For migratory species, acquisition and allocation of energy after arrival on the breeding grounds largely determine reproductive decisions. Few studies have investigated underlying physiological mechanisms driving variation in breeding phenology so far. We linked physiological state to individual timing of breeding in pre-laying arctic-nesting female peregrine falcons (Falco peregrinus tundrius). We captured females from two populations 2-20 days before egg-laying to assess plasma concentration of β-hydroxybutyric acid (BUTY) and triglyceride (TRIG), two metabolites known to reflect short-term changes in fasting and fattening rate, respectively. We also assessed baseline corticosterone (CORTb), a hormone that mediates energy allocation, and the scaled mass index (SMI) as an indicator of somatic body reserves. Plasma BUTY was slightly higher during the pre-recruiting period compared to the period of rapid follicular growth, indicating a reduction in catabolism of lipid reserves before investment in follicle development. Conversely, TRIG levels increased in pre-recruiting females, and best-predicted individual variation in pre-laying interval and lay date. A marked increase in CORTb occurred concomitantly with the onset of rapid follicle growth. SMI was highly variable possibly reflecting variation in food availability or individuals at different stages. Results suggest that (1) lower rates of pre-laying fattening and/or lower mobilization rate of lipoproteins to ovarian follicles delayed laying, and (2) an elevation in pre-laying CORTb may result from, or be required to compensate for, the energetic costs of egg production. Results of this study illustrate how variation in the allocation of energy before laying can influence individual fitness-related reproductive decisions.
Indirect impacts of climate change, mediated by new species interactions (including pathogens or parasites) will likely be key drivers of biodiversity reorganization. In addition, direct effects of extreme weather events remain understudied. Simultaneous investigation of the significance of ectoparasites on host populations and extreme weather events is lacking, especially in the Arctic. Here we document the consequences of recent black fly outbreaks and extreme precipitation events on the reproductive output of an arctic top predator, the peregrine falcon (Falco peregrinus tundrius) nesting at the northern range limit of ornithophilic black flies in Nunavut, Canada. Overall, black fly outbreaks and heavy rain reduced annual nestling survival by up to 30% and 50% respectively. High mortality caused by ectoparasites followed record-breaking spring snow precipitation, which likely increased stream discharge and nutrient runoff, two key parameters involved in growth and survival of black fly larvae. Using the RCP4.5 intermediate climate scenario run under the Canadian Global Climate Model, we anticipate a northward expansion of black fly distribution in Arctic regions. Our case study demonstrates that, in the context of climate change, extreme weather events can have substantial direct and indirect effects on reproductive output of an arctic top-predator population.
ABSTRACT. This note describes nestling mortality in Arctic Peregrine Falcons (Falco peregrinus tundrius) due to the biting effects of blood-feeding black flies (Diptera: Simuliidae). At a nest site near Rankin Inlet, Nunavut, Canada (62˚49′ N, 92˚05′ W), a brood of four nestlings died on 20 July 2013 from the direct effects of severe bites attributed to black flies. Within three hours of the onset of blood-feeding, black flies had caused widespread, uniformly distributed hemorrhagic coalescent lesions over the head and body of all nestlings. Approximately seven hours after the first flies appeared, the female falcon removed the carcasses of the dead nestlings from the nest. Nestlings at eight additional sites also suffered the effects of biting black flies in 2013, resulting in the deaths of 13 of 35 nestlings. A less pronounced outbreak also occurred in 2012 and resulted in the deaths of seven nestlings at four sites. No nestling mortality due to black flies has been documented in any other year from 1982 through 2015. To our knowledge, these observations document the northernmost lethal attack by ornithophilic black flies in North America.Key words: Arctic; avian; climate change; black fly; mortality; Peregrine Falcon; Simuliidae RÉSUMÉ. Cet article décrit des événements de mortalité d'oisillons chez le faucon pèlerin (Falco peregrinus tundrius) causés par des morsures de mouches noires hématophages (Diptera : Simuliidae). À un site de nidification près de Rankin Inlet, Nunavut, Canada (62˚49′ N, 92˚05′ O), les quatre oisillons d'une couvée sont morts le 20 juillet 2013 des effets directs de morsures sévères attribuables aux mouches noires. Dans les trois heures suivant le début de l'activité des hématophages, les mouches noires avaient causé des lésions hémorragiques et coalescentes uniformément distribuées sur la tête et le corps des oisillons. Environ sept heures après l'apparition des premières mouches, la femelle a retiré les carcasses des oisillons morts du nid. Des oisillons à huit autres sites de nidification ont également subi les effets des mouches noires hématophages en 2013, entraînant la mortalité de 13 oisillons sur un total de 35. Une émergence moins prononcée s'est aussi produite en 2012 et a causé la mort de sept oisillons à quatre sites de nidification. Aucune mortalité d'oisillons causée par les mouches noires n'a été documentée de 1982 à 2015. À notre connaissance, ces observations documentent les attaques létales par les mouches noires ornithophiles les plus nordiques en Amérique du Nord.
Découvrir la revue Citer cet article Jaffré, M., Franke, A., Anctil, A., Galipeau, P., Hedlin, E., Lamarre, V., L'Hérault, V., Nikolaiczuk, L., Peck, K., Robinson, B. & Bêty, J. (2015). Écologie de la reproduction du faucon pèlerin au Nunavut. Le Naturaliste canadien, 139(1), 54-64. doi:10.7202/1027671ar Résumé de l'article Le déclin historique du faucon pèlerin (Falco peregrinus) observé en Amérique du Nord au milieu du xxe siècle a été principalement attribué à l'échec de reproduction causé par les polluants organochlorés persistants. C'est dans ce contexte que le Arctic Raptor Project a été initié, en 1982, dans le but d'étudier la reproduction de faucons pèlerins F.p. tundrius nichant dans l'Arctique. Nous présentons ici une synthèse des principaux travaux conduits dans le cadre de ce programme de recherche réalisé essentiellement dans la région de Rankin Inlet, mais aussi plus récemment près d'Igloolik et sur l'île de Baffin au Nunavut. Des résultats portant sur le régime alimentaire, la phénologie de la reproduction, la croissance et la survie des jeunes, ainsi que sur la dynamique de population sont présentés. Le suivi à long terme dans la région de Rankin Inlet a permis de mettre en lumière, entre autres, une baisse du nombre de jeunes au cours des 3 dernières décennies. Des épisodes de fortes précipitations estivales, plus fréquents dans l'aire d'étude ces dernières années, semblent en partie responsables de ces diminutions. En outre, l'étude des rapaces nichant dans l'Arctique est cruciale pour comprendre les conséquences sur la dynamique des populations, notamment des changements climatiques, de l'environnement (p. ex. diminution des polluants organochlorés) et de la structure et du fonctionnement de l'écosystème arctique. AbstractThe historical decline of the peregrine falcon (Falco peregrinus) in North America during the 20t h century was mainly attributed to reproductive failure due to the accumulation of persistent organochloride pollutants. As a direct result to this finding, the Arctic Raptor Project was established in 1982, and its goal was to monitor the breeding success of Arcticnesting peregrine falcons (F.p. tundrius). The present article provides a synopsis of the major findings of its research, which was principally conducted around Rankin Inlet (Nunavut), but also, more recently, around Igloolik and on Baffin Island (Nunavut). The results cover raptor feeding regimes, reproductive phenology, growth and survival of young, and population dynamics. The long-term Rankin Inlet study has identified, among other things, a decrease in the number of young fledged over the past 3 decades. Episodes of heavy summer rain, which have occurred more frequently in recent years, appear, in part, to be responsible for this decline in reproductive output. The continued study of Arctic-nesting raptors is crucial to our understanding of population dynamics, including how these are affected by changes in climate and in the environment (e.g., reductions in organochloride pollutant levels), and on the stru...
SummaryRenewable energy helps meet the growing energetic demand while reducing greenhouse gas emissions. Despite its environmental benefits, production of wind energy can adversely affect wildlife populations, including birds. In some species, indirect impacts such as habitat loss and disturbance may be more important than fatalities caused by collisions with turbines. Bicknell’s Thrush Catharus bicknelli, one of the most endangered bird species in North America, may be threatened by wind energy production because it breeds at high elevation sites, which are often prized for their wind potential. Our study had two objectives: we first aimed to document the impacts of the construction and operation of a wind energy facility without mitigation strategy on the occurrence of the Bicknell’s Thrush. At a second facility, we then tested the effectiveness of turbine micro-siting as an effective mitigation strategy to reduce the impacts of wind-energy development on the species. We conducted avian point-counts at 143 locations spread across both facilities in Quebec (Canada) at different periods: before, during and after construction. We modelled the probability of occurrence of the species at point-counts as a function of period, forest loss caused by wind energy development, distance to the nearest turbine and habitat suitability. At the facility without mitigation, we found that the probability of occurrence decreased during construction and early operation at high elevation sites, where most of the turbines were erected. However, the Bicknell’s Thrush recolonized high elevation sites eight years post-construction. In addition, we did not detect a significant impact of wind energy production on the species’ occurrence at the facility where micro-siting was applied. We conclude that habitat loss and disturbance during construction are the main impacts of wind energy production on the Bicknell’s Thrush and that micro-siting appears to be a promising mitigation strategy.
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