If you’ve spent a year in the United States, then you’ve heard the honks and seen the distinctive v-shaped flying pattern of Canada geese. But geese aren’t the only birds to fly in an orderly pattern: pelicans and ibises adopt the same v-shape when flying in flocks. What do these birds have in common, and what benefit do they gain from flying in a “v” shape?
Geese, pelicans, and ibises are examples of birds that migrate. Migration is the seasonal movement of animals in search of food sources or breeding grounds: geese fly south during the winter to find food and water; sea turtles travel between nesting sites on land and their feeding grounds on the coast; and college students return to their parents’ homes in May when the cafeteria closes.
Migration over long distances requires a lot of energy, so when migrating it is a great advantage for animals to save energy however possible. Animals will need less food, and the migration will take less time. That’s where the v-formation comes in handy: scientific studies have shown that geese flying in formation may spend only half as much energy than if they flew alone or in some other shape. This is also why a squadron of jets will adopt the same v-shape: it takes less fuel for the aircraft to fly. Birds and jets are both able to gain extra lift by flying in the updraft that is created by the flyer in front of it.
Not all migrating birds fly in a v-shape: varieties of hummingbirds, finches, and sparrows all migrate, but these birds are too small to gain an energy-saving benefit from flying in formation. Not all migrating birds even fly, for that matter: the flightless emu from Australia migrates too, but does so on foot. And no, migrating emus do not run in formation.
But wait, there’s more: There are other flying formations that the classic “v”! When birds flock in large groups in the air, this is also a deliberate formation. It’s a defense mechanism that protects against predators: every bird is safer when they’re in the flock. It’s difficult for a predator to single out an individual from the flock, and a bird that leaves the flock is more likely to be eaten by a predator. The whole flock moves as one in order to protect every member. Starlings are well-known for their flocking behavior, and there is even a specific term — a murmuration — to describe a flock of starlings. It is absolutely worth watching this two-minute video from National Geographic to see a murmuration in action:
By Kyle Schriber, Nature Museum Volunteer
 Yong, Ed. “Not Exactly Rocket Science, A Blog by Ed Yong”. Birds that Fly in a V Formation Use An Amazing Trick. Retrieved May 5, 2017, from http://phenomena.nationalgeographic.com/2014/01/15/birds-that-fly-in-a-v-formation-use-an-amazing-trick/
By Hamid Hajihusseini (http://www.panoramio.com/photo/43585282) [CC BY 3.0 (http://creativecommons.org/licenses/by/3.0)], via Wikimedia Commons
 Cuttis, C.J. and Speakman, J.R. Energy Savings in Formation Flight of Pink-Footed Geese. Retrieved May 7, 2017 from http://jeb.biologists.org/content/jexbio/189/1/251.full.pdf
 The Nature Conservancy. “Managing Habitats for Migrating Land Birds in the Western Lake Erie Basin” (2008) https://www.nature.org/ourinitiatives/regions/northamerica/unitedstates/ohio/explore/bird-stopover-brochure.pdf
 The Animal Corner (2017). Retrieved May 14, 2017 from https://animalcorner.co.uk/animals/emu/
 Flight Plan. “How a Flock of Birds Can Fly and Move Together” (April, 2009) http://www.audubon.org/magazine/march-april-2009/how-flock-birds-can-fly-and-move-together
Peggy Notebaert Nature Museum. In fact, studies have shown that geese flying in their recognizable V formation expend only half as much energy as they would flying alone or in another configuration. The energy savings is the same phenomenon achieved when jets fly in formation, which uses less fuel than flying singly.