migration of animals: Orientation and Navigation
Orientation and Navigation
Much work has been done on orientation and navigation in migrating animals, although the subject is still not well understood. Studies of salmon indicate that they depend on the olfactory sense to locate and return to their stream of origin. Herbivorous mammals often follow well-established trails and probably also use their sense of smell. Bats, whales, and seals use echolocation to navigate in the dark or underwater; in addition, some whales appear to take visual bearings on objects on the shore in their migrations.
Migratory birds are believed to use the stars, sun, and geographic features as guides. The probability that stellar navigation is used has been strengthened by experiments in planetariums indicating that birds navigate at least in part by the stars. Night-migrating birds are sometimes disoriented in prolonged heavy fog. Day-flying birds navigate by the sun and also make some use of geographic features, particularly of shorelines. Many birds also have the ability to orient themselves to the earth's magnetic fields and this appears to contribute to their ability to navigate, but the mechanisms by which this happens are not well understood. Most migratory birds travel within broad north-south air routes known as flyways. There are four major flyways in North America, called the Pacific, central, Mississippi, and Atlantic flyways. The space within the flyway used by a particular group of birds is called a corridor. Bird migration is not always in a north-south direction. Many European birds migrate in an east-west direction, wintering in the more temperate British Isles, and many mountain-dwelling birds descend to lower altitudes in winter. The breeding grounds of a bird species are regarded as its home territory. Some migratory birds winter only a few hundred miles from their breeding grounds, while others migrate between the cold or temperate zones of the two hemispheres. The longest journey is made by the arctic tern, which alternates between the Arctic and the Antarctic.
The monarch butterfly has a north-south migration pattern that resembles that of many birds. One monarch population that inhabits northeastern and midwestern North America averages c.12 mph (19 kph) as it heads for the winter to Mexico's Sierra Madre mountains. Monarchs start the return trip in the spring, but they breed along the way and then die; the new generation completes the journey. Studies suggest that monarchs are able to use both the sun and the direction of the earth's magnetic field to navigate. The painted lady butterfly, which is found widely across the world, also migrates great distances, both in North America and in Europe and Africa, where the butterfly's migration takes it from as far as Scandinavia in the summer to south of the Sahara in the winter.
Sections in this article:
- Introduction
- Tools for Studying Migration
- Orientation and Navigation
- Initiation of Migration
- Types of Migration
- Bibliography
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