scholarly article | Q13442814 |
P50 | author | Elspeth Sage | Q91622440 |
Bart Hoekstra | Q91622448 | ||
Kees C. J. Camphuysen | Q91622456 | ||
Willem Bouten | Q32945364 | ||
Judy Shamoun-Baranes | Q32945439 | ||
P2860 | cites work | Landscape Connectivity and Population Distributions in Heterogeneous Environments | Q57022627 |
The feedback between where we go and what we know — information shapes movement, but movement also impacts information acquisition | Q57660575 | ||
Identifying transit corridors for elephant using a long time-series | Q58322061 | ||
Sexually distinct foraging strategies in an omnivorous seabird | Q58510126 | ||
From A to B, randomly: a point-to-point random trajectory generator for animal movement | Q58716300 | ||
Energy cost of gliding flight in herring gulls | Q59063281 | ||
Lesser Black-backed GullsLarus fuscusthriving on a non-marine diet | Q59216378 | ||
A flexible GPS tracking system for studying bird behaviour at multiple scales | Q59216444 | ||
Atmospheric conditions facilitate mass migration events across the North Sea | Q59216483 | ||
Identification of Linear Vegetation Elements in a Rural Landscape Using LiDAR Point Clouds | Q64032078 | ||
Static landscape features predict uplift locations for soaring birds across Europe | Q64233431 | ||
Metabolism during flight in the laughing gull, Larus atricilla | Q70447683 | ||
The social transmission of spatial information in homing pigeons | Q77298060 | ||
Flight Strategies of Migrating Hawks. Paul Kerlinger. University of Chicago Press, Chicago, 1989. xvi, 375 pp., illus. $60; paper, $19.95 | Q80923154 | ||
What can knowledge of the energy landscape tell us about animal movement trajectories and space use? A case study with humans | Q91063922 | ||
Modelling landscape-scale habitat use using GIS and remote sensing: a case study with great bustards | Q105952653 | ||
A movement ecology paradigm for unifying organismal movement research | Q28755863 | ||
Ocean surface winds drive dynamics of transoceanic aerial movements. | Q33359546 | ||
Predicting the continuum between corridors and barriers to animal movements using Step Selection Functions and Randomized Shortest Paths | Q35624127 | ||
Windscapes shape seabird instantaneous energy costs but adult behavior buffers impact on offspring. | Q35653305 | ||
Use of multiple modes of flight subsidy by a soaring terrestrial bird, the golden eagle Aquila chrysaetos, when on migration | Q36389632 | ||
Information transfer in moving animal groups | Q37155607 | ||
Route following and the pigeon's familiar area map. | Q38178910 | ||
Match between soaring modes of black kites and the fine-scale distribution of updrafts. | Q38661509 | ||
Spatiotemporal drivers of energy expenditure in a coastal marine fish | Q38923480 | ||
Energy Landscapes and the Landscape of Fear | Q38999015 | ||
Towards an energetic landscape: broad-scale accelerometry in woodland caribou | Q39125032 | ||
Spatial memory and animal movement | Q39365780 | ||
Foraging success under uncertainty: search tradeoffs and optimal space use. | Q39384089 | ||
Migration path annotation: cross-continental study of migration-flight response to environmental conditions | Q39999876 | ||
Fine-scale flight strategies of gulls in urban airflows indicate risk and reward in city living. | Q40397897 | ||
Flap or soar? How a flight generalist responds to its aerial environment | Q41481144 | ||
Landscape complexity influences route-memory formation in navigating pigeons | Q41930059 | ||
Flight responses by a migratory soaring raptor to changing meteorological conditions. | Q42130431 | ||
Energy landscapes shape animal movement ecology. | Q44685977 | ||
The airspace is habitat | Q44782258 | ||
Estimating updraft velocity components over large spatial scales: contrasting migration strategies of golden eagles and turkey vultures. | Q48598812 | ||
Two spatial memories for honeybee navigation. | Q52026203 | ||
P433 | issue | 1 | |
P304 | page(s) | 9659 | |
P577 | publication date | 2019-07-04 | |
P1433 | published in | Scientific Reports | Q2261792 |
P1476 | title | Orographic lift shapes flight routes of gulls in virtually flat landscapes | |
P478 | volume | 9 |
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