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Brown, J. M., Bouten, W., Camphuysen, K. C. J., Nolet, B. A., & Shamoun-Baranes, J. (2023). Energetic and behavioral consequences of migration: an empirical evaluation in the context of the full annual cycle. Scientific Reports, 13(1), [1210]. https://doi.org/10.1038/s41598-023-28198-8
Brown, J. M., Bouten, W., Camphuysen, K. C. J., Nolet, B. A. & Shamoun-Baranes, J. (18-1-2023). Data and Code archive for 'Energetic and behavioral consequences of migration: An empirical evaluation in the context of the full annual cycle'. Universiteit van Amsterdam. https://doi.org/10.21942/uva.21583926.v3
Madsen, J., Schreven, K. H. T., Jensen, G. H., Johnson, F. A., Nilsson, L., Nolet, B. A., & Pessa, J. (2023). Rapid formation of new migration route and breeding area by Arctic geese. Current Biology, 33(6), 1162-1170.e4. https://doi.org/10.1016/j.cub.2023.01.065
Moonen, S., Ludwig, J., Kruckenberg, H., Müskens, G. J. D. M., Nolet, B. A., van der Jeugd, H. P., & Bairlein, F. (2023). Sharing habitat: Effects of migratory barnacle geese density on meadow breeding waders. Journal for Nature Conservation, 72, [126355]. https://doi.org/10.1016/j.jnc.2023.126355
2022
Boom, M. P., van der Jeugd, H. P., Steffani, B., Nolet, B. A., Larsson, K., & Eichhorn, G. (2022). Postnatal growth rate varies with latitude in range-expanding geese: The role of plasticity and day length. Journal of Animal Ecology, 91(2), 417-427. https://doi.org/10.1111/1365-2656.13638[details]
Brown, J. M., Bouten, W., Camphuysen, K. C. J., Nolet, B. A., & Shamoun-Baranes, J. (2022). Acceleration as a proxy for energy expenditure in a facultative-soaring bird: Comparing dynamic body acceleration and time-energy budgets to heart rate. Functional Ecology, 36(7), 1627-1638. https://doi.org/10.1111/1365-2435.14055[details]
Brown, J., Bouten, W., Camphuysen, K. C. J., Nolet, B. & Shamoun-Baranes, J. Z. (2022). Data Archive for "Acceleration as a proxy for energy expenditure in a facultative-soaring bird: comparing dynamic body acceleration and time-energy budgets to heart rate". Zenodo. https://doi.org/10.5281/zenodo.6424631
Buitendijk, N. H., de Jager, M., Hornman, M., Kruckenberg, H., Kölzsch, A., Moonen, S., & Nolet, B. A. (2022). More grazing, more damage? Assessed yield loss on agricultural grassland relates nonlinearly to goose grazing pressure. Journal of Applied Ecology, 59(12), 2878-2889. https://doi.org/10.1111/1365-2664.14306[details]
Geisler, J., Madsen, J., Nolet, B. A., & Schreven, K. H. T. (2022). Sea crossings of migratory pink-footed geese: seasonal effects of winds on flying and stopping behaviour. Journal of Avian Biology, 2022(10), [e02985]. https://doi.org/10.1111/jav.02985[details]
Koelzsch, A., Lameris, T. K., Muskens, G. J. D. M., Schreven, K. H. T., Buitendijk, N. H., Kruckenberg, H., Moonen, S., Heinicke, T., Cao, L., Madsen, J., Wikelski, M., & Nolet, B. A. (2022). Wild goose chase: Geese flee high and far, and with aftereffects from New Year's fireworks. Conservation Letters. https://doi.org/10.1111/conl.12927
Kölzsch, A., Lameris, T. K., Müskens, G. J. D. M., Schreven, K. H. T., Buitendijk, N. H., Kruckenberg, H., Moonen, S., Heinicke, T., Cao, L., Madsen, J., Wikelski, M. & Nolet, B. A. (2022). Data from: Wild goose chase: geese flee high and far, and with aftereffects from New Year’s fireworks. Movebank Data Repository. https://doi.org/10.5441/001/1.g51fs0jv
Lameris, T. K., Pokrovskaya, O., Kondratyev, A., Anisimov, Y., Buitendijk, N. H., Glazov, P., van der Jeugd, H. P., Kampichler, C., Kruckenberg, H., Litvin, K. E., Loshchagina, J. A., Moonen, S., Müskens, G. J. D. M., Nolet, B. A., Schreven, K. H. T., Sierdsema, H., Zaynagutdinova, E. M., & Boom, M. P. (2022). Barnacle geese Branta leucopsis breeding on Novaya Zemlya: current distribution and population size estimated from tracking data. Polar Biology, (46). https://doi.org/10.1007/s00300-022-03110-8
2021
Lameris, T. K., Dokter, A. M., van der Jeugd, H. P., Bouten, W., Koster, J., Sand, S. H. H., Westerduin, C., & Nolet, B. A. (2021). Nocturnal foraging lifts time-constraints in winter for migratory geese but hardly speeds up fueling. Behavioral Ecology, 32(3), 539–552. https://doi.org/10.1093/beheco/araa152[details]
Lameris, T., Hoekendijk, J., Aarts, G., Aarts, A., Allen, A. M., Bienfait, L., Bijleveld, A. I., Bongers, M. F., Brasseur, S., Chan, Y-C., de Ferrante, F., de Gelder, J., Derksen, H., Dijkgraaf, L., Dijkhuis, L. R., Dijkstra, S., Elbertsen, G., Ernsten, R., Foxen, T., ... van Langevelde, F. (2021). Migratory vertebrates shift migration timing and distributions in a warming Arctic. Animal Migration, 8(1), 110-131. https://doi.org/10.1515/ami-2020-0112[details]
Schreven, K. H. T., Stolz, C., Madsen, J., & Nolet, B. A. (2021). Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking. Animal Biotelemetry, 9, [25]. https://doi.org/10.1186/s40317-021-00249-9[details]
Schreven, K., Stolz, C., Madsen, J. & Nolet, B. (2021). Data for: Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking. DataverseNL. https://doi.org/10.34894/7zxqi6
Stillman, R. A., Rivers, E. M., Gilkerson, W., Wood, K. A., Nolet, B. A., Clausen, P., Wilson, H. M., & Ward, D. H. (2021). Predicting impacts of food competition, climate and disturbance on a long-distance migratory herbivore. Ecosphere, 12(3), [e03405]. https://doi.org/10.1002/ecs2.3405[details]
Wood, K. A., Stillman, R. A., Newth, J. L., Nuijten, R. J. M., Hilton, G. M., Nolet, B. A., & Rees, E. C. (2021). Predicting avian herbivore responses to changing food availability and competition. Ecological Modelling, 441, [109421]. https://doi.org/10.1016/j.ecolmodel.2020.109421[details]
2020
Fokkema, W., van der Jeugd, H. P., Lameris, T. K., Dokter, A. M., Ebbinge, B. S., de Roos, A. M., ... Olff, H. (2020). Ontogenetic niche shifts as a driver of seasonal migration. Oecologia, 193(2), 285-297. https://doi.org/10.1007/s00442-020-04682-0[details]
Nolet, B. A., Schreven, K. H. T., Boom, M. P., & Lameris, T. K. (2020). Contrasting effects of the onset of spring on reproductive success of Arctic-nesting geese. Auk, 137(1), [ukz063]. https://doi.org/10.1093/auk/ukz063[details]
Nuijten, R. J. M., & Nolet, B. A. (2020). Chains as strong as the weakest link: Remote assessment of aquatic resource use on spring migration by Bewick's Swans. Avian Conservation and Ecology, 15(2), [14]. https://doi.org/10.5751/ACE-01682-150214[details]
Nuijten, R. J. M., Gerrits, T., Shamoun-Baranes, J., & Nolet, B. A. (2020). Less is more: On-board lossy compression of accelerometer data increases biologging capacity. Journal of Animal Ecology, 89(1), 237-247. https://doi.org/10.1111/1365-2656.13164[details]
Gerrits, T., Shamoun-Baranes, J., Nuijten, R. J. M. & Nolet, B. (2019). Less is more: on-board lossy compression of accelerometer data increases biologging capacity. DRYAD. https://doi.org/10.5061/dryad.6djh9w0x9
Shamoun-Baranes, J., Gerrits, T., Nuijten, R. J. M. & Nolet, B. (2020). Data from: Less is more: on-board lossy compression of accelerometer data increases biologging capacity. Movebank. https://doi.org/10.5441/001/1.8ms7mm80
Nuijten, R. J. M., Vriend, S. J. G., Wood, K. A., Haitjema, T., Rees, E. C., Jongejans, E., & Nolet, B. A. (2020). Apparent breeding success drives long-term population dynamics of a migratory swan. Journal of Avian Biology, 51(11), [e02574]. https://doi.org/10.1111/jav.02574[details]
Nuijten, R., Vriend, S., Wood, K., Haitjema, T., Rees, E., Jongejans, E. & Nolet, B. (2020). Apparent breeding success drives long-term population dynamics of a migratory swan. DRYAD. https://doi.org/10.5061/dryad.g1jwstqpj
Nuijten, R. J. M., Wood, K. A., Haitjema, T., Rees, E. C., & Nolet, B. A. (2020). Concurrent shifts in wintering distribution and phenology in migratory swans: Individual and generational effects. Global Change Biology, 26(8), 4263-4275. https://doi.org/10.1111/gcb.15151[details]
Nuijten, R., Prins, E. F., Lammers, J., Mager, C., & Nolet, B. A. (2020). Calibrating tri-axial accelerometers for remote behavioural observations in Bewick's swans. Journal of Zoo and Aquarium Research, 8(4), 231-238. https://doi.org/10.19227/jzar.v8i4.522[details]
Eichhorn, G., Enstipp, M. R., Georges, J-Y., Hasselquist, D., & Nolet, B. A. (2019). Resting metabolic rate in migratory and non-migratory geese following range expansion; go south, go low. Oikos, 128(10), 1424-1434. https://doi.org/10.1111/oik.06468[details]
Georges, J.-Y., Hasselquist, D., Enstipp, M. R., Nolet, B. & Eichhorn, G. (2019). Data from: Resting metabolic rate in migratory and non-migratory geese following range expansion; go south, go low. DRYAD. https://doi.org/10.5061/dryad.7kt8114
Kölzsch, A., Müskens, G. J. D. M., Szinai, P., Moonen, S., Glazov, P., Kruckenberg, H., Wikelski, M., & Nolet, B. A. (2019). Flyway connectivity and exchange primarily driven by moult migration in geese. Movement Ecology, 7(3). https://doi.org/10.1186/s40462-019-0148-6[details]
Nolet, B., K?lzsch, A., Szinai, P., Wikelski, M., M?skens, G. J. D. M., Kruckenberg, H., Moonen, S. & Glazov, P. (31-1-2019). Data from: Flyway connectivity and exchange primarily driven by moult migration in geese [North Sea population]. Movebank. https://doi.org/10.5441/001/1.ct72m82n
Glazov, P., Kruckenberg, H., Szinai, P., K?lzsch, A., Nolet, B., Wikelski, M., M?skens, G. J. D. M. & Moonen, S. (31-1-2019). Data from: Flyway connectivity and exchange primarily driven by moult migration in geese [Pannonic population]. Movebank. https://doi.org/10.5441/001/1.46b0mq21
Lameris, T. K., de Jong, M. E., Boom, M. P., van der Jeugd, H. P., Litvin, K. E., Loonen, M. J. J. E., ... Prop, J. (2019). Climate warming may affect the optimal timing of reproduction for migratory geese differently in the low and high Arctic. Oecologia, 191(4), 1003-1014. https://doi.org/10.1007/s00442-019-04533-7[details]
Madsen, J., Jaspers, C., Frikke, J., Gundersen, O. M., Nolet, B. A., Nolet, K., ... De Vries, P. (2019). A gloomy future for light-bellied brent geese in Tusenøyane, Svalbard, under a changing predator regime. Polish Polar Research, 38, [3393]. https://doi.org/10.33265/polar.v38.3393[details]
Bauer, S., Lisovski, S., Eikelenboom-Kil, R. J. F. M., Shariati, M., & Nolet, B. A. (2018). Shooting may aggravate rather than alleviate conflicts between migratory geese and agriculture. Journal of Applied Ecology, 55(6), 2653-2662. https://doi.org/10.1111/1365-2664.13152[details]
Clausen, K. K., Madsen, J., Nolet, B. A., & Haugaard, L. (2018). Maize stubble as foraging habitat to wintering geese and swans in northern Europe. Agriculture, Ecosystems and Environment, 259, 72-76. https://doi.org/10.1016/j.agee.2018.03.002[details]
Dokter, A. M., Fokkema, W., Bekker, S. K., Bouten, W., Ebbinge, B. S., Müskens, G., Olff, H., van der Jeugd, H. P., & Nolet, B. A. (2018). Body stores persist as fitness correlate in a long-distance migrant released from food constraints. Behavioral Ecology, 29(5), 1157-1166. https://doi.org/10.1093/beheco/ary080[details]
Bekker, S. K., Bouten, W., Müskens, G., Olff, H., Nolet, B., Ebbinge, B. S., Fokkema, W., Dokter, A. M. & Van Der Jeugd, H. P. (2018). Data from: Body stores persist as fitness correlate in a long-distance migrant released from food constraints. DRYAD. https://doi.org/10.5061/dryad.6b55m22
Dokter, A. M., Fokkema, W., Ebbinge, B. S., Olff, H., van der Jeugd, H. P., & Nolet, B. A. (2018). Agricultural pastures challenge the attractiveness of natural saltmarsh for a migratory goose. Journal of Applied Ecology, 55(6), 2707-2718. https://doi.org/10.1111/1365-2664.13168[details]
van der Jeugd, H. P., Ebbinge, B. S., Dokter, A. M., Nolet, B., Fokkema, W. & Olff, H. (2019). Data from: Agricultural pastures challenge the attractiveness of natural saltmarsh for a migratory goose. DRYAD. https://doi.org/10.5061/dryad.j8cm402
Kleyheeg, E., Nolet, B. A., Otero-Ojea, S., & Soons, M. B. (2018). A mechanistic assessment of the relationship between gut morphology and endozoochorous seed dispersal by waterfowl. Ecology and Evolution, 8(22), 10857-10867. https://doi.org/10.1002/ece3.4544[details]
Soons, M. B., Kleyheeg, E., Otero-Ojea, S. & Nolet, B. (2019). Data from: A mechanistic assessment of the relationship between gut morphology and endozoochorous seed dispersal by waterfowl. DRYAD. https://doi.org/10.5061/dryad.nt7s243
Lameris, T. K., Müskens, G. J. D. M., Kölzsch, A., Dokter, A. M., Van der Jeugd, H. P., & Nolet, B. A. (2018). Effects of harness-attached tracking devices on survival, migration, and reproduction in three species of migratory waterfowl. Animal Biotelemetry, 6, [7]. https://doi.org/10.1186/s40317-018-0153-3[details]
Lameris, T. K., van der Jeugd, H. P., Eichhorn, G., Dokter, A. M., Bouten, W., Boom, M. P., Litvin, K. E., Ens, B. J., & Nolet, B. A. (2018). Arctic Geese Tune Migration to a Warming Climate but Still Suffer from a Phenological Mismatch. Current Biology, 28(15), 2467-2473. https://doi.org/10.1016/j.cub.2018.05.077[details]
Ens, B. J., van der Jeugd, H. P., Eichhorn, G., Bouten, W., Lameris, T. K., Litvin, K. E., Dokter, A. M., Nolet, B. & Boom, M. P. (2018). Data from: Arctic geese tune migration to a warming climate but still suffer from a phenological mismatch. Mendeley Data. https://doi.org/10.17632/wkv96vcvnj.1
Lisovski, S., van Dijk, J. G. B., Klinkenberg, D., Nolet, B. A., Fouchier, R. A. M., & Klaassen, M. (2018). The roles of migratory and resident birds in local avian influenza infection dynamics. Journal of Applied Ecology, 55(6), 2963-2975. https://doi.org/10.5281/zenodo.1203837[details]
Wood, K. A., Nuijten, R. J. M., Newth, J. L., Haitjema, T., Vangeluwe, D., Ionnidis, P., Harrison, A. L., Mackenzie, C., Hilton, G. M., Nolet, B. A., & Rees, E. C. (2018). Apparent survival of an Arctic-breeding migratory bird over 44 years of fluctuating population size. Ibis, 160(2), 413-430. https://doi.org/10.1111/ibi.12521[details]
2017
Baveco, J. M., Bergjord, A-K., Bjerke, J. W., Chudzińska, M. E., Pellissier, L., Simonsen, C. E., ... Nolet, B. A. (2017). Combining modelling tools to evaluate a goose management scheme. Ambio, 46(Supplement 2), 210-223. https://doi.org/10.1007/s13280-017-0899-5[details]
Dokter, A. M., van Loon, E. E., Fokkema, W., Lameris, T. K., Nolet, B. A., & van der Jeugd, H. P. (2017). Analyzing time-ordered event data with missed observations. Ecology and Evolution, 7(18), 7362-7369. https://doi.org/10.1002/ece3.3281[details]
Kleyheeg, E., Treep, J., de Jager, M., Nolet, B. A., & Soons, M. B. (2017). Seed dispersal distributions resulting from landscape-dependent daily movement behavior of a key vector species, Anas platyrhynchos. Journal of Ecology, 105(5), 1279-1289. https://doi.org/10.1111/1365-2745.12738[details]
Kleyheeg, E., van Dijk, J. G. B., Tsopoglou-Gkina, D., Woud, T. Y., Boonstra, D. K., Nolet, B. A., & Soons, M. B. (2017). Movement patterns of a keystone waterbird species are highly predictable from landscape configuration. Movement Ecology, 5, [2]. https://doi.org/10.1186/s40462-016-0092-7[details]
Kleyheeg, E., Boonstra, D. K., Woud, T. Y., Nolet, B., de Jager, M., van Dijk, J. G. B., Treep, J., Tsopoglou-Gkina, D. & Soons, M. B. (1-1-2017). Data from: Movement patterns of a keystone waterbird species are highly predictable from landscape configuration. Movebank. https://doi.org/10.5441/001/1.p9c4nc97
Lameris, T. K., Jochems, F., van der Graaf, A. J., Andersson, M., Limpens, J., & Nolet, B. A. (2017). Forage plants of an Arctic-nesting herbivore show larger warming response in breeding than wintering grounds, potentially disrupting migration phenology. Ecology and Evolution, 7(8), 2652-2660. https://doi.org/10.1002/ece3.2859[details]
Lameris, T. K., Scholten, I., Bauer, S., Cobben, M. M. P., Ens, B. J., & Nolet, B. A. (2017). Potential for an Arctic-breeding migratory bird to adjust spring migration phenology to Arctic amplification. Global Change Biology, 23(10), 4058-4067. https://doi.org/10.1111/gcb.13684[details]
Chudzińska, M. E., Nabe-Nielsen, J., Nolet, B. A., & Madsen, J. (2016). Foraging behaviour and fuel accumulation of capital breeders during spring migration as derived from a combination of satellite- and ground-based observations. Journal of Avian Biology, 47(4), 563-574. https://doi.org/10.1111/jav.00899[details]
Chudzi?ska, M. E., Madsen, J., Nabe-Nielsen, J. & Nolet, B. (1-1-2016). Data from: Foraging behaviour and fuel accumulation of capital breeders during spring migration as derived from a combination of satellite- and ground-based observations. Movebank. https://doi.org/10.5441/001/1.s9s86319
Fokkema, W., de Boer, W., van der Jeugd, H. P., Nolet, B. A., Dokter, A. M., de Kok, L., ... Olff, H. (2016). The nature of plant adaptations to salinity stress has trophic consequences. Oikos, 125(6), 804-811.
Kölzsch, A., Müskens, G. J. D. M., Kruckenberg, H., Glazov, P., Weinzierl, R., Nolet, B. A., & Wikelski, M. (2016). Towards a new understanding of migration timing: slower spring than autumn migration in geese reflects different decision rules for stopover use and departure. Oikos, 125(10), 1496-1507. https://doi.org/10.5441/001/1.31c2v92f[details]
Kölzsch, A., Neefjes, M., Barkway, J., Müskens, G. J. D. M., van Langevelde, F., De Boer, W. F., Prins, H. H. T., Cresswell, B. H., & Nolet, B. A. (2016). Neckband or backpack? Differences in tag design and their effects on GPS/accelerometer tracking results in large waterbirds. Animal Biotelemetry, 4, [13]. https://doi.org/10.1186/s40317-016-0104-9[details]
Nolet, B. A., Gyimesi, A., van Krimpen, R. R. D., de Boer, W. F., & Stillman, R. A. (2016). Predicting effects of water regime changes on waterbirds: insights from staging swans. PLoS ONE, 11(2), [e0147340]. https://doi.org/10.5061/dryad.76r58[details]
De Boer, W. F., Van Krimpen, R. R. D., Stillman, R. A., Gyimesi, A. & Nolet, B. (2017). Data from: Predicting effects of water regime changes on waterbirds: insights from staging swans. DRYAD. https://doi.org/10.5061/dryad.76r58
Nolet, B. A., Kölzsch, A., Elderenbosch, M., & van Noordwijk, A. J. (2016). Scaring waterfowl as a management tool: how much more do geese forage after disturbance? Journal of Applied Ecology, 53(Special Feature: Model-assisted monitoring of biodiversity ), 1413-1421. https://doi.org/10.1111/1365-2664.12698[details]
Nolet, B. A., Kölzsch, A., Elderenbosch, M. & van Noordwijk, A. J. (2017). Data from: Scaring waterfowl as a management tool: how much more do geese forage after disturbance?. DRYAD. https://doi.org/10.5061/dryad.n4m05
K?lzsch, A., van Noordwijk, A. J., Nolet, B. & Elderenbosch, M. (1-10-2016). Data from: Scaring waterfowl as a management tool: how much more do geese forage after disturbance?. Movebank. https://doi.org/10.5441/001/1.7tp81b7b
Elderenbosch, M., Kölzsch, A., Nolet, B. & van Noordwijk, A. J. (2017). Data from: Scaring waterfowl as a management tool: how much more do geese forage after disturbance?. DRYAD. https://doi.org/10.5061/dryad.n4m05
Poen, M. J., Verhagen, J. H., Manvell, R. J., Brown, I., Besteboer, T. M., van der Vliet, S., ... Fouchier, R. A. M. (2016). Lack of virological and serological evidence for continued circulation of highly pathogenic avian influenza H5N8 virus in wild birds in the Netherlands, 14 November 2014 to 31 January 2016. Euro Surveillance, 21(38), [7]. https://doi.org/10.2807/1560-7917.ES.2016.21.38.30349[details]
Shariati-Najafabadi, M., Darvishzadeh, R., Skidmore, A. K., Kölzsch, A., Exo, K-M., Nolet, B. A., ... Toxopeus, A. G. (2016). Environmental parameters linked to the last migratory stage of barnacle geese en route to their breeding sites. Animal behaviour, 118, 81-95. https://doi.org/10.1016/j.anbehav.2016.05.018[details]
Wood, K. A., Newth, J. L., Hilton, G. M., Nolet, B. A., & Rees, E. C. (2016). Inter-annual variability and long-term trends in breeding success in a declining population of migratory swans. Journal of Avian Biology, 47(5), 597-609. https://doi.org/10.1111/jav.00819[details]
Wood, K. A., Rees, E. C., Newth, J. L., Nolet, B. & Hilton, G. M. (2016). Data from: Inter-annual variability and long-term trends in breeding success in a declining population of migratory swans. DRYAD. https://doi.org/10.5061/dryad.65k7g
de Fouw, J., Bom, R. A., Klaassen, R. H. G., Müskens, G. J. D. M., de Vries, P. P., Popov, I. Y., ... Nolet, B. A. (2016). Breeding in a den of thieves: pros and cons of nesting close to egg predators. Ecosphere, 7(6), [e01353]. https://doi.org/10.1002/ecs2.1353[details]
Hidding, B., Meirmans, P. G., Klaassen, M., de Boer, T., Ouborg, N. J., Wagemaker, C. A. M., & Nolet, B. A. (2014). The effect of herbivores on genotypic diversity in a clonal aquatic plant. Oikos, 123(9), 1112-1120. https://doi.org/10.1111/oik.01136[details]
2006
Veraart, A. J., Nolet, B. A., Rosell, F., & de Vries, P. P. (2006). Simulated winter browsing may lead to induced susceptibility of willows to beavers in spring. Canadian journal of zoology, 84(12), 1733-1742. https://doi.org/10.1139/Z06-177[details]
1996
Nolet, B. A., & Baveco, J. M. (1996). Development and viability of a translocated beaver Castor fiber population in the Netherlands. Biological Conservation, 75, 125-137. https://doi.org/10.1016/0006-3207(95)00063-1[details]
2016
Nolet, B. A. (2016). De ecologie van gaan en staan: vogels in beweging. (Oratiereeks; No. 571). Universiteit van Amsterdam. [details]
Buitendijk, N. H. (2023). Geese grazing grasslands: Managing the impact of geese on agricultural grassland. [Thesis, fully internal, Universiteit van Amsterdam]. [details]
Brown, J. M., Bouten, W., Camphuysen, K. C. J., Nolet, B. A. & Shamoun-Baranes, J. (18-1-2023). Data and Code archive for 'Energetic and behavioral consequences of migration: An empirical evaluation in the context of the full annual cycle'. Universiteit van Amsterdam. https://doi.org/10.21942/uva.21583926.v3
2022
Kölzsch, A., Lameris, T. K., Müskens, G. J. D. M., Schreven, K. H. T., Buitendijk, N. H., Kruckenberg, H., Moonen, S., Heinicke, T., Cao, L., Madsen, J., Wikelski, M. & Nolet, B. A. (2022). Data from: Wild goose chase: geese flee high and far, and with aftereffects from New Year’s fireworks. Movebank Data Repository. https://doi.org/10.5441/001/1.g51fs0jv
Brown, J., Bouten, W., Camphuysen, K. C. J., Nolet, B. & Shamoun-Baranes, J. Z. (2022). Data Archive for "Acceleration as a proxy for energy expenditure in a facultative-soaring bird: comparing dynamic body acceleration and time-energy budgets to heart rate". Zenodo. https://doi.org/10.5281/zenodo.6424631
2021
Schreven, K., Stolz, C., Madsen, J. & Nolet, B. (2021). Data for: Nesting attempts and success of Arctic-breeding geese can be derived with high precision from accelerometry and GPS-tracking. DataverseNL. https://doi.org/10.34894/7zxqi6
2020
Nuijten, R., Vriend, S., Wood, K., Haitjema, T., Rees, E., Jongejans, E. & Nolet, B. (2020). Apparent breeding success drives long-term population dynamics of a migratory swan. DRYAD. https://doi.org/10.5061/dryad.g1jwstqpj
Shamoun-Baranes, J., Gerrits, T., Nuijten, R. J. M. & Nolet, B. (2020). Data from: Less is more: on-board lossy compression of accelerometer data increases biologging capacity. Movebank. https://doi.org/10.5441/001/1.8ms7mm80
2019
Nolet, B., K?lzsch, A., Szinai, P., Wikelski, M., M?skens, G. J. D. M., Kruckenberg, H., Moonen, S. & Glazov, P. (31-1-2019). Data from: Flyway connectivity and exchange primarily driven by moult migration in geese [North Sea population]. Movebank. https://doi.org/10.5441/001/1.ct72m82n
Glazov, P., Kruckenberg, H., Szinai, P., K?lzsch, A., Nolet, B., Wikelski, M., M?skens, G. J. D. M. & Moonen, S. (31-1-2019). Data from: Flyway connectivity and exchange primarily driven by moult migration in geese [Pannonic population]. Movebank. https://doi.org/10.5441/001/1.46b0mq21
Georges, J.-Y., Hasselquist, D., Enstipp, M. R., Nolet, B. & Eichhorn, G. (2019). Data from: Resting metabolic rate in migratory and non-migratory geese following range expansion; go south, go low. DRYAD. https://doi.org/10.5061/dryad.7kt8114
Soons, M. B., Kleyheeg, E., Otero-Ojea, S. & Nolet, B. (2019). Data from: A mechanistic assessment of the relationship between gut morphology and endozoochorous seed dispersal by waterfowl. DRYAD. https://doi.org/10.5061/dryad.nt7s243
Gerrits, T., Shamoun-Baranes, J., Nuijten, R. J. M. & Nolet, B. (2019). Less is more: on-board lossy compression of accelerometer data increases biologging capacity. DRYAD. https://doi.org/10.5061/dryad.6djh9w0x9
van der Jeugd, H. P., Ebbinge, B. S., Dokter, A. M., Nolet, B., Fokkema, W. & Olff, H. (2019). Data from: Agricultural pastures challenge the attractiveness of natural saltmarsh for a migratory goose. DRYAD. https://doi.org/10.5061/dryad.j8cm402
2018
Bekker, S. K., Bouten, W., Müskens, G., Olff, H., Nolet, B., Ebbinge, B. S., Fokkema, W., Dokter, A. M. & Van Der Jeugd, H. P. (2018). Data from: Body stores persist as fitness correlate in a long-distance migrant released from food constraints. DRYAD. https://doi.org/10.5061/dryad.6b55m22
Ens, B. J., van der Jeugd, H. P., Eichhorn, G., Bouten, W., Lameris, T. K., Litvin, K. E., Dokter, A. M., Nolet, B. & Boom, M. P. (2018). Data from: Arctic geese tune migration to a warming climate but still suffer from a phenological mismatch. Mendeley Data. https://doi.org/10.17632/wkv96vcvnj.1
2017
Kleyheeg, E., Boonstra, D. K., Woud, T. Y., Nolet, B., de Jager, M., van Dijk, J. G. B., Treep, J., Tsopoglou-Gkina, D. & Soons, M. B. (1-1-2017). Data from: Movement patterns of a keystone waterbird species are highly predictable from landscape configuration. Movebank. https://doi.org/10.5441/001/1.p9c4nc97
De Boer, W. F., Van Krimpen, R. R. D., Stillman, R. A., Gyimesi, A. & Nolet, B. (2017). Data from: Predicting effects of water regime changes on waterbirds: insights from staging swans. DRYAD. https://doi.org/10.5061/dryad.76r58
Elderenbosch, M., Kölzsch, A., Nolet, B. & van Noordwijk, A. J. (2017). Data from: Scaring waterfowl as a management tool: how much more do geese forage after disturbance?. DRYAD. https://doi.org/10.5061/dryad.n4m05
Nolet, B. A., Kölzsch, A., Elderenbosch, M. & van Noordwijk, A. J. (2017). Data from: Scaring waterfowl as a management tool: how much more do geese forage after disturbance?. DRYAD. https://doi.org/10.5061/dryad.n4m05
2016
Kruckenberg, H., Nolet, B., Weinzierl, R., Wikelski, M., K?lzsch, A., M?skens, G. J. D. M. & Glazov, P. (1-10-2016). Data from: Towards a new understanding of migration timing: slower spring than autumn migration in geese reflects different decision rules for stopover use and departure. Movebank. https://doi.org/10.5441/001/1.31c2v92f
K?lzsch, A., van Noordwijk, A. J., Nolet, B. & Elderenbosch, M. (1-10-2016). Data from: Scaring waterfowl as a management tool: how much more do geese forage after disturbance?. Movebank. https://doi.org/10.5441/001/1.7tp81b7b
Chudzi?ska, M. E., Madsen, J., Nabe-Nielsen, J. & Nolet, B. (1-1-2016). Data from: Foraging behaviour and fuel accumulation of capital breeders during spring migration as derived from a combination of satellite- and ground-based observations. Movebank. https://doi.org/10.5441/001/1.s9s86319
Wood, K. A., Rees, E. C., Newth, J. L., Nolet, B. & Hilton, G. M. (2016). Data from: Inter-annual variability and long-term trends in breeding success in a declining population of migratory swans. DRYAD. https://doi.org/10.5061/dryad.65k7g
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