Speckled Alder (Rugosa) is generally described as
a perennial tree or shrub.
native to the U.S. (United States)
has its most active growth period in the
spring and summer .
The greatest bloom is usually observed in the
with fruit and seed production starting in the
spring and continuing until
not retained year to year.
Speckled Alder (Rugosa) has a
long life span relative to most other plant species and a
moderate growth rate.
At maturity, the typical
Speckled Alder (Rugosa) will reach up to
16 feet high, with a maximum height at 20 years of
Speckled Alder (Rugosa) is easily found in nurseries, garden stores and other plant dealers and distributors. It can be propagated by
bare root, container, seed.
It has a
slow ability to spread through seed production and the seedlings have
Note that cold stratification is
not required for seed germination and the plant cannot survive exposure to temperatures below
low tolerance to drought and restricted water conditions.
Uses of : Landscaping, Medicinal, Culinary, etc.
Speckled alder is used locally for fuel but the wood has no commercial value. Because root nodules of alders support nitrogen-fixing bacteria, yields of timber-producing trees can be enhanced when grown in association with alder, in the same way that leguminous crops increase production in agricultural crops. The nitrogen-enhancing effect is local and restricted to trees in the immediate vicinity of the alder. Rapid growth in open habitats, wide tolerance to soil types, and potential for soil conditioning make it useful in rehabilitation of disturbed sites, including old mines.
Alders are beautiful and functional plants and deserve to be more widely grown in gardens and nurseries. They are fast growing and can easily be trained to a tree-like form by removing lower branches.
Wildlife: Speckled alder thickets provide cover for moose, white-tailed deer, rabbits, and others. Moose, muskrats, beavers, and rabbits browse the twigs and foliage. Songbirds, including redpolls, goldfinches, woodcock, and grouse eat the seeds, buds, and catkins. Beavers build dams and lodges with speckled alder.
Ethnobotanic: Native Americans used speckled alder to treat anemia, as an emetic, a compress or wash for sore eyes, and a diaphoretic, for internal bleeding, urinary problems, sprains, bruises or backaches, itches, flux, and piles, to cure saddle gall in horses. When mixed with powdered bumblebees, it was used as an aid for difficult labor. Tea was made from alder to cure diarrhea and toothaches. Other bark mixtures were applied to rashes, eyes, and swelling. Chippewa Indians mixed alder root scraping with grounded up bumblebee and fed the mixture to women whom were having difficulty during childbirth.
Erosion Control: Speckled alder’s acceptance of a wide variety of soil types makes it a good choice for disturbed site rehabilitation. This is a valuable species to plant along stream banks for erosion control.
General: Birch Family (Betulaceae). Native shrubs and (less commonly) small trees growing to 10 m tall, thicket-forming, with open crowns. The bark is gray, reddish, or brown, thin and smooth, becoming broken into irregular plates, often with conspicuous whitish lenticels (spongy openings for gas exchange). Leaves are elliptic to ovate, 4-11 cm long, 3-8 cm wide, broadest near or below middle, doubly and irregularly toothed, with 9-12 nearly straight, parallel veins on each side, with a ladder-like network of depressed veins, dull dark green above. Male (pollen, staminate) and female (seed, pistillate) flowers are in catkins, borne separately, but on the same tree (the species monoecious). The seed catkins are cone-like, cylindric to ovoid, 1-2 cm long, erect, sessile or on a short, stout stalk, generally remaining intact after release of fruits in spring. The pollen catkins are elongate, 2-7 cm long, in hanging clusters from near the shoot tip. The common name (speckled) is in reference to the numerous lenticels covering the bark.
Variation within the species: Speckled alder is similar in growth form and habitat to mountain alder (Alnus tenuifolia), which ranges from Alaska, Yukon, and Mackenzie southward to New Mexico. In mountain alder, the leaf blades are thin and papery, with rounded or blunt teeth, compared to the thick leaf blades with sharp teeth in speckled alder; mountain alder also is more treelike than speckled alder. They intergrade where their
Required Growing Conditions
Speckled alder ranges over much of the eastern two-thirds of Canada and reaches into Alberta, British Columbia, Mackenzie, and Yukon. In the USA, it reaches into the Lake States and Northeast and as far south (at higher elevations) as Iowa, West Virginia, Maryland, and Virginia. For current distribution, please consult the Plant Profile page for this species on the PLANTS Web site.
Cultivation and Care
Adaptation: Speckled alder colonizes stream banks, lake shores, and damp meadows and also occurs in bogs and nutrient-rich swamp communities, at 0-800 meters. It is weedy in damp areas along roadsides and other disturbed sites. It grows abundantly in various soil types, from sandy to gravelly, loamy, clayey, and mucky, and it can tolerate periods of flooding as well as occasional droughts. It often dominates the understory in communities of black spruce, balsam fir, jack pine, tamarack, northern white-cedar, balsam poplar, and birch-aspen, but growth and reproduction occur most vigorously in full sun. Overstory removal brings rapid release of speckled alder, which may form dense, nearly pure thickets. Gaps created by fire and logging in these wetland forests are quickly invaded by speckled alder.
Flowering occurs in early spring (March–May), before the leaves appear, the inflorescences formed in late summer the season before flowering. Fruit maturation is in late August–September with the seeds dispersed the following spring.
Propagation by Seed: Speckled alder can be propagated by seed or by cuttings. Seeds are shaken from dried cones collected in September and October and can be stored air-dry in sealed containers for several years. They are most easily sown in a cold frame immediately after ripening, in sand or a sand-humus mixture. Spring planting of seeds collected earlier requires stratification in moist sand or vermiculite for 60-90 days at 5( C. Seedbeds should be kept moist and shaded until late in the summer. Germination rates are often low. Softwood cuttings taken in summer, treated with rooting promoter, and rooted under mist provide good starts; cuttings of mature wood taken soon after leaves fall also are reported to be effective. Two or three year-old seedlings are used for field planting.
General: Flowering and fruit production begin at about 5-10 years, with abundant fruit crops produced at about 4-year intervals. An optimal seedbed for germination is exposed, constantly moist mineral soil. Mild intensity burning and scarification also encourage regeneration. Individuals of speckled alder are fast growing, but short-lived.
Most new stems in alder stands are formed through sprouting from rhizomes, which may result in dense, clonal thickets. Such sprouting is independent of aboveground stem damage, but root crown sprouts may contribute strongly to regeneration following top-kill from fires. Sprouting rhizomes are usually within about 5 centimeters of the soil surface.
General Upkeep and Control
Alders have relatively few insect or disease problems although alder psyllid and alder blight aphid can damage the leaves.
Mild spring and early summer fires that kill only the aerial stems are recommended for regeneration of speckled alder. Severe fires that remove the organic layer and expose and char root crowns can completely eliminate sprouting in speckled alder or significantly retard regeneration. Fire intervals of about 9 years are adequate to keep speckled alder stands at an early successional stage. Longer intervals may encourage the expansion of alder thickets at the expense of other forest types.
Alder patches of various age classes can be maintained by staggered cutting and provide the best wildlife cover. Spring and winter cutting produces the most rapid sprout growth.
Source: USDA, NRCS, PLANTS Database, plants.usda.gov.
National Plant Data Center, Baton Rouge, LA 70874-4490 USA