Your search keyword '"Love, Oliver P."' showing total 7 results

1. Snow Buntings Sing Individually Distinctive Songs and Show Inter-annual Variation in Song Structure

Author

Baldo, Sarah, Mennill, Daniel J., Guindre-Parker, Sarah, Gilchrist, H. Grant, and Love, Oliver P.

Published

2014

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

Author

O'Connor, Ryan S., Le Pogam, Audrey, Young, Kevin G., Love, Oliver P., Cox, Christopher J., Roy, Gabrielle, Robitaille, Francis, Elliott, Kyle H., Hargreaves, Anna L., Choy, Emily S., Gilchrist, H. Grant, Berteaux, Dominique, Tam, Andrew, and Vézina, François

Subjects

BIRD breeding, BASAL metabolism, SOLAR radiation

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. [ABSTRACT FROM AUTHOR]

Published

2022

3. No common pesticides detected in snow buntings utilizing a farmland landscape in eastern Québec.

Author

Ruhs, Emily Cornelius, Love, Oliver P., Drainville, Louis, and Vézina, François

Abstract

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Published

2021

4. Limited heat tolerance in an Arctic passerine: Thermoregulatory implications for cold‐specialized birds in a rapidly warming world.

Author

O'Connor, Ryan S., Le Pogam, Audrey, Young, Kevin G., Robitaille, Francis, Choy, Emily S., Love, Oliver P., Elliott, Kyle H., Hargreaves, Anna L., Berteaux, Dominique, Tam, Andrew, and Vézina, François

Subjects

EVAPORATIVE power, HEAT losses, EVAPORATIVE cooling, HEAT, ATMOSPHERIC temperature, PASSERIFORMES, CALANUS

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 (Ta) 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 Ta and measured body temperature (Tb), 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) Tb of 41.3 ± 0.2°C at thermoneutral Ta and increased Tb to a maximum of 43.5 ± 0.3°C. Buntings started panting at Ta of 33.2 ± 1.7°C, with rapid increases in EWL starting at Ta = 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 Ta, 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. [ABSTRACT FROM AUTHOR]

Published

2021

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

Author

Le Pogam, Audrey, Love, Oliver P., Régimbald, Lyette, Dubois, Karine, Hallot, Fanny, Milbergue, Myriam, Petit, Magali, O'Connor, Ryan S., and Vézina, François

Subjects

*SEASONAL temperature variations, *COLD adaptation, *MAINTENANCE costs, *HUMAN body composition, *BASAL metabolism, *THERMAL tolerance (Physiology), *SNOW, *PECTORALIS muscle

Abstract

Resident 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. [ABSTRACT FROM AUTHOR]

Published

2020

6. Multiple achromatic plumage ornaments signal to multiple receivers.

Author

Guindre-Parker, Sarah, Gilchrist, H. Grant, Baldo, Sarah, Doucet, Stephanie M., and Love, Oliver P.

Subjects

SNOW bunting, COLOR of birds, ANIMAL coloration, BIRD behavior, PASSERIFORMES, BIRD reproduction, REPRODUCTIVE allocation

Abstract

We investigated whether achromatic plumage traits can act as multiple ornaments in an Arctic-breeding passerine, the snow bunting (Plectrophenax nivalis). Specifically, we examine whether multiple ornaments are providing multiple differing messages, are redundant, are unreliable signals of male quality, or are aimed at different receivers. We measured plumage reflectance and pigmentation patterns made conspicuous during male inter- and intrasexual displays that advertise different plumage regions. Our results indicate that although several aspects of male plumage may have redundant messages, different body regions appear aimed at different receivers. The wings of males—displayed primarily toward females during courtship—appear to indicate a pair’s future reproductive performance. Conversely, melanin-based plumage reflectance displayed during intrasexual threat displays provides information on territory features and a male’s capacity to defend it (i.e., territory size, territory quality, testosterone levels). Taken together, we suggest that snow buntings have multiple ornaments that provide information of differential importance in inter- versus intrasexual communication. This study demonstrates that achromatic plumage traits can serve in complex communication. [ABSTRACT FROM AUTHOR]

Published

2013

7. Flexible response to short‐term weather in a cold‐adapted songbird.

Author

Laplante, Marie‐Pier, McKinnon, Emily A., Love, Oliver P., and Vézina, François

Subjects

SONGBIRDS, SNOW bunting, BIOENERGETICS, ACCLIMATIZATION, BIRD behavior

Abstract

To improve survival during winter, temperate species use a variety of behavioural and physiological adaptations. Among songbirds, the maintenance of lipid reserves is a widely‐used strategy to cope with the severity of winter; however, little is known regarding how multiple synchronously acting environmental mechanisms work together to drive these effects. In a context where temperate winter conditions are becoming more variable, it is important to widen our understanding regarding the flexible adaptations that may allow wintering species to adjust to projected climate change. Using a long‐term dataset collected across multiple wintering populations (7 years; 8 locations), we analyzed the effects of daily variation in weather (e.g. temperature, snowfall) on the variation in energy reserves (i.e. fat stores) of wintering snow buntings Plectrophenax nivalis. Our results support the prediction that birds carry more reserves to increase the safety margin against starvation when conditions are energy‐demanding and access to food is unpredictable (i.e. colder, snowier conditions). Birds responded to daily changes in weather by increasing their reserves as conditions deteriorated, with maximal temperatures and snow depth being the most important predictors of fattening decisions. We also found that females consistently exhibited higher fat reserves than males relative to their body size, suggesting that differential physiological adaptations among sexes or social dominance may play an additional role in explaining variation in energy reserves across individuals in this species. Overall, our findings increase knowledge on phenotypic adjustments used by species wintering in temperate zones to match variation in their environment. [ABSTRACT FROM AUTHOR]

Published

2019