWN, Obura, DO, Paterson, DM, Piola, AR, Richardson, AJ, Schloss, IR, Snelgrove, PVR, Stewart, BD, Thompson, PM, Watson, GJ, Worthington, TA, Yasuhara, M, and Sutherland, WJ

Published

2022

3. Graded Proteasome Dysfunction in Caenorhabditis elegans Activates an Adaptive Response Involving the Conserved SKN-1 and ELT-2 Transcription Factors and the Autophagy-Lysosome Pathway

Author

Keith, SA, Maddux, SK, Zhong, Y, Chinchankar, MN, Ferguson, AA, Ghazi, A, Fisher, AL, Keith, SA, Maddux, SK, Zhong, Y, Chinchankar, MN, Ferguson, AA, Ghazi, A, and Fisher, AL

Abstract

The maintenance of cellular proteins in a biologically active and structurally stable state is a vital endeavor involving multiple cellular pathways. One such pathway is the ubiquitin-proteasome system that represents a major route for protein degradation, and reductions in this pathway usually have adverse effects on the health of cells and tissues. Here, we demonstrate that loss-of-function mutants of the Caenorhabditis elegans proteasome subunit, RPN-10, exhibit moderate proteasome dysfunction and unexpectedly develop both increased longevity and enhanced resistance to multiple threats to the proteome, including heat, oxidative stress, and the presence of aggregation prone proteins. The rpn-10 mutant animals survive through the activation of compensatory mechanisms regulated by the conserved SKN-1/Nrf2 and ELT-2/GATA transcription factors that mediate the increased expression of genes encoding proteasome subunits as well as those mediating oxidative- and heat-stress responses. Additionally, we find that the rpn-10 mutant also shows enhanced activity of the autophagy-lysosome pathway as evidenced by increased expression of the multiple autophagy genes including atg-16.2, lgg-1, and bec-1, and also by an increase in GFP::LGG-1 puncta. Consistent with a critical role for this pathway, the enhanced resistance of the rpn-10 mutant to aggregation prone proteins depends on autophagy genes atg-13, atg-16.2, and prmt-1. Furthermore, the rpn-10 mutant is particularly sensitive to the inhibition of lysosome activity via either RNAi or chemical means. We also find that the rpn-10 mutant shows a reduction in the numbers of intestinal lysosomes, and that the elt-2 gene also plays a novel and vital role in controlling the production of functional lysosomes by the intestine. Overall, these experiments suggest that moderate proteasome dysfunction could be leveraged to improve protein homeostasis and organismal health and longevity, and that the rpn-10 mutant provides a unique pla

Published

2016

4. Coral reproduction on the world’s southernmost reef at Lord Howe Island, Australia

Author

Baird, AH, primary, Cumbo, VR, additional, Gudge, S, additional, Keith, SA, additional, Maynard, JA, additional, Tan, CH, additional, and Woolsey, ES, additional

Published

2015

5. The Action of a Man

Author

Keith, Sally

Published

2017

6. Tracer by Richard Greenfield (review)

Author

Keith, Sally

Published

2017

7. From River House , and: From River House

Author

Keith, Sally

Published

2015

8. Exploring the Personal and Systemic Factors Impacting on Wellbeing and Effective Working in Mental Health Professionals

Author

Keith, SA, Bennett, Kate, and Yelland, Irina

9. In the desert . . .

Author

Keith, Sally

Published

2012

10. What heavenward gesture . . .

Author

Keith, Sally

Published

2012

11. Emergent patterns of reef fish diversity correlate with coral assemblage shifts along the Great Barrier Reef.

Author

González-Barrios FJ, Keith SA, Emslie MJ, Ceccarelli DM, Williams GJ, and Graham NAJ

Subjects

Animals, Australia, Climate Change, Coral Reefs, Biodiversity, Fishes classification, Fishes physiology, Anthozoa physiology, Anthozoa classification

Abstract

Escalating climate and anthropogenic disturbances draw into question how stable large-scale patterns in biological diversity are in the Anthropocene. Here, we analyse how patterns of reef fish diversity have changed from 1995 to 2022 by examining local diversity and species dissimilarity along a large latitudinal gradient of the Great Barrier Reef and to what extent this correlates with changes in coral cover and coral composition. We find that reef fish species richness followed the expected latitudinal diversity pattern (i.e., greater species richness toward lower latitudes), yet has undergone significant change across space and time. We find declines in species richness at lower latitudes in recent periods but high variability at higher latitudes. Reef fish turnover continuously increased over time at all latitudes and did not show evidence of a return. Altered diversity patterns are characterised by heterogeneous changes in reef fish trophic groups across the latitudinal gradient. Shifts in coral composition correlate more strongly with reef fish diversity changes than fluctuations in coral cover. Our findings provide insight into the extent to which classic macroecological patterns are maintained in the Anthropocene, ultimately questioning whether these patterns are decoupling from their original underlying drivers., Competing Interests: Competing interests: The authors declare no competing interest., (© 2025. The Author(s).)

Published

2025

12. Chronic bacterial infections exert metabolic costs in Drosophila melanogaster.

Author

Darby AM, Keith SA, Kalukin AA, and Lazzaro BP

Subjects

Animals, Immunity, Innate, Starvation, Bacterial Infections microbiology, Bacterial Infections immunology, Female, Glycogen metabolism, Male, Drosophila melanogaster microbiology, Drosophila melanogaster immunology, Drosophila melanogaster physiology

Abstract

Bacterial infections can substantially impact host metabolic health as a result of the direct and indirect demands of sustaining an immune response and of nutrient piracy by the pathogen itself. Drosophila melanogaster and other insects that survive a sublethal bacterial infection often carry substantial pathogen burdens for the remainder of life. In this study, we asked whether these chronic infections exact metabolic costs for the host, and how these costs scale with the severity of chronic infection. We infected D. melanogaster with four bacterial species (Providencia rettgeri, Serratia marcescens, Enterococcus faecalis and Lactococcus lactis) and assayed metabolic traits in chronically infected survivors. We found that D. melanogaster carrying chronic infections were uniformly more susceptible to starvation than uninfected controls, and that sensitivity to starvation escalated with higher chronic pathogen burden. We observed some evidence for greater depletion of triglyceride and glycogen stores in D. melanogaster carrying chronic bacterial loads, although this varied among bacterial species. Chronically infected flies exhibit sustained upregulation of the immune response, which we hypothesized might contribute to the metabolic costs. Consistent with this prediction, genetic activation of the major innate immune signaling pathways depleted metabolic stores and increased starvation sensitivity even in the absence of infection. These results demonstrate that even sublethal infections can have substantial health and fitness consequences for the hosts, arising in part from pathogen-induced immune activation, and that the consequences scale quantitatively with the severity of infection., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2025. Published by The Company of Biologists.)

Published

2025

13. Do risk-prone behaviours compromise reproduction and increase vulnerability of fish aggregations exposed to fishing?

Author

Karkarey R, Boström Einarsson L, Graham NAJ, Mukrikkakudi I, Bilutheth MN, Chekkillam AR, Kk IB, and Keith SA

Subjects

Animals, Male, India, Sexual Behavior, Animal physiology, Territoriality, Reproduction physiology, Fisheries

Abstract

Human disturbances can prompt natural anti-predator behaviours in animals, affecting how energy is traded off between immediate survival and reproduction. In our study of male squaretail groupers ( Plectropomus areolatus ) in India's Lakshadweep archipelago, we investigated the impact of fishing pressure on anti-predatory responses and reproductive behaviours by comparing a fished and unfished spawning aggregation site and tracking responses over time at the fished site. Using observational sampling and predator exposure experiments, we analysed fear responses (flight initiation distance, return time), as well as time spent in vigilance, courtship and territorial defence. Unpaired males at fished sites were twice as likely to flee from simulated predators and took longer to return to mating territories. In contrast, paired males at both sites took greater risks during courtship, fleeing later than unpaired males, but returned earlier at the unfished site compared with the fished site. Our findings suggest that high fishing pressure reduces reproductive opportunities by increasing vigilance and compromising territorial defence, potentially affecting mate selection cues. Altered behavioural trade-offs may mitigate short-term capture risk but endanger long-term population survival through altered reproductive investment. Human extractive practices targeting animal reproductive aggregations can have disruptive effects beyond direct removal, influencing animal behaviours crucial for population survival.

Published

2024

14. Evolutionary ecology of dispersal in biodiverse spatially structured systems: what is old and what is new?

Author

Fronhofer EA, Bonte D, Bestion E, Cote J, Deshpande JN, Duncan AB, Hovestadt T, Kaltz O, Keith SA, Kokko H, Legrand D, Malusare SP, Parmentier T, Saade C, Schtickzelle N, Zilio G, and Massol F

Subjects

Animals, Ecosystem, Biological Evolution, Animal Distribution

Abstract

Dispersal is a well-recognized driver of ecological and evolutionary dynamics, and simultaneously an evolving trait. Dispersal evolution has traditionally been studied in single-species metapopulations so that it remains unclear how dispersal evolves in metacommunities and metafoodwebs, which are characterized by a multitude of species interactions. Since most natural systems are both species-rich and spatially structured, this knowledge gap should be bridged. Here, we discuss whether knowledge from dispersal evolutionary ecology established in single-species systems holds in metacommunities and metafoodwebs and we highlight generally valid and fundamental principles. Most biotic interactions form the backdrop to the ecological theatre for the evolutionary dispersal play because interactions mediate patterns of fitness expectations across space and time. While this allows for a simple transposition of certain known principles to a multispecies context, other drivers may require more complex transpositions, or might not be transferred. We discuss an important quantitative modulator of dispersal evolution-increased trait dimensionality of biodiverse meta-systems-and an additional driver: co-dispersal. We speculate that scale and selection pressure mismatches owing to co-dispersal, together with increased trait dimensionality, may lead to a slower and more 'diffuse' evolution in biodiverse meta-systems. Open questions and potential consequences in both ecological and evolutionary terms call for more investigation. This article is part of the theme issue 'Diversity-dependence of dispersal: interspecific interactions determine spatial dynamics'.

Published

2024

15. Variation in farming damselfish behaviour creates a competitive landscape of risk on coral reefs.

Author

Sheppard CE, Boström-Einarsson L, Williams GJ, Exton DA, and Keith SA

Subjects

Animals, Competitive Behavior, Aggression, Perciformes physiology, Behavior, Animal physiology, Fishes physiology, Coral Reefs

Abstract

Interspecific interactions are fundamental drivers of animal space use. Yet while non-consumptive effects of predation risk on prey space use are well-known, the risk of aggressive interactions on space use of competitors is largely unknown. We apply the landscape of risk framework to competition-driven space use for the first time, with the hypothesis that less aggressive competitors may alter their behaviour to avoid areas of high competitor density. Specifically, we test how aggressive risk from territorial algal-farming damselfishes can shape the spatial distribution of herbivore fish competitors. We found that only the most aggressive damselfish had fewer competitors in their surrounding area, demonstrating that individual-level behavioural variation can shape spatial distributions. In contradiction to the landscape of risk framework, abundances of farming damselfish and other fishes were positively associated. Our results suggest that reef fishes do not simply avoid areas of high damselfish abundance, but that spatial variation in aggressive behaviour, rather than of individuals, created a competitive landscape of risk. We emphasize the importance of individual-level behaviour in identifying patterns of space use and propose expanding the landscape of risk framework to non-predatory interactions to explore cascading behavioural responses to aggressive risk.

Published

2024

16. Macrobehaviour: behavioural variation across space, time, and taxa.

Author

Keith SA, Drury JP, McGill BJ, and Grether GF

Subjects

Forecasting, Ecosystem, Ecology, Biodiversity

Abstract

We explore how integrating behavioural ecology and macroecology can provide fundamental new insight into both fields, with particular relevance for understanding ecological responses to rapid environmental change. We outline the field of macrobehaviour, which aims to unite these disciplines explicitly, and highlight examples of research in this space. Macrobehaviour can be envisaged as a spectrum, where behavioural ecologists and macroecologists use new data and borrow tools and approaches from one another. At the heart of this spectrum, interdisciplinary research considers how selection in the context of large-scale factors can lead to systematic patterns in behavioural variation across space, time, and taxa, and in turn, influence macroecological patterns and processes. Macrobehaviour has the potential to enhance forecasts of future biodiversity change., Competing Interests: Declaration of interests No interests are declared., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2023

17. Steroid hormone regulation of innate immunity in Drosophila melanogaster.

Author

Keith SA

Subjects

Animals, Steroids, Drosophila genetics, Immunity, Innate genetics, Juvenile Hormones, Ecdysterone, Metamorphosis, Biological genetics, Drosophila melanogaster genetics, Gene Expression Regulation, Developmental

Abstract

Endocrine signaling networks control diverse biological processes and life history traits across metazoans. In both invertebrate and vertebrate taxa, steroid hormones regulate immune system function in response to intrinsic and environmental stimuli, such as microbial infection. The mechanisms of this endocrine-immune regulation are complex and constitute an ongoing research endeavor facilitated by genetically tractable animal models. The 20-hydroxyecdysone (20E) is the major steroid hormone in arthropods, primarily studied for its essential role in mediating developmental transitions and metamorphosis; 20E also modulates innate immunity in a variety of insect taxa. This review provides an overview of our current understanding of 20E-mediated innate immune responses. The prevalence of correlations between 20E-driven developmental transitions and innate immune activation are summarized across a range of holometabolous insects. Subsequent discussion focuses on studies conducted using the extensive genetic resources available in Drosophila that have begun to reveal the mechanisms underlying 20E regulation of immunity in the contexts of both development and bacterial infection. Lastly, I propose directions for future research into 20E regulation of immunity that will advance our knowledge of how interactive endocrine networks coordinate animals' physiological responses to environmental microbes., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Scott A. Keith. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

18. Rapid resource depletion on coral reefs disrupts competitor recognition processes among butterflyfish species.

Author

Keith SA, Hobbs JA, Boström-Einarsson L, Hartley IR, and Sanders NJ

Subjects

Animals, Coral Reefs, Phylogeny, Aggression, Perciformes, Anthozoa

Abstract

Avoiding costly fights can help conserve energy needed to survive rapid environmental change. Competitor recognition processes help resolve contests without escalating to attack, yet we have limited understanding of how they are affected by resource depletion and potential effects on species coexistence. Using a mass coral mortality event as a natural experiment and 3770 field observations of butterflyfish encounters, we test how rapid resource depletion could disrupt recognition processes in butterflyfishes. Following resource loss, heterospecifics approached each other more closely before initiating aggression, fewer contests were resolved by signalling, and the energy invested in attacks was greater. By contrast, behaviour towards conspecifics did not change. As predicted by theory, conspecifics approached one another more closely and were more consistent in attack intensity yet, contrary to expectations, resolution of contests via signalling was more common among heterospecifics. Phylogenetic relatedness or body size did not predict these outcomes. Our results suggest that competitor recognition processes for heterospecifics became less accurate after mass coral mortality, which we hypothesize is due to altered resource overlaps following dietary shifts. Our work implies that competitor recognition is common among heterospecifics, and disruption of this system could lead to suboptimal decision-making, exacerbating sublethal impacts of food scarcity.

Published

2023

19. Terrestrial invasive species alter marine vertebrate behaviour.

Author

Gunn RL, Benkwitt CE, Graham NAJ, Hartley IR, Algar AC, and Keith SA

Subjects

Humans, Animals, Rats, Coral Reefs, Fishes physiology, Aggression, Ecosystem, Introduced Species

Abstract

Human-induced environmental changes, such as the introduction of invasive species, are driving declines in the movement of nutrients across ecosystems with negative consequences for ecosystem function. Declines in nutrient inputs could thus have knock-on effects at higher trophic levels and broader ecological scales, yet these interconnections remain relatively unknown. Here we show that a terrestrial invasive species (black rats, Rattus rattus) disrupts a nutrient pathway provided by seabirds, ultimately altering the territorial behaviour of coral reef fish. In a replicated ecosystem-scale natural experiment, we found that reef fish territories were larger and the time invested in aggression lower on reefs adjacent to rat-infested islands compared with rat-free islands. This response reflected changes in the economic defendability of lower-quality resources, with reef fish obtaining less nutritional gain per unit foraging effort adjacent to rat-infested islands with low seabird populations. These results provide a novel insight into how the disruption of nutrient flows by invasive species can affect variation in territorial behaviour. Rat eradication as a conservation strategy therefore has the potential to restore species interactions via territoriality, which can scale up to influence populations and communities at higher ecological levels., (© 2023. The Author(s).)

Published

2023

20. Scaled for Success : The Internationalisation of the Mermaid

Author

Hayward, Philip, Principally authored and edited by, Braham, Persephone, Gaskins, Nettrice R., Keith, Sarah, Lee, Sung-Ae, Milner, Lisa, Shalaby, Manal, Wang, Pan, Hayward, Philip, Braham, Persephone, Gaskins, Nettrice R., Keith, Sarah, Lee, Sung-Ae, Milner, Lisa, Shalaby, Manal, and Wang, Pan

Published

2019

21. Reef fishes weaken dietary preferences after coral mortality, altering resource overlap.

Author

Semmler RF, Sanders NJ, CaraDonna PJ, Baird AH, Jing X, Robinson JPW, Graham NAJ, and Keith SA

Subjects

Animals, Climate Change, Coral Reefs, Diet veterinary, Fishes physiology, Anthozoa physiology

Abstract

The direct and indirect effects of climate change can affect, and are mediated by, changes in animal behaviour. However, we often lack sufficient empirical data to assess how large-scale disturbances affect the behaviour of individuals, which scales up to influence communities. Here, we investigate these patterns by focusing on the foraging behaviour of butterflyfishes, prominent coral-feeding fishes on coral reefs, before and after a mass coral bleaching event in Iriomote, Japan. In response to 65% coral mortality, coral-feeding fishes broadened their diets, showing a significant weakening of dietary preferences across species. Multiple species reduced their consumption of bleaching-sensitive Acropora corals, while expanding their diets to consume a variety of other coral genera. This resulted in decreased dietary overlap among butterflyfishes. Behavioural changes in response to bleaching may increase resilience of coral reef fishes in the short term. However, coral mortality has reduced populations of coral-feeders world-wide, indicating the changes in feeding behaviour we document here may not be sufficient to ensure long-term resilience of butterflyfishes on coral reefs., (© 2022 The Authors. Journal of Animal Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society.)

Published

2022

22. A global horizon scan of issues impacting marine and coastal biodiversity conservation.

Author

Herbert-Read JE, Thornton A, Amon DJ, Birchenough SNR, Côté IM, Dias MP, Godley BJ, Keith SA, McKinley E, Peck LS, Calado R, Defeo O, Degraer S, Johnston EL, Kaartokallio H, Macreadie PI, Metaxas A, Muthumbi AWN, Obura DO, Paterson DM, Piola AR, Richardson AJ, Schloss IR, Snelgrove PVR, Stewart BD, Thompson PM, Watson GJ, Worthington TA, Yasuhara M, and Sutherland WJ

Subjects

Animals, Climate Change, Humans, Biodiversity, Ecosystem

Abstract

The biodiversity of marine and coastal habitats is experiencing unprecedented change. While there are well-known drivers of these changes, such as overexploitation, climate change and pollution, there are also relatively unknown emerging issues that are poorly understood or recognized that have potentially positive or negative impacts on marine and coastal ecosystems. In this inaugural Marine and Coastal Horizon Scan, we brought together 30 scientists, policymakers and practitioners with transdisciplinary expertise in marine and coastal systems to identify new issues that are likely to have a significant impact on the functioning and conservation of marine and coastal biodiversity over the next 5-10 years. Based on a modified Delphi voting process, the final 15 issues presented were distilled from a list of 75 submitted by participants at the start of the process. These issues are grouped into three categories: ecosystem impacts, for example the impact of wildfires and the effect of poleward migration on equatorial biodiversity; resource exploitation, including an increase in the trade of fish swim bladders and increased exploitation of marine collagens; and new technologies, such as soft robotics and new biodegradable products. Our early identification of these issues and their potential impacts on marine and coastal biodiversity will support scientists, conservationists, resource managers and policymakers to address the challenges facing marine ecosystems., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

23. Arc1 and the microbiota together modulate growth and metabolic traits in Drosophila.

Author

Keith SA, Bishop C, Fallacaro S, and McCartney BM

Subjects

Acetobacter physiology, Animals, Brain metabolism, Brain physiology, Homeostasis physiology, Larva metabolism, Larva physiology, Mutation physiology, Neurons metabolism, Neurons physiology, Phenotype, Cytoskeletal Proteins metabolism, Drosophila metabolism, Drosophila physiology, Microbiota physiology, Nerve Tissue Proteins metabolism

Abstract

Perturbations to animal-associated microbial communities (the microbiota) have deleterious effects on various aspects of host fitness, but the molecular processes underlying these impacts are poorly understood. Here, we identify a connection between the microbiota and the neuronal factor Arc1 that affects growth and metabolism in Drosophila. We find that Arc1 exhibits tissue-specific microbiota-dependent expression changes, and that germ-free flies bearing a null mutation of Arc1 exhibit delayed and stunted larval growth, along with a variety of molecular, cellular and organismal traits indicative of metabolic dysregulation. Remarkably, we show that the majority of these phenotypes can be fully suppressed by mono-association with a single Acetobacter sp. isolate, through mechanisms involving both bacterial diet modification and live bacteria. Additionally, we provide evidence that Arc1 function in key neuroendocrine cells of the larval brain modulates growth and metabolic homeostasis under germ-free conditions. Our results reveal a role for Arc1 in modulating physiological responses to the microbial environment, and highlight how host-microbe interactions can profoundly impact the phenotypic consequences of genetic mutations in an animal host., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2021. Published by The Company of Biologists Ltd.)

Published

2021

24. A deepening understanding of animal culture suggests lessons for conservation.

Author

Brakes P, Carroll EL, Dall SRX, Keith SA, McGregor PK, Mesnick SL, Noad MJ, Rendell L, Robbins MM, Rutz C, Thornton A, Whiten A, Whiting MJ, Aplin LM, Bearhop S, Ciucci P, Fishlock V, Ford JKB, Notarbartolo di Sciara G, Simmonds MP, Spina F, Wade PR, Whitehead H, Williams J, and Garland EC

Subjects

Animals, Animals, Wild, Biological Evolution, Learning, Biodiversity, Conservation of Natural Resources

Abstract

A key goal of conservation is to protect biodiversity by supporting the long-term persistence of viable, natural populations of wild species. Conservation practice has long been guided by genetic, ecological and demographic indicators of risk. Emerging evidence of animal culture across diverse taxa and its role as a driver of evolutionary diversification, population structure and demographic processes may be essential for augmenting these conventional conservation approaches and decision-making. Animal culture was the focus of a ground-breaking resolution under the Convention on the Conservation of Migratory Species of Wild Animals (CMS), an international treaty operating under the UN Environment Programme. Here, we synthesize existing evidence to demonstrate how social learning and animal culture interact with processes important to conservation management. Specifically, we explore how social learning might influence population viability and be an important resource in response to anthropogenic change, and provide examples of how it can result in phenotypically distinct units with different, socially learnt behavioural strategies. While identifying culture and social learning can be challenging, indirect identification and parsimonious inferences may be informative. Finally, we identify relevant methodologies and provide a framework for viewing behavioural data through a cultural lens which might provide new insights for conservation management.

Published

2021

25. Fine-scale foraging behavior reveals differences in the functional roles of herbivorous reef fishes.

Author

Semmler RF, Brandl SJ, Keith SA, and Bellwood DR

Abstract

Efforts to understand and protect ecosystem functioning have put considerable emphasis on classifying species according to the functions they perform. However, coarse classifications based on diet or feeding mode often oversimplify species' contributions to ecological processes. Behavioral variation among superficially similar species is easily missed but could indicate important differences in competitive interactions and the spatial scale at which species deliver their functions. To test the extent to which behavior can vary within existing functional classifications, we investigate the diversity of foraging movements in three herbivorous coral reef fishes across two functional groups. We find significant variation in foraging movements and spatial scales of operation between species, both within and across existing functional groups. Specifically, we show that movements and space use range from low frequency foraging bouts separated by short distances and tight turns across a small area, to high frequency, far-ranging forays separated by wide sweeping turns. Overall, we add to the burgeoning evidence that nuanced behavioral differences can underpin considerable complementarity within existing functional classifications, and that species assemblages may be considerably less redundant than previously thought., Competing Interests: The authors declare no conflicts of interest exist., (© 2021 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2021

26. The evolution of critical thermal limits of life on Earth.

Author

Bennett JM, Sunday J, Calosi P, Villalobos F, Martínez B, Molina-Venegas R, Araújo MB, Algar AC, Clusella-Trullas S, Hawkins BA, Keith SA, Kühn I, Rahbek C, Rodríguez L, Singer A, Morales-Castilla I, and Olalla-Tárraga MÁ

Subjects

Adaptation, Physiological, Animals, Climate, Climate Change, Earth, Planet, Ecology, Hot Temperature, Temperature, Biological Evolution, Plant Physiological Phenomena, Thermotolerance physiology

Abstract

Understanding how species' thermal limits have evolved across the tree of life is central to predicting species' responses to climate change. Here, using experimentally-derived estimates of thermal tolerance limits for over 2000 terrestrial and aquatic species, we show that most of the variation in thermal tolerance can be attributed to a combination of adaptation to current climatic extremes, and the existence of evolutionary 'attractors' that reflect either boundaries or optima in thermal tolerance limits. Our results also reveal deep-time climate legacies in ectotherms, whereby orders that originated in cold paleoclimates have presently lower cold tolerance limits than those with warm thermal ancestry. Conversely, heat tolerance appears unrelated to climate ancestry. Cold tolerance has evolved more quickly than heat tolerance in endotherms and ectotherms. If the past tempo of evolution for upper thermal limits continues, adaptive responses in thermal limits will have limited potential to rescue the large majority of species given the unprecedented rate of contemporary climate change.

Published

2021

27. Testing biodiversity theory using species richness of reef-building corals across a depth gradient.

Author

Roberts TE, Keith SA, Rahbek C, Bridge TCL, Caley MJ, and Baird AH

Subjects

Animals, Biodiversity, Ecology, Models, Biological, Anthozoa

Abstract

Natural environmental gradients encompass systematic variation in abiotic factors that can be exploited to test competing explanations of biodiversity patterns. The species-energy (SE) hypothesis attempts to explain species richness gradients as a function of energy availability. However, limited empirical support for SE is often attributed to idiosyncratic, local-scale processes distorting the underlying SE relationship. Meanwhile, studies are also often confounded by factors such as sampling biases, dispersal boundaries and unclear definitions of energy availability. Here, we used spatially structured observations of 8460 colonies of photo-symbiotic reef-building corals and a null-model to test whether energy can explain observed coral species richness over depth. Species richness was left-skewed, hump-shaped and unrelated to energy availability. While local-scale processes were evident, their influence on species richness was insufficient to reconcile observations with model predictions. Therefore, energy availability, either in isolation or in combination with local deterministic processes, was unable to explain coral species richness across depth. Our results demonstrate that local-scale processes do not necessarily explain deviations in species richness from theoretical models, and that the use of idiosyncratic small-scale factors to explain large-scale ecological patterns requires the utmost caution.

Published

2019

28. Species richness and functional structure of fish assemblages in three freshwater habitats: effects of environmental factors and management.

Author

Queiroz-Sousa J, Keith SA, David GS, Brandão H, Nobile AB, Paes JVK, Souto AC, Lima FP, Silva RJ, Henry R, and Richardson K

Subjects

Animals, Brazil, Fishes classification, Introduced Species, Biodiversity, Fishes physiology, Fresh Water

Abstract

In this study, the inverted trophic hypothesis was tested in the freshwater fish communities of a reservoir. The distribution of fish species in three freshwater habitats in the Jurumirim Reservoir, Brazil, was examined using both species richness and the relative proportions of different trophic groups. These groups were used as a proxy for functional structure in an attempt to test the ability of these measures to assess fish diversity. Assemblage structures were first described using non-metric multidimensional scaling (NMDS). The influence of environmental conditions for multiple fish assemblage response variables (richness, total abundance and abundance per trophic group) was tested using generalised linear mixed models (GLMM). The metric typically employed to describe diversity; that is, species richness, was not related to environmental conditions. However, absolute species abundance was relatively well explained with up to 54% of the variation in the observed data accounted for. Differences in the dominance of trophic groups were most apparent in response to the presence of introduced fish species: the iliophagous and piscivorous trophic groups were positively associated, while detritivores and herbivores were negatively associated, with the alien species. This suggests that monitoring functional diversity might be more valuable than species diversity for assessing effects of disturbances and managements policies on the fish community., (© 2019 The Fisheries Society of the British Isles.)

Published

2019

29. Animal cultures matter for conservation.

Author

Brakes P, Dall SRX, Aplin LM, Bearhop S, Carroll EL, Ciucci P, Fishlock V, Ford JKB, Garland EC, Keith SA, McGregor PK, Mesnick SL, Noad MJ, di Sciara GN, Robbins MM, Simmonds MP, Spina F, Thornton A, Wade PR, Whiting MJ, Williams J, Rendell L, Whitehead H, Whiten A, and Rutz C

Subjects

Animals, Elephants, Pan troglodytes, Conservation of Natural Resources, Culture, Social Learning

Published

2019

30. Proteomic identification of virulence-related factors in young and aging C. elegans infected with Pseudomonas aeruginosa.

Author

King CD, Singh D, Holden K, Govan AB, Keith SA, Ghazi A, and Robinson RAS

Subjects

Animals, Aging, Bacterial Proteins metabolism, Caenorhabditis elegans metabolism, Caenorhabditis elegans microbiology, Caenorhabditis elegans Proteins metabolism, Pseudomonas Infections metabolism, Pseudomonas aeruginosa metabolism, Pseudomonas aeruginosa pathogenicity, Virulence Factors metabolism

Abstract

The molecular mechanisms that distinguish immunosenescence from general age-related decline are poorly understood. We addressed this by exposing Day 1 and Day 5 adults of Caenorhabditis elegans to Pseudomonas aeruginosa strain PA01, an opportunistic pathogen. Day 5 adult C. elegans exhibited greater vulnerability to infection as compared to Day 1 C. elegans. Using TMT 6 -plex isobaric labeling and reductive dimethylation, we identified 55 proteins whose levels were altered following infection of Day 1 and Day 5 adults. Proteins whose levels changed in response to infection at both ages were strongly enriched for locomotory functions underscoring the importance of pathogen avoidance mechanisms. In Day 1 C. elegans, proteins with reproductive functions were highly enriched, whereas, Day 5 worms showed elevated levels of factors representing stress response pathways such as unfolded protein response (UPR) and metabolic functions. We also found that PA01 infection is associated with elevated protein carbonylation, an irreversible marker for oxidative stress. We explored the function of UNC-60, a cytoskeletal protein whose levels were changed by both age and infection, and found that mutants of unc-60 have reduced lifespan. Overall, our data provide novel insights into the relationship between age and immunosenescence in metazoans., Significance: There are gaps in our knowledge pertaining to how aging influences an organism's response to pathogen exposure. In C. elegans, pathogen exposure to P. aeruginosa PA01 results in shortened lifespan, which is more pronounced in Day 5, compared to Day 1 adult worms. The proteome has age-specific responses to this exposure, and notably affects development, reproduction, metabolism, protein folding/unfolding, locomotion, and response to stress. This study addresses the molecular links between aging and immunosenescence in invertebrates., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

31. Mechanism, Process, and Causation in Ecological Models: A Reply to McGill and Potochnik.

Author

Connolly SR, Keith SA, Colwell RK, and Rahbek C

Subjects

Causality, Models, Theoretical

Published

2018

32. Corrigendum: The Coral Trait Database, a curated database of trait information for coral species from the global oceans.

Author

Madin JS, Anderson KD, Andreasen MH, Bridge TCL, Cairns SD, Connolly SR, Darling ES, Diaz M, Falster DS, Franklin EC, Gates RD, Harmer AMT, Hoogenboom MO, Huang D, Keith SA, Kosnik MA, Kuo CY, Lough JM, Lovelock CE, Luiz O, Martinelli J, Mizerek T, Pandolfi JM, Pochon X, Pratchett MS, Putnam HM, Roberts TE, Stat M, Wallace CC, Widman E, and Baird AH

Abstract

This corrects the article DOI: 10.1038/sdata.2016.17.

Published

2017

33. Process, Mechanism, and Modeling in Macroecology.

Author

Connolly SR, Keith SA, Colwell RK, and Rahbek C

Subjects

Geography, Ecology methods, Models, Theoretical

Abstract

Macroecology has traditionally relied on descriptive characterization of large-scale ecological patterns to offer narrative explanations for the origin and maintenance of those patterns. Only recently have macroecologists begun to employ models termed 'process-based' and 'mechanistic', in contrast to other areas of ecology, where such models have a longer history. Here, we define and differentiate between process-based and mechanistic features of models, and we identify and discuss important advantages of working with models possessing such features. We describe some of the risks associated with process-based and mechanistic model-centered research programs, and we propose ways to mitigate these risks. Giving process-based and mechanistic models a more central role in research programs can reinvigorate macroecology by strengthening the link between theory and data., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

34. Rapid coral mortality following unusually calm and hot conditions on Iriomote, Japan.

Author

Baird AH, Keith SA, Woolsey E, Yoshida R, and Naruse T

Abstract

Coral bleaching can be induced by many different stressors, however, the most common cause of mass bleaching in the field is higher than average sea surface temperatures (SST). Here, we describe an unusual bleaching event that followed very calm sea conditions combined with higher than average SST. Patterns of mortality differed from typical bleaching in four ways: 1) mortality was very rapid; 2) a different suite of species were most affected; 3) tissue mortality in Acropora spp. was often restricted to the center of the colony; 4) the event occurred early in summer. The two weeks prior to the event included 8 days where the average wind speed was less than 3 ms -1 . In addition, SSTs in the weeks preceding and during the event were 1.0-1.5°C higher than the mean for the last 30 years. We hypothesize that this unusual bleaching event was caused by anoxia resulting from a lack of water movement induced by low wind speeds combined with high SST., Competing Interests: No competing interests were disclosed.

Published

2017

35. Rapid coral mortality following doldrums-like conditions on Iriomote, Japan.

Author

Baird AH, Keith SA, Woolsey E, Yoshida R, and Naruse T

Abstract

Coral bleaching can be induced by many different stressors, however, the most common cause of mass bleaching in the field is high sea temperatures (SST). Here, we describe an unusual bleaching event that followed very calm sea conditions combined with higher than average sea surface temperatures (SST). Patterns of mortality differed from typical thermal bleaching in four ways: 1) mortality was very rapid; 2) the suite of species most affected was different; 3) tissue mortality in Acropora spp. was often restricted to the center of the colony; 4) the event occurred early in the summer. The two weeks prior to the event included 8 days where the average wind speed was less than 3 ms -1 . In addition, SSTs in the weeks preceding this event were 1.0-1.5°C higher than the mean for the last 30 years. We hypothesize that the lack of water movement induced by low wind speeds combined with high SST to cause colonies anoxic stress resulting in this unusual bleaching event., Competing Interests: Competing interests: No competing interests were disclosed.

Published

2017

36. A Trait-Based Approach to Advance Coral Reef Science.

Author

Madin JS, Hoogenboom MO, Connolly SR, Darling ES, Falster DS, Huang D, Keith SA, Mizerek T, Pandolfi JM, Putnam HM, and Baird AH

Subjects

Animals, Anthozoa, Ecology, Phenotype, Coral Reefs, Ecosystem

Abstract

Coral reefs are biologically diverse and ecologically complex ecosystems constructed by stony corals. Despite decades of research, basic coral population biology and community ecology questions remain. Quantifying trait variation among species can help resolve these questions, but progress has been hampered by a paucity of trait data for the many, often rare, species and by a reliance on nonquantitative approaches. Therefore, we propose filling data gaps by prioritizing traits that are easy to measure, estimating key traits for species with missing data, and identifying 'supertraits' that capture a large amount of variation for a range of biological and ecological processes. Such an approach can accelerate our understanding of coral ecology and our ability to protect critically threatened global ecosystems., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

37. Coral mass spawning predicted by rapid seasonal rise in ocean temperature.

Author

Keith SA, Maynard JA, Edwards AJ, Guest JR, Bauman AG, van Hooidonk R, Heron SF, Berumen ML, Bouwmeester J, Piromvaragorn S, Rahbek C, and Baird AH

Subjects

Animals, Coral Reefs, Indian Ocean, Pacific Ocean, Photosynthesis, Rain, Reproduction, Seasons, Spatio-Temporal Analysis, Sunlight, Temperature, Wind, Anthozoa physiology

Abstract

Coral spawning times have been linked to multiple environmental factors; however, to what extent these factors act as generalized cues across multiple species and large spatial scales is unknown. We used a unique dataset of coral spawning from 34 reefs in the Indian and Pacific Oceans to test if month of spawning and peak spawning month in assemblages of Acropora spp. can be predicted by sea surface temperature (SST), photosynthetically available radiation, wind speed, current speed, rainfall or sunset time. Contrary to the classic view that high mean SST initiates coral spawning, we found rapid increases in SST to be the best predictor in both cases (month of spawning: R(2) = 0.73, peak: R(2) = 0.62). Our findings suggest that a rapid increase in SST provides the dominant proximate cue for coral mass spawning over large geographical scales. We hypothesize that coral spawning is ultimately timed to ensure optimal fertilization success., (© 2016 The Author(s).)

Published

2016

38. The Coral Trait Database, a curated database of trait information for coral species from the global oceans.

Author

Madin JS, Anderson KD, Andreasen MH, Bridge TC, Cairns SD, Connolly SR, Darling ES, Diaz M, Falster DS, Franklin EC, Gates RD, Harmer A, Hoogenboom MO, Huang D, Keith SA, Kosnik MA, Kuo CY, Lough JM, Lovelock CE, Luiz O, Martinelli J, Mizerek T, Pandolfi JM, Pochon X, Pratchett MS, Putnam HM, Roberts TE, Stat M, Wallace CC, Widman E, and Baird AH

Subjects

Animals, Coral Reefs, Ecosystem, Oceans and Seas, Phylogeny, Anthozoa, Databases, Factual

Abstract

Trait-based approaches advance ecological and evolutionary research because traits provide a strong link to an organism's function and fitness. Trait-based research might lead to a deeper understanding of the functions of, and services provided by, ecosystems, thereby improving management, which is vital in the current era of rapid environmental change. Coral reef scientists have long collected trait data for corals; however, these are difficult to access and often under-utilized in addressing large-scale questions. We present the Coral Trait Database initiative that aims to bring together physiological, morphological, ecological, phylogenetic and biogeographic trait information into a single repository. The database houses species- and individual-level data from published field and experimental studies alongside contextual data that provide important framing for analyses. In this data descriptor, we release data for 56 traits for 1547 species, and present a collaborative platform on which other trait data are being actively federated. Our overall goal is for the Coral Trait Database to become an open-source, community-led data clearinghouse that accelerates coral reef research.

Published

2016

39. Tracking Animal Dispersal: From Individual Movement to Community Assembly and Global Range Dynamics.

Author

Jønsson KA, Tøttrup AP, Borregaard MK, Keith SA, Rahbek C, and Thorup K

Subjects

Animals, Movement, Animal Distribution, Biodiversity, Models, Biological

Abstract

Dispersal is one of the key processes in shaping distributional ranges and community assemblages, but we know little about animal dispersal at the individual, population, or community levels, or about how dispersal correlates with the establishment and colonization of new areas. This is largely due to difficulties in studying individual movements at the relevant spatiotemporal scale, leading to a gap between the direct study of dispersal and our understanding of the build-up of larger-scale biodiversity. Recent advances in tracking technology make it possible to bridge this gap. We propose a way to link movement, dispersal, ecology, and biogeography. In particular, we offer a framework to scale-up from processes at the individual level to global patterns of biodiversity., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

40. Graded Proteasome Dysfunction in Caenorhabditis elegans Activates an Adaptive Response Involving the Conserved SKN-1 and ELT-2 Transcription Factors and the Autophagy-Lysosome Pathway.

Author

Keith SA, Maddux SK, Zhong Y, Chinchankar MN, Ferguson AA, Ghazi A, and Fisher AL

Subjects

Animals, Cell Nucleus metabolism, Cell Survival, Conserved Sequence, Digestive System metabolism, Gene Expression Regulation, Heat-Shock Response genetics, Mutation genetics, Oxidative Stress, Protein Folding, Protein Subunits metabolism, Sequence Analysis, RNA, Stress, Physiological, Ubiquitin metabolism, Adaptation, Physiological, Autophagy, Caenorhabditis elegans metabolism, Caenorhabditis elegans Proteins metabolism, DNA-Binding Proteins metabolism, GATA Transcription Factors metabolism, Lysosomes metabolism, Proteasome Endopeptidase Complex metabolism, Transcription Factors metabolism

Abstract

The maintenance of cellular proteins in a biologically active and structurally stable state is a vital endeavor involving multiple cellular pathways. One such pathway is the ubiquitin-proteasome system that represents a major route for protein degradation, and reductions in this pathway usually have adverse effects on the health of cells and tissues. Here, we demonstrate that loss-of-function mutants of the Caenorhabditis elegans proteasome subunit, RPN-10, exhibit moderate proteasome dysfunction and unexpectedly develop both increased longevity and enhanced resistance to multiple threats to the proteome, including heat, oxidative stress, and the presence of aggregation prone proteins. The rpn-10 mutant animals survive through the activation of compensatory mechanisms regulated by the conserved SKN-1/Nrf2 and ELT-2/GATA transcription factors that mediate the increased expression of genes encoding proteasome subunits as well as those mediating oxidative- and heat-stress responses. Additionally, we find that the rpn-10 mutant also shows enhanced activity of the autophagy-lysosome pathway as evidenced by increased expression of the multiple autophagy genes including atg-16.2, lgg-1, and bec-1, and also by an increase in GFP::LGG-1 puncta. Consistent with a critical role for this pathway, the enhanced resistance of the rpn-10 mutant to aggregation prone proteins depends on autophagy genes atg-13, atg-16.2, and prmt-1. Furthermore, the rpn-10 mutant is particularly sensitive to the inhibition of lysosome activity via either RNAi or chemical means. We also find that the rpn-10 mutant shows a reduction in the numbers of intestinal lysosomes, and that the elt-2 gene also plays a novel and vital role in controlling the production of functional lysosomes by the intestine. Overall, these experiments suggest that moderate proteasome dysfunction could be leveraged to improve protein homeostasis and organismal health and longevity, and that the rpn-10 mutant provides a unique platform to explore these possibilities.

Published

2016

41. The C. elegans lifespan assay toolkit.

Author

Amrit FR, Ratnappan R, Keith SA, and Ghazi A

Subjects

Aging physiology, Animals, Caenorhabditis elegans physiology, Humans, Longevity physiology, Models, Animal, Mutation, Aging genetics, Biological Assay methods, Caenorhabditis elegans genetics, Longevity genetics

Abstract

Since the discovery of single gene mutations that double its lifespan, the nematode Caenorhabditis elegans has provided remarkable insights into the biology of aging. The precisely measurable lifespan of worms has proven to be an efficient tool to assess the impact of various genetic, physiological and environmental factors on organismal aging. In this article, we describe methods to set up and monitor experiments to determine worm lifespan. We include procedures used for classical, small-scale lifespan assays that are generally performed on solid media, and review recent advances in high-throughput, automated longevity experiments conducted in liquid culture and microfluidic devices. In addition, tools that help analyze this data to obtain survival statistics are summarized, and C. elegans strains that offer particular advantages for lifespan studies are listed., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

42. The C. elegans healthspan and stress-resistance assay toolkit.

Author

Keith SA, Amrit FR, Ratnappan R, and Ghazi A

Subjects

Aging physiology, Animals, Caenorhabditis elegans physiology, Environmental Exposure, Humans, Models, Animal, Mutation, Aging genetics, Caenorhabditis elegans genetics, Stress, Physiological genetics

Abstract

A wealth of knowledge on the genetic mechanisms that govern aging has emerged from the study of mutants that exhibit enhanced longevity and exceptional resilience to adverse environmental conditions. In these studies, lifespan has been an excellent proxy for establishing the rate of aging, but it is not always correlated with qualitative measures of healthy aging or 'healthspan'. Although the attributes of healthspan have been challenging to define, they share some universal features that are increasingly being incorporated into aging studies. Here we describe methods used to determine Caenorhabditis elegans healthspan. These include assessments of tissue integrity and functionality and resistance to a variety of biotic and abiotic stressors. We have chosen to include simple, rapid assays in this collection that can be easily undertaken in any C. elegans laboratory, and can be relied on to provide a preliminary but thorough insight into the healthspan of a population., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

43. Faunal breaks and species composition of Indo-Pacific corals: the role of plate tectonics, environment and habitat distribution.

Author

Keith SA, Baird AH, Hughes TP, Madin JS, and Connolly SR

Subjects

Animals, Coral Reefs, Ecological and Environmental Phenomena, Environment, Pacific Ocean, Species Specificity, Anthozoa classification, Anthozoa physiology, Ecosystem, Geological Phenomena

Abstract

Species richness gradients are ubiquitous in nature, but the mechanisms that generate and maintain these patterns at macroecological scales remain unresolved. We use a new approach that focuses on overlapping geographical ranges of species to reveal that Indo-Pacific corals are assembled within 11 distinct faunal provinces. Province limits are characterized by co-occurrence of multiple species range boundaries. Unexpectedly, these faunal breaks are poorly predicted by contemporary environmental conditions and the present-day distribution of habitat. Instead, faunal breaks show striking concordance with geological features (tectonic plates and mantle plume tracks). The depth range over which a species occurs, its larval development rate and genus age are important determinants of the likelihood that species will straddle faunal breaks. Our findings indicate that historical processes, habitat heterogeneity and species colonization ability account for more of the present-day biogeographical patterns of corals than explanations based on the contemporary distribution of reefs or environmental conditions.

Published

2013

44. What is macroecology?

Author

Keith SA, Webb TJ, Böhning-Gaese K, Connolly SR, Dulvy NK, Eigenbrod F, Jones KE, Price T, Redding DW, Owens IP, and Isaac NJ

Subjects

Geography, Time Factors, Ecology methods, Ecology trends, Ecosystem, Models, Biological

Abstract

The symposium 'What is Macroecology?' was held in London on 20 June 2012. The event was the inaugural meeting of the Macroecology Special Interest Group of the British Ecological Society and was attended by nearly 100 scientists from 11 countries. The meeting reviewed the recent development of the macroecological agenda. The key themes that emerged were a shift towards more explicit modelling of ecological processes, a growing synthesis across systems and scales, and new opportunities to apply macroecological concepts in other research fields.

Published

2012

45. Taxonomic homogenization of woodland plant communities over 70 years.

Author

Keith SA, Newton AC, Morecroft MD, Bealey CE, and Bullock JM

Subjects

England, Population Dynamics, Time, Ecosystem, Plants classification

Abstract

Taxonomic homogenization (TH) is the increasing similarity of the species composition of ecological communities over time. Such homogenization represents a form of biodiversity loss and can result from local species turnover. Evidence for TH is limited, reflecting a lack of suitable historical datasets, and previous analyses have generated contrasting conclusions. We present an analysis of woodland patches across a southern English county (Dorset) in which we quantified 70 years of change in the composition of vascular plant communities. We tested the hypotheses that over this time patches decreased in species richness, homogenized, or shifted towards novel communities. Although mean species richness at the patch scale did not change, we found increased similarity in species composition among woodlands over time. We concluded that the woodlands have undergone TH without experiencing declines in local diversity or shifts towards novel communities. Analysis of species characteristics suggested that these changes were not driven by non-native species invasions or climate change, but instead reflected reorganization of the native plant communities in response to eutrophication and increasingly shaded conditions. These analyses provide, to our knowledge, the first direct evidence of TH in the UK and highlight the potential importance of this phenomenon as a contributor to biodiversity loss.

Published

2009