Your search keyword '"G. Guglielmo"' showing total 340 results

1. Short-term mercury exposure disrupts muscular and hepatic lipid metabolism in a migrant songbird

Author

Chad L. Seewagen, Cory R. Elowe, Alexander R. Gerson, Derrick J. E. Groom, Yanju Ma, Mustafa Yildirim, and Christopher G. Guglielmo

Subjects

Medicine, Science

Abstract

Abstract Methylmercury (MeHg) is a global pollutant that can cause metabolic disruptions in animals and thereby potentially compromise the energetic capacity of birds for long-distance migration, but its effects on avian lipid metabolism pathways that support endurance flight and stopover refueling have never been studied. We tested the effects of short-term (14-d), environmentally relevant (0.5 ppm) dietary MeHg exposure on lipid metabolism markers in the pectoralis and livers of yellow-rumped warblers (Setophaga coronata) that were found in a previous study to have poorer flight endurance in a wind tunnel than untreated conspecifics. Compared to controls, MeHg-exposed birds displayed lower muscle aerobic and fatty acid oxidation capacity, but similar muscle glycolytic capacity, fatty acid transporter expression, and PPAR expression. Livers of exposed birds indicated elevated energy costs, lower fatty acid uptake capacity, and lower PPAR-γ expression. The lower muscle oxidative enzyme capacity of exposed birds likely contributed to their weaker endurance in the prior study, while the metabolic changes observed in the liver have potential to inhibit lipogenesis and stopover refueling. Our findings provide concerning evidence that fatty acid catabolism, synthesis, and storage pathways in birds can be dysregulated by only brief exposure to MeHg, with potentially significant consequences for migratory performance.

Published

2022

2. Correction: Reversal of the adipostat control of torpor during migration in hummingbirds

Author

Erich R Eberts, Christopher G Guglielmo, and Kenneth C Welch Jr

Subjects

Medicine, Science, Biology (General), QH301-705.5

Published

2023

3. Combining bulk stable H isotope (δ2H) measurements with fatty acid profiles to examine differential use of aquatic vs. terrestrial prey by three sympatric species of aerial insectivorous birds

Author

Corrine S. V. Génier, Christopher G. Guglielmo, and Keith A. Hobson

Subjects

aerial insectivore, diet quality, stable hydrogen isotopes, fatty acids, nutritional landscapes, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Aerial insectivorous songbirds such as swallows and martins have declined substantially in North America in recent decades. Aquatic-emergent insects provide more beneficial omega-3 fatty acids than terrestrial insects, and thus, diet quality is expected to vary among aerial insectivores with differential access to aquatic-emergent insects. We compared the stable hydrogen isotope (δ2H) values of feathers and bulk blood plasma fatty acids of nestling purple martins (Progne subis), tree swallows (Tachycineta bicolor), and barn swallows (Hirundo rustica), at lakeshore and inland sites near Lake Erie, Ontario, Canada. We found that diet quality differed between inland and lakeshore nesting habitats, but differences depended on species. Overall, purple martin and tree swallow nestlings had lower feather δ2H values, indicating a more aquatic-emergent diet, and lakeshore populations of both species had higher omega-3 fatty acid levels in their blood plasma compared to inland populations. Conversely, higher plasma levels of omega-6 fatty acids were found in inland birds. Tree swallows have a low omega-3 conversion efficiency from precursor substrates and so depend on aquatic subsidies to fulfill their nutritional needs. We suggest this may also be the case with purple martins. Barn swallows had the most positive feather δ2H values, regardless of proximity to the lakeshore, indicating a more terrestrial diet. However, barn swallow nestlings had consistently higher plasma omega-3 docosahexaenoic acid (DHA) regardless of nesting location, suggesting that barn swallows can efficiently convert omega-3 precursors into their beneficial elongated fatty acid chains. Our study indicates the benefit of combining plasma fatty acid compositional analyses with bulk feather δ2H values to decipher interspecific differences in adaptations to availability of aquatic-emergent insects.

Published

2022

4. A Scaling Approach to Understand the Dynamics of Fat and Lean Mass in Refueling Migrant Songbirds Measured by Quantitative Magnetic Resonance

Author

Christopher G. Guglielmo, Yolanda E. Morbey, Lisa V. Kennedy, Jessica E. Deakin, J. Morgan Brown, and Andrew T. Beauchamp

Subjects

body composition, allometry, migration, bird, energetics, nutrition, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Fat contributes most of the energy for migratory flight of birds, whereas lean body tissues (muscles and organs) contribute amino acids and water to maintain metabolic and osmotic homeostasis. During refueling at stopover sites, both fat and lean mass are recovered, but the dynamics of this recovery are poorly understood. We used non-invasive quantitative magnetic resonance (QMR) analysis to measure fat and lean mass of > 3,500 individuals of 25 songbird species during six spring and three autumn migration seasons between 2009 and 2019 at Long Point, ON, Canada. We used allometric scaling analysis and linear mixed-effects modeling of body composition data at both the population level (single capture) and the individual level (recapture). In the population-level analysis, lean mass scaled hypoallometrically with body mass, such that for every 20% increase in body mass, lean mass was predicted to increase by 12.1% in spring and 12.8% in autumn. Fat scaled hyperallometrically with body mass, such that for every 20% increase in body mass, fat mass was predicted to increase by 144% in spring and 136% in autumn. At the individual level, these allometric relationships were more extreme. As a result of this differential allometry, at low body masses, lean and fat mass contributes nearly equally to changes in mass, but at high body mass fat deposition becomes progressively more dominant. Spring migrants deposited relatively more fat than autumn migrants, and in autumn juvenile birds tended to have greater lean mass than adults. Our findings show that lean mass deposition during refueling by songbirds is substantial, and in line with the losses of protein expected in flight. The process of fat and lean mass deposition is characterized by non-linear dynamics which are influenced by the current body composition, season, and, to a lesser extent, age. The patterns suggest that the need for dietary protein to rebuild lean mass will be greater when body mass is low, during autumn migration, and in juvenile birds.

Published

2022

5. Reversal of the adipostat control of torpor during migration in hummingbirds

Author

Erich R Eberts, Christopher G Guglielmo, and Kenneth C Welch Jr

Subjects

ruby-throated hummingbirds, torpor, migration, body composition, respirometry, quantitative magnetic resonance, Medicine, Science, Biology (General), QH301-705.5

Abstract

Many small endotherms use torpor to reduce metabolic rate and manage daily energy balance. However, the physiological ‘rules’ that govern torpor use are unclear. We tracked torpor use and body composition in ruby-throated hummingbirds (Archilochus colubris), a long-distance migrant, throughout the summer using respirometry and quantitative magnetic resonance. During the mid-summer, birds entered torpor at consistently low fat stores (~5% of body mass), and torpor duration was negatively related to evening fat load. Remarkably, this energy emergency strategy was abandoned in the late summer when birds accumulated fat for migration. During the migration period, birds were more likely to enter torpor on nights when they had higher fat stores, and fat gain was positively correlated with the amount of torpor used. These findings demonstrate the versatility of torpor throughout the annual cycle and suggest a fundamental change in physiological feedback between adiposity and torpor during migration. Moreover, this study highlights the underappreciated importance of facultative heterothermy in migratory ecology.

Published

2021

6. Effect of the Social Environment on Spring Migration Timing of a Songbird

Author

Jessica E. Deakin, Christopher G. Guglielmo, and Yolanda E. Morbey

Subjects

social environment, protandry, sex ratio, migration timing, automated radio-telemetry, migratory restlessness, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

The influence of the social environment on the timing of the annual cycle is poorly understood. Seasonally migratory birds are under pressure to accurately time their spring migration, and throughout the annual cycle, they may experience variability of the local sex-ratio. A population-level male-biased sex ratio is predicted to advance spring migration timing in males and is attributed to the increased intra-specific competition for access to females and/or breeding territories. The present study had two goals. First, to develop a method that utilizes digitally coded radio-transmitters to quantify the activity of flocked individuals in captivity. Second, to use this method to test the hypothesis that the social environment influences the spring migration traits of male yellow-rumped warblers (Setophaga coronata coronata). To accomplish this, birds were captured in the fall in Long Point, Ontario, and transferred to the Advanced Facility for Avian Research, London, Ontario. In the winter, they were assigned to a slightly male- or female-biased treatment and housed in flocks in large free-flight rooms. Throughout the experimental period, we took body mass measurements and standardized photos to monitor body condition and molt progression. To measure locomotor activity, the birds were outfitted with digitally coded radio-transmitters in April and photo-triggered to enter a migratory phenotype. The tagged birds were released at their capture site in May and the Motus Wildlife Tracking System was used to determine stopover departure timing and migratory movements. Sex ratio did not influence body mass or molt progression. However, males from the male-biased treatment had significantly less locomotor movement than those from the female-biased treatment. Additionally, a lower proportion of males from the male-biased treatment initiated migratory restlessness, an indicator of the urge to migrate. Overall, these findings suggest that the social environment can influence behavior of songbirds, but do not support the hypothesis that a male-biased sex ratio accelerates migration.

Published

2021

7. Migratory songbirds and urban window collision mortality: vulnerability depends on species, diel timing of migration, and age class

Author

Olivia M. Colling, Christopher G. Guglielmo, Simon J. Bonner, and Yolanda E. Morbey

Subjects

anthropogenic mortality, avian migration, bird-window collisions, citizen science, stopover ecology, urban environments, Ecology, QH540-549.5

Abstract

Hundreds of millions of birds are estimated to die annually in North America by colliding with windows, and understanding the species-level correlates of collision mortality is an important step towards mitigation. We used a 16-year window collision dataset for 35 migratory songbird species from Toronto's (Canada) Fatal Light Awareness Program (FLAP) to quantify species differences in vulnerability to urban window collision mortality and potential correlates during the autumn period by applying generalized linear models. To control for annual abundance, we used migration monitoring data from two stations. Our index of vulnerability was the catch ratio, defined as the ratio of annual catch-per-unit effort in each station's mist net program to annual catch-per-unit effort in FLAP. Catch ratios varied among species with Ovenbird (Seiurus aurocapilla), Common Yellowthroat (Geothlypis trichas), and Lincoln's Sparrow (Melospiza lincolnii) being most vulnerable to window collision mortality and Blue-headed Vireo (Vireo solitarius), Yellow-rumped Warbler (Setophaga coronata), and Ruby-crowned Kinglet (Regulus calendula) being least vulnerable. Foraging guild had a minor effect on the catch ratio, but species with a propensity for nocturnal migration had lower catch ratios (greater vulnerability) than those that did not. Based on a subset of species (n = 4) and years (n = 2), hatch-year birds were overrepresented relative to after-hatch-year birds in FLAP compared to the nearby migration monitoring station in 3 of 4 species. This study provides the first ranked list of species vulnerability to urban window collision mortality for songbirds migrating through downtown Toronto, provides evidence that juveniles are more vulnerable to window collision mortality than adults in some species, and highlights the need for more comparative studies of migratory movement behavior to investigate why some species are more vulnerable to urban window collision mortality than others.

Published

2022

8. Social factors in mixed language emergence: Solving the puzzle of Amish Shwitzer

Author

Ballarè, Silvia, Inglese, Guglielmo, Ballarè, S ( Silvia ), Inglese, G ( Guglielmo ), Hasse, Anja; https://orcid.org/0000-0002-5268-2432, Seiler, Guido, Ballarè, Silvia, Inglese, Guglielmo, Ballarè, S ( Silvia ), Inglese, G ( Guglielmo ), Hasse, Anja; https://orcid.org/0000-0002-5268-2432, and Seiler, Guido

Abstract

Mixed languages are stable languages stemming from at least two parental languages from which they inherit larger parts of their linguistic system, e.g. gram-matical structure from one parental language and lexicon from another parental language. Amish Shwitzer, spoken by a group of Old Order Amish in Adams County, Indiana (US), is such a mixed language: The lexicon is derived from Bernese Swiss German (the language spoken by the ancestors of this group of Amish) but the grammar from Pennsylvania Dutch (the language spoken by most other Old Order Amish). Mixed languages emerge under specific sociolinguistic circumstances, and they are markers of a distinct identity. In this article, we will contextualize Amish Shwitzer in the existing frameworks of mixed languages and their emergence. In particular, we will use known mechanisms of mixed language emergence in order to reconstruct how and why Amish Shwitzer emerged and became the way it is today. We will argue that Amish Shwitzer expresses a new (rather than an old) identity and a threefold separation, namely from the American majority society, from Non-Swiss Amish communities and from Non-Amish Swiss communities. The specific mixed structure of Amish Shwitzer emerged first as an L2 variety spoken by Non-Swiss Amish whose native language was Pennsylvania Dutch. This variety was nativized by their children and was adopted ultimately by the Adams County Swiss Amish com-munity as a whole.

Published

2023

9. Migration Takes Extra Guts for Juvenile Songbirds: Energetics and Digestive Physiology During the First Journey

Author

Brendan J. McCabe and Christopher G. Guglielmo

Subjects

age, metabolic rate, body composition, digestive efficiency, migration, stopover, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Many birds undertake long migrations when they are only a few months of age. Although they are typically of adult body size, their performance, and survival are often poor compared to adults. This differential performance could be due to lack of experience, selection against poor-performing cohort members, or inherent constraints of continuing physiological and morphological maturation of juveniles. Limited evidence suggests that digestive and muscle physiology of juveniles during their first migration may differ from that of adults. We compared body composition, metabolic rate, and digestive physiology between juvenile and adult passerines during fall migration. First, we measured fat and lean masses by quantitative magnetic resonance, and organ and muscle masses of salvaged carcasses of fall migrants from four passerine species. In general, juveniles had more lean mass and heavier digestive organs (especially liver) than adults in hermit thrushes (Catharus guttatus), Swainson's thrushes (Catharus ustulatus), ovenbirds (Seiurus aurocapilla), and white-throated sparrows (Zonotrichia albicollis). Principal components analysis of all organs and muscles revealed that juveniles for three of four species had overall larger digestive components and smaller flight muscles than adults. We then used open-flow respirometry to measure basal metabolic rates (BMRs) of juvenile and adult Swainson's thrushes and white-throated sparrows captured in fall at a migratory stopover site. Controlling for a significant effect of body mass, juveniles had 6% higher BMRs than adults in both species. We then conducted total collection mass balance feeding trials with fall migratory Swainson's thrushes and white-throated sparrows. Juvenile thrushes had greater metabolizable energy intake than adults, which was achieved through higher food intake rather than greater utilization efficiency. Age classes of white-throated sparrows did not differ in these measures of digestive performance, although juveniles had greater food intake capacity at low lean body masses. We propose that age-related differences in foraging ecology, diet composition, and energy requirements may be responsible for larger digestive organs of juvenile migrants. Larger guts may allow juveniles to consume more food or a more dilute diet, but may contribute to higher BMRs.

Published

2019

10. Erratum to

Author

Theunis Piersma, Robert E Gill, Daniel R Ruthrauff, Christopher G Guglielmo, Jesse R Conklin, and Colleen M Handel

Subjects

Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics

Abstract

In the originally published version of this article, five lines of text unconnected to the paper was accidentally inserted at the end of the Acknowledgements section. This material has now been deleted and the article corrected online.

Published

2022

11. Overview of HIPE-2022: Named Entity Recognition and Linking in Multilingual Historical Documents

Author

Barrón-Cedeño, Alberto, Da San Martino, Giovanni, Degli Esposti, Mirko, Sebastiani, Fabrizio, Macdonald, Craig, Pasini, Gabriella, Hanbury, Allan, Potthast, Martin, Faggioli, Guglielmo, Ferro, Nicola, Barrón-Cedeño, A ( Alberto ), Da San Martino, G ( Giovanni ), Degli Esposti, M ( Mirko ), Sebastiani, F ( Fabrizio ), Macdonald, C ( Craig ), Pasini, G ( Gabriella ), Hanbury, A ( Allan ), Potthast, M ( Martin ), Faggioli, G ( Guglielmo ), Ferro, N ( Nicola ), Ehrmann, Maud; https://orcid.org/0000-0001-9900-2193, Romanello, Matteo; https://orcid.org/0000-0002-7406-6286, Najem-Meyer, Sven; https://orcid.org/0000-0002-3661-4579, Doucet, Antoine; https://orcid.org/0000-0001-6160-3356, Clematide, Simon; https://orcid.org/0000-0003-1365-0662, Barrón-Cedeño, Alberto, Da San Martino, Giovanni, Degli Esposti, Mirko, Sebastiani, Fabrizio, Macdonald, Craig, Pasini, Gabriella, Hanbury, Allan, Potthast, Martin, Faggioli, Guglielmo, Ferro, Nicola, Barrón-Cedeño, A ( Alberto ), Da San Martino, G ( Giovanni ), Degli Esposti, M ( Mirko ), Sebastiani, F ( Fabrizio ), Macdonald, C ( Craig ), Pasini, G ( Gabriella ), Hanbury, A ( Allan ), Potthast, M ( Martin ), Faggioli, G ( Guglielmo ), Ferro, N ( Nicola ), Ehrmann, Maud; https://orcid.org/0000-0001-9900-2193, Romanello, Matteo; https://orcid.org/0000-0002-7406-6286, Najem-Meyer, Sven; https://orcid.org/0000-0002-3661-4579, Doucet, Antoine; https://orcid.org/0000-0001-6160-3356, and Clematide, Simon; https://orcid.org/0000-0003-1365-0662

Abstract

This paper presents an overview of the second edition of HIPE (Identifying Historical People, Places and other Entities), a shared task on named entity recognition and linking in multilingual historical documents. Following the success of the first CLEF-HIPE-2020 evaluation lab, HIPE-2022 confronts systems with the challenges of dealing with more languages, learning domain-specific entities, and adapting to diverse annotation tag sets. This shared task is part of the ongoing efforts of the natural language processing and digital humanities communities to adapt and develop appropriate technologies to efficiently retrieve and explore information from historical texts. On such material, however, named entity processing techniques face the challenges of domain heterogeneity, input noisiness, dynamics of language, and lack of resources. In this context, the main objective of HIPE-2022, run as an evaluation lab of the CLEF 2022 conference, is to gain new insights into the transferability of named entity processing approaches across languages, time periods, document types, and annotation tag sets. Tasks, corpora, and results of participating teams are presented.

Published

2022

12. Testing the utility of condition indices in nestling swallows: a quantitative magnetic resonance approach

Author

Andrew T. Beauchamp, Jackson W. Kusack, Keith A. Hobson, and Christopher G. Guglielmo

Subjects

0106 biological sciences, Condition index, Statistics, Linear regression, Lean body mass, Total body, 010603 evolutionary biology, 01 natural sciences, Body condition, 010605 ornithology, Hirundo rustica erythrogaster, Mathematics, Fat mass

Abstract

Nutritional condition is a key factor influencing the survival of migratory birds, and condition indices derived from morphometric measurements are commonly used to assess nutrient and energy stores. The performance and utility of condition indices used to examine energetics of growing juvenile birds remain uncertain. Recently, quantitative magnetic resonance (QMR) has been used to provide a non-invasive and non-lethal way to obtain measures of body composition. We calculated three widely used body condition indices using both wing length and tarsus length for nestling Barn Swallows Hirundo rustica erythrogaster at two ages (Day 8 and 15) and compared them to relative fat and lean mass calculated using QMR measurements. Additionally, we used QMR to develop multiple regression formulas to predict nestling fat mass, lean mass, and fat-free lean body mass (LBM) from easily obtainable body metrics. In Day 8 birds, variation in both relative fat mass and relative lean mass were adequately explained by total body mass alone, but this relationship was strongest for lean mass. Almost every condition index evaluated failed to explain variation in relative fat or lean mass in Day 15 birds. While our best multiple regression formulas for predicting fat mass and LBM had low predictive power, our formulas for predicting lean mass were precise (R2 > 90%) in both ages, providing a method to estimate the lean mass of nestlings from more readily obtainable metrics. Estimates of fat mass calculated from LBM and total body mass showed poor precision (R2 ≤ 30%).

Published

2020

13. Turbulent Wake-Flow Characteristics in the Near Wake of Freely Flying Raptors: A Comparative Analysis Between an Owl and a Hawk

Author

Gareth Morgan, Krishnamoorthy Krishnan, Gregory A. Kopp, Hadar Ben-Gida, Christopher G. Guglielmo, and Roi Gurka

Subjects

0301 basic medicine, Meteorology, Plant Science, Wake, 01 natural sciences, 010305 fluids & plasmas, 03 medical and health sciences, 0103 physical sciences, Animals, Wings, Animal, Parabuteo unicinctus, Wind tunnel, Wing, Raptors, biology, Turbulence, Great horned owl, Aerodynamics, Strigiformes, biology.organism_classification, Biomechanical Phenomena, 030104 developmental biology, Flight, Animal, Turbulence kinetic energy, Environmental science, Animal Science and Zoology, Rheology

Abstract

SynopsisOwl flight has been studied over multiple decades associated with bio-inspiration for silent flight. However, their aerodynamics has been less researched. The aerodynamic noise generated during flight depends on the turbulent state of the flow. In order to document the turbulent characteristics of the owl during flapping flight, we measured the wake flow behind a freely flying great horned owl (Bubo virginianus). For comparison purposes, we chose to fly a similar-sized raptor a Harris’s hawk (Parabuteo unicinctus): one is nocturnal and the other is a diurnal bird of prey. Here, we focus on the wake turbulent aspects and their impact on the birds’ flight performances. The birds were trained to fly inside a large-scale wind tunnel in a perch-to-perch flight mode. The near wake of the freely flying birds was characterized using a long duration time-resolved particle image velocimetry system. The velocity fields in the near wake were acquired simultaneously with the birds’ motion during flight which was sampled using multiple high-speed cameras. The turbulent momentum fluxes, turbulent kinetic energy production, and dissipation profiles are examined in the wake and compared. The near wake of the owl exhibited significantly higher turbulent activity than the hawk in all cases, though both birds are similar in size and followed similar flight behavior. It is suggested that owls modulate the turbulence activity of the near wake in the vicinity of the wing, resulting in rapid decay before radiating into the far-field; thus, suppressing the aerodynamic noise at the far wake.

Published

2020

14. The Value of Experimental Approaches in Migration Biology

Author

Kim Aarestrup, Amy K. Teffer, Kim Birnie-Gauvin, Robert J. Lennox, D. Ryan Norris, Steven J. Cooke, Glenn T. Crossin, and Christopher G. Guglielmo

Subjects

Value (ethics), Physiology, media_common.quotation_subject, Treatments, Wildlife, Biology, Invertebrates, Biochemistry, Data science, Laboratory, Proximate and ultimate causation, Proximate causes, Vertebrates, Animals, Ultimate causes, Animal Migration, Animal Science and Zoology, Experiments, Function (engineering), Zoology, Energy allocation, Migration, media_common

Abstract

The past several decades have ushered in a golden age in the study of migration biology, leading to a wealth of descriptive articles that characterize various aspects of migration and its implications for individuals, populations, and ecosystems. However, relatively few studies have adopted an experimental approach to the study of migration, and fewer still have combined lab and field experiments to glean insights into the mechanisms underlying variation in migration behavior and success. Understanding the proximate and ultimate causes of migration timing, energy allocation and optimization, migration success, and fitness is important to aid the conservation and management of wildlife populations by establishing appropriate protections or managing environmental conditions that influence migration. With recent technological advances and miniaturization of animal-borne electronic tracking devices, as well as ground-, water-, and space-based telemetry infrastructure, researchers have the tools necessary to experimentally test hypotheses central to the mechanics of migrations and individual variation therein. By pairing physiological measurements, molecular analyses, and other approaches within an experimental framework, there is the potential to understand not only how animal migrations function but also what differentiates successful migrations from failed migrations and the associated fitness implications. Experimental approaches to migration biology are particularly important, as they will help us to better comprehend and hopefully predict animal responses to environmental and anthropogenic changes by isolating confounding variables that challenge inferences from observations.

Published

2020

15. Temporal patterns of foraging by silver-haired bats during migratory stopover revealed by isotopic analyses (δ13C) of breath CO2

Author

Keith A. Hobson, Dylan E. Baloun, and Christopher G. Guglielmo

Subjects

0106 biological sciences, Forage (honey bee), biology, δ13C, 010604 marine biology & hydrobiology, Foraging, Captivity, Zoology, Torpor, Lasionycteris noctivagans, biology.organism_classification, Trade-off, 010603 evolutionary biology, 01 natural sciences, Habitat, Ecology, Evolution, Behavior and Systematics

Abstract

The extent to which migratory bats forage at stopover sites or while in migratory flight is poorly understood. Endogenous fat stores have lower δ13C values relative to the dietary substrates from which they were synthesized, and so, the fed versus fasted state of bats should be discernable by comparing their breath δ13C at capture to that after a known period of fasting. We captured silver-haired bats (Lasionycteris noctivagans) at a stopover site at Long Point, Ontario, Canada, during spring and fall migration. We collected breath samples at capture and after fasting in captivity for 12 h, providing a fasted-state δ13C value corresponding to metabolism of fat stores. We also collected and weighed fecal pellets produced while in captivity. Breath δ13C values at capture were positively correlated with mass of feces produced. During spring migration, δ13C values of breath CO2 at capture were low and similar to fasting values, but increased with date consistent with increased foraging at stopover and reliance on exogenous dietary nutrients as the season progressed. The opposite temporal pattern was found during fall migration. Our findings suggest that bats forage during migratory stopover when environmental conditions permit despite potential time trade-offs between feeding and travel, and the energy savings resulting from torpor during roosting. This study provides insight into the eco-physiology of bat migration and shows the importance of foraging habitat for migratory bats.

Published

2020

16. The Pacific as the world’s greatest theater of bird migration: Extreme flights spark questions about physiological capabilities, behavior, and the evolution of migratory pathways

Author

Theunis Piersma, Robert E Gill, Daniel R Ruthrauff, Christopher G Guglielmo, Jesse R Conklin, Colleen M Handel, and Piersma group

Subjects

Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics

Abstract

The Pacific Basin, by virtue of its vastness and its complex aeroscape, provides unique opportunities to address questions about the behavioral and physiological capabilities and mechanisms through which birds can complete spectacular flights. No longer is the Pacific seen just as a formidable barrier between terrestrial habitats in the north and the south, but rather as a gateway for specialized species, such as shorebirds, to make a living on hemispherically distributed seasonal resources. This recent change in perspective is dramatic, and the research that underpins it has presented new opportunities to learn about phenomena that often challenge a sense of normal. Ancient Polynesians were aware of the seasonal passage of shorebirds and other landbirds over the Pacific Ocean, incorporating these observations into their navigational “tool kit” as they explored and colonized the Pacific. Some ten centuries later, systematic visual observations and tracking technology have revealed much about movement of these shorebirds, especially the enormity of their individual nonstop flights. This invites a broad suite of questions, often requiring comparative studies with bird migration across other ocean basins, or across continents. For example, how do birds manage many days of nonstop exercise apparently without sleep? What mechanisms explain birds acting as if they possess a Global Positioning System? How do such extreme migrations evolve? Through advances in both theory and tracking technology, biologists are poised to greatly expand the horizons of movement ecology as we know it. In this integrative review, we present a series of intriguing questions about trans-Pacific migrant shorebirds and summarize recent advances in knowledge about migratory behavior operating at temporal scales ranging from immediate decisions during a single flight, to adaptive learning throughout a lifetime, to evolutionary development of migratory pathways. Recent advances in this realm should stimulate future research across the globe and across a broad array of disciplines.

Published

2022

17. Contributors

Author

N.J. Beausoleil, Charles M. Bishop, Julio Blas, Walter Gay Bottje, Kathleen R. Brazeal, Lindsay P. Brown, Shane C. Burgess, Warren W. Burggren, Johan Buyse, Shawn R. Campagna, Rocco V. Carsia, Vincent M. Cassone, Natalia Cerón-Romero, Shira L. Cheled Shoval, Hans H. Cheng, Helen E. Chmura, Larry Clark, Mark A. Cline, Jamie M. Cornelius, Dane A. Crossley, Veerle M. Darras, Karen D.M. Dean, Eddy Decuypere, Mike Denbow, Pierre Deviche, Sami Dridi, Joëlle Dupont, Vijay Durairaj, Edward M. Dzialowski, Nima K. Emami, Nadia Everaert, Graham D. Fairhurst, Alison Ferver, Alexander R. Fisch, Joel Gautron, Elizabeth Gilbert, David L. Goldstein, Elizabeth S. Greene, Christopher G. Guglielmo, Thomas P. Hahn, Orna Halevy, Maxwell Hincke, S.E. Holdsworth, Christa F. Honaker, Anna Hrabia, Alexander Jurkevich, John Kirby, Michael H. Kogut, Daniel T. Ksepka, Christine Köppl, Wayne J. Kuenzel, Vinod Kumar, H. Lehmann, Scott A. MacDougall-Shackleton, Graham R. Martin, J.E. Martin, Amanda L. May, Andrew E. McKechnie, D.E.F. McKeegan, Scott R. McWilliams, Henrik Mouritsen, Casey A. Mueller, Yves Nys, Mary Ann Ottinger, Barbara J. Pierce, Tom E. Porter, Frank L. Powell, Monika Proszkowiec-Weglarz, Marilyn Ramenofsky, Narayan C. Rath, Nicole Rideau, Alejandro B. Rodriguez-Navarro, Colin G. Scanes, Elizabeth M. Schultz, Paul B. Siegel, Jean Simon, Cynthia A. Smeraski, Nurudeen Taofeek, Hiroshi Tazawa, Zehava Uni, Sandra G. Velleman, Jorge A. Vizcarra, Brynn H. Voy, Yajun Wang, Wesley C. Warren, Heather E. Watts, J. Martin Wild, John C. Wingfield, Eric A. Wong, Takashi Yoshimura, and Huaijun Zhou

Published

2022

18. Flight

Author

Charles M. Bishop and Christopher G. Guglielmo

Published

2022

19. The effects of training, acute exercise and dietary fatty acid composition on muscle lipid oxidative capacity in European starlings

Author

Edwin R. Price, Ulf Bauchinger, Scott R. McWilliams, Michelle L. Boyles, Lillie A. Langlois, Alexander R. Gerson, and Christopher G. Guglielmo

Subjects

fatty acid binding protein, carnitine palmitoyl transferase, Physiology, Aquatic Science, Fatty Acid-Binding Proteins, migration, Antioxidants, Pectoralis Muscles, Transferases, Carnitine, pectoralis muscle, Animals, Coenzyme A, RNA, Messenger, Muscle, Skeletal, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Fatty Acids, catabolic capacity, Oxidative Stress, Insect Science, Starlings, Animal Migration, Animal Science and Zoology, Oxidoreductases, Fatty Acid Binding Protein 3

Abstract

Migratory birds undergo seasonal changes to muscle biochemistry. Nonetheless, it is unclear to what extent these changes are attributable to the exercise of flight itself versus endogenous changes. Using starlings (Sturnus vulgaris) flying in a wind tunnel, we tested the effects of exercise training, a single bout of flight and dietary lipid composition on pectoralis muscle oxidative enzymes and lipid transporters. Starlings were either unexercised or trained over 2 weeks to fly in a wind tunnel and sampled either immediately following a long flight at the end of this training or after 2 days recovery from this flight. Additionally, they were divided into dietary groups that differed in dietary fatty acid composition (high polyunsaturates versus high monounsaturates) and amount of dietary antioxidant. Trained starlings had elevated (19%) carnitine palmitoyl transferase and elevated (11%) hydroxyacyl-CoA dehydrogenase in pectoralis muscle compared with unexercised controls, but training alone had little effect on lipid transporters. Immediately following a long wind-tunnel flight, starling pectoralis had upregulated lipid transporter mRNA (heart-type fatty acid binding protein, H-FABP, 4.7-fold; fatty acid translocase, 1.9-fold; plasma membrane fatty acid binding protein, 1.6-fold), and upregulated H-FABP protein (68%). Dietary fatty acid composition and the amount of dietary antioxidants had no effect on muscle catabolic enzymes or lipid transporter expression. Our results demonstrate that birds undergo rapid upregulation of catabolic capacity that largely becomes available during flight itself, with minor effects due to training. These effects likely combine with endogenous seasonal changes to create the migratory phenotype observed in the wild.

Published

2022

20. Effect of the Social Environment on Spring Migration Timing of a Songbird

Author

Christopher G. Guglielmo, Jessica E. Deakin, and Yolanda E. Morbey

Subjects

biology, Ecology, Evolution, media_common.quotation_subject, Wildlife, Zoology, Captivity, automated radio-telemetry, migratory restlessness, sex ratio, biology.organism_classification, Annual cycle, Competition (biology), Songbird, Zugunruhe, social environment, migration timing, protandry, QH359-425, Flock, Ecology, Evolution, Behavior and Systematics, Sex ratio, QH540-549.5, media_common

Abstract

The influence of the social environment on the timing of the annual cycle is poorly understood. Seasonally migratory birds are under pressure to accurately time their spring migration, and throughout the annual cycle, they may experience variability of the local sex-ratio. A population-level male-biased sex ratio is predicted to advance spring migration timing in males and is attributed to the increased intra-specific competition for access to females and/or breeding territories. The present study had two goals. First, to develop a method that utilizes digitally coded radio-transmitters to quantify the activity of flocked individuals in captivity. Second, to use this method to test the hypothesis that the social environment influences the spring migration traits of male yellow-rumped warblers (Setophaga coronata coronata). To accomplish this, birds were captured in the fall in Long Point, Ontario, and transferred to the Advanced Facility for Avian Research, London, Ontario. In the winter, they were assigned to a slightly male- or female-biased treatment and housed in flocks in large free-flight rooms. Throughout the experimental period, we took body mass measurements and standardized photos to monitor body condition and molt progression. To measure locomotor activity, the birds were outfitted with digitally coded radio-transmitters in April and photo-triggered to enter a migratory phenotype. The tagged birds were released at their capture site in May and the Motus Wildlife Tracking System was used to determine stopover departure timing and migratory movements. Sex ratio did not influence body mass or molt progression. However, males from the male-biased treatment had significantly less locomotor movement than those from the female-biased treatment. Additionally, a lower proportion of males from the male-biased treatment initiated migratory restlessness, an indicator of the urge to migrate. Overall, these findings suggest that the social environment can influence behavior of songbirds, but do not support the hypothesis that a male-biased sex ratio accelerates migration.

Published

2021

21. Author response: Reversal of the adipostat control of torpor during migration in hummingbirds

Author

Erich R Eberts, Christopher G Guglielmo, and Kenneth C Welch

Published

2021

22. Lab-on-a-bird: biophysical monitoring of flying birds.

Author

Abdurrahman Gumus, Seoho Lee, Syed S Ahsan, Kolbeinn Karlsson, Richard Gabrielson, Christopher G Guglielmo, David W Winkler, and David Erickson

Subjects

Medicine, Science

Abstract

The metabolism of birds is finely tuned to their activities and environments, and thus research on avian systems can play an important role in understanding organismal responses to environmental changes. At present, however, the physiological monitoring of bird metabolism is limited by the inability to take real-time measurements of key metabolites during flight. In this study, we present an implantable biosensor system that can be used for continuous monitoring of uric acid levels of birds during various activities including flight. The system consists of a needle-type enzymatic biosensor for the amperometric detection of uric acid in interstitial fluids. A lightweight two-electrode potentiostat system drives the biosensor, reads the corresponding output current and wirelessly transfers the data or records to flash memory. We show how the device can be used to monitor, in real time, the effects of short-term flight and rest cycles on the uric acid levels of pigeons. In addition, we demonstrate that our device has the ability to measure uric acid level increase in homing pigeons while they fly freely. Successful application of the sensor in migratory birds could open up a new way of studying birds in flight which would lead to a better understanding of the ecology and biology of avian movements.

Published

2015

23. On the Estimation of Time Dependent Lift of a European Starling (Sturnus vulgaris) during Flapping Flight.

Author

Oksana Stalnov, Hadar Ben-Gida, Adam J Kirchhefer, Christopher G Guglielmo, Gregory A Kopp, Alexander Liberzon, and Roi Gurka

Subjects

Medicine, Science

Abstract

We study the role of unsteady lift in the context of flapping wing bird flight. Both aerodynamicists and biologists have attempted to address this subject, yet it seems that the contribution of unsteady lift still holds many open questions. The current study deals with the estimation of unsteady aerodynamic forces on a freely flying bird through analysis of wingbeat kinematics and near wake flow measurements using time resolved particle image velocimetry. The aerodynamic forces are obtained through two approaches, the unsteady thin airfoil theory and using the momentum equation for viscous flows. The unsteady lift is comprised of circulatory and non-circulatory components. Both approaches are presented over the duration of wingbeat cycles. Using long-time sampling data, several wingbeat cycles have been analyzed in order to cover both the downstroke and upstroke phases. It appears that the unsteady lift varies over the wingbeat cycle emphasizing its contribution to the total lift and its role in power estimations. It is suggested that the circulatory lift component cannot assumed to be negligible and should be considered when estimating lift or power of birds in flapping motion.

Published

2015

24. Extraordinarily rapid proliferation of cultured muscle satellite cells from migratory birds

Author

Kevin G. Young, Timothy R. H. Regnault, and Christopher G. Guglielmo

Subjects

0106 biological sciences, bird, Physiology, proliferation, migration, 010603 evolutionary biology, 01 natural sciences, Muscle hypertrophy, Songbirds, 03 medical and health sciences, Charadriiformes, satellite cell, Animals, Humans, 030304 developmental biology, Cell Proliferation, 0303 health sciences, cell culture, biology, Muscles, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), In vitro, Cell biology, Cell culture, Satellite (biology), Animal Migration, General Agricultural and Biological Sciences, lifespan, Muscle physiology

Abstract

Migratory birds experience bouts of muscle growth and depletion as they prepare for, and undertake prolonged flight. Our studies of migratory bird muscle physiology in vitro led to the discovery that sanderling ( Calidris alba ) muscle satellite cells proliferate more rapidly than other normal cell lines. Here we determined the proliferation rate of muscle satellite cells isolated from five migratory species (sanderling; ruff, Calidris pugnax ; western sandpiper, Calidris mauri ; yellow-rumped warbler, Setophaga coronata ; Swainson's thrush, Catharus ustulatus ) from two families (shorebirds and songbirds) and with different migratory strategies. Ruff and sanderling satellite cells exhibited rapid proliferation, with population doubling times of 9.3 ± 1.3 and 11.4 ± 2 h, whereas the remaining species' cell doubling times were greater than or equal to 24 h. The results indicate that the rapid proliferation of satellite cells is not associated with total migration distance but may be related to flight bout duration and interact with lifespan.

Published

2021

25. Evidence for spring stopover refuelling in migrating silver-haired bats (Lasionycteris noctivagans)

Author

Kristin A. Jonasson and Christopher G. Guglielmo

Subjects

geography, geography.geographical_feature_category, biology, Animal migration, Spring (hydrology), Zoology, Animal Science and Zoology, Torpor, Silver-haired bat, Lasionycteris noctivagans, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

Migrating animals must acquire sufficient fuel to sustain migratory movement, but how time is allocated to achieve this can vary greatly. The fuel strategies used by migrating bats are not well understood and have not been investigated during the spring when insectivorous bats face low food abundance. Migrating silver-haired bats (Lasionycteris noctivagans (Le Conte, 1831)) were captured at a stopover site in Long Point, Ontario, Canada, in April and May of 2012–2014. We followed the movements of 40 bats outfitted with radio transmitters using an automated telemetry array and examined the effects of ambient temperature, fat stores, and sex on stopover duration. As seen previously in autumn, most bats departed the evening following capture, but one-third of bats used multiday stopovers. Extended stopover was associated with lower ambient temperature. There was no effect of sex or fat at capture on stopover departure probability. Bats captured closer to dawn had greater fat mass and lean mass than those captured early in the night, a trend indicative of fuel deposition at this site. This is the first study to provide evidence that bats use stopover habitat for refuelling.

Published

2019

26. Transgenerational effects of egg nutrients on the early development of Chinook salmon (Oncorhynchus tshawytscha) across a thermal gradient

Author

Morag F. Dick, Yolanda E. Morbey, Christopher G. Guglielmo, Leo Oviedo, and Michael W. Thorn

Subjects

0106 biological sciences, Chinook wind, biology, Offspring, 010604 marine biology & hydrobiology, Zoology, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Temperature gradient, Nutrient, Transgenerational epigenetics, embryonic structures, Oncorhynchus, Ecology, Evolution, Behavior and Systematics

Abstract

The transgenerational effect of maternal diet, expressed as variation in the composition and quantity of egg nutrients available to offspring during endogenous development (i.e., prior to free-feeding), has the potential to greatly influence the response of offspring phenotypes to varying environmental conditions. For this study, we examined how natural variation in the fatty acid and proximate composition of eggs from three Chinook salmon (Oncorhynchus tshawytscha) populations influenced early development across a thermal gradient using a common garden hatchery experiment. We found that the relative quantity of fat, lean mass, and water in the eggs was similar among populations. However, the fatty acid composition of the eggs differed among all populations. After controlling for egg mass, egg fatty acid and proximate composition influenced hatch length, swim-up length, and hatch to swim-up growth. Importantly, the magnitude and direction of these egg quality effects depended on the population of origin and temperature. Overall, our results demonstrate that natural variation in egg nutrient composition, likely driven by maternal diet, has transgenerational effects on offspring development under varying thermal conditions.

Published

2019

27. Western diet consumption through early life induces microvesicular hepatic steatosis in association with an altered metabolome in low birth weight Guinea pigs

Author

Ting-Yim Lee, Yves Bureau, Christopher G. Guglielmo, Anson Cheung, Jacky S. S. Chiu, Kristyn Dunlop, Lin Zhao, Katherine E. Mathers, Ousseynou Sarr, Sandeep Raha, and Timothy R. H. Regnault

Subjects

0301 basic medicine, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Saturated fat, Guinea Pigs, Clinical Biochemistry, Microvesicular Steatosis, Biology, Weight Gain, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Carnitine palmitoyltransferase 1, Non-alcoholic Fatty Liver Disease, Pregnancy, Carnitine, Internal medicine, medicine, Animals, Birth Weight, Molecular Biology, 2. Zero hunger, chemistry.chemical_classification, Nutrition and Dietetics, Lipogenesis, Fatty Acids, Fatty liver, Fatty acid, Placental Insufficiency, medicine.disease, 030104 developmental biology, Endocrinology, Animals, Newborn, Liver, chemistry, Diet, Western, Metabolome, Female, 030211 gastroenterology & hepatology, Steatosis, Polyunsaturated fatty acid, medicine.drug

Abstract

Uteroplacental insufficiency-induced low birth weight (LBW) and postnatal high saturated fat/high sucrose-fructose diet (Western Diet, WD) consumption have been independently associated with the development of hepatic steatosis, while their additive effect on fatty acid, acylcarnitine and amino acid profiles in early adulthood have not been widely reported. We employed LBW, generated via uterine artery ablation, and normal birth weight (NBW) male guinea pigs fed either a WD or control diet (CD) from weaning to postnatal day 150 (early adulthood). Hepatic steatosis was absent in CD-fed offspring, while NBW/WD offspring displayed macrovesicular steatosis and LBW/WD offspring exhibited microvesicular steatosis, both occurring in a lean phenotype. Life-long consumption of the WD, irrespective of birth weight, was associated with an increase in hepatic medium- and long-chain saturated fatty acids, monounsaturated fatty acids, acylcarnitines, reduced oxidative phosphorylation complex III activity and polyunsaturated fatty acids, and molecular evidence of disrupted hepatic insulin signaling. In NBW/WD, hepatic C15:1 and C16:1n-6 fatty acids in phospholipids, C16, C18 and C18:1 acylcarnitines, concentrations of aspartate, phenylalanine, tyrosine and tryptophan and expression of carnitine palmitoyltransferase 1 alpha (CPT1α) and uncoupling protein 2 (UCP2) genes were elevated compared to LBW/WD livers. Our results suggest that LBW and life-long WD combined are influential in promoting hepatic microvesicular steatosis in conjunction with a specific mitochondrial gene expression and metabolomic profile in early adulthood.

Published

2019

28. Dietary polyunsaturated fatty acids influence flight muscle oxidative capacity but not endurance flight performance in a migratory songbird

Author

Morag F. Dick and Christopher G. Guglielmo

Subjects

030110 physiology, 0301 basic medicine, Physiology, Songbirds, 03 medical and health sciences, Oxygen Consumption, Physiology (medical), Animals, Food science, Muscle, Skeletal, PPAR-beta, chemistry.chemical_classification, biology, Chemistry, Fatty Acids, biology.organism_classification, Diet, Songbird, 030104 developmental biology, Flight, Animal, Body Composition, Fatty Acids, Unsaturated, Physical Endurance, Oxidative capacity, Energy Metabolism, Research Article, Polyunsaturated fatty acid

Abstract

The migratory flights of birds are primarily fueled by fat; however, certain fatty acids may also enhance flight performance and the capacity to oxidize fat. The natural doping hypothesis posits that n–3 long-chain polyunsaturated fatty acids (PUFA) increase membrane fluidity and aerobic and fatty acid oxidative enzymes in the flight muscles, which enables prolonged endurance flight. Support for this hypothesis is mixed, and there is no empirical evidence for increased flight performance. We fed yellow-rumped warblers ( Setophaga coronata coronata) diets enriched in either n–3 or n–6 long-chain PUFA or low in long-chain PUFA and evaluated flight muscle metabolism and endurance performance in a wind tunnel flights lasting up to 6 h. Fatty acid profiles of muscle phospholipids confirmed enrichment of the targeted dietary fatty acids, whereas less substantial differences were observed in adipose triacylglycerol. Contrary to the predictions, feeding n–3 PUFA decreased peroxisome proliferator-activated receptors-β mRNA abundance and muscle oxidative enzyme activities. However, changes in muscle metabolism were not reflected in whole animal performance. No differences were observed in flight performance among diet treatments in terms of endurance capacity, energy costs, or fuel composition. These measures of flight performance were more strongly influenced by body mass and flight duration. Overall, we found no support for the natural doping hypothesis in a songbird. Furthermore, we caution against extending changes in flight muscle metabolic enzymes or fatty acid composition to changes to migratory performance without empirical evidence.

Published

2019

29. Stopover departure behavior and flight orientation of spring-migrant Yellow-rumped Warblers (Setophaga coronata) experimentally exposed to methylmercury

Author

Yolanda E. Morbey, Yanju Ma, Christopher G. Guglielmo, and Chad L. Seewagen

Subjects

0106 biological sciences, Release site, chemistry.chemical_compound, chemistry, Total hg, Potential effect, Zoology, Setophaga coronata, Biology, 010603 evolutionary biology, 01 natural sciences, Methylmercury, 010605 ornithology

Abstract

Mercury (Hg) is a global pollutant that has wide-ranging impacts on the physiological systems of birds, but almost nothing is known about how this affects migration. We manipulated methylmercury (MeHg) burdens of 24 wild-caught Yellow-rumped Warblers (Setophaga coronata) before releasing them and tracking their spring migration with automated radiotelemetry to study the effect of MeHg on stopover departure behavior and flight orientation. Dosing half the birds for 14 days prior to release resulted in environmentally relevant mean blood total Hg (THg) concentrations of 6.61 (± 0.16) p.p.m., while a group of 12 controls had nearly undetectable blood THg. We observed starkly different departure behavior between groups, with dosed birds leaving the release site significantly sooner than controls. Among birds that were detected beyond the release site, seven (three dosed, four control) initially made a landscape-scale relocation before a longer-distance migratory flight, while two (controls) migrated directly from the release site. All flights were in the seasonally appropriate direction regardless of group. Rapid departures by dosed birds could have been the result of hyperactivity that can be induced by MeHg, or due to decreased social dominance that caused them to seek areas with less resource competition. We found no evidence that MeHg impaired orientation, although sample sizes were small and we had less ability to detect birds flying in “incorrect” than northward directions. The dramatic difference in departure decisions between groups indicates a potential effect of MeHg on the neurological and/or physiological mechanisms that control migratory behaviors of birds.

Published

2019

30. The Motus Wildlife Tracking System: a collaborative research network to enhance the understanding of wildlife movement

Author

Philip D. Taylor, Tara L. Crewe, Stuart A. Mackenzie, Denis Lepage, Yves Aubry, Zoe Crysler, George Finney, Charles M. Francis, Christopher G. Guglielmo, Diana J. Hamilton, Rebecca L. Holberton, Pamela H. Loring, Greg W. Mitchell, D. Ryan Norris, Julie Paquet, Robert A. Ronconi, Jennifer R. Smetzer, Paul A. Smith, Linda J. Welch, and Bradley K. Woodworth

Subjects

automated radio-telemetry, behavior, full life-cycle biology, migration, migratory connectivity, movement biology, movement ecology, stopover, Ecology, QH540-549.5

Abstract

We describe a new collaborative network, the Motus Wildlife Tracking System (Motus; https://motus.org), which is an international network of researchers using coordinated automated radio-telemetry arrays to study movements of small flying organisms including birds, bats, and insects, at local, regional, and hemispheric scales. Radio-telemetry has been a cornerstone of tracking studies for over 50 years, and because of current limitations of geographic positioning systems (GPS) and satellite transmitters, has remained the primary means to track movements of small animals with high temporal and spatial precision. Automated receivers, along with recent miniaturization and digital coding of tags, have further improved the utility of radio-telemetry by allowing many individuals to be tracked continuously and simultaneously across broad landscapes. Motus is novel among automated arrays in that collaborators employ a single radio frequency across receiving stations over a broad geographic scale, allowing individuals to be detected at sites maintained by others. Motus also coordinates, disseminates, and archives detections and associated metadata in a central repository. Combined with the ability to track many individuals simultaneously, Motus has expanded the scope and spatial scale of research questions that can be addressed using radio-telemetry from local to regional and even hemispheric scales. Since its inception in 2012, more than 9000 individuals of over 87 species of birds, bats, and insects have been tracked, resulting in more than 250 million detections. This rich and comprehensive dataset includes detections of individuals during all phases of the annual cycle (breeding, migration, and nonbreeding), and at a variety of spatial scales, resulting in novel insights into the movement behavior of small flying animals. The value of the Motus network will grow as spatial coverage of stations and number of partners and collaborators increases. With continued expansion and support, Motus can provide a framework for global collaboration, and a coordinated approach to solving some of the most complex problems in movement biology and ecology.

Published

2017

31. Bats on a budget: torpor-assisted migration saves time and energy.

Author

Liam P McGuire, Kristin A Jonasson, and Christopher G Guglielmo

Subjects

Medicine, Science

Abstract

Bats and birds must balance time and energy budgets during migration. Migrating bats face similar physiological challenges to birds, but nocturnality creates special challenges for bats, such as a conflict between travelling and refueling, which many birds avoid by feeding in daylight and flying at night. As endothermic animals, bats and birds alike must expend substantial amounts of energy to maintain high body temperatures. For migratory birds refueling at stopovers, remaining euthermic during inactive periods reduces the net refuelling rate, thereby prolonging stopover duration and delaying subsequent movement. We hypothesized that bats could mitigate similar ambient-temperature dependent costs by using a torpor-assisted migration strategy. We studied silver-haired bats Lasionycteris noctivagans during autumn migration using a combination of respirometry and temperature-sensitive radiotelemetry to estimate energy costs incurred under ambient temperature conditions, and the energy that bats saved by using torpor during daytime roosting periods. All bats, regardless of sex, age, or body condition used torpor at stopover and saved up to 91% of the energy they would have expended to remain euthermic. Furthermore, bats modulated use of torpor depending on ambient temperature. By adjusting the time spent torpid, bats achieved a rate of energy expenditure independent of the ambient temperature encountered at stopover. By lowering body temperature during inactive periods, fuel stores are spared, reducing the need for refuelling. Optimal migration models consider trade-offs between time and energy. Heterothermy provides a physiological strategy that allows bats to conserve energy without paying a time penalty as they migrate. Although uncommon, some avian lineages are known to use heterothermy, and current theoretical models of migration may not be appropriate for these groups. We propose that thermoregulatory strategies should be an important consideration of future migration studies of both bats and birds.

Published

2014

32. Effects of a seven day overload-period of high-intensity training on performance and physiology of competitive cyclists.

Author

Bradley Clark, Vitor P Costa, Brendan J O'Brien, Luiz G Guglielmo, and Carl D Paton

Subjects

Medicine, Science

Abstract

ObjectivesCompetitive endurance athletes commonly undertake periods of overload training in the weeks prior to major competitions. This investigation examined the effects of two seven-day high-intensity overload training regimes (HIT) on performance and physiological characteristics of competitive cyclists.DesignThe study was a matched groups, controlled trial.MethodsTwenty-eight male cyclists (mean ± SD, Age: 33±10 years, Mass 74±7 kg, VO2 peak 4.7±0.5 L·min-1) were assigned to a control group or one of two training groups for seven consecutive days of HIT. Before and after training cyclists completed an ergometer based incremental exercise test and a 20-km time-trial. The HIT sessions were ∼120 minutes in duration and consisted of matched volumes of 5, 10 and 20 second (short) or 15, 30 and 45 second (long) maximal intensity efforts.ResultsBoth the short and long HIT regimes led to significant (p0.05) increases (mean ± SD) in VO2 peak (2.3%±4.7% vs 3.5%±6.2%), lactate threshold power (3.6%±3.5% vs 2.9%±5.3%) and gross efficiency (3.2%±2.4% vs 5.1%±3.9%) with only small differences between HIT regimes.ConclusionsSeven days of overload HIT induces substantial enhancements in time-trial performance despite non-significant increases in physiological measures with competitive cyclists.

Published

2014

33. Experimental ghrelin administration affects migratory behaviour in a songbird

Author

Sara Lupi, Yolanda E. Morbey, Scott A. MacDougall-Shackleton, Hiroyuki Kaiya, Leonida Fusani, and Christopher G. Guglielmo

Subjects

Songbirds, Behavioral Neuroscience, Endocrinology, Endocrine and Autonomic Systems, Animals, Animal Migration, Passeriformes, Seasons, Ghrelin

Abstract

Twice a year, billions of birds take on drastic physiological and behavioural changes to migrate between breeding and wintering areas. On migration, most passerine birds regularly stop over along the way to rest and refuel. Endogenous energy stores are not only the indispensable fuel to complete long distance flights, but are also important peripheral signals that once integrated in the brain modulate crucial behavioural decisions, such as the decision to resume migration after a stopover. A network of hormones signals metabolic fuel availability to the brain in vertebrates, including the recently discovered gut-hormone ghrelin. Here, we show that ghrelin takes part in the control of migratory behaviour during spring migration in a wild migratory passerine. We manipulated blood concentrations of ghrelin of 53 yellow-rumped warblers (Setophaga coronata coronata) caught during stopover and automatically radio-tracked their migratory behaviour following release. We found that injections of acylated and unacylated ghrelin rapidly induced movements away from the release site, indicating that the ghrelin system acts centrally to mediate stopover departure decisions. The effects of the hormone manipulation declined within 8 h following release, and did not affect the overall rate of migration. These results provide experimental evidence for a pivotal role of ghrelin in the modulation of behavioural decisions during migration. In addition, this study offers insights into the regulatory functions of metabolic hormones in the dialogue between gut and brain in birds.

Published

2021

34. Reversal of the adipostat control of torpor during migration in hummingbirds

Author

Kenneth C. Welch, Eberts Er, and Christopher G. Guglielmo

Subjects

Male, 0106 biological sciences, Evening, respirometry, quantitative magnetic resonance, QH301-705.5, Science, 030310 physiology, Short Report, Zoology, Biology, migration, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Late summer, Birds, 03 medical and health sciences, Animals, Heterothermy, Biology (General), Evolutionary Biology, body composition, 0303 health sciences, Facultative, Ecology, General Immunology and Microbiology, General Neuroscience, ruby-throated hummingbirds, General Medicine, Torpor, Metabolic rate, Medicine, Animal Migration, Seasons, Other, Fundamental change, Energy Metabolism, torpor

Abstract

Many small endotherms use torpor to reduce metabolic rate and manage daily energy balance. However, the physiological ‘rules’ that govern torpor use are unclear. We tracked torpor use and body composition in ruby-throated hummingbirds (Archilochus colubris), a long-distance migrant, throughout the summer using respirometry and quantitative magnetic resonance. During the mid-summer, birds entered torpor at consistently low fat stores (~5% of body mass), and torpor duration was negatively related to evening fat load. Remarkably, this energy emergency strategy was abandoned in the late summer when birds accumulated fat for migration. During the migration period, birds were more likely to enter torpor on nights when they had higher fat stores, and fat gain was positively correlated with the amount of torpor used. These findings demonstrate the versatility of torpor throughout the annual cycle and suggest a fundamental change in physiological feedback between adiposity and torpor during migration. Moreover, this study highlights the underappreciated importance of facultative heterothermy in migratory ecology., eLife digest Torpor is an energy-saving strategy used by warm-blooded animals, including birds and small mammals. Similar to hibernation, although shorter in duration, torpor is a state of minimal activity, low body temperatures and reduced metabolism that helps animals conserve energy in unfavorable conditions. Some animals use torpor to survive times when food is not readily available. Hummingbirds, for example, eat nectar all day long to meet their high energy needs, but must build fat reserves to see them through their overnight fast. If they go to sleep with too little fat, they can descend into torpor to stretch out that limited energy supply and survive until morning. Many hummingbirds migrate to areas with warmer weather, where food remains available, for the winter months. The ruby-throated hummingbird (Archilochus colubris), for example, travels over 5,000 kilometers in its fall migration. Like most long-distance migrants, ruby-throated hummingbirds increase their fat stores before departing, using these stores to fuel their journey. It is thought that this bird may use torpor as a way to accelerate fat build up before its annual migration. However, it remained unclear whether hummingbirds switched from using torpor strictly in energy emergencies, to using it as strategy to prepare for migration. To shed light on this question, Eberts, Guglielmo and Welch investigated when, why and how hummingbirds save energy using torpor during the summer, and whether there are seasonal shifts in their use of torpor coinciding with migration. Eberts, Guglielmo and Welch hypothesized that a bird would initiate daily torpor if its energy stores fall below a critical level during the night, but that they may abandon this threshold (triggering torpor at higher fat levels) in late summer as a way to spare energy and gain fat before their annual migration. To test their hypotheses, Eberts, Guglielmo and Welch tracked body composition, food intake, energy expenditure and torpor use throughout summer in a group of captive ruby-throated hummingbirds. In the middle of the summer, the birds entered torpor and remained torpid for longer when they went to sleep with low fat stores. In late summer, however, the same birds were more likely to enter torpor at consistent times and when they had higher fat stores. Eberts, Guglielmo and Welch also observed that the more time birds spent in torpor, the more fat they gained. This suggests that in late summer, hummingbirds switch from using torpor as a survival strategy to using it to maximize energy savings before migration. These results clearly define the physiological rules governing torpor use in hummingbirds. They also support the long-standing assumption that torpor helps migratory species save energy and accumulate fat stores before long-haul flights.

Published

2021

35. Using breath δ

Author

Melanie, Denommé, Jessica E, Deakin, Yolanda E, Morbey, and Christopher G, Guglielmo

Subjects

Male, Songbirds, Carbon Isotopes, Glucose, Breath Tests, Leucine, Spectrum Analysis, Dietary Carbohydrates, Animals, Female, Dietary Proteins, Oxidation-Reduction

Abstract

Fat is the major fuel for migratory flight of birds, but protein is also catabolized. Flight range could be reduced if protein is used too quickly from muscles and organs, and it is important to understand factors that influence protein catabolism. Previous correlative studies suggested high protein diets may increase protein use in flight, although a wind tunnel study with yellow-rumped warblers (Setophaga coronata) did not support this relationship. We tested the hypothesis that diet composition affects nutrient oxidation in resting, fasted yellow-rumped warblers. For method development, we gavaged or subcutaneously injected warblers with

Published

2021

36. Nutritional consequences of breeding away from riparian habitats in Bank Swallows: new evidence from multiple endogenous markers

Author

Keith A. Hobson, Corrine S V Génier, Myles Falconer, Greg W. Mitchell, and Christopher G. Guglielmo

Subjects

Riparia, Physiology, population decline, stable isotopes, Zoology, Management, Monitoring, Policy and Law, fatty acids, DNA metabarcoding, Predation, parasitic diseases, Juvenile, Nature and Landscape Conservation, Riparian zone, geography, geography.geographical_feature_category, biology, Bank Swallows, Ecological Modeling, diet quality, biology.organism_classification, Habitat, Feather, visual_art, Threatened species, visual_art.visual_art_medium, AcademicSubjects/SCI00840, Ecological trap, Research Article

Abstract

Bank Swallows (Riparia riparia) breed naturally in riparian habitats but also at inland human-made aggregate pits. Based on three endogenous markers used to track diet, we demonstrate that inland nesting results in nutritional consequences for young birds due to reduced provisioning of omega-3 fatty acids., The Bank Swallow (Riparia riparia), a threatened species in Canada, breeds primarily in banks at lakeshores and rivers and in artificial (typically inland) aggregate mining pits. Inland pits may be ecological traps for this species, but relative dietary trade-offs between these two nesting habitats have not been investigated. The availability of aquatic emergent insects at lakeshores may have associated nutritional benefits for growing nestlings due to increased omega-3 fatty acids (FAs) in prey. We compared the diets of juvenile swallows from lakeshore and inland pit sites using assays of stable isotope values (δ13C, δ15N, δ2H) of feathers, faecal DNA metabarcoding and blood plasma FAs. Colony proximity to Lake Erie influenced the use of aquatic versus terrestrial insects by Bank Swallow adults and juveniles. Feather δ2H was particularly useful as a tracer of aquatic emergent versus terrestrial prey, and inland juveniles had feathers enriched in 2H, reflective of diets composed of fewer aquatic emergent insects. DNA metabarcoding of juvenile and adult faecal material indicated that lakeshore birds consumed more aquatic-emergent chironomids than inland birds. Lakeshore juveniles had elevated plasma omega-3 eicosapentaenoic acid levels compared with inland pit-breeding birds. We discuss the need to consider ‘nutritional landscapes’ and the importance of this concept in conservation of declining species and populations.

Published

2021

37. Species-specific metabolic responses of songbird, shorebird, and murine cultured myotubes to n-3 polyunsaturated fatty acids

Author

Timothy R. H. Regnault, Christopher G. Guglielmo, Kevin G. Young, and Christina Vanderboor

Subjects

030110 physiology, 0301 basic medicine, Male, medicine.medical_specialty, Muscle metabolism, Docosahexaenoic Acids, Physiology, Muscle Fibers, Skeletal, Peroxisome Proliferator-Activated Receptors, Biology, Cell Line, Songbirds, 03 medical and health sciences, Mice, Species Specificity, Physiology (medical), Internal medicine, Exercise performance, medicine, Animals, chemistry.chemical_classification, Behavior, Animal, Myogenesis, biology.organism_classification, Fatty Acid Transport Proteins, Songbird, Mitochondria, Muscle, 030104 developmental biology, Endocrinology, chemistry, Eicosapentaenoic Acid, Cell culture, Flight, Animal, Female, Energy Metabolism, Polyunsaturated fatty acid, Oleic Acid

Abstract

Migratory birds may benefit from diets rich in polyunsaturated fatty acids (PUFAs) that could improve exercise performance. Previous investigations suggest that different types of birds may respond differently to PUFA. We established muscle myocyte cell culture models from muscle satellite cells of a migratory passerine songbird (yellow-rumped warbler, Setophaga coronata coronata) and a nonpasserine shorebird (sanderling, Calidris alba). We differentiated and treated avian myotubes and immortalized murine C2C12 myotubes with n-3 PUFA docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA), and with monounsaturated oleic acid (OA) to compare effects on aerobic performance, metabolic enzyme activities, key fatty acid (FA) transporters, and expression of peroxisome proliferator-activated receptors (PPARs). Sanderling and C2C12 myotubes increased expression of PPARs with n-3 PUFA treatments, whereas expression was unchanged in yellow-rumped warblers. Both sanderlings and yellow-rumped warblers increased expression of fatty acid transporters, whereas C2C12 cells decreased expression following n-3 PUFA treatments. Only yellow-rumped warbler myotubes increased expression of some metabolic enzymes, whereas the sanderling and C2C12 cells were unchanged. PUFA supplementation in C2C12 myotubes increased mitochondrial respiratory chain efficiency, whereas sanderlings increased proton leak-associated respiration and maximal respiration (measurements were not made in warblers). This research indicates that songbirds and shorebirds respond differently to n-3 PUFA and provides support for the hypothesis that n-3 PUFA increase the aerobic capacity of migrant shorebird muscle, which may improve overall endurance flight performance.

Published

2020

38. Estimation of unsteady aerodynamics in the wake of a freely flying European starling (Sturnus vulgaris).

Author

Hadar Ben-Gida, Adam Kirchhefer, Zachary J Taylor, Wayne Bezner-Kerr, Christopher G Guglielmo, Gregory A Kopp, and Roi Gurka

Subjects

Medicine, Science

Abstract

Wing flapping is one of the most widespread propulsion methods found in nature; however, the current understanding of the aerodynamics in bird wakes is incomplete. The role of the unsteady motion in the flow and its contribution to the aerodynamics is still an open question. In the current study, the wake of a freely flying European starling has been investigated using long-duration high-speed Particle Image Velocimetry (PIV) in the near wake. Kinematic analysis of the wings and body of the bird has been performed using additional high-speed cameras that recorded the bird movement simultaneously with the PIV measurements. The wake evolution of four complete wingbeats has been characterized through reconstruction of the time-resolved data, and the aerodynamics in the wake have been analyzed in terms of the streamwise forces acting on the bird. The profile drag from classical aerodynamics was found to be positive during most of the wingbeat cycle, yet kinematic images show that the bird does not decelerate. It is shown that unsteady aerodynamics are necessary to satisfy the drag/thrust balance by approximating the unsteady drag term. These findings may shed light on the flight efficiency of birds by providing a partial answer to how they minimize drag during flapping flight.

Published

2013

39. Weather forecasting by insects: modified sexual behaviour in response to atmospheric pressure changes.

Author

Ana Cristina Pellegrino, Maria Fernanda Gomes Villalba Peñaflor, Cristiane Nardi, Wayne Bezner-Kerr, Christopher G Guglielmo, José Maurício Simões Bento, and Jeremy N McNeil

Subjects

Medicine, Science

Abstract

Prevailing abiotic conditions may positively or negatively impact insects at both the individual and population levels. For example while moderate rainfall and wind velocity may provide conditions that favour development, as well as movement within and between habitats, high winds and heavy rains can significantly decrease life expectancy. There is some evidence that insects adjust their behaviours associated with flight, mating and foraging in response to changes in barometric pressure. We studied changes in different mating behaviours of three taxonomically unrelated insects, the curcurbit beetle, Diabrotica speciosa (Coleoptera), the true armyworm moth, Pseudaletia unipuncta (Lepidoptera) and the potato aphid, Macrosiphum euphorbiae (Hemiptera), when subjected to natural or experimentally manipulated changes in atmospheric pressure. In response to decreasing barometric pressure, male beetles exhibited decreased locomotory activity in a Y-tube olfactometer with female pheromone extracts. However, when placed in close proximity to females, they exhibited reduced courtship sequences and the precopulatory period. Under the same situations, females of the true armyworm and the potato aphid exhibited significantly reduced calling behaviour. Neither the movement of male beetles nor the calling of armyworm females differed between stable and increasing atmospheric pressure conditions. However, in the case of the armyworm there was a significant decrease in the incidence of mating under rising atmospheric conditions, suggesting an effect on male behaviour. When atmospheric pressure rose, very few M. euphorbiae oviparae called. This was similar to the situation observed under decreasing conditions, and consequently very little mating was observed in this species except under stable conditions. All species exhibited behavioural modifications, but there were interspecific differences related to size-related flight ability and the diel periodicity of mating activity. We postulate that the observed behavioral modifications, especially under decreasing barometric pressure would reduce the probability of injury or death under adverse weather conditions.

Published

2013

40. Inferring spatial patterns of mercury exposure in migratory boreal songbirds: Combining feather mercury and stable isotope (δ

Author

Yanju, Ma, Keith A, Hobson, Kevin J, Kardynal, Christopher G, Guglielmo, and Brian A, Branfireun

Subjects

Songbirds, Canada, Isotopes, Animals, Environmental Pollutants, Mercury, Feathers, Environmental Monitoring

Abstract

Migratory songbirds breeding in the Canadian Boreal forest are exposed to mercury (Hg), a potent neurotoxin that impairs avian health, however, the degree of exposure depends on many factors. As breeding grounds are geographically remote and vast, the measurement of Hg in individual birds is impractical particularly at large spatial scales. Here, we present a Canada-wide dataset of nearly 2000 migratory songbirds that were used to assess summer Hg exposure of 15 songbird species sampled during fall migration. We measured Hg concentrations in tail feathers and related those to dietary guild, geographic capture location, age, sex and probable breeding ground locations using feather δ

Published

2020

41. Stopover refuelling, movement and departure decisions in the white-throated sparrow: The influence of intrinsic and extrinsic factors during spring migration

Author

Yolanda E. Morbey, Christopher G. Guglielmo, and Andrew T. Beauchamp

Subjects

0106 biological sciences, Male, Population, Zoology, Context (language use), Biology, 010603 evolutionary biology, 01 natural sciences, Latitude, Songbirds, biology.animal, Animals, education, Ecology, Evolution, Behavior and Systematics, Morning, education.field_of_study, Sex Characteristics, Sparrow, 010604 marine biology & hydrobiology, Zonotrichia, 15. Life on land, Feathers, biology.organism_classification, Sexual dimorphism, Plumage, Animal Science and Zoology, Animal Migration, Female, Seasons, Sparrows

Abstract

1. Differential migration timing between sex or age classes are examples of how migratory movement strategies can differ among sub-groups within a population. However, in songbirds, evidence for intrinsic differences in en route migratory behavior is often mixed, suggesting that the local environmental context may play a role in accentuating or diminishing patterns. 2. We evaluated how multiple intrinsic and extrinsic variables influenced refueling rates, local movement behavior, and departure decisions in the White-throated Sparrow (Zonotrichia albicollis) during spring migration. This species exhibits a unique genetically-based plumage dimorphism, providing a unique class of individual in which to evaluate patterns and processes of differential migration, in addition to sex, age, and migration distance. 3. At a migratory stopover site, plasma metabolite analysis was used to quantify individual variation in stopover refueling rate. In after second year adults, automated and manual radio telemetry was used to quantify daily activity timing, daily movement distances, stopover duration, and departure time. Arrival timing to the stopover site was determined using capture data. Non-breeding and previous breeding/natal latitude were determined using analysis of hydrogen isotopes in claws and feathers. 4. Males arrived at the stopover site 11 days on average before females, but no difference in migration timing was observed between plumage morph or age classes. After second year adults with more southern previous breeding latitudes arrived at stopover earlier whereas second year birds making their first return migration arrived at stopover in an inverse relationship to non-breeding latitude. Stopover refueling rate did not differ between ages, sexes, or plumage morphs, and daily departure probability of adults was higher under warmer temperatures and favorable tailwinds. White-striped morphs moved greater distances during stopover, initiated daily activity earlier in the morning, and departed for migration earlier in the evening than tan-striped morphs. 5. Our results show that while individual phenotype can influence some aspects of local stopover-scale movement behavior, evidence for differential stopover behavior was weak. Differential migration timing is unlikely to result from intrinsic differences in en route refueling rate and departure decisions, especially because the latter is strongly influenced by meteorological conditions.

Published

2020

42. Measuring power input, power output and energy conversion efficiency in un-instrumented flying birds

Author

Christopher G. Guglielmo, Anders Hedenström, Linus Hedh, L. Christoffer Johansson, Jessica E. Deakin, and Christian C. Voigt

Subjects

0106 biological sciences, Physiology, 030310 physiology, Acoustics, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, 7. Clean energy, 03 medical and health sciences, Animals, Energy transformation, Body Weights and Measures, Passeriformes, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Mechanical energy, Wind tunnel, Mathematics, 0303 health sciences, Energy conversion efficiency, Aerodynamics, Biomechanical Phenomena, Power (physics), Sodium Bicarbonate, Particle image velocimetry, Flight, Animal, Insect Science, Bird flight, Animal Science and Zoology

Abstract

Cost of flight at various speeds is a crucial determinant of flight behavior in birds. Aerodynamic models, predicting that mechanical power (Pmech) varies with flight speed in a U-shaped manner, have been used together with an energy conversion factor (efficiency) to estimate metabolic power (Pmet). Despite few empirical studies, efficiency has been assumed constant across flight speeds at 23%. Ideally, efficiency should be estimated from measurements of both Pmech and Pmet in un-instrumented flight. Until recently, progress has been hampered by methodological constraints. The main aim of this study was to evaluate recently developed techniques and estimate flight efficiency across flight speeds. We used the 13C-labeled sodium bicarbonate method (NaBi) and Particle Image Velocimetry (PIV) to measure Pmet and Pmech in blackcaps flying in a wind tunnel. We also cross validated measurements made by NaBi with Quantitative Magnetic Resonance (QMR) body composition analysis in yellow-rumped warblers. We found that Pmet estimated by Nabi was ∼12% lower than corresponding values estimated by QMR. Pmet varied in a U-shaped manner across flight speeds in blackcaps, but the pattern was not statistically significant. Pmech could only be reliably measured for two intermediate speeds and estimated efficiency ranged between 14 and 22% (combining the two speeds for raw and weight/lift specific power, with and without correction for the ∼12% difference between NaBi and QMR) were close to the currently used default value. We conclude that NaBi and PIV are viable techniques, allowing researchers to address some of the outstanding questions regarding bird flight energetics.

Published

2020

43. Raum – Zeit – Menschen

Author

Bernhard, Jan Andrea, Corbellini, Augusta, Papacella, Daniele, Scaramellini, Guglielmo, Bernhard, J A ( Jan Andrea ), Corbellini, A ( Augusta ), Papacella, D ( Daniele ), Scaramellini, G ( Guglielmo ), Bernhard, Jan Andrea, Corbellini, Augusta, Papacella, Daniele, Scaramellini, Guglielmo, Bernhard, J A ( Jan Andrea ), Corbellini, A ( Augusta ), Papacella, D ( Daniele ), and Scaramellini, G ( Guglielmo )

Published

2020

44. Luoghi – Tempi – Persone

Author

Bernhard, Jan Andrea, Corbellini, Augusta, Papacella, Daniele, Scaramellini, Guglielmo, Bernhard, J A ( Jan Andrea ), Corbellini, A ( Augusta ), Papacella, D ( Daniele ), Scaramellini, G ( Guglielmo ), Bernhard, Jan Andrea, Corbellini, Augusta, Papacella, Daniele, Scaramellini, Guglielmo, Bernhard, J A ( Jan Andrea ), Corbellini, A ( Augusta ), Papacella, D ( Daniele ), and Scaramellini, G ( Guglielmo )

Published

2020

45. Common condition indices are no more effective than body mass for estimating fat stores in insectivorous bats

Author

Jeff Clerc, Nathan W. Fuller, Dylan E. Baloun, W. Alice Boyle, Elizabeth J. Rogers, Kristin A. Jonasson, Tina L. Cheng, Liam P. McGuire, Amie S. Sommers, Christopher G. Guglielmo, Lewis A Kelly, and Alexander R. Gerson

Subjects

030110 physiology, 0106 biological sciences, 0301 basic medicine, Ecology, Zoology, Insectivore, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Genetics, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Published

2018

46. Effects of migration distance and sex on stopover timing and refueling by Wilson's Warblers

Author

Quentin R. Hays, Keith A. Hobson, Yolanda E. Morbey, Christopher G. Guglielmo, and James E. Lyons

Subjects

0106 biological sciences, Geography, biology, Stable isotope ratio, Ecology, Wood warbler, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, 010605 ornithology

Published

2018

47. Dietary exposure to methylmercury affects flight endurance in a migratory songbird

Author

Yanju Ma, Cristina R. Perez, Christopher G. Guglielmo, and Brian A. Branfireun

Subjects

Male, 0106 biological sciences, Health, Toxicology and Mutagenesis, Zoology, 010501 environmental sciences, Toxicology, 010603 evolutionary biology, 01 natural sciences, Dietary Exposure, Songbirds, Flight duration, chemistry.chemical_compound, biology.animal, Animals, Methylmercury, 0105 earth and related environmental sciences, biology, Dietary exposure, General Medicine, Methylmercury Compounds, biology.organism_classification, Animal Feed, Pollution, Passerine, Songbird, Liver, chemistry, Bioaccumulation, Animal Migration, Female, Setophaga coronata

Abstract

Although there has been much speculation in the literature that methylmercury (MeHg) exposure can reduce songbird fitness, little is known about its effects on migration. Migrating songbirds typically make multiple flights, stopping to refuel for short periods between flights. How refueling at MeHg-contaminated stopover sites would contribute to MeHg bioaccumulation, and how such exposure could affect subsequent flight performance during migration has not been determined. In a dosing experiment we show that migratory yellow-rumped warblers (Setophaga coronata) rapidly accumulate dietary MeHg in blood, brain and muscle, liver and kidneys in just 1–2 weeks. We found that exposure to a 0.5 ppm diet did not affect vertical takeoff performance, but in 2-h wind tunnel flights, MeHg-treated warblers had a greater median number of strikes (landing or losing control) in the first 30 min, longer strike duration, and shorter flight duration. The number of strikes in the first 30 min of 0.5 ppm MeHg-exposed warblers was related to mercury concentration in blood in a sigmoid, dose-dependent fashion. Hyperphagic migratory songbirds may potentially bioaccumulate MeHg rapidly, which can lead to decreased migratory endurance flight performance.

Published

2018

48. Early life events carry over to influence pre-migratory condition in a free-living songbird.

Author

Greg W Mitchell, Christopher G Guglielmo, Nathaniel T Wheelwright, Corey R Freeman-Gallant, and D Ryan Norris

Subjects

Medicine, Science

Abstract

Conditions experienced during development can have long-term consequences for individual success. In migratory songbirds, the proximate mechanisms linking early life events and survival are not well understood because tracking individuals across stages of the annual cycle can be extremely challenging. In this paper, we first use a 13 year dataset to demonstrate a positive relationship between 1(st) year survival and nestling mass in migratory Savannah sparrows (Passerculus sandwichensis). We also use a brood manipulation experiment to show that nestlings from smaller broods have higher mass in the nest relative to individuals from larger broods. Having established these relationships, we then use three years of field data involving multiple captures of individuals throughout the pre-migratory period and a multi-level path model to examine the hypothesis that conditions during development limit survival during migration by affecting an individual's ability to accumulate sufficient lean tissue and fat mass prior to migration. We found a positive relationship between fat mass during the pre-migratory period (Sept-Oct) and nestling mass and a negative indirect relationship between pre-migratory fat mass and fledging date. Our results provide the first evidence that conditions during development limit survival during migration through their effect on fat stores. These results are particularly important given recent evidence showing that body condition of songbirds at fledging is affected by climate change and anthropogenic changes to landscape structure.

Published

2011

49. Landscape movements of migratory birds and bats reveal an expanded scale of stopover.

Author

Philip D Taylor, Stuart A Mackenzie, Bethany G Thurber, Anna M Calvert, Alex M Mills, Liam P McGuire, and Christopher G Guglielmo

Subjects

Medicine, Science

Abstract

Many species of birds and bats undertake seasonal migrations between breeding and over-wintering sites. En-route, migrants alternate periods of flight with time spent at stopover--the time and space where individuals rest and refuel for subsequent flights. We assessed the spatial scale of movements made by migrants during stopover by using an array of automated telemetry receivers with multiple antennae to track the daily location of individuals over a geographic area ~20 × 40 km. We tracked the movements of 322 individuals of seven migratory vertebrate species (5 passerines, 1 owl and 1 bat) during spring and fall migratory stopover on and adjacent to a large lake peninsula. Our results show that many individuals leaving their capture site relocate within the same landscape at some point during stopover, moving as much as 30 km distant from their site of initial capture. We show that many apparent nocturnal departures from stopover sites are not a resumption of migration in the strictest sense, but are instead relocations that represent continued stopover at a broader spatial scale.

Published

2011

50. Evaluation of sex differences in the stopover behavior and postdeparture movements of wood-warblers

Author

Lin Zhao, Ivan Maggini, Christopher G. Guglielmo, Stuart A. Mackenzie, J. Morgan Brown, Jessica E. Deakin, Yolanda E. Morbey, and Philip D. Taylor

Subjects

0106 biological sciences, biology, Telemetry, Wood warbler, Zoology, Animal Science and Zoology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Diel vertical migration, Ecology, Evolution, Behavior and Systematics, 010605 ornithology

Abstract

Sex-specific behaviors underlying avian protandry, where males arrive at breeding areas earlier than females, are still poorly understood for most species. We tested for sex-specific stopover behavior of Neotropical-Nearctic wood-warblers (Parulidae) at a stopover site on Lake Erie, Ontario, using radio telemetry and analysis of blood plasma. The sex differences we found were subtle and related to diel activity, and so likely do not contribute to protandry in a consistent way.

Published

2017