Your search keyword '"Michaela Hau"' showing total 125 results

1. Commentary on Thoral et al. (2024) ‘The relationship between mitochondrial respiration, resting metabolic rate and blood cell count in great tits’

Author

Kasja Malkoc, Michaela Hau, Scott McWilliams, Edyta Teresa Sadowska, Maciej Dzialo, Barbara Pierce, Lisa Trost, Ulf Bauchinger, Eve Udino, and Stefania Casagrande

Subjects

Science, Biology (General), QH301-705.5

Published

2024

2. Mitochondrial function is enhanced by thyroid hormones during zebra finch development

Author

Marlene Oefele, Michaela Hau, Suvi Ruuskanen, and Stefania Casagrande

Subjects

mitochondria, thyroid hormones, cellular respiration, growth, metabolism, Science

Abstract

An organism’s response to its environment is largely determined by changes in the energy supplied by aerobic mitochondrial metabolism via adenosine triphosphate (ATP) production. ATP is especially important under energy-demanding conditions, such as during rapid growth. It is currently poorly understood how environmental factors influence energy metabolism and mitochondrial functioning, but recent studies suggest the role of thyroid hormones (TH). TH are key regulators of growth and metabolism and can be flexibly adjusted to environmental conditions, such as environmental temperature or food availability. To test whether TH enhancement is causally linked to mitochondrial function and growth, we provided TH orally at physiological concentrations during the main growth phase in zebra finch (Taeniopygia guttata) nestlings reared in a challenging environment. TH treatment accelerated maximal mitochondrial working capacity—a trait that reflects mitochondrial ATP production, without affecting growth. To our knowledge, this is the first study to characterize the regulation of mitochondria by TH during development in a semi-naturalistic context and to address implications for fitness-related traits, such as growth.

Published

2024

3. Baseline glucocorticoids alone do not predict reproductive success across years, but in interaction with enzymatic antioxidants

Author

Lucia Mentesana, Stefania Casagrande, and Michaela Hau

Subjects

body condition, corticosterone, fitness, glucocorticoids, oxidative stress, physiological network, Ecology, QH540-549.5

Abstract

Abstract Glucocorticoids are known to adjust organismal functions, such as metabolism, in response to environmental conditions. Therefore, these hormones are thought to play a key role in regulating the metabolically demanding aspects of reproduction, especially in variable environments. However, support for the hypothesis that variation in glucocorticoid concentrations predicts reproductive success is decidedly mixed. Two explanations may account for this discrepancy: (i) Glucocorticoids might not act independently but could interact with other physiological traits, jointly influencing reproduction, and (ii) such an association could become apparent primarily in challenging environments when glucocorticoid concentrations increase. To address these two possibilities, we determined natural variation in circulating baseline glucocorticoid concentrations in parental great tits (Parus major) alongside two physiological systems known to be related with an individual's metabolism: oxidative status parameters (i.e., concentrations of pro‐oxidants, dietary, and enzymatic antioxidants) and body condition. These systems interact with glucocorticoids and can also influence reproductive success. We measured these variables in two breeding seasons that differed in environmental conditions. When accounting for the interaction of baseline glucocorticoids with other physiological traits, we found a positive relationship between baseline glucocorticoids and the number of fledglings in adult great tits. The strength of this relationship was more pronounced for those individuals who also had high concentrations of the enzymatic antioxidant glutathione peroxidase. When studied independently, glucocorticoids were not related to fitness proxies, even in the year with more challenging environmental conditions. Together, our study lend to support the hypothesis that glucocorticoids do not influence fitness alone, but in association with other physiological systems.

Published

2024

4. Mitochondrial metabolism in blood more reliably predicts whole-animal energy needs compared to other tissues

Author

Stefania Casagrande, Maciej Dzialo, Lisa Trost, Kasja Malkoc, Edyta Teresa Sadowska, Michaela Hau, Barbara Pierce, Scott McWilliams, and Ulf Bauchinger

Subjects

Ornithology, Physiology, Evolutionary biology, Science

Abstract

Summary: Understanding energy metabolism in free-ranging animals is crucial for ecological studies. In birds, red blood cells (RBCs) offer a minimally invasive method to estimate metabolic rate (MR). In this study with European starlings Sturnus vulgaris, we examined how RBC oxygen consumption relates to oxygen use in key tissues (brain, liver, heart, and pectoral muscle) and versus the whole organism measured at basal levels. The pectoral muscle accounted for 34%–42% of organismal MR, while the heart and liver, despite their high mass-specific metabolic rate, each contributed 2.5%–3.0% to organismal MR. Despite its low contribution to organismal MR (0.03%–0.04%), RBC MR best predicted organismal MR (r = 0.70). Oxygen consumption of the brain and pectoralis was also associated with whole-organism MR, unlike that of heart and liver. Overall, our findings demonstrate that the metabolism of a systemic tissue like blood is a superior proxy for organismal energy metabolism than that of other tissues.

Published

2023

5. Natural variation in yolk fatty acids, but not androgens, predicts offspring fitness in a wild bird

Author

Lucia Mentesana, Martin N. Andersson, Stefania Casagrande, Wolfgang Goymann, Caroline Isaksson, and Michaela Hau

Subjects

Maternal effects, Fitness, Phenotypic variance, Steroid hormones, Antioxidants, Fatty acids, Zoology, QL1-991

Abstract

Abstract Background In egg-laying animals, mothers can influence the developmental environment and thus the phenotype of their offspring by secreting various substances into the egg yolk. In birds, recent studies have demonstrated that different yolk substances can interactively affect offspring phenotype, but the implications of such effects for offspring fitness and phenotype in natural populations have remained unclear. We measured natural variation in the content of 31 yolk components known to shape offspring phenotypes including steroid hormones, antioxidants and fatty acids in eggs of free-living great tits (Parus major) during two breeding seasons. We tested for relationships between yolk component groupings and offspring fitness and phenotypes. Results Variation in hatchling and fledgling numbers was primarily explained by yolk fatty acids (including saturated, mono- and polyunsaturated fatty acids) - but not by androgen hormones and carotenoids, components previously considered to be major determinants of offspring phenotype. Fatty acids were also better predictors of variation in nestling oxidative status and size than androgens and carotenoids. Conclusions Our results suggest that fatty acids are important yolk substances that contribute to shaping offspring fitness and phenotype in free-living populations. Since polyunsaturated fatty acids cannot be produced de novo by the mother, but have to be obtained from the diet, these findings highlight potential mechanisms (e.g., weather, habitat quality, foraging ability) through which environmental variation may shape maternal effects and consequences for offspring. Our study represents an important first step towards unraveling interactive effects of multiple yolk substances on offspring fitness and phenotypes in free-living populations. It provides the basis for future experiments that will establish the pathways by which yolk components, singly and/or interactively, mediate maternal effects in natural populations.

Published

2021

6. Inferring Whole-Organism Metabolic Rate From Red Blood Cells in Birds

Author

Kasja Malkoc, Stefania Casagrande, and Michaela Hau

Subjects

avian erythrocytes, glucocorticoids, aerobic metabolism, respirometry, stress response, mitochondria, Physiology, QP1-981

Abstract

Metabolic rate is a key ecological variable that quantifies the energy expenditure needed to fuel almost all biological processes in an organism. Metabolic rates are typically measured at the whole-organism level (woMR) with protocols that can elicit stress responses due to handling and confinement, potentially biasing resulting data. Improved, non-stressful methodology would be especially valuable for measures of field metabolic rate, which quantifies the energy expenditure of free-living individuals. Recently, techniques to measure cellular metabolic rate (cMR) in mitochondria of blood cells have become available, suggesting that blood-based cMR can be a proxy of organismal aerobic performance. Aerobic metabolism actually takes place in the mitochondria. Quantifying cMR from blood samples offers several advantages such as direct estimates of metabolism and minimized disturbance of individuals. To our knowledge, the hypothesis that blood-based cMR correlates with woMR has not yet been directly tested. We measured cMR in red blood cells of captive great tits (Parus major), first during their morning activity period and second after subjecting them to a 2.5 h day-time respirometry protocol to quantify woMR. We predicted cMR to decrease as individuals transitioned from an active to a resting state. In the two blood samples we also assessed circulating corticosterone concentrations to determine the perceived disturbance of individuals. From respirometry traces we extracted initial and final woMR measures to test for a predicted positive correlation with cMR measures, while accounting for corticosterone concentrations. Indeed, cMR declined from the first to the second measurement. Furthermore, woMR and cMR were positively related in individuals that had relatively low corticosterone concentrations and displayed little locomotor activity throughout respirometry. By contrast, woMR and cMR covaried negatively in birds that increased corticosterone concentrations and activity levels substantially. Our results show that red blood cell cMR represents a proxy for woMR when birds do not display signs of stress, i.e., either before increases in hormonal or behavioral parameters have occurred or after they have abated. This method represents a valuable tool for obtaining metabolic data repeatedly and in free-living individuals. Our findings also highlight the importance of accounting for individual stress responses when measuring metabolic rate at any level.

Published

2021

7. Flight performance and feather quality: paying the price of overlapping moult and breeding in a tropical highland bird.

Author

Maria Angela Echeverry-Galvis and Michaela Hau

Subjects

Medicine, Science

Abstract

A temporal separation of energetically costly life history events like reproduction and maintenance of the integumentary system is thought to be promoted by selection to avoid trade-offs and maximize fitness. It has therefore remained somewhat of a paradox that certain vertebrate species can undergo both events simultaneously. Identifying potential costs of overlapping two demanding life history stages will further our understanding of the selection pressures that shape the temporal regulation of life history events in vertebrates. We studied free-living tropical Slaty brush-finches (Atlapetes schistaceus), in which individuals spontaneously overlap reproduction and moult or undergo both events in separation. To assess possible costs of such an overlap we quantified feather quality and flight performance of individuals in different states. We determined individual's life history state by measuring gonad size and scoring moult stage, and collected a newly grown 7(th) primary wing feather for later analysis of feather quality. Finally, we quantified flight performance for each individual in the wild. Overlapping individuals produced lighter and shorter wing feathers than individuals just moulting, with females decreasing feather quality more strongly during the overlap than males. Moreover, overlapping individuals had a reduced flight speed during escape flights, while their foraging flight speed was unaffected. Despite overlappers being larger and having a smaller wing area, their lower body mass resulted in a similar wing load as in breeders or moulters. Individuals measured repeatedly in different states also showed significant decreases in feather quality and escape flight speed during the overlap. Reduced escape flight speed may represent a major consequence of the overlap by increasing predation risk. Our data document costs to undergoing two life history stages simultaneously, which likely arise from energetic trade-offs. Impairments in individual quality and performance may represent important factors that select for temporal separation of life history stages in other species.

Published

2013

8. Anticipating spring: wild populations of great tits (Parus major) differ in expression of key genes for photoperiodic time measurement.

Author

Nicole Perfito, Sun Young Jeong, Bengt Silverin, Rebecca M Calisi, George E Bentley, and Michaela Hau

Subjects

Medicine, Science

Abstract

Measuring day length is critical for timing annual changes in physiology and behavior in many species. Recently, rapid changes in several photoperiodically-controlled genes following exposure to a single long day have been described. Components of this 'first day release' model have so far only been tested in highly domesticated species: quail, sheep, goats and rodents. Because artificial selection accompanying domestication acts on genes related to photoperiodicity, we must also study this phenomenon in wild organisms for it to be accepted as universal. In a songbird, the great tit (Parus major), we tested whether a) these genes are involved in photoperiodic time measurement (PTM) in a wild species, and b) whether predictable species and population differences in expression patterns exist. Using quantitative RT-PCR, we compared gene expression after a single long day in male great tits from Sweden (57°42'N) with that from a German (47°43'N) population. Hypothalamic gene expression key for PTM changed only in the northern population, and occurred earlier after dawn during the single long day than demonstrated in quail; however, gonadotropins (secretion and synthesis) were stimulated in both populations, albeit with different timing. Our data are the first to show acute changes in gene expression in response to photostimulation in any wild species not selected for study of photoperiodism. The pronounced differences in gene expression in response to a single long day between two populations raise exciting new questions about potential environmental selection on photoperiodic cue sensitivity.

Published

2012

9. Dietary nucleotides can prevent glucocorticoid-induced telomere attrition in a fast-growing wild vertebrate

Author

Stefania Casagrande, Jasmine Loveland, Marlene Oefele, Winnie Boner, Sara Lupi, Antoine Stier, and Michaela Hau

Abstract

Telomeres are chromosome protectors that shorten during cell replication and in stressful conditions. Developing individuals are susceptible to telomere erosion when their growth is fast and resources limited. This is critical because the rate of telomere attrition in early life is linked to health and life span of adults. The metabolic telomere attrition hypothesis (MeTA) suggests that telomere dynamics can respond to biochemical signals conveying information about the organism’s energetic state. Among these signals are glucocorticoids (hormones that promote catabolic processes, potentially impairing costly telomere maintenance) and nucleotides, which activate anabolic pathways though the cellular enzyme target of rapamycin (TOR) preventing telomere attrition. During the energetically demanding growth phase, the regulation of telomeres in response to two contrasting signals—one promoting telomere maintenance and the other inducing attrition—provides an ideal experimental setting to test MeTa. We studied nestlings of a rapidly developing free-living passerine, the great tit (Parus major), that either received glucocorticoids (Cort-chicks), nucleotides (Nuc-chicks), or a combination of both (NucCort-chicks) all compared with controls (Cnt-chicks). Contrary to Cort-chicks, which showed telomere attrition, NucCort-chicks, did not. NucCort-chicks was the only group showing increased gene expression of telo2 (proxy for TOR activation), of mitochondrial enzymes linked to ATP production (atp5f1a-atp5f1b-cox6a1-cox4) and a higher efficiency in aerobically producing ATP. NucCort-chicks had also a higher expression of telomere maintenance genes (trf2) and of enzymatic antioxidant genes (gpx4-sod1). The findings show that nucleotides availability is crucial for preventing telomere erosion during fast growth in stressful environments.

Published

2023

10. Quantifying Glucocorticoid Plasticity Using Reaction Norm Approaches: There Still is So Much to Discover!

Author

Lucia Mentesana, Kasja Malkoc, Stefania Casagrande, and Michaela Hau

Subjects

Endocrine System, Plant Science, Variance (accounting), Plasticity, Biology, Hormonal Change, Phenotype, Variation (linguistics), Evolutionary biology, Physical Conditioning, Animal, ddc:570, medicine, Animals, Animal Science and Zoology, Evolutionary ecology, Norm (social), Glucocorticoid hormones, Glucocorticoids, Glucocorticoid, medicine.drug

Abstract

Hormones are highly responsive internal signals that help organisms adjust their phenotype to fluctuations in environmental and internal conditions. Our knowledge of the causes and consequences of variations in circulating hormone concentrations has improved greatly in the past. However, this knowledge comes from population-level studies which generally tend to make the flawed assumption that all individuals respond in the same way to environmental changes. Here, we advocate that we can vastly expand our understanding of the ecology and evolution of hormonal traits once we acknowledge the existence of individual differences by quantifying hormonal plasticity at the individual level, where selection acts. In this review, we use glucocorticoid hormones as examples of highly plastic endocrine traits that interact intimately with energy metabolism but also with other organismal traits like behavior and physiology. First, we highlight the insights gained by repeatedly assessing an individual's glucocorticoid concentrations along a gradient of environmental or internal conditions using a 'reaction norm approach'. This study design should be followed by a hierarchical statistical partitioning of the total endocrine variance into the among-individual component (individual differences in average hormone concentrations, i.e. in the intercept of the reaction norm) and the residual (within-individual) component. The latter is ideally further partitioned by estimating more precisely the hormonal plasticity (i.e. the slope of the reaction norm), which allows to test whether individuals differ in the degree of hormonal change along the gradient. Second, we critically review the published evidence for glucocorticoid variation, focusing mostly on among- and within-individual levels, finding only a good handful of studies that used repeated-measures designs and random regression statistics to investigate glucocorticoid plasticity. These studies indicate that individuals can differ in both the intercept and the slope of their glucocorticoid reaction norm to a known gradient. Third, we suggest rewarding avenues for future work on hormonal reaction norms, for example to uncover potential costs and trade-offs associated with glucocorticoid plasticity or to test whether glucocorticoid plasticity varies when an individual's reaction norm is repeatedly assessed along the same gradient, whether reaction norms in glucocorticoids covary with those in other traits like behavior and fitness (generating multivariate plasticity) or to quantify glucocorticoid reaction norms along multiple external and internal gradients that act simultaneously (leading to multidimensional plasticity). Throughout this review we emphasize the power that reaction norm approaches offer for resolving unanswered questions in ecological and evolutionary endocrinology.

Published

2021

11. Great tits differ in glucocorticoid plasticity in response to spring temperature

Author

Michaela Hau, Caroline Deimel, and Maria Moiron

Subjects

General Immunology and Microbiology, Reproduction, Temperature, General Medicine, General Biochemistry, Genetics and Molecular Biology, ddc:570, Vertebrates, Humans, Animals, Passeriformes, Seasons, General Agricultural and Biological Sciences, Glucocorticoids, General Environmental Science

Abstract

Fluctuations in environmental temperature affect energy metabolism and stimulate the expression of reversible phenotypic plasticity in vertebrate behavioural and physiological traits. Changes in circulating concentrations of glucocorticoid hormones often underpin environmentally induced phenotypic plasticity. Ongoing climate change is predicted to increase fluctuations in environmental temperature globally, making it imperative to determine the standing phenotypic variation in glucocorticoid responses of free-living populations to evaluate their potential for coping via plastic or evolutionary changes. Using a reaction norm approach, we repeatedly sampled wild great tit ( Parus major ) individuals for circulating glucocorticoid concentrations during reproduction across five years to quantify individual variation in glucocorticoid plasticity along an environmental temperature gradient. As expected, baseline and stress-induced glucocorticoid concentrations increased with lower environmental temperatures at the population and within-individual level. Moreover, we provide unique evidence that individuals differ significantly in their plastic responses to the temperature gradient for both glucocorticoid traits, with some displaying greater plasticity than others. Average concentrations and degree of plasticity covaried for baseline glucocorticoids, indicating that these two reaction norm components are linked. Hence, individual variation in glucocorticoid plasticity in response to a key environmental factor exists in a wild vertebrate population, representing a crucial step to assess their potential to endure temperature fluctuations.

Published

2022

12. Eberhard Gwinner

Author

Barbara Helm, Michaela Hau, and Wolfgang Goymann

Published

2022

13. Macroevolutionary Patterning in Glucocorticoids Suggests Different Selective Pressures Shape Baseline and Stress-Induced Levels

Author

Wolfgang Goymann, Cynthia J. Downs, Michele A. Johnson, Clinton D. Francis, Matthew J. Fuxjager, Jerry F. Husak, Bonnie K. Kircher, Lynn B. Martin, Maren N. Vitousek, Laura A. Schoenle, Eliot T. Miller, Tony D. Williams, Jeremy W Donald, Rosemary Knapp, and Michaela Hau

Subjects

Male, medicine.medical_specialty, Biology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Stress, Physiological, Corticosterone, Internal medicine, medicine, Animals, Selection, Genetic, Glucocorticoids, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, Models, Statistical, Comparative physiology, fungi, Stress induced, food and beverages, Biological Evolution, Endocrinology, chemistry, Vertebrates, Female, 030217 neurology & neurosurgery, Hormone

Abstract

Glucocorticoid (GC) hormones are important phenotypic mediators across vertebrates, but their circulating concentrations can vary markedly. Here we investigate macroevolutionary patterning in GC levels across tetrapods by testing seven specific hypotheses about GC variation and evaluating whether the supported hypotheses reveal consistent patterns in GC evolution. If selection generally favors the "supportive" role of GCs in responding effectively to challenges, then baseline and/or stress-induced GCs may be higher in challenging contexts. Alternatively, if selection generally favors "protection" from GC-induced costs, GCs may be lower in environments where challenges are more common or severe. The predictors of baseline GCs were all consistent with supportive effects: levels were higher in smaller organisms and in those inhabiting more energetically demanding environments. During breeding, baseline GCs were also higher in populations and species with fewer lifetime opportunities to reproduce. The predictors of stress-induced GCs were instead more consistent with the protection hypothesis: during breeding, levels were lower in organisms with fewer lifetime reproductive opportunities. Overall, these patterns indicate a surprising degree of consistency in how some selective pressures shape GCs across broad taxonomic scales; at the same time, in challenging environments selection appears to operate on baseline and stress-induced GCs in distinct ways.

Published

2019

14. Natural variation in yolk fatty acids, but not androgens, predicts offspring fitness in a wild bird

Author

Wolfgang Goymann, Caroline Isaksson, Stefania Casagrande, Michaela Hau, Lucia Mentesana, and Martin Andersson

Subjects

food.ingredient, Offspring, Maternal effects, Foraging, Zoology, Biology, Antioxidants, food, Phenotypic variance, ddc:570, Yolk, Fitness, Fatty acids, Carotenoid, Hatchling, Ecology, Evolution, Behavior and Systematics, Steroid hormones, chemistry.chemical_classification, Research, Maternal effect, Phenotype, QL1-991, chemistry, Maternal effects, Fitness, Phenotypic variance, Steroid hormones, Antioxidants, Fatty acids, Animal Science and Zoology, Polyunsaturated fatty acid

Abstract

Background In egg-laying animals, mothers can influence the developmental environment and thus the phenotype of their offspring by secreting various substances into the egg yolk. In birds, recent studies have demonstrated that different yolk substances can interactively affect offspring phenotype, but the implications of such effects for offspring fitness and phenotype in natural populations have remained unclear. We measured natural variation in the content of 31 yolk components known to shape offspring phenotypes including steroid hormones, antioxidants and fatty acids in eggs of free-living great tits (Parus major) during two breeding seasons. We tested for relationships between yolk component groupings and offspring fitness and phenotypes. Results Variation in hatchling and fledgling numbers was primarily explained by yolk fatty acids (including saturated, mono- and polyunsaturated fatty acids) - but not by androgen hormones and carotenoids, components previously considered to be major determinants of offspring phenotype. Fatty acids were also better predictors of variation in nestling oxidative status and size than androgens and carotenoids. Conclusions Our results suggest that fatty acids are important yolk substances that contribute to shaping offspring fitness and phenotype in free-living populations. Since polyunsaturated fatty acids cannot be produced de novo by the mother, but have to be obtained from the diet, these findings highlight potential mechanisms (e.g., weather, habitat quality, foraging ability) through which environmental variation may shape maternal effects and consequences for offspring. Our study represents an important first step towards unraveling interactive effects of multiple yolk substances on offspring fitness and phenotypes in free-living populations. It provides the basis for future experiments that will establish the pathways by which yolk components, singly and/or interactively, mediate maternal effects in natural populations.

Published

2021

15. Early nighttime testosterone peaks are correlated with GnRH-induced testosterone in a diurnal songbird

Author

Michelle A. Eshleman, Emily K. Elderbrock, Timothy J. Greives, Holland Galante, Caroline Deimel, and Michaela Hau

Subjects

Male, medicine.medical_specialty, biology, Endogenous rhythms, Endocrine cascade, Testosterone (patch), Luteinizing Hormone, biology.organism_classification, Natural variation, Songbird, Gonadotropin-Releasing Hormone, Songbirds, Endocrinology, Sex steroid, Internal medicine, medicine, Animals, Animal Science and Zoology, Testosterone, Morning, Hormone

Abstract

Experimental manipulation has established testosterone as a potent, pleiotropic regulator coordinating morphology, physiology and behavior. However, the relationship of field-sampled, unmanipulated testosterone concentrations with traits of interest is often equivocal. Circulating testosterone varies over the course of the day, and recent reports indicate that testosterone is higher during the night in diurnal songbirds. Yet, most field studies sample testosterone during the morning. Sampling at times when levels and individual variation are low may be one reason relationships between testosterone and other traits are not always observed. Testosterone is regulated by the hypothalamic-pituitary-gonadal axis, with gonadotropin-releasing hormone (GnRH) initiating the endocrine cascade. Research has examined GnRH-induced testosterone levels with traits of interest, yet the relevance of these induced levels and their relationship with endogenously produced levels are not fully clear. Using photostimulated male great tits (Parus major) we tested the hypotheses that circulating testosterone levels peak during the night and that GnRH-induced testosterone concentrations are positively related to nightly testosterone peaks. Blood was sampled during first, middle or last third of night. One week later, baseline and GnRH-induced testosterone levels were sampled during mid-morning. Morning baseline testosterone levels were low compared with night-sampled levels that peaked during the first third of the night. Further, GnRH-induced testosterone was strongly positively correlated with levels observed during the first third of the night. These data suggest that morning testosterone samples likely do not reflect an individual's endogenous peak. Instead, GnRH-induced testosterone levels do approximate an individual's nightly peak and may be an alternative for birds that cannot easily be sampled at night in the field. These findings are likely to have implications for research aimed at relating traits of interest with natural variation in sex steroid hormone levels.

Published

2021

16. Glucocorticoids in a warming world: Do they help birds to cope with high environmental temperatures?

Author

Lucia Mentesana and Michaela Hau

Subjects

Birds, Behavioral Neuroscience, Hot Temperature, Endocrinology, Endocrine and Autonomic Systems, Temperature, Animals, Glucocorticoids, Body Temperature Regulation

Abstract

Climate change is threatening biodiversity world-wide. One of its most prominent manifestations are rising global temperatures and higher frequencies of heat waves. High environmental temperatures may be particularly challenging for endotherms, which expend considerable parts of their energy budget and water resources on thermoregulation. Thermoregulation involves phenotypic plasticity in behavioral and physiological traits. Information on causal mechanisms that support plastic thermoregulatory strategies is key to understand how environmental information is transmitted and whether they impose trade-offs or constraints that determine how endotherms cope with climate warming. In this review, we focus on glucocorticoids, metabolic hormones that orchestrate plastic responses to various environmental stimuli including temperature. To evaluate how they may mediate behavioral and physiological responses to high environmental temperatures, we 1) briefly review the major thermoregulatory strategies in birds; 2) summarize the functions of baseline and stress-induced glucocorticoid concentrations; 3) synthesize the current knowledge of the relationship between circulating glucocorticoids and high environmental temperatures in birds; 4) generate hypotheses for how glucocorticoids may support plastic thermoregulatory responses to high environmental temperatures that occur over different time-frames (i.e., acute, short- and longer-term); and 5) discuss open questions on how glucocorticoids, and their relationship with thermoregulation, may evolve. Throughout this review we highlight that our knowledge, particularly on free-living populations, is really limited and outline promising avenues for future research. As evolutionary endocrinologists we now need to step up and identify the costs, benefits, and evolution of glucocorticoid plasticity to elucidate how they may help birds cope with a warming world.

Published

2022

17. Eight arguments why biodiversity is important to safeguard food security

Author

Peter Dannenberg, Boris Braun, Clemens Greiner, Alexander Follmann, Michaela Haug, Pujo Semedi Hargo Yuwono, Markus Stetter, Thomas Widlok, and Stanislav Kopriva

Subjects

cultural diversity, diverse diets, genetic modification, hidden hunger, place sensitivity, risks, Environmental sciences, GE1-350, Botany, QK1-989

Abstract

Societal Impact Statement In the context of multiple crises, policymakers and practitioners prioritize the solving of certain challenges above others. In this context, supposedly purely environmental challenges like biodiversity loss have often been deprioritized and solutions to tackle them are publicly or quietly postponed (again and again). An example is the postponement of the EU “nature conservation package” in view of the threat of food shortages caused by the war in Ukraine. The following arguments outline why biodiversity loss is not only an environmental challenge but also a global societal challenge to safeguard global food security and why postponing biodiversity measures is not only bad for biodiversity but can also endanger food security itself. Summary Food security and biodiversity are often counterbalanced. However, we argue that preserving global biodiversity is crucial to safeguarding food security. We first generally outline that biodiversity can (1) support agricultural production, (2) mitigate negative effects of pollution, and (3) provide livelihood outcomes. We then, in particular, argue that biodiversity (4) provides diverse diets to fight hidden hunger, (5) is crucial for resilience against future food security risks, (6) is a precondition for future genetic modifications, (7) addresses the diversity of cultures, income and diets, and (8) is important for place‐sensitive food production. We conclude that “stop hunger first, then worry about diversity afterward” is not a sustainable option.

Published

2024

18. Life history and environment predict variation in testosterone across vertebrates

Author

Jeremy W Donald, Clinton D. Francis, Eliot T. Miller, Matthew J. Fuxjager, Laura A. Schoenle, Michaela Hau, Michele A. Johnson, Lynn B. Martin, Jerry F. Husak, Rosemary Knapp, Bonnie K. Kircher, Maren N. Vitousek, Tony D. Williams, and Wolfgang Goymann

Subjects

0106 biological sciences, 0301 basic medicine, media_common.quotation_subject, Lineage (evolution), Rain, Zoology, 010603 evolutionary biology, 01 natural sciences, Competition (biology), 03 medical and health sciences, Sexual Behavior, Animal, biology.animal, Genetics, Seasonal breeder, Animals, Testosterone, Mating, Life History Traits, Ecology, Evolution, Behavior and Systematics, Ecosystem, media_common, biology, Temperature, Vertebrate, Testosterone (patch), Mating system, 030104 developmental biology, Variation (linguistics), Vertebrates, General Agricultural and Biological Sciences

Abstract

Endocrine systems act as key intermediaries between organisms and their environments. This interaction leads to high variability in hormone levels, but we know little about the ecological factors that influence this variation within and across major vertebrate groups. We study this topic by assessing how various social and environmental dynamics influence testosterone levels across the entire vertebrate tree of life. Our analyses show that breeding season length and mating system are the strongest predictors of average testosterone concentrations, whereas breeding season length, environmental temperature, and variability in precipitation are the strongest predictors of within-population variation in testosterone. Principles from small-scale comparative studies that stress the importance of mating opportunity and competition on the evolution of species differences in testosterone levels, therefore, likely apply to the entire vertebrate lineage. Meanwhile, climatic factors associated with rainfall and ambient temperature appear to influence variability in plasma testosterone, within a given species. These results, therefore, reveal how unique suites of ecological factors differentially explain scales of variation in circulating testosterone across mammals, birds, reptiles, amphibians, and fishes.

Published

2021

19. Inferring Whole-Organism Metabolic Rate From Red Blood Cells in Birds

Author

Stefania Casagrande, Michaela Hau, and Kasja Malkoc

Subjects

0106 biological sciences, Cellular respiration, Physiology, respirometry, avian erythrocytes, glucocorticoids, aerobic metabolism, respirometry, stress response, mitochondria, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Respirometry, chemistry.chemical_compound, Corticosterone, Physiology (medical), ddc:570, medicine, Methods, QP1-981, avian erythrocytes, Proxy (statistics), 030304 developmental biology, Morning, 0303 health sciences, Resting state fMRI, glucocorticoids, aerobic metabolism, stress response, mitochondria, Red blood cell, medicine.anatomical_structure, chemistry, Field metabolic rate

Abstract

Metabolic rate is a key ecological variable that quantifies the energy expenditure needed to fuel almost all biological processes in an organism. Metabolic rates are typically measured at the whole-organism level (woMR) with protocols that can elicit stress responses due to handling and confinement, potentially biasing resulting data. Improved, non-stressful methodology would be especially valuable for measures of field metabolic rate, which quantifies the energy expenditure of free-living individuals. Recently, techniques to measure cellular metabolic rate (cMR) in mitochondria of blood cells have become available, suggesting that blood-based cMR can be a proxy of organismal aerobic performance. Aerobic metabolism actually takes place in the mitochondria. Quantifying cMR from blood samples offers several advantages such as direct estimates of metabolism and minimized disturbance of individuals. To our knowledge, the hypothesis that blood-based cMR correlates with woMR has not yet been directly tested. We measured cMR in red blood cells of captive great tits (Parus major), first during their morning activity period and second after subjecting them to a 2.5 h day-time respirometry protocol to quantify woMR. We predicted cMR to decrease as individuals transitioned from an active to a resting state. In the two blood samples we also assessed circulating corticosterone concentrations to determine the perceived disturbance of individuals. From respirometry traces we extracted initial and final woMR measures to test for a predicted positive correlation with cMR measures, while accounting for corticosterone concentrations. Indeed, cMR declined from the first to the second measurement. Furthermore, woMR and cMR were positively related in individuals that had relatively low corticosterone concentrations and displayed little locomotor activity throughout respirometry. By contrast, woMR and cMR covaried negatively in birds that increased corticosterone concentrations and activity levels substantially. Our results show that red blood cell cMR represents a proxy for woMR when birds do not display signs of stress, i.e., either before increases in hormonal or behavioral parameters have occurred or after they have abated. This method represents a valuable tool for obtaining metabolic data repeatedly and in free-living individuals. Our findings also highlight the importance of accounting for individual stress responses when measuring metabolic rate at any level.

Published

2021

20. Sex steroids modulate circadian behavioral rhythms in captive animals, but does this matter in the wild?

Author

Emily K. Elderbrock, Michaela Hau, and Timothy J. Greives

Subjects

Reproductive success, Endocrine and Autonomic Systems, medicine.drug_class, Physiology, Chronotype, Endogeny, Biology, Neurosecretory Systems, 030227 psychiatry, Circadian Rhythm, Time, 03 medical and health sciences, Behavioral Neuroscience, 0302 clinical medicine, Endocrinology, Rhythm, Sex steroid, Estrogen, medicine, Animals, Steroids, Circadian rhythm, Gonadal Steroid Hormones, 030217 neurology & neurosurgery, Testosterone

Abstract

Nearly all organisms alter physiological and behavioral activities across the twenty-four-hour day. Endogenous timekeeping mechanisms, which are responsive to environmental and internal cues, allow organisms to anticipate predictable environmental changes and time their daily activities. Among-individual variation in the chronotype, or phenotypic output of these timekeeping mechanisms (i.e. timing of daily behaviors), is often observed in organisms studied under naturalistic environmental conditions. The neuroendocrine system, including sex steroids, has been implicated in the regulation and modulation of endogenous clocks and their behavioral outputs. Numerous studies have found clear evidence that sex steroids modulate circadian and daily timing of activities in captive animals under controlled conditions. However, little is known about how sex steroids influence daily behavioral rhythms in wild organisms or what, if any, implication this may have for survival and reproductive fitness. Here we review the evidence that sex steroids modulate daily timing in vertebrates under controlled conditions. We then discuss how this relationship may be relevant for the reproductive success and fitness of wild organisms and discuss the limited evidence that sex steroids modulate circadian rhythms in wild organisms.

Published

2020

21. Species-Specific Means and Within-Species Variance in Glucocorticoid Hormones and Speciation Rates in Birds

Author

László Zsolt Garamszegi, Jeremy W Donald, Michaela Hau, Eliot T. Miller, Wolfgang Goymann, Lynn B. Martin, Laura A. Schoenle, Maren N. Vitousek, Tony D. Williams, Jerry F. Husak, Bonnie K. Kircher, Michele A. Johnson, Rosemary Knapp, Clinton D. Francis, and Matthew J. Fuxjager

Subjects

0106 biological sciences, 0301 basic medicine, Ecological niche, Genetic Speciation, Range (biology), Zoology, Plant Science, Biology, Subspecies, 010603 evolutionary biology, 01 natural sciences, Birds, 03 medical and health sciences, 030104 developmental biology, Databases as Topic, Species Specificity, Phylogenetics, Genetic algorithm, Trait, Animals, Animal Science and Zoology, Species richness, Glucocorticoids, Ecosystem

Abstract

At macroevolutionary scales, stress physiology may have consequences for species diversification and subspecies richness. Populations that exploit new resources or undergo range expansion should cope with new environmental challenges, which could favor higher mean stress responses. Within-species variation in the stress response may also play a role in mediating the speciation process: in species with broad variation, there will always be some individuals that can tolerate an unpredictable environment, whereas in species with narrow variation there will be fewer individuals that are able to thrive in a new ecological niche. We tested for the evolutionary relationship between stress response, speciation rate, and subspecies richness in birds by relying on the HormoneBase repository, from which we calculated within- and among-species variation in baseline (BL) and stress-induced (SI) corticosterone levels. To estimate speciation rates, we applied Bayesian analysis of macroevolutionary mixtures that can account for variation in diversification rate among clades and through time. Contrary to our predictions, lineages with higher diversification rates were not characterized by higher BL or SI levels of corticosterone either at the tips or at the deeper nodes of the phylogeny. We also found no association between mean hormone levels and subspecies richness. Within-species variance in corticosterone levels showed close to zero repeatability, thus it is highly unlikely that this is a species-specific trait that influences diversification rates. These results imply that stress physiology may play a minor, if any, role in determining speciation rates in birds.

Published

2018

22. Effects of El Niño and La Niña Southern Oscillation events on the adrenocortical responses to stress in birds of the Galapagos Islands

Author

J. Patrick Kelley, Brian G. Walker, Peter H. Wrege, John C. Wingfield, Marilyn Ramenofsky, Martin Wikelski, Michaela Hau, Robert Eric Scheibling, L. Michael Romero, Nigella Hillgarth, and P. Dee Boersma

Subjects

Male, Restraint, Physical, 0106 biological sciences, Time Factors, Rain, Southern oscillation, Corticosterone, Stress response, El Niño Southern Oscillation event, La Niña Southern Oscillation event, Seabirds, Land birds, Models, Biological, 010603 evolutionary biology, 01 natural sciences, Charadriiformes, chemistry.chemical_compound, Endocrinology, Species Specificity, Stress, Physiological, ddc:570, biology.animal, Animals, El Nino-Southern Oscillation, Islands, biology, Ecology, 010604 marine biology & hydrobiology, Global warming, Temperature, Brood, La Niña, chemistry, El Niño, Habitat, Adrenal Cortex, Female, Animal Science and Zoology, Ecuador, Seabird

Abstract

El Niño Southern Oscillation events (ENSO) and the subsequent opposite weather patterns in the following months and years (La Niña) have major climatic impacts, especially on oceanic habitats, affecting breeding success of both land and sea birds. We assessed corticosterone concentrations from blood samples during standardized protocols of capture, handling and restraint to simulate acute stress from 12 species of Galapagos Island birds during the ENSO year of 1998 and a La Niña year of 1999. Plasma levels of corticosterone were measured in samples collected at capture (to represent non-stressed baseline) and subsequently up to 1 h post-capture to give maximum corticosterone following acute stress, and total amount of corticosterone that the individual was exposed to during the test period (integrated corticosterone). Seabird species that feed largely offshore conformed to the brood value hypothesis whereas inshore feeding species showed less significant changes. Land birds mostly revealed no differences in the adrenocortical responses to acute stress from year to year with the exception of two small species (

Published

2018

23. Temporal dynamics of the HPA axis linked to exploratory behavior in a wild European songbird (Parus major)

Author

Alexander T. Baugh, Kees van Oers, Sarah C. Davidson, Michaela Hau, and Animal Ecology (AnE)

Subjects

0106 biological sciences, 0301 basic medicine, Hypothalamo-Hypophyseal System, medicine.medical_specialty, endocrine system, Time Factors, Pituitary-Adrenal System, Animals, Wild, Adrenocorticotropic hormone, Stress, 010603 evolutionary biology, 01 natural sciences, Songbirds, 03 medical and health sciences, chemistry.chemical_compound, Endocrinology, Adrenocorticotropic Hormone, Corticosterone, Internal medicine, Negative feedback, medicine, Animals, Endocrine system, Parus, biology, Stressor, Eco-evolutionary dynamics, biology.organism_classification, Songbird, 030104 developmental biology, medicine.anatomical_structure, chemistry, international, Hypothalamic-pituitary-adrenal axis, Exploratory Behavior, Animal Science and Zoology, Exploration, Hypothalamic–pituitary–adrenal axis, hormones, hormone substitutes, and hormone antagonists, Personality

Abstract

Variation in the reactivity of the endocrine stress axis is thought to underlie aspects of persistent individual differences in behavior (i.e. animal personality). Previous studies, however, have focused largely on estimating baseline or peak levels of glucocorticoids (CORT), often in captive animals. In contrast, the temporal dynamics of the HPA axis—how quickly it turns on and off, for example—may better indicate how an individual copes with stressors. Moreover, these HPA components might be correlated, thereby representing endocrine suites. Using wild-caught great tits (Parus major) we tested birds for exploratory behavior using a standardized novel environment assay that serves as a validated proxy for personality. We then re-captured a subset of these birds (n = 85) and characterized four components of HPA physiology: baseline, endogenous stress response, a dexamethasone (DEX) challenge to estimate the strength of negative feedback, and an adrenocorticotropic hormone (ACTH) challenge to estimate adrenal capacity. We predicted that these four HPA responses would be positively correlated and that less exploratory birds would have a more rapid onset of the stress response (a CORT elevation during the baseline bleed) and weaker negative feedback (higher CORT after DEX). We found support for the first two predictions but not the third. All four components were positively correlated with each other and less exploratory birds exhibited an elevation in CORT during the baseline bleed (

Published

2017

24. Effects of developmental conditions on glucocorticoid concentrations in adulthood depend on sex and foraging conditions

Author

Blanca Jimeno, Simon Verhulst, Michaela Hau, Michael Briga, and Verhulst lab

Subjects

Male, 0106 biological sciences, 0301 basic medicine, TAENIOPYGIA-GUTTATA, Aging, Developmental effects, BASE-LINE, Environmental stress, Social Environment, 01 natural sciences, Behavioral Neuroscience, chemistry.chemical_compound, Taenopygia guttata, Endocrinology, Corticosterone, polycyclic compounds, Foraging conditions, media_common, EARLY-LIFE STRESS, Environmental responsiveness, Female, Growth and Development, Glucocorticoid, hormones, hormone substitutes, and hormone antagonists, medicine.drug, Competitive Behavior, endocrine system, medicine.medical_specialty, media_common.quotation_subject, Foraging, education, SONG SPARROWS, Zoology, Biology, 010603 evolutionary biology, ta3112, Competition (biology), ENVIRONMENTAL-CHANGE, 03 medical and health sciences, Sex Factors, Internal medicine, Sex differences, medicine, Animals, Sibling Relations, Endocrine system, Glucocorticoid hormones, Sibling, Glucocorticoids, Endocrine and Autonomic Systems, ta1184, Feeding Behavior, LONG-TERM REPEATABILITY, Clutch Size, Brood, 030104 developmental biology, chemistry, Exploratory Behavior, ta1181, ZEBRA FINCHES, Finches, PITUITARY-ADRENAL AXIS, LEGGED KITTIWAKE CHICKS, Stress, Psychological

Abstract

Developmental conditions in early life frequently have long-term consequences on the adult phenotype, but the adult environment can modulate such long-term effects. Glucocorticoid hormones may be instrumental in mediating developmental effects, but the permanency of such endocrine changes is still debated. Here, we manipulated environmental conditions during development (small vs. large brood size, and hence sibling competition) and in adulthood (easy vs. hard foraging conditions) in a full factorial design in zebra finches, and studied effects on baseline (Bas-COAT) and stress-induced (SI-CORT) corticosterone in adulthood. Treatments affected Bas-CORT in females, but not in males. Females reared in small broods had intermediate Bas-CORT levels as adults, regardless of foraging conditions in adulthood, while females reared in large broods showed higher Bas-CORT levels in hard foraging conditions and lower levels in easy foraging conditions. Female Bas-CORT was also more susceptible than male Bas-COAT to non-biological variables, such as ambient temperature. In line with these results, repeatability of Bas-CORT was higher in males (up to 51%) than in females (25%). SI-CORT was not responsive to the experimental manipulations in either sex and its repeatability was high in both sexes. We conclude that Bas-CORT responsiveness to intrinsic and extrinsic conditions is higher in females than in males, and that the expression of developmental conditions may depend on the adult environment. The latter finding illustrates the critical importance of studying of causes and consequences of long-term developmental effects in other environments in addition to standard laboratory conditions. (C) 2017 Published by Elsevier Inc.

Published

2017

25. Increased glucocorticoid concentrations in early life cause mitochondrial inefficiency and short telomeres

Author

Antoine Stier, Jasmine Lopez Loveland, Sara Lupi, Winifred Boner, Stefania Casagrande, Rachele Trevisi, Michaela Hau, and Pat Monaghan

Subjects

0106 biological sciences, Senescence, medicine.medical_specialty, Physiology, Oxidative phosphorylation, Aquatic Science, Mitochondrion, Biology, medicine.disease_cause, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Glucocorticoid receptor, Internal medicine, medicine, Molecular Biology, Glucocorticoids, Ecology, Evolution, Behavior and Systematics, Telomere Shortening, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Reactive oxygen species, Telomere, Mitochondria, Oxidative Stress, Endocrinology, chemistry, Insect Science, Animal Science and Zoology, Glucocorticoid, Oxidative stress, medicine.drug

Abstract

Telomeres are DNA structures that protect chromosome ends. However, telomeres shorten during cell replication and at critically low lengths can reduce cell replicative potential, induce cell senescence and decrease fitness. Stress exposure, which elevates glucocorticoid hormone concentrations, can exacerbate telomere attrition. This phenomenon has been attributed to increased oxidative stress generated by glucocorticoids (‘oxidative stress hypothesis’). We recently suggested that glucocorticoids could increase telomere attrition during stressful periods by reducing the resources available for telomere maintenance through changes in the metabolic machinery (‘metabolic telomere attrition hypothesis’). Here we tested whether experimental increases in glucocorticoid levels affected telomere length and mitochondrial function in wild great tit (Parus major) nestlings during the energy-demanding early growth. We monitored resulting corticosterone (Cort) concentrations in plasma, and in red blood cells, telomere lengths and mitochondrial metabolism (metabolic rate, proton leak, oxidative phosphorylation, maximal mitochondrial capacity and mitochondrial inefficiency). We assessed oxidative damage caused by reactive oxygen species (ROS) metabolites as well as the total non-enzymatic antioxidant protection in plasma. Compared with control (Ctrl) nestlings, Cort-nestlings had higher baseline corticosterone, shorter telomeres and higher mitochondrial metabolic rate. Importantly, Cort-nestlings showed increased mitochondrial proton leak, leading to a decreased ATP production efficiency. Treatment groups did not differ in oxidative damage or antioxidants. Hence, glucocorticoid-induced telomere attrition is associated with changes in mitochondrial metabolism, but not with ROS production. These findings support the hypothesis that shortening of telomere length during stressful periods is mediated by glucocorticoids through metabolic rearrangements.

Published

2020

26. Baseline and stress-induced corticosterone levels across birds and reptiles do not reflect urbanization levels

Author

Clinton D. Francis, Matthew J. Fuxjager, Michele A. Johnson, Jeremy W Donald, Bonnie K. Kircher, Eliot T. Miller, Allison Injaian, Jenny Q. Ouyang, Wolfgang Goymann, Rosemary Knapp, Davide M. Dominoni, Jerry F. Husak, Lynn B. Martin, Laura A. Schoenle, Tony D. Williams, Maren N. Vitousek, Michaela Hau, and Animal Ecology (AnE)

Subjects

0106 biological sciences, Environmental change, Physiology, anthropogenic noise, Wildlife, Zoology, Context (language use), artificial light at night, Management, Monitoring, Policy and Law, Biology, 010603 evolutionary biology, 01 natural sciences, Plan_S-Compliant-OA, stress, 03 medical and health sciences, chemistry.chemical_compound, Corticosterone, ddc:570, population density, Baseline (configuration management), 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, Reproductive success, Ecological Modeling, Stressor, human footprint, Disturbance (ecology), chemistry, 13. Climate action, international, glucocorticoid, Research Article

Abstract

Lay Summary Human-induced environmental change can disturb animals, reducing individual and population health. We found no general relationship between urbanization and hormones associated with stressors across birds and reptiles, suggesting hormonal responses to disturbance vary across species and even individuals. Information beyond hormone levels is needed to inform conservation efforts., Rates of human-induced environmental change continue increasing with human population size, potentially altering animal physiology and negatively affecting wildlife. Researchers often use glucocorticoid concentrations (hormones that can be associated with stressors) to gauge the impact of anthropogenic factors (e.g. urbanization, noise and light pollution). Yet, no general relationships between human-induced environmental change and glucocorticoids have emerged. Given the number of recent studies reporting baseline and stress-induced corticosterone (the primary glucocorticoid in birds and reptiles) concentrations worldwide, it is now possible to conduct large-scale comparative analyses to test for general associations between disturbance and baseline and stress-induced corticosterone across species. Additionally, we can control for factors that may influence context, such as life history stage, environmental conditions and urban adaptability of a species. Here, we take a phylogenetically informed approach and use data from HormoneBase to test if baseline and stress-induced corticosterone are valid indicators of exposure to human footprint index, human population density, anthropogenic noise and artificial light at night in birds and reptiles. Our results show a negative relationship between anthropogenic noise and baseline corticosterone for birds characterized as urban avoiders. While our results potentially indicate that urban avoiders are more sensitive to noise than other species, overall our study suggests that the relationship between human-induced environmental change and corticosterone varies across species and contexts; we found no general relationship between human impacts and baseline and stress-induced corticosterone in birds, nor baseline corticosterone in reptiles. Therefore, it should not be assumed that high or low levels of exposure to human-induced environmental change are associated with high or low corticosterone levels, respectively, or that closely related species, or even individuals, will respond similarly. Moving forward, measuring alternative physiological traits alongside reproductive success, health and survival may provide context to better understand the potential negative effects of human-induced environmental change.

Published

2020

27. Host dispersal shapes the population structure of a tick-borne bacterial pathogen

Author

Pedro Araújo, Michaela Hau, Rafael Barrientos, Markéta Nováková, Barbara Flaisz, Jennifer Morinay, Gabriele Margos, Volker Fingerle, János Török, Anastasia Diakou, Marcel E. Visser, Peter Adamík, Ana Cláudia Norte, Dávid Kováts, Zdeněk Tyller, Blandine Doligez, Ina Sabrina Tirri, Marko Mutanen, Jaime A. Ramos, Raivo Mänd, Tomáš Grim, Hein Sprong, Júlio M. Neto, Juan José Sanz, Haralambos Alivizatos, Sándor Hornok, Laure Cauchard, Savas Kazantzidis, Tapio Eeva, Frantisek Krause, Tomi Trilar, Ivan Literak, Dieter Heylen, Niels Jeroen Dingemanse, Anna Dubiec, Maria Sofia Núncio, Lucia Mentesana, Noémie S. Becker, Tibor Csörgő, Luís P. da Silva, Emilio Barba, Isabel Lopes de Carvalho, Animal Ecology (AnE), Fundação para a Ciência e a Tecnologia (Portugal), Instituto Nacional de Saúde Doutor Ricardo Jorge (Portugal), Estonian Research Council, Slovenian Research Agency, Academy of Finland, Palacky University, Laboratoire de Biométrie et Biologie Evolutive - UMR 5558 (LBBE), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS), and Zoology

Subjects

0106 biological sciences, 0301 basic medicine, BORRELIA-BURGDORFERI, ACARI, medicine.disease_cause, migration, BURGDORFERI SENSU-LATO, 01 natural sciences, Songbirds, Lyme disease, Ticks, Acari, Migration, 11832 Microbiology and virology, Lyme Disease, biology, Plan_S-Compliant_NO, BLACKBIRDS TURDUS-MERULA, PREVALENCE, Europe, host-parasite interactions, MIGRATORY BIRDS, international, 1181 Ecology, evolutionary biology, [SDE]Environmental Sciences, Host-paraste Interations, Host-parasite interactions, Aves, TRANSMISSION, Zoology, 010603 evolutionary biology, ticks, Birds, 03 medical and health sciences, Borrelia, parasitic diseases, Genetics, medicine, Animals, Humans, Borrelia burgdorferi, Ecology, Evolution, Behavior and Systematics, Lyme borreliosis, Infecções Sistémicas e Zoonoses, Ixodes, Bird Diseases, LYME-DISEASE, IXODES-RICINUS TICKS, Borrelia garinii, Ecología, biology.organism_classification, medicine.disease, bacterial infections and mycoses, 030104 developmental biology, birds, Candidatus, WILD BIRDS, Multilocus sequence typing, Multilocus Sequence Typing

Abstract

Birds are hosts for several zoonotic pathogens. Because of their high mobility, especially of longdistance migrants, birds can disperse these pathogens, affecting their distribution and phylogeography. We focused on Borrelia burgdorferi sensu lato, which includes the causative agents of Lyme borreliosis, as an example for tick-borne pathogens, to address the role of birds as propagation hosts of zoonotic agents at a large geographical scale. We collected ticks from passerine birds in 11 European countries. B. burgdorferi s.l. prevalence in Ixodes spp. was 37% and increased with latitude. The fieldfare Turdus pilaris and the blackbird T. merula carried ticks with the highest Borrelia prevalence (92 and 58%, respectively), whereas robin Erithacus rubecula ticks were the least infected (3.8%). Borrelia garinii was the most prevalent genospecies (61%), followed by B. valaisiana (24%), B. afzelii (9%), B. turdi (5%) and B. lusitaniae (0.5%). A novel Borrelia genospecies “Candidatus Borrelia aligera” was also detected. Multilocus sequence typing (MLST) analysis of B. garinii isolates together with the global collection of B. garinii genotypes obtained from the Borrelia MLST public database revealed that: (a) there was little overlap among genotypes from different continents, (b) there was no geographical structuring within Europe, and (c) there was no evident association pattern detectable among B. garinii genotypes from ticks feeding on birds, questing ticks or human isolates. These findings strengthen the hypothesis that the population structure and evolutionary biology of tick-borne pathogens are shaped by their host associations and the movement patterns of these hosts., This study received financial support from Fundação para a Ciência e a Tecnologia by the strategic program of MARE (MARE ‐ UID/MAR/04292/2013) and the fellowship to Ana Cláudia Norte (SFRH/BPD/108197/2015), and the Portuguese National Institute of Health. Raivo Mänd, Tomi Trilar, Tapio Eeva, Tomas Grim and Dieter Heylen were supported by the Estonian Research Council (research grant # IUT34‐8), the Slovenian Research Agency ‐programme “Communities, relations and communications in the ecosystems” (No. P1‐0255), the Academy of Finland (project 265859), the Internal Grant Agency of Palacky University (PrF_2014_018, PrF_2015_018, PrF_2013_018) and the Marie Sklodowska‐Curie Actions (EU‐Horizon 2020, Individual Global Fellowship, project no 799609), respectively.

Published

2020

28. Connecting the data landscape of long-term ecological studies: the SPI-Birds data hub

Author

Tomasz D. Mazgajski, Jesús Martínez-Padilla, Gábor Seress, Miloš Krist, Davide M. Dominoni, Peter Adamík, Camillo Cusimano, Juli Broggi, Zuzana Zajková, Ana Cláudia Norte, Samuel P. Caro, Pınar Kavak Gülbeyaz, Erik Matthysen, Arnaud Grégoire, Marcel M. Lambrechts, Vallo Tilgar, Sabine Marlene Hille, Kees van Oers, Chloé R. Nater, Markku Orell, Alexandr Artemyev, Szymon M. Drobniak, Julia Schroeder, Hannah Watson, Claire Doutrelant, Tone Kristin Reiertsen, Eduardo J. Belda, Carlos E. Lara, Jaime Potti, Antica Culina, Caroline Deimel, C. Can Bilgin, Kjell Einar Erikstad, Terry Burke, Seppo Rytkönen, Liam D. Bailey, Miroslav Král, José M. Zamora-Marín, Marko Mägi, T.A. Ilyina, A.V. Bushuev, Andrew F. Russell, Malcolm D. Burgess, John L. Quinn, Jan-Åke Nilsson, André A. Dhondt, Peter Korsten, Denis Réale, Josefa Bleu, Caroline Isaksson, Jaanis Lodjak, Sandra Bouwhuis, Bruno Massa, Mark C. Mainwaring, David Canal, Eduardo S. A. Santos, Sylvie Massemin, Tore Slagsvold, Emma Vatka, Alexia Mouchet, Elena Angulo, Juan Moreno, Alexis S. Chaine, Jan Komdeur, Raivo Mänd, Claire J. Branston, Adèle Mennerat, Stefan J. G. Vriend, Wojciech Kania, Davor Ćiković, Anne Charmantier, Maxime Cauchoix, E.V. Ivankina, Juan Carlos Senar, Shinichi Nakagawa, Agu Leivits, Andrey Tolstoguzov, Blandine Doligez, Ben C. Sheldon, Mariusz Cichoń, Gergely Hegyi, Teru Yuta, Benedikt Holtmann, Ella F. Cole, Céline Teplitsky, Marcel E. Visser, Johan Nilsson, Alejandro Cantarero, Jordi Figuerola, Sanja Barišić, Marta Szulkin, Simon Verhulst, Silvia Espín, Arne Iserbyt, Emilio Barba, Bart Kempenaers, Damien R. Farine, Pablo Sánchez-Virosta, Tapio Eeva, Anvar Kerimov, Niels Jeroen Dingemanse, Anna Dubiec, Christiaan Both, Daniela Campobello, Mihai Valcu, Bernt-Erik Sæther, Marcel Eens, Michaela Hau, Ian R. Hartley, Lucy M. Aplin, Frank Adriaensen, János Török, Balázs Rosivall, Carlos Camacho, Camilla A. Hinde, András Liker, Dutch Research Council, Research Council of Norway, Organismal and Evolutionary Biology Research Programme, Culina A., Adriaensen F., Bailey L.D., Burgess M.D., Charmantier A., Cole E.F., Eeva T., Matthysen E., Nater C.R., Sheldon B.C., Saether B.-E., Vriend S.J.G., Zajkova Z., Adamik P., Aplin L.M., Angulo E., Artemyev A., Barba E., Barisic S., Belda E., Bilgin C.C., Bleu J., Both C., Bouwhuis S., Branston C.J., Broggi J., Burke T., Bushuev A., Camacho C., Campobello D., Canal D., Cantarero A., Caro S.P., Cauchoix M., Chaine A., Cichon M., Cikovic D., Cusimano C.A., Deimel C., Dhondt A.A., Dingemanse N.J., Doligez B., Dominoni D.M., Doutrelant C., Drobniak S.M., Dubiec A., Eens M., Einar Erikstad K., Espin S., Farine D.R., Figuerola J., Kavak Gulbeyaz P., Gregoire A., Hartley I.R., Hau M., Hegyi G., Hille S., Hinde C.A., Holtmann B., Ilyina T., Isaksson C., Iserbyt A., Ivankina E., Kania W., Kempenaers B., Kerimov A., Komdeur J., Korsten P., Kral M., Krist M., Lambrechts M., Lara C.E., Leivits A., Liker A., Lodjak J., Magi M., Mainwaring M.C., Mand R., Massa B., Massemin S., Martinez-Padilla J., Mazgajski T.D., Mennerat A., Moreno J., Mouchet A., Nakagawa S., Nilsson J.-A., Nilsson J.F., Claudia Norte A., van Oers K., Orell M., Potti J., Quinn J.L., Reale D., Kristin Reiertsen T., Rosivall B., Russell A.F., Rytkonen S., Sanchez-Virosta P., Santos E.S.A., Schroeder J., Senar J.C., Seress G., Slagsvold T., Szulkin M., Teplitsky C., Tilgar V., Tolstoguzov A., Torok J., Valcu M., Vatka E., Verhulst S., Watson H., Yuta T., Zamora-Marin J.M., Visser M.E., WildCRU, University of Oxford [Oxford], University of Antwerp (UA), Commonwealth Scientific and Industrial Research Organisation [Canberra] (CSIRO), University of Turku, Department of Evolutionary Biology and Environmental Studies, University of Zurich, Edward Grey Institute, Department of Zoology, University of Oxford, Département Ecologie, Physiologie et Ethologie (DEPE-IPHC), Institut Pluridisciplinaire Hubert Curien (IPHC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Station d'écologie théorique et expérimentale (SETE), Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Observatoire Midi-Pyrénées (OMP), Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD), OpenMETU, Both group, Komdeur lab, Verhulst lab, and Animal Ecology (AnE)

Subjects

SELECTION, 0106 biological sciences, ZOOLOGIA, Databases, Factual, 05 Environmental Sciences, Zoology and botany: 480 [VDP], Research network, 01 natural sciences, long‐term studies, Behavioral Ecology, Data standards, meta‐data standards, Data hub, ComputingMilieux_MISCELLANEOUS, Research Articles, meta‐, PERSONALITY, CLIMATE-CHANGE, Ecology, Environmental resource management, ALTER, meta&#8208, birds, data standards, database, FAIR data, long-term studies, meta-data standards, research network, PE&RC, Gedragsecologie, Chemistry, Geography, international, [SDE]Environmental Sciences, 1181 Ecology, evolutionary biology, POPULATIONS, Plan_S-Compliant_OA, Life Sciences & Biomedicine, long‐, Research Article, CLUTCH-SIZE, Long-term studies, Environmental Sciences & Ecology, Animal Breeding and Genomics, Zoologi, 15.- Proteger, restaurar y promover la utilización sostenible de los ecosistemas terrestres, gestionar de manera sostenible los bosques, combatir la desertificación y detener y revertir la degradación de la tierra, y frenar la pérdida de diversidad biológica, 010603 evolutionary biology, Birds, Database, 07 Agricultural and Veterinary Sciences, ddc:570, VDP::Mathematics and natural scienses: 400::Zoology and botany: 480, Animals, Fokkerij en Genomica, Zoologiske og botaniske fag: 480 [VDP], Biology, Ecology, Evolution, Behavior and Systematics, Meta-data standards, Metadata, FAIR data, Science & Technology, long&#8208, business.industry, 010604 marine biology & hydrobiology, 06 Biological Sciences, 15. Life on land, database, meta-data standards, long-term studies, birds, data standards, research network, EVOLUTION, Term (time), 13. Climate action, Research council, VDP::Matematikk og naturvitenskap: 400::Zoologiske og botaniske fag: 480, Animal Science and Zoology, term studies, GREAT TITS, business, Zoology, RESPONSES

Abstract

The integration and synthesis of the data in different areas of science is drastically slowed and hindered by a lack of standards and networking programmes. Long-term studies of individually marked animals are not an exception. These studies are especially important as instrumental for understanding evolutionary and eco-logical processes in the wild. Furthermore, their number and global distribution provides a unique opportunity to assess the generality of patterns and to address broad-scale global issues (e.g. climate change)., To solve data integration issues and enable a new scale of ecological and evolution-ary research based on long-term studies of birds, we have created the SPI-Birds Network and Database (www.spibirds.org)—a large-scale initiative that connects data from, and researchers working on, studies of wild populations of individually recognizable (usually ringed) birds. Within year and a half since the establishment, SPI-Birds has recruited over 120 members, and currently hosts data on almost 1.5 million individual birds collected in 80 populations over 2,000 cumulative years, and counting., SPI-Birds acts as a data hub and a catalogue of studied populations. It prevents data loss, secures easy data finding, use and integration and thus facilitates collab-oration and synthesis. We provide community-derived data and meta-data stand-ards and improve data integrity guided by the principles of Findable, Accessible, Interoperable and Reusable (FAIR), and aligned with the existing metadata lan-guages (e.g. ecological meta-data language)., The encouraging community involvement stems from SPI-Bird's decentralized ap-proach: research groups retain full control over data use and their way of data management, while SPI-Birds creates tailored pipelines to convert each unique data format into a standard format. We outline the lessons learned, so that other communities (e.g. those working on other taxa) can adapt our successful model. Creating community-specific hubs (such as ours, COMADRE for animal demogra-phy, etc.) will aid much-needed large-scale ecological data integration., The SPI-Birds have been supported by an NWO personal grant (grant number 016.Veni.181.054) to A.C., and a Research Council of Norway grant: 223257 (SFF-III) and 267511 (EVOCLIM).

Published

2020

29. Developmental conditions modulate DNA methylation at the glucocorticoid receptor gene with cascading effects on expression and corticosterone levels in zebra finches

Author

Blanca Jimeno, Elena Gómez-Díaz, Simon Verhulst, Michaela Hau, Ministerio de Economía y Competitividad (España), Gómez-Díaz, Elena, Verhulst lab, and Gómez-Díaz, Elena [0000-0002-4146-9003]

Subjects

0106 biological sciences, 0301 basic medicine, Male, Physiology, Receptor expression, lcsh:Medicine, Biology, NR3C1, 010603 evolutionary biology, 01 natural sciences, Article, Avian Proteins, 03 medical and health sciences, chemistry.chemical_compound, Glucocorticoid receptor, Receptors, Glucocorticoid, Corticosterone, Ecology, Physiology, ddc:570, Gene expression, Animals, Epigenetics, AXIS, EPIGENETIC REGULATION, lcsh:Science, Gene, PRENATAL EXPOSURE, Genetics, Multidisciplinary, Ecology, CORTISOL, lcsh:R, Methylation, DNA Methylation, 030104 developmental biology, BDNF, chemistry, Gene Expression Regulation, DRD4, DNA methylation, MATERNAL-CARE, PATTERNS, SURVIVAL, lcsh:Q, Female, Finches

Abstract

Developmental conditions can impact the adult phenotype via epigenetic changes that modulate gene expression. In mammals, methylation of the glucocorticoid receptor gene Nr3c1 has been implicated as mediator of long-term effects of developmental conditions, but this evidence is limited to humans and rodents, and few studies have simultaneously tested for associations between DNA methylation, gene expression and phenotype. Adverse environmental conditions during early life (large natal brood size) or adulthood (high foraging costs) exert multiple long-term phenotypic effects in zebra finches, and we here test for effects of these manipulations on DNA methylation and expression of the Nr3c1 gene in blood. Having been reared in a large brood induced higher DNA methylation of the Nr3c1 regulatory region in adulthood, and this effect persisted over years. Nr3c1 expression was negatively correlated with methylation at 2 out of 8 CpG sites, and was lower in hard foraging conditions, despite foraging conditions having no effect on Nr3c1 methylation at our target region. Nr3c1 expression also correlated with glucocorticoid traits: higher expression level was associated with lower plasma baseline corticosterone concentrations and enhanced corticosterone reactivity. Our results suggest that methylation of the Nr3c1 regulatory region can contribute to the mechanisms underlying the emergence of long-term effects of developmental conditions in birds, but in our system current adversity dominated over early life experiences with respect to receptor expression., We thank A. Hidalgo, F.M. Miranda and E. Mulder for their assistance and training in the lab; S. Jörg for expertly running the hormone assays; M. Briga for training and assistance with the long-term experiment, and M. Driessen for assistance with sampling. We also thank M. Jordà for assistance with the interpretation of methylation data analysis, and the laboratory of ecophysiology and molecular ecology of the Estación Biológica de Doñana for technical support. This project was funded by an EMBO short-term fellowship grant (nº7178) and a Dr. J. L. Dobberke Foundation grant (n°0205510782), both awarded to B.J., who was further supported by the University of Groningen and the Max Planck Institute for Ornithology. E.G-D was funded by a Spanish Ministry of Economy and Competitiveness Ramon y Cajal fellowship and by Plan Nacional Grant BFU2015-65000-R.

Published

2019

30. Novelty induces behavioural and glucocorticoid responses in a songbird artificially selected for divergent personalities

Author

Michaela Hau, Laura Hyder, Kailyn R. Witonsky, Alexander T. Baugh, Kees van Oers, Sarah C. Davidson, and Animal Ecology (AnE)

Subjects

0106 biological sciences, 0301 basic medicine, genetic structures, media_common.quotation_subject, Context (language use), 010603 evolutionary biology, 01 natural sciences, Developmental psychology, 03 medical and health sciences, chemistry.chemical_compound, Corticosterone, medicine, Ecology, Evolution, Behavior and Systematics, media_common, Parus, biology, Boldness, Stressor, Neophobia, Novelty, biology.organism_classification, medicine.disease, Songbird, 030104 developmental biology, chemistry, international, Animal Science and Zoology, Psychology, Neuroscience

Abstract

Stress physiology is thought to contribute to individual differences in behaviour. In part this reflects the fact that canonical personality measures consist of responses to challenges, including novel objects and environments. Exposure to novelty is typically assumed to induce a moderate increase in glucocorticoids (CORT), although this has rarely been tested. We tested this assumption using great tits, Parus major, selected for divergent personalities (bold-fast and shy-slow explorers), predicting that the shy birds would exhibit higher CORT following exposure to a novel object. We also scored behavioural responses to the novel object, predicting that bold birds would more frequently approach the novel object and exhibit more abnormal repetitive behaviours. We found that the presence of a novel object did induce a moderate CORT response, but selection lines did not differ in the magnitude of this response. Furthermore, although both selection lines showed a robust CORT elevation to a subsequent restraint stressor, the CORT response was stronger in bold birds and this effect was specific to novel object exposure. Shy birds showed a strong positive phenotypic correlation between CORT concentrations following the novel object exposure and the subsequent restraint stress. Behaviourally, the selection lines differed in their response during novel object exposure: as predicted, bold birds more frequently approached the novel object and shy birds more strongly decreased overall locomotion during the novel object trial, but birds from both selection lines showed significant and similar frequencies of abnormal repetitive behaviours during novel object exposure. Our findings support the hypothesis that personality emerges as a result of correlated selection on behaviour and underlying endocrine mechanisms and suggest that the relationship between endocrine stress physiology and personality is context dependent.

Published

2017

31. Female variation in allocation of steroid hormones, antioxidants and fatty acids: a multilevel analysis in a wild passerine bird

Author

Lucia Mentesana, Caroline Isaksson, Martin Andersson, Michaela Hau, Wolfgang Goymann, and Monika Trappschuh

Subjects

0106 biological sciences, Parus, Phenotypic plasticity, education.field_of_study, food.ingredient, biology, Offspring, Population, Maternal effect, Zoology, Embryo, biology.organism_classification, 01 natural sciences, Passerine, 010605 ornithology, food, Nest, Yolk, biology.animal, embryonic structures, Evolutionary ecology, Animal Science and Zoology, education, Ecology, Evolution, Behavior and Systematics

Abstract

The environment where an embryo develops can be influenced by components of maternal origin, which can shape offspring phenotypes and therefore maternal fitness. In birds that produce more than one egg per clutch, females differ in the concentration of components they allocate into the yolk along the laying sequence. However, identification of processes that shape female yolk allocation and thus offspring phenotype still remains a major challenge within evolutionary ecology. A way to increase our understanding is by acknowledging that allocation patterns can differ depending on the level of analysis, such as the populationversusthe among-female (within-population) level. We employed mixed models to analyze at both levels the variation in allocation along the laying sequence of four steroid hormones, three antioxidants, and four groups of fatty acids present in the egg yolks of wild great tits (Parus major). We also quantified repeatabilities for each component to study female consistency. At a population level, the concentrations/proportions of five yolk components varied along the laying sequence, implying that the developmental environment is different for offspring developing in firstversuslast eggs. Females varied substantially in the mean allocation of components and in their plasticity along the laying sequence. For most components, these two parameters were negatively correlated. Females were also remarkably repeatable in their allocation. Overall, our data emphasize the need to account for female variation in yolk allocation along the laying sequence at multiple levels, as variation at a population level is underpinned by different individual patterns. Our findings also highlight the importance of considering both levels of analysis in future studies investigating the causes and fitness consequences of yolk compounds. Finally, our results on female repeatability confirm that analyzing one egg per nest is a suitable way to address the consequences of yolk resource deposition for the offspring.

Published

2019

32. Glucocorticoid-temperature association is shaped by foraging costs in individual zebra finches

Author

Simon Verhulst, Blanca Jimeno, Michaela Hau, and Verhulst lab

Subjects

Male, 030110 physiology, 0106 biological sciences, 0301 basic medicine, STRESS, Physiology, Foraging, Zoology, Aquatic Science, Biology, Metabolic rate, METABOLISM, ALLOSTASIS, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, medicine, Animals, Association (psychology), Molecular Biology, Ecology, Evolution, Behavior and Systematics, DEVELOPMENTAL CONDITIONS, Food availability, Temperature, Allostasis, Feeding Behavior, Thermoregulation, Functional interpretation, MODEL, Glucose, Energy expenditure, Insect Science, Foraging environment, Female, Animal Science and Zoology, Finches, Energy Metabolism, Corticosterone, Glucocorticoid, Body Temperature Regulation, medicine.drug, RESPONSES

Abstract

Glucocorticoid (GC) levels vary with environmental conditions, but the functional interpretation of GC variation remains contentious. A primary function is thought to be metabolic, mobilizing body reserves to match energetic demands. This view is supported by temperature-dependent GC levels, although reports of this effect show unexplained heterogeneity. We hypothesised that the temperature effect on GC concentrations will depend on food availability through its effect on the energy spent to gather the food needed for thermoregulation. We tested this hypothesis in zebra finches living in outdoor aviaries with manipulated foraging conditions (i.e. easy vs. hard), by relating within-individual differences in baseline GCs between consecutive years to differences in ambient temperature. In agreement with our hypothesis, we found the GC-temperature association to be significantly steeper in the hard foraging environment. This supports the metabolic explanation of GC variation, underlining the importance of accounting for variation in energy expenditure when interpreting GC variation.

Published

2018

33. Enzymatic antioxidants but not baseline glucocorticoids mediate the reproduction–survival trade-off in a wild bird

Author

Stefania Casagrande and Michaela Hau

Subjects

Male, 0106 biological sciences, 0301 basic medicine, Hydrocortisone, Evolution, media_common.quotation_subject, Longevity, Physiology, Biology, Trade-off, 010603 evolutionary biology, 01 natural sciences, Antioxidants, General Biochemistry, Genetics and Molecular Biology, Nesting Behavior, Songbirds, 03 medical and health sciences, chemistry.chemical_compound, Corticosterone, Animals, Baseline (configuration management), General Environmental Science, media_common, chemistry.chemical_classification, General Immunology and Microbiology, Reproduction, Glutathione peroxidase, General Medicine, Investment (macroeconomics), 030104 developmental biology, Enzyme, chemistry, General Agricultural and Biological Sciences

Abstract

The trade-off between reproductive investment and survival is central to life-history theory, but the relative importance and the complex interactions among the physiological mechanisms mediating it are still debated. Here we experimentally tested whether baseline glucocorticoid hormones, the redox system or their interaction mediate reproductive investment–survival trade-offs in wild great tits ( Parus major ). We increased the workload of parental males by clipping three feathers on each wing, and 5 days later determined effects on baseline corticosterone concentrations (Cort), redox state (reactive oxygen metabolites, protein carbonyls, glutathione peroxidase [GPx], total non-enzymatic antioxidants), body mass, body condition, reproductive success and survival. Feather-clipping did not affect fledgling numbers, chick body condition, nest provisioning rates or survival compared with controls. However, feather-clipped males lost mass and increased both Cort and GPx concentrations. Within feather-clipped individuals, GPx increases were positively associated with reproductive investment (i.e. male nest provisioning). Furthermore, within all individuals, males that increased GPx suffered reduced survival rates. Baseline Cort increases were related to mass loss but not to redox state, nest provisioning or male survival. Our findings provide experimental evidence that changes in the redox system are associated with the trade-off between reproductive investment and survival, while baseline Cort may support this trade-off indirectly through a link with body condition. These results also emphasize that plastic changes in individuals, rather than static levels of physiological signals, may mediate life-history trade-offs.

Published

2018

34. Corticosterone levels reflect variation in metabolic rate, independent of 'stress'

Author

Michaela Hau, Blanca Jimeno, Simon Verhulst, and Verhulst lab

Subjects

Blood Glucose, 030110 physiology, 0106 biological sciences, 0301 basic medicine, AMBIENT-TEMPERATURE, BASE-LINE, Anti-Inflammatory Agents, lcsh:Medicine, ALLOSTASIS, 01 natural sciences, GLUCOSE, RESPONSIVENESS, chemistry.chemical_compound, Corticosterone, lcsh:Science, POPULATION, education.field_of_study, Multidisciplinary, Temperature, Allostasis, Environmental exposure, Psychological stressor, medicine.medical_specialty, endocrine system, Population, Biology, 010603 evolutionary biology, STARLINGS STURNUS-VULGARIS, Article, 03 medical and health sciences, Stress, Physiological, ddc:570, Internal medicine, medicine, Animals, education, BIRDS, GLUCOCORTICOID CONCENTRATIONS, lcsh:R, Stressor, Environmental Exposure, Endocrinology, chemistry, Gluconeogenesis, Basal metabolic rate, lcsh:Q, Basal Metabolism, Finches, Energy Metabolism, Noise, RESPONSES

Abstract

Variation in glucocorticoid hormones (GCs) is often interpreted as reflecting ‘stress’, but this interpretation is subject of intense debate. GCs induce gluconeogenesis, and we hypothesized therefore that GC variation can be explained by changes in current and anticipated metabolic rate (MR). Alternatively, GC levels may respond to psychological ‘stress’ over and above its effect on metabolic rate. We tested these hypotheses in captive zebra finches, by inducing an increase in MR using a psychological stressor (noise), and compared its effect on corticosterone (CORT, the primary avian GC) with the effect induced by a decrease in ambient temperature increasing MR to a similar extent. We found the increase in CORT induced by the psychological stressor to be indistinguishable from the level expected based on the noise effect on MR. We further found that a handling and restraint stressor that increased CORT levels also resulted in increased blood glucose levels, corroborating a key assumption underlying our hypothesis. Thus, GC variation primarily reflected variation in energy expenditure, independently of psychological stress. GC levels have many downstream effects besides glucose mobilization, and we propose that these effects can be interpreted as adjustments of physiological functions to the metabolic level at which an organism operates.

Published

2018

35. Metabolic Scaling of Stress Hormones in Vertebrates

Author

Michele A. Johnson, Laura A. Schoenle, Lynn B. Martin, Jeremy W Donald, Tony D. Williams, Clinton D. Francis, Matthew J. Fuxjager, Rosemary Knapp, Maren N. Vitousek, Bonnie K. Kircher, Eliot T. Miller, Wolfgang Goymann, Cynthia J. Downs, Jerry F. Husak, and Michaela Hau

Subjects

0106 biological sciences, 0301 basic medicine, Hydrocortisone, Population, Zoology, Plant Science, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Corticosterone, Phylogenetics, biology.animal, medicine, Animals, education, Glucocorticoids, Organism, Phylogeny, education.field_of_study, Vertebrate, Interspecific competition, 030104 developmental biology, chemistry, Databases as Topic, Vertebrates, Animal Science and Zoology, Glucocorticoid, Hormone, medicine.drug

Abstract

Glucocorticoids (GCs) are stress hormones that can strongly influence physiology, behavior, and an organism's ability to cope with environmental change. Despite their importance, and the wealth of studies that have sought to understand how and why GC concentrations vary within species, we do not have a clear understanding of how circulating GC levels vary within and across the major vertebrate clades. New research has proposed that much interspecific variation in GC concentrations can be explained by variation in metabolism and body mass. Specifically, GC concentrations should vary proportionally with mass-specific metabolic rates and, given known scaling relationships between body mass and metabolic rate, GC concentrations should scale to the -1/4 power of body mass and to the power of 1 with mass-specific metabolic rate. Here, we use HormoneBase, the newly compiled database that includes plasma GC concentrations from free-living and unmanipulated vertebrates, to evaluate this hypothesis. Specifically, we explored the relationships between body mass or mass-specific metabolic rate and either baseline or stress-induced GC (cortisol or corticosterone) concentrations in tetrapods. Our phylogenetically-informed models suggest that, whereas the relationship between GC concentrations and body mass across tetrapods and among mammals is close to -1/4 power, this relationship does not exist in amphibians, reptiles, and birds. Moreover, with the exception of a positive association between stress-induced GC concentrations and mass-specific metabolic rate in birds, we found little evidence that GC concentrations are linked to metabolic rate, although the number of species sampled was quite limited for amphibians and somewhat so for reptiles and mammals. Nevertheless, these results stand in contrast to the generally accepted association between the two and suggest that our observed positive association between body mass and GC concentrations may not be due to the well-established link between mass and metabolism. Large-scale comparative approaches can come with drawbacks, such as pooling and pairing observations from separate sources. However, these broad analyses provide an important counterbalance to the majority of studies examining variation in GC concentrations at the population or species level, and can be a powerful approach to testing both long-standing and new questions in biology.

Published

2018

36. Seasonal-like variation in song control system volume of wild zebra finches

Author

Richard Zann, Nicole Perfito, George E. Bentley, and Michaela Hau

Subjects

Physiology, Ecology, Zoology, Model system, Biology, Zebra (medicine), Variation (linguistics), Song control system, Neuroplasticity, Genetics, Animal Science and Zoology, Reproductive state, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Zebra finches have been extensively used as a model system for studying the underlying neuroplasticity that allows for song learning during development. Zebra finches are considered age-limited or close-ended learners, in which fixed songs are learned within a certain window of time during development. In addition, they breed more or less continuously in laboratory conditions. As a consequence, less attention has been paid to potential neuroplasticity in adults. We present data on free-living zebra finches from two populations in Australia (one just beginning a period of breeding and another during a non-breeding period) that show a distinct difference in the volumes of two song system nuclei (HVC and Area X) depending on reproductive state. This is the first study to measure song system volumes in wild zebra finches, and suggests that the potential for neuroplasticity remains in adult zebra finches. J. Exp. Zool. 323A: 586–591, 2015. © 2015 Wiley Periodicals, Inc.

Published

2015

37. HormoneBase, a population-level database of steroid hormone levels across vertebrates

Author

Bonnie K. Kircher, Wolfgang Goymann, Eliot T. Miller, Lynn B. Martin, Jerry F. Husak, Laura A. Schoenle, Michele A. Johnson, Jeremy W Donald, Rosemary Knapp, Jennifer J. Uehling, Maren N. Vitousek, Michaela Hau, Clinton D. Francis, Matthew J. Fuxjager, and Tony D. Williams

Subjects

0106 biological sciences, 0301 basic medicine, Statistics and Probability, Senescence, Male, Data Descriptor, Databases, Factual, Range (biology), Physiology, Evolution, medicine.medical_treatment, Ecophysiology, Population, Library and Information Sciences, Biology, computer.software_genre, 010603 evolutionary biology, 01 natural sciences, Education, 03 medical and health sciences, Species Specificity, ddc:570, Animal physiology, medicine, Animals, education, Glucocorticoids, education.field_of_study, Database, Phenotypic trait, Animal behaviour, Phenotype, Biological Evolution, Computer Science Applications, Steroid hormone, 030104 developmental biology, Vertebrates, Androgens, Female, Statistics, Probability and Uncertainty, computer, Function (biology), Information Systems, Hormone

Abstract

Hormones are central regulators of organismal function and flexibility that mediate a diversity of phenotypic traits from early development through senescence. Yet despite these important roles, basic questions about how and why hormone systems vary within and across species remain unanswered. Here we describe HormoneBase, a database of circulating steroid hormone levels and their variation across vertebrates. This database aims to provide all available data on the mean, variation, and range of plasma glucocorticoids (both baseline and stress-induced) and androgens in free-living and un-manipulated adult vertebrates. HormoneBase ( www.HormoneBase.org ) currently includes >6,580 entries from 476 species, reported in 648 publications from 1967 to 2015, and unpublished datasets. Entries are associated with data on the species and population, sex, year and month of study, geographic coordinates, life history stage, method and latency of hormone sampling, and analysis technique. This novel resource could be used for analyses of the function and evolution of hormone systems, and the relationships between hormonal variation and a variety of processes including phenotypic variation, fitness, and species distributions. Machine-accessible metadata file describing the reported data (ISA-Tab format)

Published

2018

38. Corticosterone implants produce stress-hyporesponsive birds

Author

Fernando, Torres-Medina, Sonia, Cabezas, Tracy A, Marchant, Martin, Wikelski, L Michael, Romero, Michaela, Hau, Martina, Carrete, José L, Tella, and Julio, Blas

Subjects

Birds, Drug Implants, Male, Random Allocation, endocrine system, Dose-Response Relationship, Drug, Stress, Physiological, ddc:570, polycyclic compounds, Animals, Corticosterone, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), hormones, hormone substitutes, and hormone antagonists

Abstract

In birds, the use of corticosterone (Cort) implants is a frequent tool aimed at simulating systemic elevations of this hormone and studying effects on biological traits (e.g. physiology, morphology, behavior). This manipulation may alter adrenocortical function, potentially changing both baseline (Cort) and stress-induced (Cort) plasma Cort levels. However, implant effects on the latter trait are rarely measured, disregarding downstream consequences of potentially altered stress responses. Here, we analyzed the effects of Cort implants on both Cort and Cort in nestling and adult European white storks, Ciconia ciconia. In addition, we performed a review of 50 studies using Cort implants in birds during the last two decades to contextualize stork results, assess researchers' patterns of use and infer current study biases. High and low doses of Cort implants resulted in a decrease of both Cort (31-71% below controls) and Cort (63-79% below controls) in storks. Our literature review revealed that Cort generally increases (72% of experiments) whereas Cort decreases (78% of experiments) following implant treatment in birds. Our results challenge and expand the prevailing assumption that Cort implants increase circulating Cort levels because: (i) Cort levels show a quadratic association with implant dose across bird species, and decreased levels may occur at both high and low implant doses, and (ii) Cort implants also decrease Cort levels, thus producing stresshyporesponsive phenotypes. It is time to work towards a better understanding of the effects of Cort implants on adrenocortical function, before addressing downstream links to variation in other biological traits.

Published

2018

39. Corticosterone implants make stress hyporesponsive birds

Author

José Luis Tella, Fernando Torres-Medina, Michaela Hau, Tracy A. Marchant, L. Michael Romero, Martin Wikelski, Julio Blas, Martina Carrete, and Sonia Cabezas

Subjects

0106 biological sciences, 0301 basic medicine, endocrine system, Ciconia, Physiology, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Fight-or-flight response, 03 medical and health sciences, chemistry.chemical_compound, Corticosterone, polycyclic compounds, Molecular Biology, Ecology, Evolution, Behavior and Systematics, biology, Low dose, biology.organism_classification, 030104 developmental biology, chemistry, Insect Science, Animal Science and Zoology, Implant, hormones, hormone substitutes, and hormone antagonists, Hormone

Abstract

In birds, the use of corticosterone (Cort) implants is a frequent tool aimed at simulating systemic elevations of this hormone and studying effects on biological traits (e.g. physiology, morphology, behavior). This manipulation may alter adrenocortical function, potentially changing both baseline (BAS-Cort) and stress-induced (STRESS-Cort) plasma Cort levels. However, implant effects on the latter trait are rarely measured, disregarding downstream consequences of potentially altered stress responses. Here we analyzed the effects of Cort implants on both BAS-Cort and STRESS-Cort in nestling and adult European white storks Ciconia ciconia. In addition, we performed a review of 50 studies using Cort implants in birds during the last two decades to contextualize stork results, assess researchers' patterns of use and infer current study biases. High and low doses of Cort implants resulted in a decrease of both BAS-Cort (31-71% below controls) and STRESS-Cort (63-79% below controls) in storks. Our review revealed that BAS-Cort generally increases (72% of experiments) while STRESS-Cort decreases (78% of experiments) following implant treatment in birds. Our results challenge and expand the prevailing assumption that CORT implants increase circulating BAS-Cort levels because: (i) BAS-Cort levels show a quadratic association with implant dose across bird species, and decreased levels may occur at both high and low implant doses, and (ii) Cort implants also decrease STRESS-Cort levels, thus producing stress hyporesponsive phenotypes. It is time to work towards a better understanding of the effects of Cort implants on adrenocortical function, before addressing downstream links to variation in other biological traits.

Published

2018

40. Do Seasonal Glucocorticoid Changes Depend on Reproductive Investment? A Comparative Approach in Birds

Author

Laura A. Schoenle, Bonnie K. Kircher, Jeremy W Donald, Lynn B. Martin, Stefania Casagrande, Clinton D. Francis, Michele A. Johnson, Matthew J. Fuxjager, Jerry F. Husak, Eliot T. Miller, Tony D. Williams, Rosemary Knapp, Michaela Hau, László Zsolt Garamszegi, Wolfgang Goymann, and Maren N. Vitousek

Subjects

0106 biological sciences, 0301 basic medicine, Avian clutch size, Population, Zoology, Plant Science, 010603 evolutionary biology, 01 natural sciences, Birds, 03 medical and health sciences, biology.animal, medicine, Seasonal breeder, Animals, education, Glucocorticoids, Phylogeny, education.field_of_study, biology, Reproduction, Interspecific competition, Phylogenetic comparative methods, Passerine, 030104 developmental biology, Databases as Topic, Trait, Animal Science and Zoology, Seasons, Glucocorticoid, medicine.drug

Abstract

Animals go through different life history stages such as reproduction, moult, or migration, of which some are more energy-demanding than others. Baseline concentrations of glucocorticoid hormones increase during moderate, predictable challenges and thus are expected to be higher when seasonal energy demands increase, such as during reproduction. By contrast, stress-induced glucocorticoids prioritize a survival mode that includes reproductive inhibition. Thus, many species down-regulate stress-induced glucocorticoid concentrations during the breeding season. Interspecific variation in glucocorticoid levels during reproduction has been successfully mapped onto reproductive investment, with species investing strongly in current reproduction (fast pace of life) showing higher baseline and lower stress-induced glucocorticoid concentrations than species that prioritize future reproduction over current attempts (slow pace of life). Here we test the "glucocorticoid seasonal plasticity hypothesis", in which we propose that interspecific variation in seasonal changes in glucocorticoid concentrations from the non-breeding to the breeding season will be related to the degree of reproductive investment (and thus pace of life). We extracted population means for baseline (for 54 species) and stress-induced glucocorticoids (for 32 species) for the breeding and the non-breeding seasons from the database "HormoneBase", also calculating seasonal glucocorticoid changes. We focused on birds because this group offered the largest sample size. Using phylogenetic comparative methods, we first showed that species differed consistently in both average glucocorticoid concentrations and their changes between the two seasons, while controlling for sex, latitude, and hemisphere. Second, as predicted seasonal changes in baseline glucocorticoids were explained by clutch size (our proxy for reproductive investment), with species laying larger clutches showing a greater increase during the breeding season-especially in passerine species. In contrast, changes in seasonal stress-induced levels were not explained by clutch size, but sample sizes were more limited. Our findings highlight that seasonal changes in baseline glucocorticoids are associated with a species' reproductive investment, representing an overlooked physiological trait that may underlie the pace of life.

Published

2018

41. Flexible clock systems: adjusting the temporal programme

Author

Paul D. Heideman, Michaela Hau, Sjaak J. Riede, Daan R. van der Veen, Roelof A. Hut, and Vincent van der Vinne

Subjects

WHITE-FOOTED MICE, 0301 basic medicine, PEROMYSCUS-LEUCOPUS, clocks, COMMON VOLE, Timing system, Circadian clock, Foraging, Biology, Environment, General Biochemistry, Genetics and Molecular Biology, Time, peripheral clocks, 03 medical and health sciences, 0302 clinical medicine, Time of day, Circadian Clocks, timing, Animals, Circadian rhythm, GENE-EXPRESSION, Abiotic component, Chronobiology, seasonality, Ecology, SQUIRREL SPERMOPHILUS-CITELLUS, Articles, FEEDING SCHEDULES, DIURNAL RODENT, SUPRACHIASMATIC NUCLEUS, Circadian Rhythm, circadian, VOLE MICROTUS-ARVALIS, 030104 developmental biology, Adaptive plasticity, Cues, chronobiology, General Agricultural and Biological Sciences, PERIPHERAL CIRCADIAN CLOCKS, 030217 neurology & neurosurgery, Cognitive psychology

Abstract

Under natural conditions, many aspects of the abiotic and biotic environment vary with time of day, season or even era, while these conditions are typically kept constant in laboratory settings. The timing information contained within the environment serves as critical timing cues for the internal biological timing system, but how this system drives daily rhythms in behaviour and physiology may also depend on the internal state of the animal. The disparity between timing of these cues in natural and laboratory conditions can result in substantial differences in the scheduling of behaviour and physiology under these conditions. In nature, temporal coordination of biological processes is critical to maximize fitness because they optimize the balance between reproduction, foraging and predation risk. Here we focus on the role of peripheral circadian clocks, and the rhythms that they drive, in enabling adaptive phenotypes. We discuss how reproduction, endocrine activity and metabolism interact with peripheral clocks, and outline the complex phenotypes arising from changes in this system. We conclude that peripheral timing is critical to adaptive plasticity of circadian organization in the field, and that we must abandon standard laboratory conditions to understand the mechanisms that underlie this plasticity which maximizes fitness under natural conditions. This article is part of the themed issue ‘Wild clocks: integrating chronobiology and ecology to understand timekeeping in free-living animals’.

Published

2017

42. Effect of photoperiod on incubation period in a wild passerine, Sylvia atricapilla

Author

Suzanne H. Austin, W. Douglas Robinson, and Michaela Hau

Subjects

photoperiodism, biology, Ecology, Period (gene), Foraging, Skeleton (computer programming), Passerine, Incubation period, Animal science, biology.animal, Animal Science and Zoology, Incubation, Ecology, Evolution, Behavior and Systematics, Egg incubation

Abstract

Time required for avian embryos to develop is influenced by incubation temperature and the amount of time adults incubate eggs. Experiments on poultry indicate that photoacceleration, the light-induced stimulation of embryonic development, decreases the length of the incubation period as embryos receive more light. We hypothesized that eggs of wild birds exposed to longer periods of light should also have shorter incubation periods. We tested whether photoacceleration would occur in a species of open-cup nesting passerine, the blackcap Sylvia atricapilla. We artificially incubated blackcap eggs under four different photoperiods, four hours of light (4L) and 20 h of dark (20D), 12L:12D, 20L:4D, and a skeleton photoperiod (1 h light, 2 times per day) that framed a 20 h day. While incubation periods were accelerated with increasing photoperiod length, the differences among photoperiods of 4, 12 and 20L were weak. Embryos exposed to skeleton photoperiods developed as fast as those exposed to 20L and significantly faster than those exposed to 4L and 12L treatments. Skeleton photoperiods may most closely approximate natural patterns of light exposure that embryos experience during dawn and dusk incubation recesses typically associated with adult foraging. If our results from this species also occur in other wild birds, exposure to different day lengths may help explain some of the variation in the observed seasonal and latitudinal trends in avian incubation period.

Published

2014

43. Telomere attrition: metabolic regulation and signalling function?

Author

Stefania Casagrande and Michaela Hau

Subjects

0106 biological sciences, Biology, medicine.disease_cause, 010603 evolutionary biology, 01 natural sciences, Energy homeostasis, 03 medical and health sciences, medicine, Telomere Shortening, 030304 developmental biology, Evolutionary Biology, 0303 health sciences, Stressor, Telomere, Cell cycle, Agricultural and Biological Sciences (miscellaneous), Social Control, Formal, Cell biology, Oxidative Stress, Signalling, General Agricultural and Biological Sciences, Homeostasis, Oxidative stress, Function (biology), Signal Transduction

Abstract

Stress exposure can leave long-term footprints within the organism, like in telomeres (TLs), protective chromosome caps that shorten during cell replication and following exposure to stressors. Short TLs are considered to indicate lower fitness prospects, but why TLs shorten under stressful conditions is not understood. Glucocorticoid hormones (GCs) increase upon stress exposure and are thought to promote TL shortening by increasing oxidative damage. However, evidence that GCs are pro-oxidants and oxidative stress is causally linked to TL attrition is mixed . Based on new biochemical findings, we propose the metabolic telomere attrition hypothesis: during times of substantially increased energy demands, TLs are shortened as part of the transition into an organismal ‘emergency state’, which prioritizes immediate survival functions over processes with longer-term benefits. TL attrition during energy shortages could serve multiple roles including amplified signalling of cellular energy debt to re-direct critical resources to immediately important processes. This new view of TL shortening as a strategy to resolve major energetic trade-offs can improve our understanding of TL dynamics. We suggest that TLs are master regulators of cell homeostasis and propose future research avenues to understand the interactions between energy homeostasis, metabolic regulators and TL.

Published

2019

44. Baseline and stress-induced glucocorticoid concentrations are not repeatable but covary within individual great tits (Parus major)

Author

Alexander T. Baugh, Kees van Oers, Michaela Hau, Niels Jeroen Dingemanse, and Animal Ecology (AnE)

Subjects

Parus, education.field_of_study, biology, Ecology, Population, Reproducibility of Results, Repeatability, biology.organism_classification, Phenotype, Models, Biological, Correlation, Endocrinology, Evolutionary biology, Stress, Physiological, international, Trait, Animals, Animal Science and Zoology, Passeriformes, education, Corticosterone, Glucocorticoids, Selection (genetic algorithm), Hormone

Abstract

In evolutionary endocrinology, there is a growing interest in the extent and basis of individual variation in endocrine traits, especially circulating concentrations of hormones. This is important because if targeted by selection, such individual differences present the opportunity for an evolutionary response to selection. It is therefore necessary to examine whether hormone traits are repeatable in natural populations. However, research in this area is complicated by the fact that different hormone traits can be correlated. The nature of these trait correlations (i.e., phenotypic, within-, or among-individual) is critically relevant in terms of the evolutionary implications, and these in turn, depend on the repeatability of each hormone trait. By decomposing phenotypic correlations between hormone traits into their within- and among-individual components it is possible to describe the multivariate nature of endocrine traits and generate inferences about their evolution. In the present study, we repeatedly captured individual great tits (Parus major) from a wild population and measured plasma concentrations of corticosterone. Using a mixed-modeling approach, we estimated repeatabilities in both initial (cf. baseline; CORT0) and stress-induced concentrations (CORT30) and the correlations between those traits among- and within-individuals. We found a lack of repeatability in both CORT0 and CORT30. Moreover, we found a strong phenotypic correlation between CORT0 and CORT30, and due to the lack of repeatability for both traits, there was no among-individual correlation between these two traits—i.e., an individual’s average concentration of CORT0 was not correlated with its average concentration of CORT30. Instead, the phenotypic correlation was the result of a strong within-individual correlation, which implies that an underlying environmental factor co-modulates changes in initial and stress-induced concentrations within the same individual over time. These results demonstrate that (i) a phenotypic correlation between two hormone traits does not imply that the traits are correlated among individuals; (ii) the importance of repeated sampling to partition within- and among-individual variances and correlations among labile physiological traits; and (iii) that environmental factors explain a considerable fraction of the variation and co-variation in hormone concentrations.

Published

2014

45. Endocrine phenotype, reproductive success and survival in the great tit, Parus major

Author

Michaela Hau, Jenny Q. Ouyang, Michael Quetting, and Peter J. Sharp

Subjects

Male, Zoology, Biology, chemistry.chemical_compound, Sex Factors, Stress, Physiological, Corticosterone, Germany, Seasonal breeder, Animals, Passeriformes, Selection, Genetic, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm), Parus, Reproductive success, Directional selection, Ecology, Reproduction, biology.organism_classification, Biological Evolution, Survival Analysis, Hormones, Prolactin, Phenotype, chemistry, Linear Models, Female, Evolutionary ecology, Seasons

Abstract

A central goal in evolutionary ecology is to characterize and identify selection patterns on the optimal phenotype in different environments. Physiological traits, such as hormonal responses, provide important mechanisms by which individuals can adapt to fluctuating environmental conditions. It is therefore expected that selection shapes hormonal traits, but the strength and the direction of selection on plastic hormonal signals are still under investigation. Here, we determined whether, and in which way, selection is acting on the hormones corticosterone and prolactin by characterizing endocrine phenotypes and their relationship with fitness in free-living great tits, Parus major. We quantified variation in circulating concentrations of baseline and stress-induced corticosterone and in prolactin during the prebreeding (March) and the breeding season (May) for two consecutive years, and correlated these with reproductive success (yearly fledgling number) and overwinter survival in female and male individuals. In both years, individuals with high baseline corticosterone concentrations in March had the highest yearly fledgling numbers; while in May, individuals with low baseline corticosterone had the highest yearly reproductive success. Likewise, individuals that displayed strong seasonal plasticity in baseline corticosterone concentrations (high in March and low in May) had the highest reproductive success in each year. Prolactin concentrations were not related to reproductive success, but were positively correlated to the proximity to lay. Between-year plasticity in stress-induced corticosterone concentrations of males was related to yearly variation in food abundance, but not to overall reproductive success. These findings suggest that seasonally alternating directional selection is operating on baseline corticosterone concentrations in both sexes. The observed between-year consistency in selection patterns indicates that a one-time hormone sample in a given season can allow the prediction of individual fitness.

Published

2013

46. Early to rise, early to breed: a role for daily rhythms in seasonal reproduction

Author

Jessica L. Graham, Katie B. Needham, Timothy J. Greives, Michaela Hau, and Natalie J. Cook

Subjects

0106 biological sciences, 0301 basic medicine, Ecology, media_common.quotation_subject, Activity rhythms, Zoology, Chronotype, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Breed, Songbird, 03 medical and health sciences, 030104 developmental biology, Rhythm, ddc:570, Animal Science and Zoology, Reproductive system, Reproduction, Ecology, Evolution, Behavior and Systematics, Early onset, media_common

Abstract

Vertebrates use environmental cues to time reproduction to optimal breeding conditions. Numerous laboratory studies have revealed that light experienced during a critical window of the circadian (daily) rhythm can influence reproductive physiology. However, whether these relationships observed in captivity hold true under natural conditions and how they relate to observed variation in timing of reproductive output remains largely unexplored. Here we test the hypothesis that individual variation in daily timing recorded in nature (i.e. chronotype) is linked with variation in timing of breeding. To address this hypothesis and its generality across species, we recorded incubation behavior data to identify individual patterns in daily onset of activity for 2 temperate-breeding songbird species, the dark-eyed junco (Junco hyemalis aikeni) and the great tit (Parus major). We found that females who first departed from their nest earlier in the morning (earlier chronotype) also initiated nests earlier in the year. Date of data collection and ambient temperature had no effect, but stage of incubation influenced daily onset of activity in great tits. Our findings suggest a role for daily rhythms as one mechanism underlying the observed variation in seasonal timing of breeding. published

Published

2017

47. Strong association between corticosterone and temperature dependent metabolic rate in individual zebra finches

Author

Blanca Jimeno, Simon Verhulst, Michaela Hau, and Verhulst lab

Subjects

Male, AMBIENT-TEMPERATURE, 0106 biological sciences, 0301 basic medicine, BASE-LINE, Physiology, Metabolic rate, 01 natural sciences, Songbirds, chemistry.chemical_compound, Glucocorticoid, GREAT TIT, Corticosterone, polycyclic compounds, DEVELOPMENTAL CONDITIONS, biology, Temperature, Positive relationship, Female, hormones, hormone substitutes, and hormone antagonists, medicine.drug, endocrine system, medicine.medical_specialty, Aquatic Science, PARUS-MAJOR, STARLINGS STURNUS-VULGARIS, 010603 evolutionary biology, 03 medical and health sciences, Internal medicine, medicine, Animals, Glucocorticoid hormones, STRESS-RESPONSE, Association (psychology), Taeniopygia guttata, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Metabolic function, GLUCOCORTICOID CONCENTRATIONS, ENERGY-EXPENDITURE, biology.organism_classification, 030104 developmental biology, Endocrinology, chemistry, Insect Science, Animal Science and Zoology, Basal Metabolism, Finches, REPRODUCTIVE EFFORT, Taeniopygia

Abstract

Glucocorticoid hormones (GCs) are often assumed to be indicators of stress. At the same time, one of their fundamental roles is to facilitate metabolic processes to accommodate changes in energetic demands. Although the metabolic function of GCs is thought to be ubiquitous across vertebrates, we are not aware of experiments which tested this directly, i.e. in which metabolic rate was manipulated and measured together with GCs. We therefore tested for a relationship between plasma corticosterone (CORT; ln transformed) andmetabolic rate (MR; measured using indirect calorimetry) in a between- and within-individual design in captive zebra finches (Taeniopygia guttata) of both sexes. In each individual, CORT and MR were measured at two different temperature levels: 'warm' (22 degrees C) and 'cold' (12 degrees C). CORT and MR were both increased in colder compared with warmer conditions within individuals, but also across individuals. At the between- individual level, we found a positive relationship between CORT and MR, with an accelerating slope towards higher MR and CORT values. In contrast, the within-individual changes in CORT and MR in response to colder conditions were linearly correlated between individuals. The CORT-MR relationship did not differ between the sexes. Our results illustrate the importance of including variation at different levels to better understand physiological modulation. Furthermore, our findings support the interpretation of CORT variation as an indicator of metabolic needs.

Published

2017

48. Corticosterone and brood abandonment in a passerine bird

Author

Jenny Q. Ouyang, Michael Quetting, and Michaela Hau

Subjects

Parus, biology, Ecology, media_common.quotation_subject, Zoology, biology.organism_classification, Passerine, Brood, chemistry.chemical_compound, Nest, chemistry, Corticosterone, biology.animal, Abandonment (emotional), Animal Science and Zoology, Reproduction, Parental investment, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Hormones regulate decision-making strategies, in particular by translating an individual's physiological state into decisions on major behavioural and life-history processes, such as reproduction. Corticosterone, a glucocorticoid hormone, has been gaining attention as a mediator of reproductive effort, and experimentally elevated corticosterone concentrations have been shown to disrupt reproduction in avian species. Here, we tested whether individual variation in corticosterone concentrations is related to the decision for brood abandonment in free-living great tits, Parus major. Because of harsh environmental conditions, many adults abandoned their first broods in 2010, enabling us to ask which physiological, environmental and individual characteristics increased the probability of nest desertion by both males and females. The best predictors of nest desertion were high stress-induced corticosterone levels in males and low average nestling mass. Furthermore, high stress-induced corticosterone levels in 2010 appeared to represent plastic responses to environmental conditions and reproductive investment: individual males that abandoned their nests in 2010 had higher stress-induced corticosterone concentrations and produced nestlings with lower average mass than in 2009, when nesting successfully. Females that abandoned their nests in 2010 had higher baseline corticosterone concentrations than in 2009, when nesting successfully. Also, males that renested after abandonment in 2010 had lower stress-induced corticosterone concentrations and nestlings with higher mass. Finally, pairs that abandoned but renested later in 2010 had similar fledgling success at the end of the season as those that did not abandon. These results indicate that an individual's reproductive decision is the result of a plastic modulation of the corticosterone stress response that influences reproductive decisions according to environmental conditions.

Published

2012

49. Molt–breeding overlap alters molt dynamics and behavior in zebra finches, Taeniopygia guttata castanotis

Author

María Ángela Echeverry-Galvis and Michaela Hau

Subjects

Male, Time Factors, animal structures, Physiology, media_common.quotation_subject, Zoology, Molting, Aquatic Science, Models, Biological, Animals, Life history, Molecular Biology, Ecology, Evolution, Behavior and Systematics, media_common, Wing, Behavior, Animal, biology, Ecology, Reproduction, biology.organism_classification, Flight feather, Plumage, Insect Science, Feather, visual_art, visual_art.visual_art_medium, Female, Animal Science and Zoology, Finches, Moulting, Taeniopygia

Abstract

SUMMARY Costly events in the life history cycle of organisms such as reproduction, migration and pelage/plumage replacement are typically separated in time to maximize their outcome. Such temporal separation is thought to be necessitated by energetical trade-offs, and mediated through physiological processes. However, certain species, such as tropical birds, are able to overlap two costly life history stages: reproduction and feather replacement. It has remained unclear how both events progress when they co-occur over extended periods of time. Here we determined the consequences and potential costs of such overlap by comparing molt and behavioral patterns in both sexes of captive zebra finches (Taeniopygia guttata castanotis) that were solely molting or were overlapping breeding and molt. Individuals overlapping the early stages of breeding with molt showed a roughly 40% decrease in the growth rate of individual feathers compared with birds that were molting but not breeding. Further, individuals that overlapped breeding and molt tended to molt fewer feathers simultaneously and exhibited longer intervals between shedding consecutive feathers on the tail or the same wing as well as delays in shedding corresponding flight feathers on opposite sides. Overlapping individuals also altered their time budgets: they devoted more than twice the time to feeding while halving the time spent for feather care in comparison to molt-only individuals. These data provide experimental support for the previously untested hypothesis that when molt and reproduction overlap in time, feather replacement will occur at a slower and less intense rate. There were no sex differences in any of the variables assessed, except for a tendency in females to decline body condition more strongly over time during the overlap than males. Our data indicate the existence of major consequences of overlapping breeding and molt, manifested in changes in both molt dynamics and time budgets of both sexes. It is likely that under harsher conditions in natural environments such consequences will be more severe and may result in fitness consequences.

Published

2012

50. Corticosterone responses differ between lines of great tits (Parus major) selected for divergent personalities

Author

Kees van Oers, Michaela Hau, Piet de Goede, John F. Cockrem, Sonja V. Schaper, Alexander T. Baugh, Animal Ecology (AnE), and Animal Population Biology

Subjects

Parus, Male, Behavior, Animal, Offspring, media_common.quotation_subject, Zoology, Biology, Personality psychology, biology.organism_classification, Genetic correlation, Endocrinology, Phenotype, Stress, Physiological, Sexual selection, international, Exploratory Behavior, Personality, Animals, Animal Science and Zoology, Female, Passeriformes, Personality test, Big Five personality traits, Corticosterone, media_common

Abstract

Animal ‘personality’ describes consistent individual differences in suites of behaviors, a phenomenon exhibited in diverse animal taxa and shown to be under natural and sexual selection. It has been suggested that variation in personality reflects underlying physiological variation; however there is limited empirical evidence to test this hypothesis in wild animals. The hypothalamic–pituitary–adrenal axis is hypothesized to play a central role in personality variation. Here we tested whether in great tits Parus major variation in personality traits is related to plasma concentrations of corticosterone (CORT). Using a capture-restraint protocol we examined baseline and stress-induced CORT levels in two captive experimental groups: (1) birds selected for divergent personalities (‘fast-bold’ and ‘slow-shy’ explorers); and (2) non-selected offspring of wild parents. We first tested for differences in CORT between selection lines, and second examined the relationship between responses in a canonical personality test and CORT concentrations in non-selected birds. We found support for our prediction that the slow-shy line would exhibit a higher acute stress response than the fast-bold line, indicating a genetic correlation between exploratory behavior and stress physiology. We did not, however, find that continuous variation in exploratory behavior co-varies with CORT concentrations in non-selected birds. While our results provide support for the idea that personality emerges as a result of correlated selection on behavior and underlying physiological mechanisms, they also indicate that this link may be particularly evident when composite personality traits are the target of selection.

Published

2012