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9. Phenotypic compromises in a long-distance migrant during the transition from migration to reproduction in the High Arctic

Author

Vézina, F., Williams, T.D., Piersma, T., and Morrison, R.I.G.

Abstract

1. Seasonal carry-over effects may be important structuring components of avian life-history cycles. However, little is known on physiological transitions between stages and on phenotypic compromises that may be made at such time to improve fitness.2. We studied postmigratory body remodelling in red knots (Calidris canutus islandica) arriving on the Arctic breeding grounds. Our objectives were to determine the effects of body reconstruction and preparation for breeding on maintenance energy costs and to determine whether weather conditions can force compromises between functions required for postmigration recovery of body composition, thermoregulation and breeding.3. During two consecutive springs at the northernmost land on Earth (Alert, Ellesmere Island, Canada, 82 degrees 30' N), we monitored changes in knots post- arrival body stores. Using ultrasonography, we also tracked changes in gizzard size, an indicator of gut size, and pectoral muscle thickness, not only an endogenous protein source but also a thermogenic organ. We measured basal metabolic rate (BMR) throughout reconstruction and compared it with BMR of nonbreeding red knots wintering in the Dutch Wadden Sea.4. Arriving knots faced temperatures up to 13 degrees C lower than during midwinter. Birds arrived with large body stores and pectoral muscles, which declined in size while they grew their gizzard and prepared for breeding. BMR at arrival was indistinguishable from winter BMR and increased linearly throughout reconstruction. BMR increased up to 69% faster in females than males, likely due to the development of their reproductive organs.5. Birds had lower body stores but larger muscles in the colder year, and muscle loss was correlated with the warming of spring temperatures. Therefore, muscles would not only serve as a nutrient source, but their thermogenic function could also provide the flexibility to cope with high thermostatic costs in the spring. However, retaining muscles for shivering may limit protein recirculation and delay the onset of breeding.6. Postmigratory recovery therefore involves significant energy costs and arriving birds likely have to make physiological compromises, depending on spring conditions, which may impact on fitness. Although this period is clearly critical in the life cycle of red knots, it is one of the least understood life- history stages in Arctic- breeding shorebirds.

Published
2012

10. A novel integrative method for measuring body condition in ecological studies based on physiological dysregulation

Author

Milot, E., Cohen, A.A., Vézina, F., Buehler, D.M., Matson, K.D., Piersma, T., Milot, E., Cohen, A.A., Vézina, F., Buehler, D.M., Matson, K.D., and Piersma, T.

Abstract

1. The body condition of free-ranging animals affects their response to stress, decisions, ability to fulfil vitalneeds and, ultimately, fitness. However, this key attribute in ecology remains difficult to assess, and there is aclear need for more integrativemeasures than the common univariate proxies.2. We propose a systems biology approach that positions individuals along a gradient from a ‘normal/optimal’to ‘abnormal/suboptimal’ physiological state based onMahalanobis distance computed from physiological biomarkers.We previously demonstrated the validity of this approach for studying ageing in humans; here, we illustrateits broad potential for ecological studies.3. As an example, we used biomarker data on shorebirds and found that birds with an abnormal condition hada lower maximal thermogenic capacity and higher scores of inflammation, with important implications for theirecology and health.Moreover,Mahalanobis distance captured a signal of condition not detected by the individualbiomarkers.4. Overall, our results on birds and humans show that individuals with abnormal physiologies are indeed inworse condition.Moreover, our approach appears not to be particularly sensitive to which set of biomarkers isused to assess condition. Consequently, it could be applied easily to existing ecological data sets.5. Our approach provides a general, powerful way to measure condition that helps resolve confusion as to howto deal with complex interactions and interdependence among multiple physiological and condition measures. Itcan be applied directly to topics such as the effect of environmental quality on body condition, risks of healthoutcomes, mechanisms of adaptive phenotypic plasticity, and mechanisms behind long-term processes such assenescence.

Published
2014

11. Estimated diameter increase from a 4S to a 6S hamstring graft configuration – A cadaveric study

Author

Bourgeault-Gagnon Yoan, Leang Alexandre Keith, Bédard Sonia, Lebel Karina, Balg Frédéric, and Vézina François

Subjects
acl reconstruction, anterior cruciate ligament, hamstring graft, cadaveric study, Orthopedic surgery, RD701-811
Abstract

Purpose: Graft diameter in anterior cruciate ligament reconstructions has been shown to influence the risk of failure. It is therefore important to be able to adjust the graft configuration to modify the diameter. To measure the impact of a 6-strand (6S) hamstring autograft configuration on graft diameter compared to the standard 4-strand (4S) configuration. Methods: Cadaveric study on 33 knees, using the usual hamstring graft harvesting technique. Semitendinosus and gracilis tendons were harvested and their length, width, and diameter were measured in 4S and 6S configurations separately by three evaluators. Results: 6S configuration leads to a median increase of 1.5 (range: 0.0–2.0) mm in diameter compared to 4S (p

Published
2023
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12. Independence among physiological traits suggests flexibility in the face of ecological demands on phenotypes

Author

Buehler, D.M., Vézina, F., Goymann, W., Schwabl, I., Versteegh, M., Tieleman, B.I., Piersma, T., Buehler, D.M., Vézina, F., Goymann, W., Schwabl, I., Versteegh, M., Tieleman, B.I., and Piersma, T.

Abstract

Phenotypic flexibility allows animals to adjust their physiology to diverse environmental conditions encountered over the year. Examining how these varying traits covary gives insights into potential constraints or freedoms that may shape evolutionary trajectories. In this study, we examined relationships among haematocrit, baseline corticosterone concentration, constitutive immune function and basal metabolic rate in red knot Calidris canutus islandica individuals subjected to experimentally manipulated temperature treatments over an entire annual cycle. If covariation among traits is constrained, we predict consistent covariation within and among individuals. We further predict consistent correlations between physiological and metabolic traits if constraints underlie species-level patterns found along the slow-fast pace-of-life continuum. We found no consistent correlations among haematocrit, baseline corticosterone concentration, immune function and basal metabolic rate either within or among individuals. This provides no evidence for constraints limiting relationships among these measures of the cardiovascular, endocrine, immune and metabolic systems in individual red knots. Rather, our data suggest that knots are free to adjust individual parts of their physiology independently. This makes good sense if one places the animal within its ecological context where different aspects of the environment might put different pressures on different aspects of physiology.

Published
2012

13. Shorebirds' Seasonal Adjustments in Thermogenic Capacity Are Reflected by Changes in Body Mass: How Preprogrammed and Instantaneous Acclimation Work Together

Author

Vézina, F., Dekinga, A., Piersma, T., Vézina, F., Dekinga, A., and Piersma, T.

Abstract

Phenotypic flexibility in shorebirds has been studied mainly in the context of adjustments to migration and to quality of food; little is known on how birds adjust their phenotype to harsh winter conditions. We showed earlier that red knot (Calidris canutus islandica) can acclimate to cold by elevating body mass. This goes together with larger pectoral muscles, i.e., greater shivering machinery, and thus, better thermogenic capacity. Here, we present results of a yearlong experiment with indoor captive knots to determine whether this strategy is part of their natural seasonal phenotypic cycle. We maintained birds under three thermal regimes: constant cold (5 degrees C), constant thermoneutrality (25 degrees C) and natural seasonal variation between these extremes (9-22 degrees C). Each month we measured variables related to the birds' endurance to cold and physiological maintenance [body mass, thickness of pectoral muscles, summit metabolic rate (M(sum)), food intake, gizzard size, basal metabolic rate (BMR)]. Birds from all treatments expressed synchronized and comparable variation in body mass in spite of thermal treatments, with a 17-18% increase between the warmest and coldest months of the year; which appeared regulated by an endogenous driver. In addition, birds living in the cold exhibited a 10% higher average body mass than did those maintained at thermoneutrality. Thickness of the pectoral muscle tracked changes in body mass in all treatments and likely contributed to greater capacity for shivering in heavier birds. Consequently, M(sum) was 13% higher in cold-acclimated birds compared to those experiencing no thermoregulation costs. However, our data also suggest that part of maximal heat production comes from nonshivering processes. Birds facing cold conditions ate up to 25% more food than did birds under thermoneutral conditions, yet did not develop larger gizzards. Seasonal variation in BMR followed changes in body mass, probably reflecting changes in ma

Published
2011

16. Eosinophil counts in first COPD hospitalizations: a comparison of health service utilization

Author

Bélanger M, Couillard S, Courteau J, Larivée P, Poder TG, Carrier N, Girard K, Vézina FA, and Vanasse A

Subjects
Chronic obstructive pulmonary disease, Exacerbations, Hospitalization, Mortality, Cohort study, Diseases of the respiratory system, RC705-779
Abstract

Maryse Bélanger,1,2 Simon Couillard,1,2 Josiane Courteau,1 Pierre Larivée,1,2 Thomas G Poder,1,3,4 Nathalie Carrier,1 Kim Girard,1 Felix-Antoine Vézina,1,2 Alain Vanasse1,4 1Research Center, Centre hospitalier universitaire de Sherbrooke, Sherbrooke, QC, Canada; 2Respirology Service, Department of Medicine, Faculty of Medicine and Health Sciences, Université de Sherbrooke, Sherbrooke, QC, Canada; 3Health Technology Assessment Unit, UETMIS, CIUSSS de l’Estrie – CHUS, Sherbrooke, QC, Canada; 4Department of Family Medicine and Emergency Medicine, Faculty of Medicine and Health Sciences, Université de Sherbrooke, Sherbrooke, QC, Canada Purpose: Current evidence suggests that a higher blood eosinophil cell count at admission for acute exacerbation of COPD (AECOPD) is associated with a favorable response to systemic steroids. However, the impact of blood eosinophil counts at admission on post-hospitalization outcomes is still unclear. The main objective of this study is to investigate readmission outcomes associated with blood eosinophilia following severe COPD exacerbation in patients with infrequent COPD hospitalizations. Patients and methods: This is an observational cohort study design. We retrospectively analyzed data of patients with a first hospitalization within 5 years for COPD exacerbation between April 2006 and March 2013. Patients were stratified into the eosinophilic group if the blood eosinophil count on admission was ≥200 cells/µL and/or ≥2% of the total white blood cell (WBC) count. The primary outcome was 1-year COPD-related readmission. Secondary outcomes included 1-year all-cause mortality, 1-year all-cause readmission, length of stay, time to COPD-related readmission, and number of 1-year COPD-associated emergency department (ED) and ambulatory visits. Results: A total of 479 patients were included. Of whom, 173 were stratified into the eosinophilic group. Higher blood eosinophil cell count was associated with an increased risk of 1-year COPD-related readmission (OR, 1.83 [95% CI, 1.16–2.89]; P

Published
2018

17. Shorebirds' seasonal adjustments in thermogenic capacity are reflected by changes in body mass

Author

Vézina, F., Dekinga, A., Piersma, T., and Piersma group

Subjects
0106 biological sciences, Male, food.ingredient, SPARROWS PASSER-DOMESTICUS, 030310 physiology, Acclimatization, BASAL METABOLIC-RATE, ENDOGENOUS CIRCANNUAL RHYTHMICITY, Plant Science, Biology, 010603 evolutionary biology, 01 natural sciences, RUFOUS-COLLARED SPARROWS, Pectoralis Muscles, 03 medical and health sciences, Charadriiformes, food, Animal science, medicine, Animals, THYROID-HORMONE CONCENTRATION, Gizzard, DISTANCE MIGRANT SHOREBIRD, Netherlands, 0303 health sciences, Ecology, Body Weight, PECTORAL MUSCLE MASS, Thermogenesis, 15. Life on land, Seasonality, Thermoregulation, RED KNOTS, medicine.disease, KNOTS CALIDRIS-CANUTUS, Cold Temperature, Calidris, COST-BENEFIT-ANALYSIS, Basal metabolic rate, Shivering, Metabolic rate, Animal Science and Zoology, Female, Basal Metabolism, medicine.symptom, Energy Metabolism
Abstract

Phenotypic flexibility in shorebirds has been studied mainly in the context of adjustments to migration and to quality of food; little is known on how birds adjust their phenotype to harsh winter conditions. We showed earlier that red knot (Calidris canutus islandica) can acclimate to cold by elevating body mass. This goes together with larger pectoral muscles, i.e., greater shivering machinery, and thus, better thermogenic capacity. Here, we present results of a yearlong experiment with indoor captive knots to determine whether this strategy is part of their natural seasonal phenotypic cycle. We maintained birds under three thermal regimes: constant cold (5 degrees C), constant thermoneutrality (25 degrees C) and natural seasonal variation between these extremes (9-22 degrees C). Each month we measured variables related to the birds' endurance to cold and physiological maintenance [body mass, thickness of pectoral muscles, summit metabolic rate (M(sum)), food intake, gizzard size, basal metabolic rate (BMR)]. Birds from all treatments expressed synchronized and comparable variation in body mass in spite of thermal treatments, with a 17-18% increase between the warmest and coldest months of the year; which appeared regulated by an endogenous driver. In addition, birds living in the cold exhibited a 10% higher average body mass than did those maintained at thermoneutrality. Thickness of the pectoral muscle tracked changes in body mass in all treatments and likely contributed to greater capacity for shivering in heavier birds. Consequently, M(sum) was 13% higher in cold-acclimated birds compared to those experiencing no thermoregulation costs. However, our data also suggest that part of maximal heat production comes from nonshivering processes. Birds facing cold conditions ate up to 25% more food than did birds under thermoneutral conditions, yet did not develop larger gizzards. Seasonal variation in BMR followed changes in body mass, probably reflecting changes in mass of metabolically active tissues. Just as cold-exposed birds, red knots in the variable treatment increased body mass in winter, thereby improving cold endurance. During summer, however, they maintained a lower body mass and thermogenic capacity compared to cold-exposed birds, similar to individuals kept at thermoneutrality. We conclude that red knots acclimate to seasonal variations in ambient temperature by modulating body mass, combining a preprogrammed increase in mass during winter with a capacity for fine-tuning body mass and thermogenic capacity to temperature variations.

18. An arctic breeding songbird overheats during intense activity even at low air temperatures.

Author

O'Connor RS, Love OP, Régimbald L, Le Pogam A, Gerson AR, Elliott KH, Hargreaves AL, and Vézina F

Subjects
Animals, Arctic Regions, Body Temperature Regulation physiology, Body Temperature physiology, Breeding, Reproduction physiology, Female, Male, Temperature, Songbirds physiology, Cold Temperature
Abstract

Birds maintain some of the highest body temperatures among endothermic animals. Often deemed a selective advantage for heat tolerance, high body temperatures also limits birds' thermal safety margin before reaching lethal levels. Recent modelling suggests that sustained effort in Arctic birds might be restricted at mild air temperatures, which may require reductions in activity to avoid overheating, with expected negative impacts on reproductive performance. We measured within-individual changes in body temperature in calm birds and then in response to an experimental increase in activity in an outdoor captive population of Arctic, cold-specialised snow buntings (Plectrophenax nivalis), exposed to naturally varying air temperatures (- 15 to 36 °C). Calm buntings exhibited a modal body temperature range from 39.9 to 42.6 °C. However, we detected a significant increase in body temperature within minutes of shifting calm birds to active flight, with strong evidence for a positive effect of air temperature on body temperature (slope = 0.04 °C/ °C). Importantly, by an ambient temperature of 9 °C, flying buntings were already generating body temperatures ≥ 45 °C, approaching the upper thermal limits of organismal performance (45-47 °C). With known limited evaporative heat dissipation capacities in these birds, our results support the recent prediction that free-living buntings operating at maximal sustainable rates will increasingly need to rely on behavioural thermoregulatory strategies to regulate body temperature, to the detriment of nestling growth and survival., (© 2024. The Author(s).)

Published
2024
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19. Vegetation biomass and topography are associated with seasonal habitat selection and fall translocation behavior in Arctic hares.

Author

Landry-Ducharme L, Lai S, Vézina F, Tam A, and Berteaux D

Subjects
Animals, Arctic Regions, Animal Migration, Ecosystem, Seasons, Biomass, Hares
Abstract

Habitat selection theory suggests that environmental features selected at coarse scales reveal fundamental factors affecting animal fitness. When these factors vary across seasons, they may lead to large-scale movements, including long-distance seasonal migrations. We analyzed the seasonal habitat selection of 25 satellite-tracked Arctic hares from a population on Ellesmere Island (Nunavut, Canada) that relocated over 100 km in the fall. Since no other lagomorph is known to perform such extensive movements, this population offered an ideal setting to test animal movement and habitat selection theory. On summer grounds hares selected low elevation areas, while on winter grounds they selected high vegetation biomass, high elevation, and steep slopes. During fall relocation, they alternated between stopover and traveling behavioral states (ratio 2:1). Stopover locations were characterized by higher vegetation heterogeneity and lower rugosity than traveling locations, while vegetation biomass and elevation interacted to explain stopover locations in a more complex way. The selected combination of environmental features thus varied across seasons and behavioral states, in a way broadly consistent with predictions based on the changing food and safety needs of hares. Although causality was not demonstrated, our results improve our understanding of long-distance movements and habitat selection in Arctic hares, as well as herbivore ecology in the polar desert. Results also provide strong support to animal movement and habitat selection theory, by showing how some important hypotheses hold when tested in a species phylogenetically distinct from most animal models used in this research field., (© 2024. The Author(s).)

Published
2024
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20. Apelin stimulation of the vascular skeletal muscle stem cell niche enhances endogenous repair in dystrophic mice.

Author

Le Moal E, Liu Y, Collerette-Tremblay J, Dumontier S, Fabre P, Molina T, Dort J, Orfi Z, Denault N, Boutin J, Michaud J, Giguère H, Desroches A, Trân K, Ellezam B, Vézina F, Bedard S, Raynaud C, Balg F, Sarret P, Boudreault PL, Scott MS, Denault JB, Marsault E, Feige JN, Auger-Messier M, Dumont NA, and Bentzinger CF

Subjects
Mice, Animals, Apelin metabolism, Muscle, Skeletal metabolism, Signal Transduction, Stem Cell Niche, Muscular Dystrophy, Duchenne metabolism
Abstract

Impaired skeletal muscle stem cell (MuSC) function has long been suspected to contribute to the pathogenesis of muscular dystrophy (MD). Here, we showed that defects in the endothelial cell (EC) compartment of the vascular stem cell niche in mouse models of Duchenne MD, laminin α2-related MD, and collagen VI-related myopathy were associated with inefficient mobilization of MuSCs after tissue damage. Using chemoinformatic analysis, we identified the 13-amino acid form of the peptide hormone apelin (AP-13) as a candidate for systemic stimulation of skeletal muscle ECs. Systemic administration of AP-13 using osmotic pumps generated a pro-proliferative EC-rich niche that supported MuSC function through angiocrine factors and markedly improved tissue regeneration and muscle strength in all three dystrophic mouse models. Moreover, EC-specific knockout of the apelin receptor led to regenerative defects that phenocopied key pathological features of MD, including vascular defects, fibrosis, muscle fiber necrosis, impaired MuSC function, and reduced force generation. Together, these studies provide in vivo proof of concept that enhancing endogenous skeletal muscle repair by targeting the vascular niche is a viable therapeutic avenue for MD and characterized AP-13 as a candidate for further study for the systemic treatment of MuSC dysfunction.

Published
2024
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21. Under pressure-exploring partner changes, physiological responses and telomere dynamics in northern gannets across varying breeding conditions.

Author

Pelletier D, Blier PU, Vézina F, Dufresne F, Paquin F, Christen F, and Guillemette M

Subjects
Humans, Animals, Telomere genetics, Weight Loss genetics, Breeding, Inflammation genetics, Oxygen, Antioxidants, Birds genetics
Abstract

Background: Life history theory predicts trade-offs between reproduction and survival in species like the northern gannet ( Morus bassanus ). During breeding, demanding foraging conditions lead them to expand their foraging range and diversify their diet, increasing the risk of reproductive failure. Changing partners may enhance breeding success but lead to more physiological costs., Methods: To investigate the physiological costs of reproduction upon partner changes, we measured and compared 21 biomarkers related to telomere dynamics, oxidative stress, inflammation, hematology, nutritional status, and muscle damage. We used a longitudinal approach with gannets ( n  = 38) over three contrasting years (2017, 2018 and 2019)., Results: Our results suggest that annual breeding conditions exert a greater influence on physiological changes than partnership status. Individuals that changed partner experienced greater short-term stress than retained partners. This transient increase in stress was marked by short-term increases in oxidative lipid damage, lower antioxidant capacity, signs of inflammation, and greater weight loss than individuals that retained partners. During favorable conditions, individuals that changed mates had stabilized telomere length, decreased antioxidant capacity, glucose concentration, and muscle damage, along with increased oxygen transport capacity. Conversely, unfavorable breeding conditions led to increased telomere attrition, stabilized antioxidant capacity, decreased inflammation susceptibility, diminished oxygen transport capacity, and increased muscle damage. In the cases where partners were retained, distinct physiological changes were observed depending on the year's conditions, yet the telomere dynamics remained consistent across both partnership status categories. During the favorable year, there was an increase in unsaturated fatty acids and oxygen transport capacity in the blood, coupled with a reduction in inflammation potential and protein catabolism. In contrast, during the unfavorable year in the retained mates, we observed an increase in oxidative DNA damage, antioxidant capacity, weight loss, but a decrease in inflammation susceptibility as observed in changed mates., Discussion: Our study shows that behavioral flexibility such as mate switching can help seabirds cope with the challenges of food scarcity during reproduction, but these coping strategies may have a negative impact on physiological status at the individual level. In addition, the marked reduction in telomere length observed during harsh conditions, coupled with the stabilization of telomere length in favorable conditions, highlights the long-term physiological impact of annual breeding conditions on seabirds. These findings underscore the effect on their potential survival and fitness, emphasizing that the influence of annual breeding conditions is greater than that of partnership status., Competing Interests: The authors declare there are no competing interests., (©2023 Pelletier et al.)

Published
2023
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22. Born in the cold: contrasted thermal exchanges and maintenance costs in juvenile and adult snow buntings on their breeding and wintering grounds.

Author

Demers R, O'Connor RS, Le Pogam A, Young KG, Berteaux D, Tam A, and Vézina F

Abstract

Several species of passerines leave their nest with unfinished feather growth, resulting in lower feather insulation and increased thermoregulatory demands compared to adults. However, feather insulation is essential for avian species breeding at northern latitudes, where cold conditions or even snowstorms can occur during the breeding season. In altricial arctic species, increased heat loss caused by poor feather insulation during growth could be counter-adaptative as it creates additional energy demands for thermoregulation. Using flow-through respirometry, we compared resting metabolic rate at thermoneutrality (RMRt), summit metabolic rate (M sum ) and heat loss (conductance) in adult and juvenile snow buntings on their summer and winter grounds. In summer, when buntings are in the Arctic, juveniles had a 12% higher RMRt, likely due to unfinished growth, and lost 14% more heat to the environment than adults. This pattern may result from juveniles fledging early to avoid predation at the cost of lower feather insulation. Surprisingly, an opposite pattern was observed at lower latitudes on their wintering grounds. Although they showed no difference in RMRt and M sum , adults were losing 12% more heat than juveniles. We suggest that this difference is due to poorer insulative property of plumage in adults stemming from energetic and time constraints encountered during their post-breeding molt. High plumage insulation in first-winter juvenile buntings could be adaptive to reduce thermoregulatory demands and maximize survival in the first winter of life, while adults could use behavioral strategies to compensate for their greater rate of heat loss., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2023
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23. Evidence for a maintenance cost for birds maintaining highly flexible basal, but not summit, metabolic rates.

Author

Swanson DL, Stager M, Vézina F, Liu JS, McKechnie AE, and Amirkhiz RG

Subjects
Animals, Acclimatization physiology, Temperature, Cold Temperature, Energy Metabolism physiology, Birds physiology, Basal Metabolism physiology
Abstract

Reversible phenotypic flexibility allows organisms to better match phenotypes to prevailing environmental conditions and may produce fitness benefits. Costs and constraints of phenotypic flexibility may limit the capacity for flexible responses but are not well understood nor documented. Costs could include expenses associated with maintaining the flexible system or with generating the flexible response. One potential cost of maintaining a flexible system is an energetic cost reflected in the basal metabolic rate (BMR), with elevated BMR in individuals with more flexible metabolic responses. We accessed data from thermal acclimation studies of birds where BMR and/or M sum (maximum cold-induced metabolic rate) were measured before and after acclimation, as a measure of metabolic flexibility, to test the hypothesis that flexibility in BMR (ΔBMR), M sum (ΔM sum ), or metabolic scope (M sum  - BMR; ΔScope) is positively correlated with BMR. When temperature treatments lasted at least three weeks, three of six species showed significant positive correlations between ΔBMR and BMR, one species showed a significant negative correlation, and two species showed no significant correlation. ΔM sum and BMR were not significantly correlated for any species and ΔScope and BMR were significantly positively correlated for only one species. These data suggest that support costs exist for maintaining high BMR flexibility for some bird species, but high flexibility in M sum or metabolic scope does not generally incur elevated maintenance costs., (© 2023. The Author(s).)

Published
2023
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24. A Partial-Thickness Quadriceps Autograft Reliably Augments the Size of the Hamstring Graft During Anterior Cruciate Ligament Reconstruction.

Author

Bourgeault-Gagnon Y, Leang AK, Bédard S, Lebel K, Balg F, and Vézina F

Abstract

Purpose: To measure the increase in diameter resulting from the augmentation of a hamstring autograft with a partial width rectus femoris tendon band in anterior cruciate ligament reconstruction., Methods: Thirty-three cadaveric knees were dissected to harvest semitendinosus and gracilis tendons (4S) along with a 6-mm wide tendon band from the rectus femoris. Harvesting was done according to the usual surgical techniques of both harvests. Measures of length and diameter in 4S and 4S augmented with the rectus femoris band (4S +Q) configurations were performed separately by 3 evaluators., Results: The quadriceps augmentation led to an average increase of 1.49 mm (95% confidence interval 1.03-1.95 mm) in diameter of the 4-strand hamstring grafts. The previously demonstrated threshold diameter of 8.5 mm was attained in only 30% of 4S grafts within this population in comparison with 88% when augmented with a quadriceps band., Conclusions: In conclusion, supplementing doubled hamstring graft (4S) with quadricipital tendon in anterior cruciate ligament reconstruction (ACLR) increases the graft diameter by an average of 1.49 mm. It has the physical potential to reliably augment hamstring grafts that measure 7.5 mm in diameter or more in order to obtain an 8.5 mm when necessitated., Clinical Relevance: Increased graft diameter is associated with a decreased risk of graft failure after ACLR. Because of this, it is important to identify methods to increase the size of grafts. This study investigates the use of a partial-width rectus femoris tendon band as an option to reliably augment graft sizes during ACLR., (© 2022 The Authors.)

Published
2022
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25. Warming in the land of the midnight sun: breeding birds may suffer greater heat stress at high- versus low-Arctic sites.

Author

O'Connor RS, Le Pogam A, Young KG, Love OP, Cox CJ, Roy G, Robitaille F, Elliott KH, Hargreaves AL, Choy ES, Gilchrist HG, Berteaux D, Tam A, and Vézina F

Subjects
Animals, Arctic Regions, Heat-Shock Response, Reproduction, Temperature, Songbirds
Abstract

Rising global temperatures are expected to increase reproductive costs for wildlife as greater thermoregulatory demands interfere with reproductive activities. However, predicting the temperatures at which reproductive performance is negatively impacted remains a significant hurdle. Using a thermoregulatory polygon approach, we derived a reproductive threshold temperature for an Arctic songbird-the snow bunting ( Plectrophenax nivalis ). We defined this threshold as the temperature at which individuals must reduce activity to suboptimal levels (i.e. less than four-time basal metabolic rate) to sustain nestling provisioning and avoid overheating. We then compared this threshold to operative temperatures recorded at high (82° N) and low (64° N) Arctic sites to estimate how heat constraints translate into site-specific impacts on sustained activity level. We predict buntings would become behaviourally constrained at operative temperatures above 11.7°C, whereupon they must reduce provisioning rates to avoid overheating. Low-Arctic sites had larger fluctuations in solar radiation, consistently producing daily periods when operative temperatures exceeded 11.7°C. However, high-latitude birds faced entire, consecutive days when parents would be unable to sustain required provisioning rates. These data indicate that Arctic warming is probably already disrupting the breeding performance of cold-specialist birds and suggests counterintuitive and severe negative impacts of warming at higher latitude breeding locations.

Published
2022
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26. How does mitochondrial function relate to thermogenic capacity and basal metabolic rate in small birds?

Author

Milbergue MS, Vézina F, Desrosiers V, and Blier PU

Subjects
Acclimatization physiology, Animals, Cold Temperature, Mitochondria metabolism, Pectoralis Muscles metabolism, Protons, Basal Metabolism physiology, Songbirds physiology
Abstract

We investigated the role of mitochondrial function in the avian thermoregulatory response to a cold environment. Using black-capped chickadees (Poecile atricapillus) acclimated to cold (-10°C) and thermoneutral (27°C) temperatures, we expected to observe an upregulation of pectoralis muscle and liver respiratory capacity that would be visible in mitochondrial adjustments in cold-acclimated birds. We also predicted that these adjustments would correlate with thermogenic capacity (Msum) and basal metabolic rate (BMR). Using tissue high-resolution respirometry, mitochondrial performance was measured as respiration rate triggered by proton leak and the activity of complex I (OXPHOSCI) and complex I+II (OXPHOSCI+CII) in the liver and pectoralis muscle. The activity of citrate synthase (CS) and cytochrome c oxidase (CCO) was also used as a marker of mitochondrial density. We found 20% higher total CS activity in the whole pectoralis muscle and 39% higher total CCO activity in the whole liver of cold-acclimated chickadees relative to that of birds kept at thermoneutrality. This indicates that cold acclimation increased overall aerobic capacity of these tissues. Msum correlated positively with mitochondrial proton leak in the muscle of cold-acclimated birds while BMR correlated with OXPHOSCI in the liver with a pattern that differed between treatments. Consequently, this study revealed a divergence in mitochondrial metabolism between thermal acclimation states in birds. Some functions of the mitochondria covary with thermogenic capacity and basal maintenance costs in patterns that are dependent on temperature and body mass., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2022. Published by The Company of Biologists Ltd.)

Published
2022
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27. Long-distance, synchronized and directional fall movements suggest migration in Arctic hares on Ellesmere Island (Canada).

Author

Caron-Carrier J, Lai S, Vézina F, Tam A, and Berteaux D

Subjects
Animal Migration, Animals, Arctic Regions, Canada, Ecosystem, Seasons, Hares, Lagomorpha
Abstract

Animal migration contributes largely to the seasonal dynamics of High Arctic ecosystems, linking distant habitats and impacting ecosystem structure and function. In polar deserts, Arctic hares are abundant herbivores and important components of food webs. Their annual migrations have long been suspected, but never confirmed. We tracked 25 individuals with Argos satellite telemetry to investigate the existence of migration in a population living at Alert (Ellesmere Island, Nunavut, Canada). During fall, 21 hares undertook directional, long-distance movements in a southwestern direction towards Lake Hazen. Daily movement rates averaged 1.3 ± 0.5 km, 4.3 ± 1.6 km, and 1.7 ± 0.9 km before, during, and after relocation, respectively. Straight-line and minimum cumulative distances traveled averaged 98 ± 18 km (range: 72-148 km) and 198 ± 62 km (range: 113-388 km), respectively. This is the first report of large-scale seasonal movements in Arctic hares and, surprisingly, in any lagomorph species. These movements may be part of an annual migratory pattern. Our results redefine our understanding of the spatial ecology of Arctic hares, demonstrate unsuspected mobility capacities in lagomorphs, and open new perspectives regarding the ecological dynamics of the northern polar deserts., (© 2022. The Author(s).)

Published
2022
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30. Anterior Cruciate Ligament Sizing Tools Can Be Interchanged Without Affecting Graft Diameter Measurement.

Author

Joannette Bourguignon M, Bédard S, Balg F, Lebel K, Keith Leang A, and Vézina F

Abstract

Purpose: To determine whether different types of measurement tools can be interchanged without significantly affecting the resulting graft diameter., Methods: Hamstrings (gracilis and semitendinosus) and quadriceps tendons in 33 cadaver knees were harvested. Three different anterior cruciate ligament (ACL) graft combinations were created using these tendons, making 99 cadaver grafts samples available to measure. The grafts were randomly passed through sizing tubes and a slotted measurement block to determine their diameter. Interobserver and intraobserver reliabilities of measurements were assessed. Pearson correlation test, as well as Bland Altman graph, were used to evaluate the interchangeability of the tools., Results: In 95% of cases, the diameter difference between the tubes and the block measures was less than the 0.5 mm in increment cutoff. Both the intraobserver and interobserver reliability were excellent., Conclusions: This study showed that the ACL graft diameter measurement does not vary whether a slotted block or sizing tube from the same company is used., Clinical Relevance: ACL graft size has an influence on the surgical technique and clinical outcomes. Therefore it is important to have reliable sizing tools., (© 2022 The Authors.)

Published
2022
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31. Early life neonicotinoid exposure results in proximal benefits and ultimate carryover effects.

Author

Zgirski T, Legagneux P, Chastel O, Regimbald L, Prouteau L, Le Pogam A, Budzinski H, Love OP, and Vézina F

Subjects
Animals, Neonicotinoids metabolism, Songbirds growth & development, Songbirds metabolism, Neonicotinoids pharmacology
Abstract

Neonicotinoids are insecticides widely used as seed treatments that appear to have multiple negative effects on birds at a diversity of biological scales. Adult birds exposed to a low dose of imidacloprid, one of the most commonly used neonicotinoids, presented reduced fat stores, delayed migration and potentially altered orientation. However, little is known on the effect of imidacloprid on birds growth rate despite studies that have documented disruptive effects of low imidacloprid doses on thyroid gland communication. We performed a [Formula: see text] factorial design experiment in Zebra finches, in which nestling birds were exposed to a very low dose (0.205 mg kg body [Formula: see text]) of imidacloprid combined with food restriction during posthatch development. During the early developmental period, imidacloprid exposure resulted in an improvement of body condition index in treated nestlings relative to controls. Imidacloprid also led to compensatory growth in food restricted nestlings. This early life neonicotinoid exposure also carried over to adult age, with exposed birds showing higher lean mass and basal metabolic rate than controls at ages of 90-800 days. This study presents the first evidence that very low-dose neonicotinoid exposure during early life can permanently alter adult phenotype in birds., (© 2021. The Author(s).)

Published
2021
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32. Limited heat tolerance in a cold-adapted seabird: implications of a warming Arctic.

Author

Choy ES, O'Connor RS, Gilchrist HG, Hargreaves AL, Love OP, Vézina F, and Elliott KH

Subjects
Animals, Birds, Body Temperature Regulation, Hot Temperature, Water Loss, Insensible, Thermotolerance
Abstract

The Arctic is warming at approximately twice the global rate, with well-documented indirect effects on wildlife. However, few studies have examined the direct effects of warming temperatures on Arctic wildlife, leaving the importance of heat stress unclear. Here, we assessed the direct effects of increasing air temperatures on the physiology of thick-billed murres (Uria lomvia), an Arctic seabird with reported mortalities due to heat stress while nesting on sun-exposed cliffs. We used flow-through respirometry to measure the response of body temperature, resting metabolic rate, evaporative water loss and evaporative cooling efficiency (the ratio of evaporative heat loss to metabolic heat production) in murres while experimentally increasing air temperature. Murres had limited heat tolerance, exhibiting: (1) a low maximum body temperature (43.3°C); (2) a moderate increase in resting metabolic rate relative that within their thermoneutral zone (1.57 times); (3) a small increase in evaporative water loss rate relative that within their thermoneutral zone (1.26 times); and (4) a low maximum evaporative cooling efficiency (0.33). Moreover, evaporative cooling efficiency decreased with increasing air temperature, suggesting murres were producing heat at a faster rate than they were dissipating it. Larger murres also had a higher rate of increase in resting metabolic rate and a lower rate of increase in evaporative water loss than smaller murres; therefore, evaporative cooling efficiency declined with increasing body mass. As a cold-adapted bird, murres' limited heat tolerance likely explains their mortality on warm days. Direct effects of overheating on Arctic wildlife may be an important but under-reported impact of climate change., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2021. Published by The Company of Biologists Ltd.)

Published
2021
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33. Poor prey quality is compensated by higher provisioning effort in passerine birds.

Author

Senécal S, Riva JC, O'Connor RS, Hallot F, Nozais C, and Vézina F

Subjects
Animals, Diet, Female, Male, Feeding Behavior, Nesting Behavior, Passeriformes growth & development
Abstract

In altricial avian species, nutrition can significantly impact nestling fitness by increasing their survival and recruitment chances after fledging. Therefore, the effort invested by parents towards provisioning nestlings is crucial and represents a critical link between habitat resources and reproductive success. Recent studies suggest that the provisioning rate has little or no effect on the nestling growth rate. However, these studies do not consider prey quality, which may force breeding pairs to adjust provisioning rates to account for variation in prey nutritional value. In this 8-year study using black-capped (Poecile atricapillus) and boreal (Poecile hudsonicus) chickadees, we hypothesized that provisioning rates would negatively correlate with prey quality (i.e., energy content) across years if parents adjust their effort to maintain nestling growth rates. The mean daily growth rate was consistent across years in both species. However, prey energy content differed among years, and our results showed that parents brought more food to the nest and fed at a higher rate in years of low prey quality. This compensatory effect likely explains the lack of relationship between provisioning rate and growth rate reported in this and other studies. Therefore, our data support the hypothesis that parents increase provisioning efforts to compensate for poor prey quality and maintain offspring growth rates.

Published
2021
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34. Limited heat tolerance in an Arctic passerine: Thermoregulatory implications for cold-specialized birds in a rapidly warming world.

Author

O'Connor RS, Le Pogam A, Young KG, Robitaille F, Choy ES, Love OP, Elliott KH, Hargreaves AL, Berteaux D, Tam A, and Vézina F

Abstract

Arctic animals inhabit some of the coldest environments on the planet and have evolved physiological mechanisms for minimizing heat loss under extreme cold. However, the Arctic is warming faster than the global average and how well Arctic animals tolerate even moderately high air temperatures ( T a ) is unknown.Using flow-through respirometry, we investigated the heat tolerance and evaporative cooling capacity of snow buntings ( Plectrophenax nivalis ; ≈31 g, N  = 42), a cold specialist, Arctic songbird. We exposed buntings to increasing T a and measured body temperature ( T b ), resting metabolic rate (RMR), rates of evaporative water loss (EWL), and evaporative cooling efficiency (the ratio of evaporative heat loss to metabolic heat production).Buntings had an average (± SD ) T b of 41.3 ± 0.2°C at thermoneutral T a and increased T b to a maximum of 43.5 ± 0.3°C. Buntings started panting at T a of 33.2 ± 1.7°C, with rapid increases in EWL starting at T a  = 34.6°C, meaning they experienced heat stress when air temperatures were well below their body temperature. Maximum rates of EWL were only 2.9× baseline rates at thermoneutral T a , a markedly lower increase than seen in more heat-tolerant arid-zone species (e.g., ≥4.7× baseline rates). Heat-stressed buntings also had low evaporative cooling efficiencies, with 95% of individuals unable to evaporatively dissipate an amount of heat equivalent to their own metabolic heat production.Our results suggest that buntings' well-developed cold tolerance may come at the cost of reduced heat tolerance. As the Arctic warms, and this and other species experience increased periods of heat stress, a limited capacity for evaporative cooling may force birds to increasingly rely on behavioral thermoregulation, such as minimizing activity, at the expense of diminished performance or reproductive investment., Competing Interests: None declared., (© 2021 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published
2021
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35. Wintering Snow Buntings Elevate Cold Hardiness to Extreme Levels but Show No Changes in Maintenance Costs.

Author

Le Pogam A, Love OP, Régimbald L, Dubois K, Hallot F, Milbergue M, Petit M, O'Connor RS, and Vézina F

Subjects
Animals, Basal Metabolism physiology, Body Composition physiology, Hematocrit, Male, Passeriformes metabolism, Seasons, Thermogenesis physiology, Acclimatization physiology, Cold Temperature, Passeriformes physiology
Abstract

AbstractResident temperate passerines adjust their phenotypes to cope with winter constraints, with peak performance in metabolic traits typically occurring during the coldest months. However, it is sparsely known whether cold-adapted northern species make similar adjustments when faced with variable seasonal environments. Life in near-constant cold could be associated with limited flexibility in traits underlying cold endurance. We investigated this by tracking individual physiological changes over five consecutive winters in snow buntings ( Plectrophenax nivalis ), an Arctic-breeding migratory passerine typically confronted with nearly constant cold. Buntings were held in an outdoor aviary and exposed to seasonal temperature variation typical of temperate zone climates. We measured phenotypic changes in body composition (body, fat, and lean mass, pectoralis muscle thickness), oxygen transport capacity (hematocrit), metabolic performance (basal metabolic rate [BMR] and summit metabolic rate [ M sum ]), thermogenic endurance (time to reach M sum ), and cold tolerance (temperature at M sum ). Snow buntings showed flexibility in functions underlying thermogenic capacity and cold endurance comparable to that observed in temperate resident passerines wintering at similar latitudes. Specifically, they increased body mass (13%), fat mass (246%), hematocrit (23%), pectoralis muscle thickness (8%), and M sum (27%). We also found remarkable cold tolerance in these birds, with individuals reaching M sum in helox at temperatures equivalent to less than -90°C in air. However, in contrast with resident temperate passerines, lean mass decreased by 12%, and there was no clear increase in maintenance costs (BMR). Our results show that the flexibility of traits underlying thermal acclimatization in a cold-adapted northern species is comparable to that of temperate resident species living at lower latitudes and is therefore not limited by life in near-constant cold.

Published
2020
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36. Deltopectoral vs. deltoid split approach for proximal HUmerus fracture fixation with locking plate: a prospective RAndomized study (HURA).

Author

Rouleau DM, Balg F, Benoit B, Leduc S, Malo M, Vézina F, and Laflamme GY

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Deltoid Muscle, Female, Fracture Fixation, Internal, Humans, Male, Middle Aged, Pectoralis Muscles, Prospective Studies, Surveys and Questionnaires, Treatment Outcome, Young Adult, Bone Plates, Shoulder Fractures surgery
Abstract

Background: This study aimed to compare the functional and clinical outcomes between the deltoid split (DS) approach and the classic deltopectoral (DP) approach for locking plate fixation of proximal humerus fractures (PHF) in a prospective randomized multicenter study., Methods: From 2007 to 2015, all patients with a PHF Neer II/III were invited to participate. Exclusion criteria were pre-existing pathology to the limb, patient refusing or too ill to undergo surgery, patient needing another type of treatment (nail, arthroplasty), and axillary nerve impairment. After consent, patients were randomized to one of the 2 treatments using the dark envelope method. Functional outcome was evaluated by validated questionnaires (12-Item Short Form Health Survey: version 2, Quick-DASH) with a minimum follow-up of 12 months. Complications were noted., Results: A total of 85 patients (44 DS, 41 DP) were randomized (mean age of 62). Groups were equivalent in terms of age, gender, body mass index, severity of fracture, and preinjury scores. The mean follow-up was 26 months. All clinical outcome measures were in favor of the deltopectoral approach. Specifically, the Q-DASH and SF-12v2 were better in the DP group (12 vs. 26, P = .003 and 56 vs. 51, P = .049, respectively). There were more complications in DS patients, but they did not reach statistical significance., Conclusions: The primary hypothesis on the superiority of the deltoid split incision was rebutted. On the basis of our study, the DP approach seems to offer better function compared with the DS approach for fixation of Neer 2 and 3 PHF fractures fixed with a locking plate., (Copyright © 2020 Journal of Shoulder and Elbow Surgery Board of Trustees. Published by Elsevier Inc. All rights reserved.)

Published
2020
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37. Consequences of being phenotypically mismatched with the environment: no evidence of oxidative stress in cold- and warm-acclimated birds facing a cold spell.

Author

Jimenez AG, Ruhs EC, Tobin KJ, Anderson KN, Le Pogam A, Regimbald L, and Vézina F

Subjects
Animals, Cold Temperature, Oxidative Stress, Thermogenesis, Acclimatization, Songbirds
Abstract

Seasonal changes in maximal thermogenic capacity ( M sum ) in wild black-capped chickadees suggests that adjustments in metabolic performance are slow and begin to take place before winter peaks. However, when mean minimal ambient temperature ( T a ) reaches -10°C, the chickadee phenotype appears to provide enough spare capacity to endure days with colder T a , down to -20°C or below. This suggests that birds could also maintain a higher antioxidant capacity as part of their cold-acclimated phenotype to deal with sudden decreases in temperature. Here, we tested how environmental mismatch affected oxidative stress by comparing cold-acclimated (-5°C) and transition (20°C) phenotypes in chickadees exposed to an acute 15°C drop in temperature with that of control individuals. We measured superoxide dismutase, catalase and glutathione peroxidase activities, as well as lipid peroxidation damage and antioxidant scavenging capacity in pectoralis muscle, brain, intestine and liver. We generally found differences between seasonal phenotypes and across tissues, but no differences with respect to an acute cold drop treatment. Our data suggest oxidative stress is closely matched to whole-animal physiology in cold-acclimated birds compared with transition birds, implying that changes to the oxidative stress system happen slowly., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2020. Published by The Company of Biologists Ltd.)

Published
2020
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38. Consequences of being phenotypically mismatched with the environment: rapid muscle ultrastructural changes in cold-shocked black-capped chickadees ( Poecile atricapillus ).

Author

Vézina F, Cornelius Ruhs E, O'Connor ES, Le Pogam A, Régimbald L, Love OP, and Jimenez AG

Subjects
Animals, Phenotype, Seasons, Time Factors, Acclimatization, Capillaries ultrastructure, Cold Temperature, Cold-Shock Response, Muscle Fibers, Skeletal ultrastructure, Passeriformes physiology, Pectoralis Muscles blood supply
Abstract

Phenotypic flexibility has received considerable attention in the last decade; however, whereas many studies have reported amplitude of variation in phenotypic traits, much less attention has focused on the rate at which traits can adjust in response to sudden changes in the environment. We investigated whole animal and muscle phenotypic changes occurring in black-capped chickadees ( Poecile atricapillus ) acclimated to cold (-5°C) and warm (20°C) temperatures in the first 3 h following a 15°C temperature drop (over 3 h). Before the temperature change, cold-acclimated birds were consuming 95% more food, were carrying twice as much body fat, and had 23% larger pectoralis muscle fiber diameters than individuals kept at 20°C. In the 3 h following the temperature drop, these same birds altered their pectoralis muscle ultrastructure by increasing the number of capillaries per fiber area and the number of nuclei per millimeter of fiber by 22%, consequently leading to a 22% decrease in myonuclear domain (amount of cytoplasm serviced per nucleus), whereas no such changes were observed in the warm-acclimated birds. To our knowledge, this is the first demonstration of such a rapid adjustment in muscle fiber ultrastructure in vertebrates. These results support the hypothesis that chickadees maintaining a cold phenotype are better prepared than warm-phenotype individuals to respond to a sudden decline in temperature, such as what may be experienced in their natural wintering environment.

Published
2020
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39. WHOLE GENOME SEQUENCING OF AN AVIPOXVIRUS ASSOCIATED WITH INFECTIONS IN A GROUP OF AVIARY-HOUSED SNOW BUNTINGS ( PLECTROPHENAX NIVALIS ).

Author

Le Net R, Provost C, Lalonde C, Régimbald L, Vézina F, Gagnon CA, and Lair S

Subjects
Animals, Bird Diseases pathology, Female, Male, Phylogeny, Poxviridae Infections virology, Avipoxvirus genetics, Bird Diseases virology, Genome, Viral, Passeriformes, Poxviridae Infections veterinary, Whole Genome Sequencing
Abstract

Avipoxvirus infections have been reported in both free-ranging and domestic birds worldwide. Fowlpox and canarypox viruses belong to the genus Avipoxvirus among the virus family Poxviridae . They cause cutaneous lesions with proliferative growths on the unfeathered parts of the skin and/or diphtheritic lesions generally associated with necrosis in the upper respiratory and digestive tracts. In this study, a poxvirus has been identified in wild-caught snow buntings ( Plectrophenax nivalis ) housed in an outdoor aviary in the region of Rimouski, Quebec. During the falls and winters of 2015 and 2016, eight snow buntings affected by this infection were examined. Macroscopic and microscopic lesions observed were characteristic of an avipoxvirus infection. Electron microscopy imaging of an ultrathin section of the histopathological lesions of two birds confirmed the presence of the poxvirus. Afterward, the presence of the poxvirus was confirmed in three birds by a specific polymerase chain reaction assay that amplified a segment of the gene encoding the fowlpox virus 4b core protein. A 576-nucleotide amplicon was obtained from one of them and sequenced. The analyses revealed a 99% homology to other previously described avipoxviruses. Using high-throughput sequencing, almost the entire viral genome of this avipoxvirus was revealed and found to possess a 359,853-nucleotide sequence in length. Bioinformatic analyses revealed that the virus was genetically related to canarypox virus. To our knowledge, this is the first confirmed case and full description of a poxviral infection in this species. This episode suggests a high susceptibility of this northern species of passerine to avipoxviruses circulating in southeastern Canada during the summer months. Even if the source of the viral infections remains undetermined, transmission by local biological vectors is suspected. Management of poxviral infections in snow buntings housed outdoors in southeastern Canada could rely on the control of biting insects.

Published
2020
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40. Physiological and Immune Responses of Free-Living Temperate Birds Provided a Gradient of Food Supplementation.

Author

Cornelius Ruhs E, Vézina F, and Karasov WH

Subjects
Animals, Animals, Wild immunology, Animals, Wild physiology, Body Composition, Body Weight physiology, Lipopolysaccharides administration & dosage, Animal Feed, Animal Nutritional Physiological Phenomena, Songbirds immunology, Songbirds physiology
Abstract

Food availability might sometimes be unpredictable for wild birds. To alleviate this possible food limitation, millions of households in North America provide food supplementation to bird populations. However, the ecoimmunological impacts of this supplementation on free-living birds are largely unclear. Therefore, we compared immune function and body composition of three groups of free-living black-capped chickadees (Poecile atricapillus) that were provided either constant food supplementation ("supplemented"), interrupted food supplementation ("interrupted"), or no food supplementation ("unsupplemented"). At capture, all three groups had similar body mass and fat scores. All three groups also had similar levels of circulating immunoglobulin Y antibodies and complement lysis ability, two measures of constitutive immune function. Supplemented and interrupted groups mounted a somewhat similar body mass and temperature response to injection with lipopolysaccharide; however, the supplemented group had a higher haptoglobin (acute-phase protein) response to lipopolysaccharide injection compared to the interrupted group. This study demonstrates that birds maintained similar levels of fat despite their level of food supplementation; however, sudden removal of supplemental food might elicit a short-term decline in aspects of immunity. Future studies should investigate how food supplementation might impact induced or adaptive aspects of immune function to add to our understanding of immunology in free-living animals.

Published
2019
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41. Large muscles are beneficial but not required for improving thermogenic capacity in small birds.

Author

Milbergue MS, Blier PU, and Vézina F

Subjects
Animals, Body Composition, Seasons, Acclimatization, Basal Metabolism physiology, Energy Metabolism, Muscle, Skeletal physiology, Pectoralis Muscles physiology, Songbirds physiology, Thermogenesis physiology
Abstract

It is generally assumed that small birds improve their shivering heat production capacity by developing the size of their pectoralis muscles. However, some studies have reported an enhancement of thermogenic capacity in the absence of muscle mass variation between seasons or thermal treatments. We tested the hypothesis that an increase in muscle mass is not a prerequisite for improving avian thermogenic capacity. We measured basal (BMR) and summit (M sum ) metabolic rates of black capped chickadees (Poecile atricapillus) acclimated to thermoneutral (27 °C) and cold (-10 °C) temperatures and obtained body composition data from dissections. Cold acclimated birds consumed 44% more food, and had 5% and 20% higher BMR and M sum , respectively, compared to individuals kept at thermoneutrality. However, lean dry pectoralis and total muscle mass did not differ between treatments, confirming that the improvement of thermogenic capacity did not require an increase in skeletal muscle mass. Nevertheless, within temperature treatments, M sum was positively correlated with the mass of all measured muscles, including the pectoralis. Therefore, for a given acclimation temperature individuals with large muscles do benefit from muscle size in term of heat production but improving thermogenic capacity during cold acclimation likely requires an upregulation of cell functions.

Published
2018
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42. Indications for and clinical procedures resulting from magnetic resonance imaging of the knee in older patients: Are we choosing wisely?

Author

Parent ME, Vézina F, Carrier N, and Masetto A

Subjects
Aged, Aged, 80 and over, Databases, Factual, Female, Humans, Knee Joint pathology, Longitudinal Studies, Male, Middle Aged, Quebec, Retrospective Studies, Risk Factors, Unnecessary Procedures, Knee Joint diagnostic imaging, Magnetic Resonance Imaging statistics & numerical data, Osteoarthritis, Knee diagnostic imaging, Radiography statistics & numerical data
Abstract

Objective: To analyze the indications for and clinical procedures resulting from knee magnetic resonance imaging (MRI) in older patients., Design: We retrospectively analyzed 215 medical records of patients 50 years of age and older who had undergone a unilateral knee MRI in 2009., Setting: Centre hospitalier universitaire de Sherbrooke in Quebec., Participants: Patients 50 years of age and older who underwent a knee MRI in 2009., Main Outcome Measures: The main outcome measure was an invasive procedure in the same knee that underwent an MRI. Medical charts were reviewed up to 2014 for patient characteristics, MRI indication, ordering physician specialty, radiography before MRI, MRI findings, and clinical procedures resulting from the MRI., Results: The patients' mean (SD) age was 60.6 (7.5) years. The main MRI indications were meniscopathy (148 [68.8%]) and chronic pain (92 [42.8%]). The main MRI findings were osteoarthritis (OA) (185 [86.0%]) and meniscal lesions (170 [79.1%]). Only 82 (38.1%) patients had a plain radiograph in the 24 months preceding the MRI, usually without a standing anteroposterior view. Findings on pre-MRI radiography (n = 201) demonstrated OA in 144 (71.6%) patients. Overall, 87 (40.5%) patients were seen by an orthopedic surgeon and 27 (31.0%) of these patients underwent an invasive intervention. Among the 81 patients with moderate to severe OA on MRI, 36 (44.4%) had radiographic evidence of moderate to severe OA and only 3 (3.7%) underwent arthroscopic meniscectomy., Conclusion: Our study reproduces the known association between OA and degenerative meniscal changes in older patients. We have found a surprising underuse of the standing anteroposterior view on radiography. Most patients in our cohort could have been appropriately diagnosed and treated based on such radiographic information, as demonstrated by pre-MRI findings, thus avoiding the MRI and subsequent evaluation by an orthopedic surgeon. Meniscectomy was rarely performed, particularly in patients with advanced OA. Educational and pragmatic measures must be emphasized to encourage the use of radiography and to limit the inappropriate use of MRI, a costly technique., (Copyright© the College of Family Physicians of Canada.)

Published
2018

43. How low can you go? An adaptive energetic framework for interpreting basal metabolic rate variation in endotherms.

Author

Swanson DL, McKechnie AE, and Vézina F

Subjects
Adaptation, Physiological, Animals, Humans, Selection, Genetic, Basal Metabolism
Abstract

Adaptive explanations for both high and low body mass-independent basal metabolic rate (BMR) in endotherms are pervasive in evolutionary physiology, but arguments implying a direct adaptive benefit of high BMR are troublesome from an energetic standpoint. Here, we argue that conclusions about the adaptive benefit of BMR need to be interpreted, first and foremost, in terms of energetics, with particular attention to physiological traits on which natural selection is directly acting. We further argue from an energetic perspective that selection should always act to reduce BMR (i.e., maintenance costs) to the lowest level possible under prevailing environmental or ecological demands, so that high BMR per se is not directly adaptive. We emphasize the argument that high BMR arises as a correlated response to direct selection on other physiological traits associated with high ecological or environmental costs, such as daily energy expenditure (DEE) or capacities for activity or thermogenesis. High BMR thus represents elevated maintenance costs required to support energetically demanding lifestyles, including living in harsh environments. BMR is generally low under conditions of relaxed selection on energy demands for high metabolic capacities (e.g., thermoregulation, activity) or conditions promoting energy conservation. Under these conditions, we argue that selection can act directly to reduce BMR. We contend that, as a general rule, BMR should always be as low as environmental or ecological conditions permit, allowing energy to be allocated for other functions. Studies addressing relative reaction norms and response times to fluctuating environmental or ecological demands for BMR, DEE, and metabolic capacities and the fitness consequences of variation in BMR and other metabolic traits are needed to better delineate organismal metabolic responses to environmental or ecological selective forces.

Published
2017
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44. Body temperature responses to handling stress in wintering Black-capped Chickadees (Poecile atricapillus L.).

Author

Lewden A, Nord A, Petit M, and Vézina F

Subjects
Animals, Environment, Female, Hypothermia etiology, Hypothermia physiopathology, Male, Seasons, Sex Characteristics, Body Temperature physiology, Cold Temperature, Handling, Psychological, Songbirds physiology, Stress, Psychological physiopathology
Abstract

Body temperature variation in response to acute stress is typically characterized by peripheral vasoconstriction and a concomitant increase in core body temperature (stress-induced hyperthermia). It is poorly understood how this response differs between species and within individuals of the same species, and how it is affected by the environment. We therefore investigated stress-induced body temperature changes in a non-model species, the Black-capped Chickadee, in two environmental conditions: outdoors in low ambient temperature (mean: -6.6°C), and indoors, in milder ambient temperature close to thermoneutrality (mean: 18.7°C). Our results show that the change in body temperature in response to the same handling stressor differs in these conditions. In cold environments, we noted a significant decrease in core body temperature (-2.9°C), whereas the response in mild indoor conditions was weak and non-significant (-0.6°C). Heat loss in outdoor birds was exacerbated when birds were handled for longer time. This may highlight the role of behavioral thermoregulation and heat substitution from activity to body temperature maintenance in harsh condition. Importantly, our work also indicates that changes in the physical properties of the bird during handling (conductive cooling from cold hands, decreased insulation from compression of plumage and prevention of ptiloerection) may have large consequences for thermoregulation. This might explain why females, the smaller sex, lost more heat than males in the experiment. Because physiological and physical changes during handling may carry over to affect predation risk and maintenance of energy balance during short winter days, we advice caution when designing experimental protocols entailing prolonged handling of small birds in cold conditions., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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45. The performing animal: causes and consequences of body remodeling and metabolic adjustments in red knots facing contrasting thermal environments.

Author

Vézina F, Gerson AR, Guglielmo CG, and Piersma T

Subjects
Animals, Energy Metabolism physiology, Birds physiology, Body Composition physiology, Muscle, Skeletal physiology, Thermogenesis physiology, Thermotolerance physiology, Viscera physiology
Abstract

Using red knots ( Calidris canutus ) as a model, we determined how changes in mass and metabolic activity of organs relate to temperature-induced variation in metabolic performance. In cold-acclimated birds, we expected large muscles and heart as well as improved oxidative capacity and lipid transport, and we predicted that this would explain variation in maximal thermogenic capacity (M sum ). We also expected larger digestive and excretory organs in these same birds and predicted that this would explain most of the variation in basal metabolic rate (BMR). Knots kept at 5°C were 20% heavier and maintained 1.5 times more body fat than individuals kept in thermoneutral conditions (25°C). The birds in the cold also had a BMR up to 32% higher and a M sum 16% higher than birds at 25°C. Organs were larger in the cold, with muscles and heart being 9-20% heavier and digestive and excretory organs being 21-36% larger than at thermoneutrality. Rather than the predicted digestive and excretory organs, the cold-induced increase in BMR correlated with changes in mass of the heart, pectoralis, and carcass. M sum varied positively with the mass of the pectoralis, supracoracoideus, and heart, highlighting the importance of muscles and cardiac function in cold endurance. Cold-acclimated knots also expressed upregulated capacity for lipid transport across mitochondrial membranes [carnitine palmitoyl transferase (CPT)] in their pectoralis and leg muscles, higher lipid catabolism capacity in their pectoralis muscles [β-hydroxyacyl CoA-dehydrogenase (HOAD)], and elevated oxidative capacity in their liver and kidney (citrate synthase). These adjustments may have contributed to BMR through changes in metabolic intensity. Positive relationships among M sum , CPT, and HOAD in the heart also suggest indirect constraints on thermogenic capacity through limited cardiac capacity., (Copyright © 2017 the American Physiological Society.)

Published
2017
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47. Increasing Winter Maximal Metabolic Rate Improves Intrawinter Survival in Small Birds.

Author

Petit M, Clavijo-Baquet S, and Vézina F

Subjects
Animals, Survival Analysis, Adaptation, Physiological physiology, Body Weight physiology, Energy Metabolism physiology, Passeriformes physiology, Seasons
Abstract

Small resident bird species living at northern latitudes increase their metabolism in winter, and this is widely assumed to improve their chances of survival. However, the relationship between winter metabolic performance and survival has yet to be demonstrated. Using capture-mark-recapture, we followed a population of free-living black-capped chickadees (Poecile atricapillus) over 3 yr and evaluated their survival probability within and among winters. We also measured the size-independent body mass (M s ), hematocrit (Hct), basal metabolic rate (BMR), and maximal thermogenic capacity (Msum) and investigated how these parameters influenced survival within and among winters. Results showed that survival probability was high and constant both within (0.92) and among (0.96) winters. They also showed that while M s , Hct, and BMR had no significant influence, survival was positively related to Msum-following a sigmoid relationship-within but not among winter. Birds expressing an Msum below 1.26 W (i.e., similar to summer levels) had a <50% chance of survival, while birds with an Msum above 1.35 W had at least a 90% chance of surviving through the winter. Our data therefore suggest that black-capped chickadees that are either too slow or unable to adjust their phenotype from summer to winter have little chances of survival and thus that seasonal upregulation of metabolic performance is highly beneficial. This study is the first to document in an avian system the relationship between thermogenic capacity and winter survival, a proxy of fitness.

Published
2017
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48. Uncoupling Basal and Summit Metabolic Rates in White-Throated Sparrows: Digestive Demand Drives Maintenance Costs, but Changes in Muscle Mass Are Not Needed to Improve Thermogenic Capacity.

Author

Barceló G, Love OP, and Vézina F

Subjects
Acclimatization physiology, Animals, Body Weight, Cold Temperature, Eating, Gizzard, Avian anatomy & histology, Intestines anatomy & histology, Liver anatomy & histology, Organ Size, Basal Metabolism physiology, Body Temperature Regulation physiology, Digestion physiology, Muscle, Skeletal physiology, Sparrows physiology
Abstract

Avian basal metabolic rate (BMR) and summit metabolic rate (M sum ) vary in parallel during cold acclimation and acclimatization, which implies a functional link between these variables. However, evidence suggests that these parameters may reflect different physiological systems acting independently. We tested this hypothesis in white-throated sparrows (Zonotrichia albicollis) acclimated to two temperatures (-8° and 28°C) and two diets (0% and 30% cellulose). We expected to find an uncoupling of M sum and BMR where M sum , a measure of maximal shivering heat production, would reflect muscle and heart mass variation and would respond only to temperature, while BMR would reflect changes in digestive and excretory organs in response to daily food intake, responding to both temperature and diet. We found that the gizzard, liver, kidneys, and intestines responded to treatments through a positive relationship with food intake. BMR was 15% higher in cold-acclimated birds and, as expected, varied with food intake and the mass of digestive and excretory organs. In contrast, although M sum was 19% higher in cold-acclimated birds, only heart mass responded to temperature (+18% in the cold). Pectoral muscles did not change in mass with temperature but were 8.2% lighter on the cellulose diet. Nevertheless, M sum varied positively with the mass of heart and skeletal muscles but only in cold-acclimated birds. Our results therefore suggest that an upregulation of muscle metabolic intensity is required for cold acclimation. This study increases support for the hypothesis that BMR and M sum reflect different physiological systems responding in parallel to constraints associated with cold environments.

Published
2017
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50. Basal and maximal metabolic rates differ in their response to rapid temperature change among avian species.

Author

Dubois K, Hallot F, and Vézina F

Subjects
Adipose Tissue physiology, Animals, Body Weight, Eating, Molting, Muscle, Skeletal physiology, Passeriformes metabolism, Quebec, Species Specificity, Temperature, Thermogenesis physiology, Acclimatization physiology, Basal Metabolism physiology, Passeriformes physiology
Abstract

In birds, acclimation and acclimatization to temperature are associated with changes in basal (BMR), summit (Msum) and maximal (MMR) metabolic rates but little is known about the rate at which species adjust their phenotype to short-term temperature variations. Our aims were (1) to determine the pattern of metabolic adjustments following a rapid temperature change, (2) to determine whether performance varies at similar rates during exposure to warm or cold environments, and (3) to determine if BMR, Msum and MMR change at comparable rates during thermal acclimation. We measured these parameters in white-throated sparrows (Zonotrichia albicollis), black-capped chickadees (Poecile atricapillus), and snow buntings (Plectrophenax nivalis) after acclimation to 10 °C (day 0) and on the 4th and 8th days of acclimation to either -5 or 28 °C. Birds changed their metabolic phenotype within 8 days with patterns differing among species. Sparrows expressed the expected metabolic increases in the cold and decreases at thermoneutrality while performance in chickadees and buntings was not influenced by temperature but changed over time with inverse patterns. Our results suggest that BMR varies at comparable rates in warm and cold environments but changes faster than Msum and MMR, likely due to limitations in the rate of change in organ size and function. They also suggest that maximal metabolic capacity is lost faster in a warm environment than it is gained in a cold environment. With the expected increase in temperature stochasticity at northern latitudes, a loss of thermogenic capacity during warm winter days could, therefore, be detrimental if birds are slow to readjust their phenotype with the return of cold days.

Published
2016
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