| 1. |
- Bengtsson, Daniel, et al.
(författare)
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Movements, Home-Range Size and Habitat Selection of Mallards during Autumn Migration
- 2014
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Ingår i: PLOS ONE. - : Public Library of Science (PLoS). - 1932-6203. ; 9:6
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Tidskriftsartikel (refereegranskat)abstract
- The mallard (Anas platyrhynchos) is a focal species in game management, epidemiology and ornithology, but comparably little research has focused on the ecology of the migration seasons. We studied habitat use, time-budgets, home-range sizes, habitat selection, and movements based on spatial data collected with GPS devices attached to wild mallards trapped at an autumn stopover site in the Northwest European flyway. Sixteen individuals (13 males, 3 females) were followed for 15-38 days in October to December 2010. Forty-nine percent (SD = 8.4%) of the ducks' total time, and 85% of the day-time (SD = 28.3%), was spent at sheltered reefs and bays on the coast. Two ducks used ponds, rather than coast, as day-roosts instead. Mallards spent most of the night (76% of total time, SD = 15.8%) on wetlands, mainly on alvar steppe, or in various flooded areas (e.g. coastal meadows). Crop fields with maize were also selectively utilized. Movements between roosting and foraging areas mainly took place at dawn and dusk, and the home-ranges observed in our study are among the largest ever documented for mallards (mean = 6,859 ha; SD = 5,872 ha). This study provides insights into relatively unknown aspects of mallard ecology. The fact that autumn-staging migratory mallards have a well-developed diel activity pattern tightly linked to the use of specific habitats has implications for wetland management, hunting and conservation, as well as for the epidemiology of diseases shared between wildlife and domestic animals.
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| 2. |
- Evens, Ruben, et al.
(författare)
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Lunar synchronization of daily activity patterns in a crepuscular avian insectivore
- 2020
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Ingår i: Ecology and Evolution. - : Wiley. - 2045-7758. ; 10:14, s. 7106-7116
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Tidskriftsartikel (refereegranskat)abstract
- Biological rhythms of nearly all animals on earth are synchronized with natural light and are aligned to day-and-night transitions. Here, we test the hypothesis that the lunar cycle affects the nocturnal flight activity of European Nightjars (Caprimulgus europaeus). We describe daily activity patterns of individuals from three different countries across a wide geographic area, during two discrete periods in the annual cycle. Although the sample size for two of our study sites is small, the results are clear in that on average individual flight activity was strongly correlated with both local variation in day length and with the lunar cycle. We highlight the species’ sensitivity to changes in ambient light and its flexibility to respond to such changes in different parts of the world.
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| 3. |
- Hedenström, Anders, et al.
(författare)
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Annual 10-Month Aerial Life Phase in the Common Swift Apus apus
- 2016
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Ingår i: Current Biology. - : Elsevier BV. - 0960-9822. ; 26:22, s. 3066-3070
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Tidskriftsartikel (refereegranskat)abstract
- The common swift (Apus apus) is adapted to an aerial lifestyle, where food and nest material are captured in the air. Observations have prompted scientists to hypothesize that swifts stay airborne for their entire non-breeding period [1, 2], including migration into sub-Saharan Africa [3–5]. It is mainly juvenile common swifts that occasionally roost in trees or buildings before autumn migration when weather is bad [1, 6]. In contrast, the North American chimney swift (Chaetura pelagica) and Vaux's swift (C. vauxi) regularly settle to roost in places like chimneys and buildings during migration and winter [7, 8]. Observations of common swifts during the winter months are scarce, and roost sites have never been found in sub-Saharan Africa. In the breeding season, non-breeding individuals usually spend the night airborne [9], whereas adult nesting birds roost in the nest [1]. We equipped common swifts with a micro data logger with an accelerometer to record flight activity (years 1–2) and with a light-level sensor for geolocation (year 2). Our data show that swifts are airborne for >99% of the time during their 10-month non-breeding period; some individuals never settled, but occasional events of flight inactivity occurred in most individuals. Apparent flight activity was lower during the daytime than during the nighttime, most likely due to prolonged gliding episodes during the daytime when soaring in thermals. Our data also revealed that twilight ascents, previously observed during the summer [10], occur throughout the year. The results have important implications for understanding physiological adaptations to endure prolonged periods of flight, including the need to sleep while airborne.
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| 4. |
- Hedenström, Anders, et al.
(författare)
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Flight activity in pallid swifts Apus pallidus during the non-breeding period
- 2019
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Ingår i: Journal of Avian Biology. - : Wiley. - 0908-8857. ; 50:2
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Tidskriftsartikel (refereegranskat)abstract
- Flight activity recorders have recently confirmed that alpine and common swifts spend the majority of their non-breeding period on the wing, which may last 6–10 months. Here we test the hypothesis that the closely related pallid swift, a species with a breeding distribution around the Mediterranean, lead a similar aerial life-style during its migration and wintering periods. The pallid swift usually lays two clutches in one season and therefore spends more time in the breeding area than the common swift. We successfully tracked four pallid swifts with data loggers that record light for geolocation and acceleration every 5 min to monitor flight activity. The birds wintered south of the Sahel in west Africa from the Ivory Coast to Cameroon. The pallid swifts spent the majority of their non-breeding time in flight, especially the first two months after leaving the breeding area in autumn, while a few landing events occurred during the winter. The total time grounded was < 1%, similar to that of the common and alpine swifts. The mass specific flight metabolic rate of swifts is similar to the average non-breeding metabolic rate of a long distance terrestrial migrant, suggesting swifts are not more likely to procure oxidative damage as a consequence of continuous flight than other migrants. The open airspace used by swifts may provide a relatively safe habitat that explain the high survival rate found in swifts.
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| 5. |
- Hedenström, Anders, et al.
(författare)
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Moonlight drives nocturnal vertical flight dynamics in black swifts
- 2022
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Ingår i: Current biology : CB. - : Elsevier BV. - 1879-0445 .- 0960-9822. ; 32:8, s. 1875-1881
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Tidskriftsartikel (refereegranskat)abstract
- Many animals have evolved a migratory lifestyle as an adaptation to seasonality,1,2 ranging from insects3 to fish,4 terrestrial and marine mammals,5-7 and birds.8 Old World swifts have evolved an extraordinary aerial non-breeding life phase lasting for 6-10 months.9-11 Swifts exploit the aerosphere in search of insects to meet the high energy demands of flight.12 During this period they roost and likely also sleep in the open airspace. Nocturnal insectivores with restricted foraging time may use moonlight to increase energy intake.13 Using multisensor data loggers that record light for geolocation, acceleration for flight activity, and pressure for flight altitude, we investigated if Northern black swifts, Cypseloides niger borealis, breeding in North America, also lead an aerial lifestyle similar to their Old World relatives. Individual flight activity showed they are airborne >99% of the time, with only occasional landings during their 8-month non-breeding period. Unexpectedly, during periods around the full moon, they conducted regular nocturnal ascents to altitudes up to >4,000 m (mean 2,000 m). A lunar eclipse triggered a synchronized descent, showing a direct effect of moonlight on flight altitude. This previously unknown behavior of nocturnal ascents during moonlight nights could be either a response to predator avoidance or that moonlight provides a foraging opportunity. Observed elevated nocturnal flight activity during periods of moonlight compared to dark nights suggests swifts were hawking for prey. Our finding of this novel behavior provides new perspectives on nocturnal flight behavior during periods surrounding the full moon.
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| 6. |
- Lindström, Åke; Andersson, Arne; Norevik, Gabriel; Waldenström, Jonas,
(författare)
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Fågelräkning och ringmräkning vid Ottenby 2007
- 2008
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Rapport (övrigt vetenskapligt/konstnärligt)abstract
- Vid Ottenby Fågelstation på Ölands södra udde räknas de förbiflyttande fågel-populationernas storlek genom att fångst bedrivs på ett mellan åren jämförbart sätt. Totalt fångades 23 555 fåglar i den standardiserade fångsten år 2007. Den standardiserade vårfångsten hamnade över, medan både höstfångsten och sommarens vadarmärkning hamnade under de långsiktiga medelvärdena. Vårfångsten var med sina 6769 märkta 26 % högre än genomsnittet för den period fångsten varit standardiserad, 1979-2006. Proportionellt flest fångades det av hussvala (+104 %), rödhake (+85 %), kungsfågel (+80 %), gransångare (+74 %), törnsångare (+71 %) och gärdsmyg (+60 %). För följande vanligare arter blev vårsiffrorna mer än 50 % under genomsnittet: blåhake (-94 %), näktergal (-79 %), bofink (-61 %), sv-v flugsnappare (-58 %) och talgoxe (-56 %). Höstfångsten i trädgården gav 11 823 fåglar, vilket är 25 % över genomsnittet för 1972-2001. Följande vanligare arter fångades med mer än 50 % över genomsnittet: blåmes (+389 %), gransångare (+293 %), sparvhök (+167 %), järnsparv (162 %), gärdsmyg (+141 %), domherre (+114 %), trädgårdssångare (+76 %), härmsångare (+65 %), sävsångare (+64 %), svartvit flugsnappare (+67 %) och grönsiska (+50 %). Andra arter hade låga fångstsiffror, speciellt dålig (>50 % under genomsnittet) var fångsten av blåhake (-86 %), stenskvätta (-79 %), gulärla (-66 %) och grönfink (-61 %). I vadarfångsten fångades hela 4963 vadare av 20 arter, vilket är 46 % över genomsnittet. Det var ett bra vadarår med andra ord. Speciellt goda var siffrorna för enkelbeckasin (+380 %), roskarl (+215 %), större strandpipare (+111 %), spovsnäppa (+58 %) och kärrsnäppa (+56 %). Goda siffror för några ovanligare arter var strandskata 3, sandlöpare 7 och myrsnäppa 27. Trots den generellt goda vadarsäsongen var siffrorna låga för småsnäppa (-84 %) och grönbena (-56 %). Långsiktiga trender. Generellt är vår- och hösttrenderna desamma för de arter som fångas vid Ottenby, vilket indikerar att det är samma populationer som studeras vår och höst, samt att metoden ger tillförlitliga resultat. För flera arter visar Ottenbys fångstsiffror långsiktiga populationsminskningar. Vissa har negativa trender för de senaste 20 åren medan andra har minskat under 50-60 år. Speciellt tydliga minskningar står att finna hos brushane, småsnäppa, nattskärra, göktyta, gulärla, stenskvätta, törnskata och ortolansparv. Trenderna är långsiktigt oroväckande även för större strandpipare, kustsnäppa, sandlöpare, mosnäppa, roskarl, trädpiplärka, blåhake, rödstjärt, buskskvätta, höksångare, mindre flugsnappare, svartvit flugsnappare, varfågel, rosenfink och gulsparv. En viss sentida ljusning står dock möjligen att finna hos nattskärra, kärrsångare och gulsparv. De långsiktiga vinnarna bland de arter som passerar Ottenby är gärdsmyg, ärtsångare, gransångare och blåmes.
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| 7. |
- Norevik, Gabriel, et al.
(författare)
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Extremely low daylight sea-crossing flights of a nocturnal migrant
- 2023
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Ingår i: PNAS Nexus. - 2752-6542. ; 2:7
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Tidskriftsartikel (refereegranskat)abstract
- Understanding the trade-off between energy expenditure of carrying large fuel loads and the risk of fuel depletion is imperative to understand the evolution of flight strategies during long-distance animal migration. Global flyways regularly involve sea crossings that may impose flight prolongations on migrating land-birds and thereby reduce their energy reserves and survival prospects. We studied route choice, flight behavior, and fuel store dynamics of nocturnally migrating European nightjars (Caprimulgus europaeus) crossing water barriers. We show that barrier size and groundspeed of the birds influence the prospects of extended daylight flights, but also that waters possible to cross within a night regularly result in diurnal flight events. The nightjars systematically responded to daylight flights by descending to about a wingspan's altitude above the sea surface while switching to an energy-efficient flap-glide flight style. By operating within the surface-air boundary layer, the nightjars could fly in ground effect, exploit local updraft and pressure variations, and thereby substantially reduce flight costs as indicated by their increased proportion of cheap glides. We propose that surface-skimming flights, as illustrated in the nightjar, provide an energy-efficient transport mode and that this novel finding asks for a reconsideration of our understanding of flight strategies when land-birds migrate across seas.
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| 8. |
- Norevik, Gabriel, et al.
(författare)
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Flight altitude dynamics of migrating European nightjars across regions and seasons
- 2021
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Ingår i: Journal of Experimental Biology. - : The Company of Biologists. - 0022-0949 .- 1477-9145. ; 224:20, s. 1-1
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Tidskriftsartikel (refereegranskat)abstract
- Avian migrants may fly at a range of altitudes, but usually concentrate near strata where a combination of flight conditions is favourable. The aerial environment can have a large impact on the performance of the migrant and is usually highly dynamic, making it beneficial for a bird to regularly check the flight conditions at alternative altitudes. We recorded the migrations between northern Europe and sub-Saharan Africa of European nightjars Caprimulgus europaeus to explore their altitudinal space use during spring and autumn flights and to test whether their climbs and descents were performed according to predictions from flight mechanical theory. Spring migration across all regions was associated with more exploratory vertical flights involving major climbs, a higher degree of vertical displacement within flights, and less time spent in level flight, although flight altitude per se was only higher during the Sahara crossing. The nightjars commonly operated at ascent rates below the theoretical maximum, and periods of descent were commonly undertaken by active flight, and rarely by gliding flight, which has been assumed to be a cheaper locomotion mode during descents. The surprisingly frequent shifts in flight altitude further suggest that nightjars can perform vertical displacements at a relatively low cost, which is expected if the birds can allocate potential energy gained during climbs to thrust forward movement during descents. The results should inspire future studies on the potential costs associated with frequent altitude changes and their trade-offs against anticipated flight condition improvements for aerial migrants.
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| 9. |
- Norevik, Gabriel, et al.
(författare)
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Highly mobile insectivorous swifts perform multiple intra-tropical migrations to exploit an asynchronous African phenology
- 2019
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Ingår i: Oikos. - : Wiley. - 0030-1299 .- 1600-0706. ; 128:5, s. 640-648
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Tidskriftsartikel (refereegranskat)abstract
- With timely allocated movement phases, mobile organisms can match their space-use with the seasonality of the environment and thereby optimise their resource utilisation over time. Long-distance avian migrants are known to move with the seasonal dynamics on an annual basis, but how individuals respond to seasonality within their tropical non-breeding range has been less studied. Here we analyse the movement pattern of a highly mobile aerial insectivorous bird, the pallid swift Apus pallidus, and its association with the local habitat phenology during the non-breeding period, using individual-based light-level geolocation. We extracted timing and location of 21 birds’ residence periods, as well as characteristics of the intervening movements, such as distance and speed. We used time series of precipitation and vegetation data for each residence area to extract the timing of the local end of the rainy season and the onset of the dry season. The pallid swifts repeatedly upgraded their habitat by undertaking 2–5 intra-tropical migrations correlated with the withdrawal of the rains and the onset of the local dry season. The birds arrived to the sites on average 12 days after rains ended and departed about two weeks after the onset of dry season suggesting that the birds closely tracked a spatiotemporal window presumably timed with optimal foraging conditions. Our results provide insights in the ways Palaearctic–African migrants respond to the asynchronous phenology within their sub-Saharan non-breeding range. We confirmed that pallid swifts actively respond to deteriorating conditions by repeated upgrades in habitat quality, which likely have substantial consequences for an individual's access to an essential, spatiotemporally ephemeral food resource. However, the pallid swifts did not surf an apparent resource wave per se as would be expected in a highly mobile species, indicating that also other factors, such as spatial patchiness of resources, may influence the movement decision.
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| 10. |
- Norevik, Gabriel, et al.
(författare)
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Migration strategies and annual space-use in an Afro-Palaearctic aerial insectivore - the European nightjar Caprimulgus europaeus
- 2017
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Ingår i: Journal of Avian Biology. - : Wiley. - 0908-8857. ; 48:5, s. 738-747
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Tidskriftsartikel (refereegranskat)abstract
- Obligate insectivorous birds breeding in high latitudes travel thousands of kilometres during annual movements to track the local seasonal peaks of food abundance in a continuously fluctuating resource landscape. Avian migrants use an array of strategies when conducting these movements depending on e.g. morphology, life history traits and environmental factors encountered en route. Here we used geolocators to derive data on the annual space-use, temporal pattern and migratory strategies in an Afro-Palaearctic aerial insectivorous bird species - the European nightjar Caprimulgus europaeus. More specifically, we aimed to test a set of hypothesises pertaining to the migration of a population of nightjars breeding in south-eastern Sweden. We found that the birds wintered across the central and western parts of the southern tropical Africa almost entirely outside the currently described wintering range of the species. The nightjars performed a narrow loop migration across Sahara, with spring Sahel stopovers significantly to the west of autumn stops indicative to an adaptive response to winds during migration. To our surprise, the migration speed was faster in the autumn (119 km d- 1) than in the spring (99 km d- 1), possibly due to the prevailing wind regimes over the Sahara. The estimated flight fraction in both autumn (14%) and spring (12%) was almost exactly as the theoretically predicted 1:7 time relationship between flights and stopovers for small birds. The temporal patterns within the annual cycle indicate that individuals follow alternative spatiotemporal schedules that converge towards the breeding season. The positive relationship between the spatially and temporally distant winter departure and breeding arrival suggests that individualś temporal fine-tuning to breeding may be constrained, leading to potential negative fitness consequences. Journal of Avian Biology
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| 11. |
- Norevik, Gabriel
(författare)
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Movement ecology of aerial insectivorous birds : Individual-based studies on swifts and nightjars
- 2018. - 1
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Many birds are predisposed to annually undertake movements over large temporal and spatial scales. They have an efficient flight machinery, demonstrate impressive capacities in storing and burning fuel, and they exhibit necessary orientation and navigational skills. Avian migrants are still limited in the amount of time and energy they can allocate towards their movements and need to balance migration-related costs against expenditures associated with reproduction and maintenance. Different specialisations towards a migratory life will likely evolve depending on the ecology of the bird. My work aimed to investigate the ecology of large-scale movements of three species of aerial insectivorous birds by using miniaturised technology to record individual birds´ position and activity during the non-breeding season. The common swift Apus apus and the pallid swift A. pallidus, are two highly aerial species that through their morphological and behavioural modifications are predisposed to a life in the air. Both species were documented to be air-borne throughout the non-breeding season which in the common swift results in a continuous flight for about ten months. Spending this time ranging over the African continent where large-scale weather systems generate an asynchronous seasonal landscape the swifts could potentially continuously track spatiotemporal variations in resources. However, the birds prioritised longer periods of residency briefly interrupted by shorter movement phases indicating that resource patchiness and local knowledge may be important determinants of the swifts´ movement patterns.The crepuscular and nocturnal European nightjar Caprimulgus europaeus showed in contrast to the swifts a very limited activity pattern. It is a visual hunter that mainly forages during dusk and dawn, although on moonlit nights this temporal constraint is reduced. Throughout the non-breeding season I found a clear periodic pattern in both migratory flights and foraging activities suggesting that the European nightjar may strive to increase the migration speed by allocating the fuelling towards moonlit nights. Influenced by wind conditions en route, the tracked birds undertook loop-migrations where the spring routes were consistently west of autumn routes. The detoured routes were at least in spring beneficial for a migrant striving to reduce the amount of energy and time spent on migration due to an associated reduction in barrier crossing. This optimal detour varied with breeding longitude and resulted in a spatial linkage between the breeding site and the stopover locations associated with the barrier crossing. This indicates that any spatial variations in this important part of the annual cycle may influence population trends differently across the breeding population. Technical advances and miniaturisations of data-recording devices have enabled individual-based studies on more and more species and will likely reveal predicted as well as completely surprising examples of bird migrations in many years to come. In this thesis I have explored some of the large-scale movement patterns observed in a group of aerial insectivorous birds. Some of the results and conclusions reveal peculiarities of this specific group of birds while other findings, such as the selection of migratory routes, should be of a more general interest in the field of bird migration.
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| 12. |
- Norevik, Gabriel, et al.
(författare)
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The lunar cycle drives migration of a nocturnal bird
- 2019
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Ingår i: PLoS Biology. - : Public Library of Science (PLoS). - 1545-7885. ; 17:10, s. 3000456-3000456
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Tidskriftsartikel (refereegranskat)abstract
- Every year, billions of seasonal migrants connect continents by transporting nutrients, energy, and pathogens between distant communities and ecosystems. For animals that power their movements by endogenous energy stores, the daily energy intake rates strongly influence the speed of migration. If access to food resources varies cyclically over the season, migrants sensitive to changes in daily energy intake rates may adjust timing of migration accordingly. As an effect, individuals adjusting to a common temporal cycle are expected to approach synchrony in foraging and movement. A large-scale periodic pattern, such as the dark-light cycle of the moon, could thus synchronize migrations across animal populations. However, such cyclic effects on the temporal regulation of migration has not been considered. Here, we show the temporal influence of the lunar cycle on the movement activity and migration tactics in a visual hunting nocturnal insectivore and long-distance migrant, the European nightjar, Caprimulgus europeaus. We found that the daily foraging activity more than doubled during moonlit nights, likely driven by an increase in light-dependent fuelling opportunities. This resulted in a clear cyclicity also in the intensity of migratory movements, with occasionally up to 100% of the birds migrating simultaneously following periods of full moon. We conclude that cyclic influences on migrants can act as an important regulator of the progression of individuals and synchronize pulses of migratory populations, with possible downstream effects on associated communities and ecosystems.
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| 13. |
- Norevik, Gabriel, et al.
(författare)
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Wind-associated detours promote seasonal migratory connectivity in a flapping flying long-distance avian migrant
- 2020
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Ingår i: Journal of Animal Ecology. - : Wiley. - 0021-8790 .- 1365-2656. ; 89:2, s. 635-646
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Tidskriftsartikel (refereegranskat)abstract
- It is essential to gain knowledge about the causes and extent of migratory connectivity between stationary periods of migrants to further the understanding of processes affecting populations, and to allow efficient implementation of conservation efforts throughout the annual cycle. Avian migrants likely use optimal routes with respect to mode of locomotion, orientation and migration strategy, influenced by external factors such as wind and topography. In self-powered flapping flying birds, any increases in fuel loads are associated with added flight costs. Energy-minimizing migrants are therefore predicted to trade-off extended detours against reduced travel across ecological barriers with no or limited foraging opportunities. Here, we quantify the extent of detours taken by different populations of European nightjars Caprimulgus europaeus, to test our predictions that they used routes beneficial according to energetic principles and evaluate the effect of route shape on seasonal migratory connectivity. We combined data on birds tracked from breeding sites along a longitudinal gradient from England to Sweden. We analysed the migratory connectivity between breeding and main non-breeding sites, and en route stopover sites just south of the Sahara desert. We quantified each track's route extension relative to the direct route between breeding and wintering sites, respectively, and contrasted it to the potential detour derived from the barrier reduction along the track while accounting for potential wind effects. Nightjars extended their tracks from the direct route between breeding and main non-breeding sites as they crossed the Mediterranean Sea–Sahara desert, the major ecological barrier in the Palaearctic–African migration system. These clockwise detours were small for birds from eastern sites but increased from east to west breeding longitude. Routes of the tracked birds were associated with partial reduction in the barrier crossing resulting in a trade-off between route extension and barrier reduction, as expected in an energy-minimizing migrant. This study demonstrates how the costs of barrier crossings in prevailing winds can disrupt migratory routes towards slightly different goals, and thereby promote migratory connectivity. This is an important link between individual migration strategies in association with an ecological barrier, and both spatially and demographic population patterns.
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| 14. |
- Åkesson, Susanne, et al.
(författare)
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Evolution of chain migration in an aerial insectivorous bird, the common swift Apus apus
- 2020
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Ingår i: Evolution. - : Wiley. - 0014-3820 .- 1558-5646. ; 74:10, s. 2377-2391
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Tidskriftsartikel (refereegranskat)abstract
- Spectacular long-distance migration has evolved repeatedly in animals enabling exploration of resources separated in time and space. In birds, these patterns are largely driven by seasonality, cost of migration, and asymmetries in competition leading most often to leapfrog migration, where northern breeding populations winter furthest to the south. Here, we show that the highly aerial common swift Apus apus, spending the nonbreeding period on the wing, instead exhibits a rarely found chain migration pattern, where the most southern breeding populations in Europe migrate to wintering areas furthest to the south in Africa, whereas the northern populations winter to the north. The swifts concentrated in three major areas in sub-Saharan Africa during the nonbreeding period, with substantial overlap of nearby breeding populations. We found that the southern breeding swifts were larger, raised more young, and arrived to the wintering areas with higher seasonal variation in greenness (Normalized Difference Vegetation Index) earlier than the northern breeding swifts. This unusual chain migration pattern in common swifts is largely driven by differential annual timing and we suggest it evolves by prior occupancy and dominance by size in the breeding quarters and by prior occupancy combined with diffuse competition in the winter.
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