The typical image of migration is of northern land birds, such as
swallows (Hirundinidae) and birds of prey, making long flights to the tropics. However, many
Holarctic wildfowl and
finch (Fringillidae) species winters in the
North Temperate Zone, in regions with milder winters than their summer breeding grounds. For example, the
pink-footed goose migrates from
Iceland to
Britain and neighbouring countries, whilst the
dark-eyed junco migrates from
subarctic and
arctic climates to the contiguous United States and the American goldfinch from taiga to wintering grounds extending from the
American South northwestward to
Western Oregon. Migration routes and wintering grounds are both genetically and traditionally determined depending on the social system of the species. In long-lived, social species such as
white storks
(Ciconia ciconia), flocks are often led by the oldest members and young storks learn the route on their first journey. In short-lived species that migrate alone, such as the
Eurasian blackcap Sylvia atricapilla or the
yellow-billed cuckoo Coccyzus americanus, first-year migrants follow a genetically determined route that is alterable with selective breeding. Many migration routes of long-distance migratory birds are circuitous due to evolutionary history: the breeding range of
Northern wheatears
Oenanthe oenanthe has expanded to cover the entire Northern Hemisphere, but the species still migrates up to 14,500 km to reach ancestral wintering grounds in
sub-Saharan Africa rather than establish new wintering grounds closer to breeding areas. A migration route often does not follow the most direct line between breeding and wintering grounds. Rather, it could follow a hooked or arched line, with detours around geographical barriers or towards suitable stopover habitat. For most land birds, such barriers could consist of large water bodies or high mountain ranges, a lack of stopover or feeding sites, or a lack of
thermal columns (important for broad-winged birds).
In waders A similar situation occurs with
waders (called
shorebirds in North America). Many species, such as
dunlin Calidris alpina and
western sandpiper Calidris mauri, undertake long movements from their Arctic breeding grounds to warmer locations in the same hemisphere, but others such as
semipalmated sandpiper C. pusilla travel longer distances to the tropics in the Southern Hemisphere. For some species of waders, migration success depends on the availability of certain key food resources at stopover points along the migration route. This gives the migrants an opportunity to refuel for the next leg of the voyage. Some examples of important stopover locations are the
Bay of Fundy and
Delaware Bay. Some
bar-tailed godwits
Limosa lapponica baueri have the longest known non-stop flight of any migrant, flying 11,000 km from
Alaska to their
New Zealand non-breeding areas. Prior to migration, 55 percent of their bodyweight is stored as fat to fuel this uninterrupted journey.
In seabirds migrates the greatest distance of any bird.
Seabird migration is similar in pattern to those of the waders and waterfowl. Some, such as the
black guillemot Cepphus grylle and some
gulls, are quite sedentary; others, such as most
terns and
auks breeding in the temperate northern hemisphere, move varying distances south in the northern winter. The
Arctic tern Sterna paradisaea has the longest-distance migration of any bird, and sees more daylight than any other, moving from its Arctic breeding grounds to the Antarctic non-breeding areas. One Arctic tern,
ringed (banded) as a chick on the
Farne Islands in
Northumberland off the
British east coast, reached
Melbourne, Australia in just three months from fledging, a sea journey of over , while another also from the Farne Islands with a
light level geolocator tag 'G82' covered a staggering in just 10 months from the end of one breeding season to the start of the next, travelling not just the length of the Atlantic Ocean and the width of the Indian Ocean, but also half way across the South Pacific to the boundary between the
Ross and
Amundsen Seas before returning back west along the Antarctic coast and back up the Atlantic. Many tubenosed birds breed in the southern hemisphere and migrate north in the southern winter. The most pelagic species, mainly in the 'tubenose' order
Procellariiformes, are great wanderers, and the
albatrosses of the southern oceans may circle the globe as they ride the "
Roaring Forties" outside the breeding season. The tubenoses spread widely over large areas of open ocean, but congregate when food becomes available. Many are among the longest-distance migrants;
sooty shearwaters
Puffinus griseus nesting on the
Falkland Islands migrate between the breeding colony and the
North Atlantic Ocean off
Norway. Some
Manx shearwaters
Puffinus puffinus do this same journey in reverse. As they are long-lived birds, they may cover enormous distances during their lives; one record-breaking Manx shearwater is calculated to have flown during its over-50-year lifespan.
Diurnal migration in large birds using thermals soaring Some large broad-winged birds rely on
thermal columns of rising hot air to enable them to soar. These include many
birds of prey such as
vultures,
eagles, and
buzzards, but also
storks. These birds migrate in the daytime. Migratory species in these groups have great difficulty crossing large bodies of water, since thermals only form over land, and these birds cannot maintain active flight for long distances.
Mediterranean and other seas present a major obstacle to soaring birds, which must cross at the narrowest points. Massive numbers of large
raptors and storks pass through areas such as the
Strait of Messina,
Gibraltar,
Falsterbo, and the
Bosphorus at migration times. More common species, such as the
European honey buzzard Pernis apivorus, can be counted in hundreds of thousands in autumn. Other barriers, such as mountain ranges, can cause funnelling, particularly of large diurnal migrants, as in the
Central American migratory bottleneck. The
Batumi bottleneck in the Caucasus is one of the heaviest migratory funnels on earth, created when hundreds of thousands of soaring birds avoid flying over the Black Sea surface and across high mountains. Birds of prey such as honey buzzards which migrate using thermals lose only 10 to 20% of their weight during migration, which may explain why they forage less during migration than do smaller birds of prey with more active flight such as falcons, hawks and harriers. , point of transit of the migrations, seen from the
Peloritani mountains,
Sicily From observing the migration of eleven soaring bird species over the Strait of Gibraltar, species which did not advance their autumn migration dates were those with declining breeding populations in Europe. ==Short-distance and altitudinal migration==