Exploring Overlap of Feather Molting and Migration in Tundra Swans Using δ2H Analysis

AbstractDetermining the processes that shape the relative timing of energetically-costly events in the annual cycle of migrating birds is important to our understanding of avian phenology and ecology. We paired satellite tracking and hydrogen stable isotope analysis (δ2H) to examine the relative timing of two such events – migration and feather molting – in tundra swans from four breeding areas in Alaska, USA. Our results show a trend of increasing intra-individual variability in breast feather δ2H values with increasing migration distance, suggesting the overlap of breast feather molting and migration. However, when individual samples were pooled by breeding area, the δ2H values of breast and head feathers showed no trend with migration distance, presumably resulting from high levels of inter-individual variability in δ2H values within each breeding area. We explore potential reasons for this variability, propose potential mechanisms influencing feather δ2H values of tundra swans, and recommend further research into methods for exploring the temporal configuration of events in the annual cycle of migrating birds.

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Sex, age, molt strategy, and migration distance explain the phenology of songbirds at a stopover along the East Asian flyway

Behavioral Ecology and Sociobiology ◽

10.1007/s00265-020-02957-3 ◽

2021 ◽

Vol 75 (1) ◽

Author(s):

Jonas Wobker ◽

Wieland Heim ◽

Heiko Schmaljohann

Keyword(s):

East Asian ◽

Russian Far East ◽

First Year ◽

Large Set ◽

Differential Migration ◽

Breeding Area ◽

Migration Distance ◽

Stopover Site ◽

Evolutionary Response ◽

Migrant Birds

Abstract Sex- and age-specific differences in the timing of migration are widespread among animals. In birds, common patterns are protandry, the earlier arrival of males in spring, and age-differential migration during autumn. However, knowledge of these differences stems mainly from the Palearctic-African and Nearctic-Neotropical flyways, while detailed information about the phenology of migrant birds from the East Asian flyway is far scarcer. To help fill parts of this gap, we analyzed how migration distance, sex, age, and molt strategy affect the spring and autumn phenologies of 36 migrant songbirds (altogether 18,427 individuals) at a stopover site in the Russian Far East. Sex-differential migration was more pronounced in spring than in autumn, with half of the studied species (6 out of 12) showing a protandrous migration pattern. Age-differences in migration were rare in spring but found in nearly half of the studied species (11 out of 25) in autumn. These age effects were associated with the birds’ molt strategy and the mean latitudinal distances from the assumed breeding area to the study site. Adults performing a complete molt before the onset of autumn migration passed the study site later than first-year birds undergoing only a partial molt. This pattern, however, reversed with increasing migration distance to the study site. These sex-, age-, and molt-specific migration patterns agree with those found along other flyways and seem to be common features of land bird migration strategies. Significance statement The timing of animal migration is shaped by the availability of resources and the organization of annual cycles. In migrant birds, sex- and age-differential migration is a common phenomenon. For the rarely studied East Asian flyway, we show for the first time and based on a large set of migrant songbirds that earlier migration of males is a common pattern there in spring. Further, the timing and extent of molt explained age-differential migration during autumn. Adults molting their complete plumage at the breeding area before migration showed delayed phenology in comparison to first-year birds, which perform only a partial molt. This pattern, however, reversed with increasing migration distance to the study site. Since our results agree with the general patterns from the other migration flyways, similar drivers for differential migration may act across different flyway systems, provoking a similar evolutionary response.

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Sex and age-specific differences in wing pointedness and wing length in blackcaps Sylvia atricapilla migrating through the southern Baltic coast

Current Zoology ◽

10.1093/cz/zoaa065 ◽

2020 ◽

Author(s):

Agnieszka Ożarowska ◽

Grzegorz Zaniewicz ◽

Włodzimierz Meissner

Keyword(s):

Wing Length ◽

Sub Saharan Africa ◽

Migration Route ◽

Sylvia Atricapilla ◽

Climatic Effects ◽

Migration Distance ◽

Baltic Coast ◽

Southern Baltic ◽

Sub Saharan ◽

Migrating Birds

Abstract The blackcap Sylvia atricapilla shows a complex migratory pattern and is a suitable species for the studies of morphological migratory syndrome, including adaptations of wing shape to different migratory performance. Obligate migrants of this species that breed in northern, central, and Eastern Europe differ by migration distance and some cover shorter distance to the wintering grounds in the southern part of Europe/North Africa or the British Isles, although others migrate to sub-Saharan Africa. Based on ˃40 years of ringing data on blackcaps captured during autumn migration in the Southern Baltic region, we studied age- and sex-related correlations in wing pointedness and wing length of obligate blackcap migrants to understand the differences in migratory behavior of this species. Even though the recoveries of blackcaps were scarce, we reported some evidence that individuals which differ in migration distance differed also in wing length. We found that wing pointedness significantly increased with an increasing wing length of migrating birds, and adults had longer and more pointed wings than juvenile birds. This indicates stronger antipredator adaptation in juvenile blackcaps than selection on flight efficiency, which is particularly important during migration. Moreover, we documented more pronounced differences in wing length between adult and juvenile males and females. Such differences in wing length may enhance a faster speed of adult male blackcaps along the spring migration route and may be adaptive when taking into account climatic effects, which favor earlier arrival from migration to the breeding grounds.

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Autumn movements of fin whales (Balaenoptera physalus) from Svalbard, Norway, revealed by satellite tracking

Scientific Reports ◽

10.1038/s41598-020-73996-z ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Christian Lydersen ◽

Jade Vacquié-Garcia ◽

Mads Peter Heide-Jørgensen ◽

Nils Øien ◽

Christophe Guinet ◽

...

Keyword(s):

Satellite Tracking ◽

The Other ◽

Life History Strategies ◽

High Latitudes ◽

Breeding Area ◽

Balaenoptera Physalus ◽

Westerly Direction ◽

Satellite Transmitters ◽

Fin Whales ◽

Insight Into

Abstract Insight into animal movements is essential for understanding habitat use by individuals as well as population processes and species life-history strategies. In this study, we instrumented 25 fin whales with ARGOS satellite-transmitters in Svalbard, Norway, to study their movement patterns and behaviour (Area Restricted Search (ARS), transiting or unknown) during boreal autumn/early winter. Ten of the whales stayed in the tagging area (most northerly location: 81.68°N) for their entire tracking periods (max 45 days). The other 15 whales moved in a south-westerly direction; the longest track ended off the coast of northern Africa (> 5000 km from the tagging location) after 96 days. The whales engaged in ARS behaviour intermittently throughout their southward migrations. During transit phases the whales moved quickly; one individual maintained an average horizontal speed of 9.3 km/h (travelling 223 km per day) for a period of a week. This study documents that: (1) some fin whales might remain at high latitudes during winter; (2) the whales that do migrate probably feed along the way; (3) they can maintain high transiting speed for long periods and; (4) one breeding area for this species is likely located in deep, warm water some 100 km west of Morocco.

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Influence of electric field intensity, ionic strength, and migration distance on the mobility and diffusion in DNA surface electrophoresis

Electrophoresis ◽

10.1002/elps.200500444 ◽

2006 ◽

Vol 27 (7) ◽

pp. 1312-1321 ◽

Cited By ~ 12

Author(s):

Bingquan Li ◽

Xiaohua Fang ◽

Haobin Luo ◽

Eric Petersen ◽

Young-Soo Seo ◽

...

Keyword(s):

Ionic Strength ◽

Electric Field ◽

Field Intensity ◽

Electric Field Intensity ◽

Migration Distance ◽

And Migration ◽

And Diffusion

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Microhabitat use and migration distance of an endangered grassland amphibian

Biological Conservation ◽

10.1016/j.biocon.2012.08.033 ◽

2013 ◽

Vol 158 ◽

pp. 80-87 ◽

Cited By ~ 17

Author(s):

Christopher A. Searcy ◽

Emilio Gabbai-Saldate ◽

H. Bradley Shaffer

Keyword(s):

Microhabitat Use ◽

Migration Distance ◽

And Migration

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Groping in the fog: soaring migrants exhibit wider scatter and do not properly adjust their flight in response to wind under low visibility conditions

10.1101/2021.07.22.453357 ◽

2021 ◽

Author(s):

Paolo Becciu ◽

Michele Panuccio ◽

Giacomo Dell'Omo ◽

Nir Sapir

Keyword(s):

Flight Speed ◽

Migration Route ◽

Atmospheric Conditions ◽

Flight Behaviour ◽

Cost Of Transport ◽

Migration Direction ◽

Low Visibility ◽

And Migration ◽

Migrating Birds ◽

Behaviour Changes

Atmospheric conditions are known to affect flight propensity, behaviour during flight, and migration route in birds. Yet, the effects of fog have only been rarely studied, although they could disrupt orientation and hamper the accomplishment of the journey. Soaring migrants modulate their flight speed and direction in relation to the wind vector to optimize the cost of transport. Fog could limit the visibility of migrating birds such that they might not be able to detect landmarks that guide them during their journey. Consequently, landmark-based orientation, as well as adjustments of flight speed and direction in relation to wind conditions, could be jeopardized when flying in fog. Using a radar system that operated in a migration bottleneck (Strait of Messina, Italy), we studied the behaviour of soaring birds under variable wind and fog conditions over two consecutive springs (2016 and 2017), discovering that migrating birds exhibited a wider scatter of flight directions and responded differently to wind conditions under fog conditions. Birds flying through fog deviated more from the mean migration direction and increased their speed with increasing crosswinds. In addition, airspeed and groundspeed increased in the direction of the crosswind, causing a lateral drift of the individuals. Furthermore, the response to tailwind was opposite to that predicted by optimal migration theory. Our findings represent the first quantitative empirical evidence of flight behaviour changes when birds migrate through fog and explain why low visibility conditions could risk their migration journey.

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The Contribution of Stable Isotope Analysis to the Study of Childhood Movement and Migration

10.1093/oxfordhb/9780199670697.013.27 ◽

2018 ◽

Cited By ~ 1

Author(s):

Katie A. Hemer ◽

Jane A. Evans

Keyword(s):

Stable Isotope ◽

Stable Isotope Analysis ◽

Tooth Enamel ◽

Isotope Analysis ◽

Early Years ◽

Human Tooth ◽

Population Mobility ◽

Single Tooth ◽

Non Local ◽

And Migration

Stable isotope analysis is firmly established as a method for the investigation of past population mobility. The distinction between local and non-local individuals within a cemetery population relies on identifying an individual’s place of childhood residence through the analysis of strontium and oxygen isotopes present in human tooth enamel. Traditionally, studies investigating mobility focus on the analysis of a single tooth. More recently, however, it has become apparent that in order to investigate the mobility of an individual during childhood—and thus to consider the importance of children in the migration process—it is necessary to analyse a series of teeth which form at different stages during the early years of life. This chapter will consider the potential of—and challenges surrounding—this scientific approach to the investigation of childhood mobility in the past.

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How hazardous is the Sahara Desert crossing for migratory birds? Indications from satellite tracking of raptors

Biology Letters ◽

10.1098/rsbl.2009.0785 ◽

2009 ◽

Vol 6 (3) ◽

pp. 297-300 ◽

Cited By ~ 81

Author(s):

Roine Strandberg ◽

Raymond H. G. Klaassen ◽

Mikael Hake ◽

Thomas Alerstam

Keyword(s):

Migratory Birds ◽

Satellite Telemetry ◽

Satellite Tracking ◽

Sahara Desert ◽

Annual Cycles ◽

Marsh Harrier ◽

Circus Aeruginosus ◽

Course Changes ◽

Carry Over ◽

Migrating Birds

We investigated the risk associated with crossing the Sahara Desert for migrating birds by evaluating more than 90 journeys across this desert by four species of raptors (osprey Pandion haliaetus , honey buzzard Pernis apivorus , marsh harrier Circus aeruginosus and Eurasian hobby Falco subbuteo ) recorded by satellite telemetry. Forty per cent of the crossings included events of aberrant behaviours, such as abrupt course changes, slow travel speeds, interruptions, aborted crossings followed by retreats from the desert and failed crossings due to death, indicating difficulties for the migrants. The mortality during the Sahara crossing was 31 per cent per crossing attempt for juveniles (first autumn migration), compared with only 2 per cent for adults (autumn and spring combined). Mortality associated with the Sahara passage made up a substantial fraction (up to about half for juveniles) of the total annual mortality, demonstrating that this passage has a profound influence on survival and fitness of migrants. Aberrant behaviours resulted in late arrival at the breeding grounds and an increased probability of breeding failure (carry-over effects). This study also demonstrates that satellite tracking can be a powerful method to reveal when and where birds are exposed to enhanced risk and mortality during their annual cycles.

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Climate change relaxes the time constraints for late-born offspring in a long-distance migrant

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2016.1366 ◽

2016 ◽

Vol 283 (1839) ◽

pp. 20161366 ◽

Cited By ~ 14

Author(s):

Barbara M. Tomotani ◽

Phillip Gienapp ◽

Domien G. M. Beersma ◽

Marcel E. Visser

Keyword(s):

Climate Change ◽

Annual Cycle ◽

Migratory Birds ◽

Climate Change Impacts ◽

Egg Laying ◽

Time Constraints ◽

Long Distance ◽

Hatch Date ◽

Breeding Bird ◽

And Migration

Animals in seasonal environments need to fit their annual-cycle stages, such as moult and migration, in a tight schedule. Climate change affects the phenology of organisms and causes advancements in timing of these annual-cycle stages but not necessarily at the same rates. For migratory birds, this can lead to more severe or more relaxed time constraints in the time from fledging to migration, depending on the relative shifts of the different stages. We tested how a shift in hatch date, which has advanced due to climate change, impacts the organization of the birds' whole annual cycle. We experimentally advanced and delayed the hatch date of pied flycatcher chicks in the field and then measured the timing of their annual-cycle stages in a controlled laboratory environment. Hatch date affected the timing of moult and pre-migratory fattening, but not migration. Early-born birds hence had a longer time to fatten up than late-born ones; the latter reduced their interval between onset of fattening and migration to be able to migrate at the same time as the early-born birds. This difference in time constraints for early- and late-born individuals may explain why early-born offspring have a higher probability to recruit as a breeding bird. Climate change-associated advancements of avian egg-lay dates, which in turn advances hatch dates, can thus reduce the negative fitness consequences of reproducing late, thereby reducing the selection for early egg-laying migratory birds.

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