Beavers live in
freshwater ecosystems such as rivers, streams, lakes and ponds. Water is the most important component of beaver habitat; they swim and dive in it, and it provides them refuge from land predators. It also restricts access to their homes and allows them to move building objects more easily. Beavers prefer slower moving streams, typically with a
gradient (steepness) of one percent, though they have been recorded using streams with gradients as high as 15 percent. Beavers are found in wider streams more often than in narrower ones. They also prefer areas with no regular flooding and may abandon a location for years after a significant flood. Beavers typically select flat landscapes with diverse vegetation close to the water. North American beavers prefer trees being or less from the water, but will roam several hundred meters to find more. Beavers have also been recorded in mountainous areas.
Dispersing beavers will use certain habitats temporarily before finding their ideal home. These include small streams, temporary swamps, ditches, and backyards. These sites lack important resources, so the animals do not stay there permanently. Beavers have increasingly settled at or near human-made environments, including agricultural areas,
suburbs,
golf courses, and shopping malls.
Food and feeding Beavers have an
herbivorous and a
generalist diet. During the spring and summer, they mainly feed on herbaceous plant material such as leaves, roots, herbs, ferns, grasses,
sedges,
water lilies,
water shields,
rushes, and
cattails. During the fall and winter, they eat more
bark and
cambium of woody plants; tree and shrub species consumed include
aspen,
birch,
oak,
dogwood,
willow and
alder. while others suggest beavers principally forage based on stem size. Beavers may
cache their food for the winter, piling wood in the deepest part of their pond where it cannot be reached by other
browsers. This cache is known as a "raft"; when the top becomes frozen, it creates a "cap". When chewing down a tree, beavers switch between biting with the left and right side of the mouth. Tree branches are then cut and carried to their destination with the powerful jaw and neck muscles. Other building materials, like mud and rocks, are held by the forelimbs and tucked between the chin and chest. Beavers start building dams when they hear running water, and the sound of a leak in a dam triggers them to repair it. To build a dam, beavers stack up relatively long and thick logs between the banks. Heavy rocks keep them stable, and grass is packed between them. Beavers continue to pile on more material until the dam slopes in a direction facing upstream. Dams can range in height from to and can stretch from to several hundred meters long. Beaver dams are more effective in trapping and slowly leaking water than man-made concrete dams. Lake-dwelling beavers do not need to build dams. Beavers make two types of lodges: bank lodges and open-water lodges. Bank lodges are burrows dug along the shore and covered in sticks while the more complex freestanding, open-water lodges are built over a platform of piled-up sticks. The lodge is mostly sealed with mud, except for a hole at the top which acts as an air vent. Both types are accessed by underwater entrances. As they drag wood across the land, beavers leave behind trails or "slides", which they reuse when moving new material. In one study, beavers were associated with large increases in open-water areas. When beavers returned to an area, 160% more open water was available during droughts than in previous years, when they were absent. Beaver dams also lead to higher
water tables in mineral soil environments and in wetlands such as
peatlands. In peatlands particularly, their dams stabilize the constantly changing water levels, leading to greater
carbon storage. Beaver ponds, and the wetlands that succeed them, remove sediments and pollutants from waterways, and can stop the loss of important soils. These ponds can increase the
productivity of freshwater ecosystems by accumulating
nitrogen in sediments. Beavers may contribute to
climate change. In Arctic areas, the floods they create can cause
permafrost to thaw,
releasing methane into the atmosphere. As wetlands are formed and
riparian habitats are enlarged, aquatic plants colonize the newly available watery habitat. Another study in semiarid
eastern Oregon found that the width of riparian vegetation on stream banks increased several-fold as beaver dams watered previously dry terraces adjacent to the stream. Riparian ecosystems in arid areas appear to sustain more plant life when beaver dams are present. Beaver ponds act as a refuge for riverbank plants during
wildfires, and provide them with enough moisture to resist such fires.
Introduced beavers at Tierra del Fuego have been responsible for destroying the indigenous forest. Unlike trees in North America, many trees in South America cannot grow back after being cut down. (
Oncorhynchus nerka) jumping a beaver dam. Beaver activity impacts
communities of
aquatic invertebrates. Damming typically leads to an increase of
slow or motionless water species, like
dragonflies,
oligochaetes,
snails, and
mussels. This is to the detriment of
rapid water species like
black flies,
stoneflies, and
net-spinning caddisflies. Beaver floodings create more dead trees, providing more habitat for terrestrial invertebrates like
Drosophila flies and
bark beetles, which live and breed in dead wood. The presence of beavers can increase wild
salmon and
trout populations, and the average size of these fishes. These species use beaver habitats for spawning, overwintering, feeding, and as havens from changes in water flow. The positive effects of beaver dams on fish appear to outweigh the negative effects, such as blocking of migration. Beaver ponds have been shown to be beneficial to
frog populations by protecting areas for larvae to mature in warm water. The stable waters of beaver ponds also provide ideal habitat for freshwater
turtles. Beavers help
waterfowl by creating increased areas of water. The widening of the
riparian zone associated with beaver dams has been shown to increase the abundance and diversity of birds favoring the water's edge, an impact that may be especially important in
semi-arid climates. Fish-eating birds use beaver ponds for foraging, and in some areas, certain species appear more frequently at sites where beavers were active than at sites with no beaver activity. In a study of
Wyoming streams and rivers, watercourses with beavers had 75 times as many
ducks as those without. As trees are drowned by rising beaver impoundments, they become an ideal habitat for
woodpeckers, which carve cavities that may be later used by other bird species. Large herbivores, such as some
deer species, benefit from beaver activity as they can access vegetation from fallen trees and ponds. ==Behavior==