| scholarly article | Q13442814 |
| P356 | DOI | 10.1111/GCB.13684 |
| P698 | PubMed publication ID | 28295932 |
| P50 | author | Marleen M. P. Cobben | Q87009042 |
| Bart A. Nolet | Q51164535 | ||
| Silke Bauer | Q56509178 | ||
| Bruno J. Ens | Q57738489 | ||
| Thomas K Lameris | Q57738494 | ||
| P2093 | author name string | Ilse Scholten | |
| P2860 | cites work | Experience drives innovation of new migration patterns of whooping cranes in response to global change | Q28595642 |
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| Populations of migratory bird species that did not show a phenological response to climate change are declining | Q33375325 | ||
| Ecological dynamics across the Arctic associated with recent climate change | Q33501895 | ||
| Forage plants of an Arctic-nesting herbivore show larger warming response in breeding than wintering grounds, potentially disrupting migration phenology | Q33575094 | ||
| Challenging claims in the study of migratory birds and climate change | Q33871479 | ||
| Cues and the optimal timing of activities under environmental changes | Q34053780 | ||
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| How far to go? Determinants of migration distance in land mammals | Q35599931 | ||
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| Seasonal variation in growth of greater snow goose goslings: the role of food supply | Q38462938 | ||
| Earlier Arctic springs cause phenological mismatch in long-distance migrants | Q39122653 | ||
| Body condition, migration, and timing of reproduction in snow geese: a test of the condition-dependent model of optimal clutch size | Q39125532 | ||
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| Social learning of migratory performance. | Q50725099 | ||
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| The consequences of climate-driven stop-over sites changes on migration schedules and fitness of Arctic geese. | Q51690680 | ||
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| Evidence for Flexibility and Constraint in Migration Systems | Q56157791 | ||
| What decision rules might pink-footed geese use to depart on migration? An individual-based model | Q57062859 | ||
| Optimal management of a goose flyway: migrant management at minimum cost | Q57062864 | ||
| Modelling behavioural and fitness consequences of disturbance for geese along their spring flyway | Q57062910 | ||
| Climate change leads to decreasing bird migration distances | Q57263535 | ||
| Global Climate Change Leads to Mistimed Avian Reproduction | Q57263540 | ||
| Spring hunting changes the regional movements of migrating greater snow geese | Q57721441 | ||
| Environmental parameters linked to the last migratory stage of barnacle geese en route to their breeding sites | Q57738425 | ||
| Satellite- versus temperature-derived green wave indices for predicting the timing of spring migration of avian herbivores | Q57738440 | ||
| Individually tracked geese follow peaks of temperature acceleration during spring migration | Q57738459 | ||
| Travelling through a warming world: climate change and migratory species | Q58318506 | ||
| Arctic climate change with a 2 ∘C global warming: Timing, climate patterns and vegetation change | Q58647134 | ||
| Dynamic models in behavioural and evolutionary ecology | Q59070978 | ||
| P433 | issue | 10 | |
| P921 | main subject | phenology | Q272737 |
| P1104 | number of pages | 10 | |
| P304 | page(s) | 4058-4067 | |
| P577 | publication date | 2017-04-18 | |
| P1433 | published in | Global Change Biology | Q1531580 |
| P1476 | title | Potential for an Arctic-breeding migratory bird to adjust spring migration phenology to Arctic amplification | |
| P478 | volume | 23 |
| Q42671352 | Consequences of the genetic threshold model for observing partial migration under climate change scenarios. |
| Q48506429 | Highly dynamic wintering strategies in migratory geese: coping with environmental change. |
| Q63257674 | Migratory goose arrival time plays a larger role in influencing forage quality than advancing springs in an Arctic coastal wetland |
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