Alnus rubra explained

Alnus rubra, the red alder,[1] is a deciduous broadleaf tree native to western North America (Alaska, Yukon, British Columbia, Washington, Oregon, California, Idaho and Montana).[2] [3]

Description

Alnus rubra is the largest species of alder in North America and one of the largest in the world, reaching heights of 20mto30mm (70feetto100feetm). The official tallest red alder (as of 1979) stands 32m (105feet) tall in Clatsop County, Oregon (US). The trunks range from NaNcm (-2,147,483,648inches) in diameter.[4] The bark is mottled, ashy-gray and smooth, often colonized by white lichen and moss. The leaves are ovate, 7to long, with bluntly serrated edges and a distinct point at the end; the leaf margin is revolute, the very edge being curled under, a diagnostic character which distinguishes it from all other alders. Rather than turning yellow in autumn, its leaves darken in colour and wither before they are shed. The male flowers are dangling reddish catkins 10to long in early spring. Female flowers occur in clusters of (3) 4–6 (8). Female catkins are erect during anthesis, but otherwise pendant. They develop into small, woody, superficially cone-like oval dry fruit 2to long. The seeds develop between the woody bracts of the 'cones' and are shed in late autumn and winter. Red alder seeds have a membranous winged margin that allows long-distance dispersal.[5]

Specimens can live to about 60 years of age before being seriously afflicted by heart rot.

Taxonomy

The name derives from the bright rusty red color that develops in bruised or scraped bark.

Distribution

Alnus rubra grows from Southeast Alaska to central coastal California, nearly always within about 200km (100miles) of the Pacific coast, except for an extension 600km (400miles) inland across Washington and Oregon into northernmost Montana.[3] It can be found from sea level to elevations of 900m (3,000feet).

Ecology

In southern Alaska, western British Columbia and the northwestern Pacific Coast Ranges of the United States, red alder grows on cool and moist slopes; inland and at the southern end of its range (California) it grows mostly along the margins of watercourses and wetlands. It is shade intolerant.

In moist forest areas, Alnus rubra will rapidly cover a former burn or clearcut, often preventing the establishment of conifers. It is a prolific seed producer, but the small, wind-dispersed seeds require an open area of mineral soil to germinate, and so skid trails and other areas disturbed by logging or fire are ideal seedbeds. Such areas may host several hundred thousand to several million seedlings per hectare in the first year after landscape disturbance.

Twigs and buds of alder are only fair browse for wildlife, but deer and elk browse the twigs in fall and twigs and buds in the winter and spring. Beaver occasionally eat the bark, though it is not a preferred species. Several finches eat alder seeds, notably common redpoll and pine siskin, and as do deer mice. Tent caterpillars often feed on the leaves, but the trees usually recover within a year.

The tree hosts the nitrogen-fixing actinomycete Frankia in nodules on roots. This association allows alder to grow in nitrogen-poor soils, and makes the species an important early colonizer of disturbed forests and riparian areas. This self-fertilizing trait allows red alder to grow rapidly, and makes it effective in covering disturbed and/or degraded land, such as mine spoils. Imported Red Alder has been found to be able to make successful associations with Frankia strains present in the UK.[6] Alder leaves, shed in the fall, decay readily to form a nitrogen-enriched humus making the nitrogen available to other species.

Common associates

Red alder is associated with coast Douglas-fir (Pseudotsuga menziesii subsp. menziesii), western hemlock (Tsuga heterophylla), grand fir (Abies grandis), western redcedar (Thuja plicata), and Sitka spruce (Picea sitchensis) forests.

Along stream banks, it is commonly associated with willows (Salix spp.), red osier dogwood (Cornus stolonifera), Oregon ash (Fraxinus latifolia), and bigleaf maple (Acer macrophyllum).

To the southeast of its range it is replaced by white alder (Alnus rhombifolia), which is a tree of similar stature, but which differs in the leaf margins not being rolled under, lack of distinct lobes, and lack of membranous wings on seed margins. In the high mountains it is replaced by the smaller and more shrub-like Sitka alder (Alnus viridis subsp. sinuata), and east of the Cascade Mountains by thinleaf alder (Alnus incana subsp. tenuifolia).

Uses

As dye

A russet dye can be made from a decoction of the bark, apparently due to the tannin it contains, and was used by Native Americans to dye fishing nets so as to make them less visible underwater.

Medicine

Native Americans used red alder bark to treat poison oak reactions, insect bites, and skin irritations. Blackfeet Indians used an infusion made from the bark of red alder to treat lymphatic disorders and tuberculosis. Recent clinical studies have verified that red alder contains betulin and lupeol, compounds shown to be effective against a variety of tumors.[7]

Restoration

In addition to its use as a nitrogen fixer, red alder is occasionally used as a rotation crop to discourage the conifer root pathogen Phellinus weirii (causing laminated root rot).

Alnus rubra are occasionally planted as ornamental trees and will do well in Swales, riparian areas, or on stream banks, in light-textured soils that drain well. Red alder does not thrive in heavy, wet clay soils. If planted domestically, alders should be planted well away from drainpipes, sewage pipes, and water lines, as the roots may invade and clog the lines.

Woodworking

Alder lumber is not considered to be a durable option for outdoor applications, but due to its workability and ease of finishing it is increasingly used for furniture and cabinetry. Because it is softer than other popular hardwoods such as maple, walnut and ash, alder has historically been considered of low value for timber. However it is now becoming one of the more popular hardwood alternatives as it is economically priced compared to many other hardwoods. In the world of musical instrument construction, red alder is valued by some electric guitar / electric bass builders for its balanced tonality. Alder is frequently used by Native Americans for making masks, bowls, tool handles, and other small goods.

The appearance of alder lumber ranges from white through pinkish to light brown, has a relatively soft texture, minimal grain, and has medium luster. It is easily worked, glues well, and takes a good finish.

Fish smoking

Because of its oily smoke, A. rubra is the wood of choice for smoking salmon.[8]

As an environmental indicator

Red alder is often used by scientists as a biomonitoring organism to locate areas prone to ozone pollution, as the leaves react to the presence of high ozone levels by developing red to brown or purple discolorations.[9]

Forestry

With a current inventory of about 7.4e9cuft, red alder comprises 60% of the total hardwood volume in the Pacific Northwest, and is by far the most valuable hardwood in term of diversity of products, commercial value, and manufacturing employment.[10] Increasing value of alder logs, combined with a better understanding of the species' ecological role, has led some land managers to tolerate and, in some cases, manage for alder.

As an 'aggressive pioneer' that was freely able to rapidly colonise areas to the detriment of the more valuable conifer species, it was regarded for a long time as a weed[11] and was neglected for its timber potential, however breeding programmes to improve stem form and timber quality[12] are now underway.

Since most forest land in the Northwest is managed for conifer production, over 80000ha of timberland are sprayed with herbicides annually in Oregon alone to control red alder and other competing hardwood species.[13] Red alder's rapid early growth can interfere with establishment of conifer plantations.[14] Herbicide spraying of red alder over large areas of coastal Oregon and Washington has resulted in a number of lawsuits claiming it has caused health problems, including birth defects and other human health effects.[15] [16]

In addition to adding soil nitrogen, rotations of red alder are used to reduce laminated root rot in Douglas-fir forests. Nurse stands of red alder may also reduce spruce weevil damage in Sitka spruce stands on the Olympic Peninsula.[17] Alder continues to attract interest as log values approach and often exceed those of Douglas-fir.[18] This interest is limited by red alder's total stand productivity, which is significantly lower than that of Douglas-fir and western hemlock.

Notes and References

  1. USDA Plants Profile: Alnus rubra
  2. http://apps.kew.org/wcsp/namedetail.do?name_id=6584 Kew World Checklist of Selected Plant Families
  3. http://bonap.net/MapGallery/County/Alnus%20rubra.png Biota of North America Program, 2013 county distribution map
  4. Book: Arno . Stephen F. . Northwest Trees: Identifying & Understanding the Region's Native Trees . Hammerly . Ramona P. . . 2020 . 978-1-68051-329-5 . field guide . Seattle . 208–215 . en . 1141235469 . 1977.
  5. Furlow, J. (1979). The systematics of the American species of Alnus. Rhodora, v81-825: 1-248.
  6. Malcolm . D. C. . Hooker . J. E. . Wheeler . C. T. . January 1985 . Frankia symbiosis as a source of nitrogen in forestry: a case study of symbiotic nitrogen-fixation in a mixed Alnus-Picea plantation in Scotland . Proceedings of the Royal Society of Edinburgh, Section B: Biological Sciences . en . 85 . 3–4 . 263–282 . 10.1017/S0269727000004061 . 2053-5910.
  7. Book: Tilford, Gregory L. . Edible and Medicinal Plants of the West . 0-87842-359-1 . Mountain Press . 1st . 15 June 1997.
  8. Book: Ewing, Susan . The Great Alaska Nature Factbook . Portland, OR . Alaska Northwest Books . 1996.
  9. Web site: Watching Our Ozone Weather. 2008-10-11. 2003-08-22. Jeannie Allen. NASA Earth Observatory. https://web.archive.org/web/20081020145630/http://earthobservatory.nasa.gov/Library/OzoneWx/. 2008-10-20 . live.
  10. Book: Hibbs, D.E. . DeBell, D.S. . Tarrant, R.F. . 1995 . The Biology and Management of Red Alder . Corvallis, OR . Oregon State University Press.
  11. Burns . Russell M. . Honkala . Barbara H. . Coordinators . Technical . 1990 . Silvics of North America: Volume 2. Hardwoods . United States Department of Agriculture (USDA), Forest Service, Agriculture Handbook 654 . en.
  12. Xie . C. Y. . 2008 . Ten-year results from red alder (Alnus rubra Bong.) provenance-progeny testing and their implications for genetic improvement . New Forests . 36 . 3 . 273–284. 10.1007/s11056-008-9098-3 .
  13. Oregon Dept of Forestry 2014
  14. Haeussler . S.T.J. . 1995 . Germination, survival and early growth of red alder seedlings in the central Coast Range of Oregon . Canadian Journal of Forest Research . 25 . 10 . 1639–1651. 10.1139/x95-178 .
  15. News: Lobet . Ingrid . 14 August 2012 . In Oregon, Residents Struggle to Solve a Pesticide Mystery . 2 February 2021 . The Atlantic.
  16. Web site: Basal Spraying of Red Alder. 2 February 2021.
  17. https://www.for.gov.bc.ca/hfd/library/FIA/2007/FSP_Y073159b.pdf . Lyle . Almond . The value of red alder as an integrated pest management tool for controlling weevil damage to sitka spruce . Red Alder: A State of Knowledge . Deal, R.L. . Harrington, C.A. . 2006 . General Technical Report PNW-GTR-669 . U.S. Department of Agriculture . Pacific Northwest Research Station . Portland, OR . Department of Forestry, Province of British Columbia, Canada.
  18. Red alder management: Silviculture to marketing . 31 July 2010 . Tree School . Oregon City, OR . 25 March 2017 . 2017-12-07 . Andrew A. . Bluhm . https://web.archive.org/web/20171207191852/http://extension.oregonstate.edu/clackamas/sites/default/files/9d-bluhm-redaldermgtrev.pdf . 2017-12-07 . Oregon State University Agricultural Extension Service.