Alders are commonly found near streams, rivers, and wetlands. Sometimes where the prevalence of alders is particularly prominent these are called
alder carrs. In the
Pacific Northwest of North America, the
white alder (
Alnus rhombifolia) unlike other northwest alders, has an affinity for warm, dry climates, where it grows along watercourses, such as along the lower
Columbia River east of the Cascades and the Snake River, including Hells Canyon. Alder leaves and sometimes catkins are used as food by numerous butterflies and moths.
A. glutinosa and
A. viridis are classed as environmental weeds in New Zealand. Alder leaves and especially the roots are important to the ecosystem because they
enrich the soil with nitrogen and other nutrients.
Nitrogen fixation and succession of woodland species like those of all alders Alder is particularly noted for its important
symbiotic relationship with
Frankia alni, an
actinomycete,
filamentous, nitrogen-fixing
bacterium. This bacterium is found in
root nodules, which may be as large as a human fist, with many small lobes, and light brown in colour. The bacterium absorbs
nitrogen from the air and makes it available to the tree. Alder, in turn, provides the bacterium with
sugars, which it produces through
photosynthesis. As a result of this mutually beneficial relationship, alder improves the
fertility of the soil where it grows, and as a
pioneer species, it helps provide additional nitrogen for the
successional species to follow. Because of its abundance, red alder delivers large amounts of nitrogen to enrich forest soils. Red alder stands have been found to supply between of nitrogen annually to the soil. From Alaska to Oregon,
Alnus viridis subsp.
sinuata (
A. sinuata, Sitka alder or slide alder), characteristically pioneer fresh, gravelly sites at the foot of retreating glaciers. Studies show that Sitka alder, a more shrubby variety of alder, adds nitrogen to the soil at an average rate of per year, helping convert the sterile glacial terrain to soil capable of supporting a conifer forest. Alders are common among the first species to colonize disturbed areas from floods, windstorms, fires, landslides, etc. Alder groves often serve as natural firebreaks since these broad-leaved trees are much less flammable than conifers. Their foliage and
leaf litter does not carry a fire well, and their thin bark is sufficiently resistant to protect them from light surface fires. In addition, the light weight of alder seedsnumbering allows for easy dispersal by the wind. Although it outgrows
coastal Douglas-fir for the first 25 years, it is very
shade intolerant and seldom lives more than 100 years. Red alder is the Pacific Northwest's largest alder and the most plentiful and commercially important broad-leaved tree in the coastal Northwest. Groves of red alder in diameter intermingle with young Douglas-fir forests west of the Cascades, attaining a maximum height of in about sixty years, and then are afflicted by
heart rot. Alders largely help create conditions favorable for giant conifers that replace them. An alder root nodule gall.JPG|alt=An alder root nodule|Whole root nodule A sectioned alder root nodule gall.JPG|alt=A sectioned alder root nodule|Sectioned root nodules
Parasites Alder roots are parasitized by
northern groundcone. == Uses ==