Discover

(Redirected from Coast Redwood)

'''Sequoia''' is a genus in the cypress family Cupressaceae (Taxaceae or Taxodiaceae by others), containing the single living species '''Sequoia sempervirens'''. Common names include 'Coast Redwood' and 'California Redwood' (it is one of three species of trees known as redwoods). It is an evergreen, long-lived, monoecious tree living for up to 3,200 years, and is commonly considered the tallest tree in the world, reaching up to 115.5 m (379.1 ft) in height and 7 m (23 ft) diameter at the base. It is thought to be named after the Cherokee Indian leader, Sequoyah, though this is uncertain.
The name Sequoia is also used as a general term for the subfamily Sequoioideae in which this genus is classified together with ''Sequoiadendron'' (Giant Sequoia) and ''Metasequoia'' (Dawn Redwood).

The crown is conical, with horizontal to slightly drooping branches. The bark is very thick, up to 30 cm (12 in), and quite soft, fibrous with a bright red-brown when freshly exposed (hence the name 'redwood'), weathering darker. The root system is composed of shallow, wide-spreading lateral roots. The leaves are variable, being 15-25 mm long and flat on young trees and shaded shoots in the lower crown of old trees, and scale-like, 5-10 mm long on shoots in full sun in the upper crown of older trees; there is a full range of transition between the two extremes. They are dark green above, and with two blue-white stomatal bands below. Leaf arrangement is spiral, but the larger shade leaves are twisted at the base to lie in a flat plane for maximum light capture. The seed cones are ovoid, 15-32 mm long, with 15-25 spirally arranged scales; pollination is in late winter with maturation about 8-9 months after. Each cone scale bears 3-7 seeds, each seed 3-4 mm long and 0.5 mm broad, with two wings 1 mm wide. The seeds are released when the cone scales dry out and open at maturity. The pollen cones are oval, 4-6 mm long. The species is monoecious, with pollen and seed cones on the same plant. Its genetic makeup is unusual among conifers, being a hexaploid (6n) and likely autoallopolyploid (AAAABB). The mitochondrial genome is (unlike other conifers) paternally inherited (Neale et al. 1989).

Contents

Range and ecology

Statistics

Reproduction

Cultivation and uses

See also

References and external links

Further reading

Range and ecology

Coast Redwoods occupy a narrow strip of land approximately 750 km (470 miles) in length and 8-75 km (5-47 miles) in width along the Pacific coast; the elevation range is mostly from 30-750 m, occasionally down to sea level and up to 920 m or about 3,000 feet (Farjon 2005). They usually grow in the mountains where there is more precipitation from the incoming moisture off the ocean. The tallest and oldest trees are found in deep valleys and gullies, where year-round streams can flow, and fog drip is regular. The trees above the fog layer, above about 700 m, are shorter and smaller due to the drier, windier, and colder conditions. In addition, tanoak, pine and Douglas-fir often crowd out redwoods at these elevations. Few redwoods grow close to the ocean, due to intense salt spray, sand and wind.

The northern boundary of its range is marked by two groves on the Chetco River on the western fringe of the Klamath Mountains, 25 km (15 miles) north of the California-Oregon border. The largest populations are in Jedediah Smith Redwoods State Park (Del Norte County), Redwood National Park and Humboldt Redwoods State Park (Humboldt County). The furthest inland are 75 km from the sea, in Napa County. The southern boundary of the range is marked by a grove in Salmon Creek Canyon in the Santa Lucia Mountains of southern Monterey County.
This native area provides a unique environment with heavy seasonal rains (2,500 mm or 100 in annually), cool coastal air and fog keeping this forest constantly damp year round. As this heavy rain has left the soil with few nutrients, these trees depend on the entire biotic community of the forest, and complete recycling of the trees when dead. This forest community includes Douglas-fir, Western Hemlock, Tanoak, Madrone, and other trees along with a wide variety of ferns, Redwood sorrel, mosses and mushrooms. Redwood forests provide habitat for a variety of mammals, birds, reptiles, and amphibians. Remnant old growth redwood stands provide habitat for the federally threatened Spotted Owl and the California-endangered Marbled Murrelet.
The thick, tannin-rich bark, combined with foliage that starts high above the ground provides good protection from both fire and insect damage, contributing to the Coast Redwood's longevity. The oldest known Coast Redwood is about 2,200 years old; many others in the wild exceed 600 years.
The prehistoric fossil range of the genus is considerably greater, with a subcosmopolitan distribution including Europe and Asia until about 5 million years ago.

Statistics

Trees over 60 m (200 feet) are common, and many are over 90 m (300 feet).

★ The current tallest tree is Hyperion, measuring at 115.55 m [1] (379.1 feet). The tree was discovered in Redwood National Park during Summer 2006 by Chris Atkins and Michael Taylor and has been measured as the world's tallest living thing. The previous record holder was the Stratosphere Giant in the Humboldt Redwoods State Park, at 112.83 m, last measured in 2004 (was 112.34 m in Aug 2000 and 112.56 m in 2002). Until it fell in March 1991, the "Dyerville Giant" was the record holder. It too stood in Humboldt Redwoods State Park; it was 113.4 metres high and estimated to be 1,600 years old.

★ There are 15 known living trees more than 110 m (361 feet) tall.

★ There are 47 trees that are more than 105 m (344.5 feet) tall.

★ A tree claimed to be 115.8 m (380 feet) was cut down in 1912.

★ The tallest non-redwood tree is a 100.3 m (329 foot) tall Douglas-fir.
In 2004, an article in ''Nature'' reported that the theoretical maximum potential height of Coast Redwoods (or any other tree) is limited to between 122-130 m (400-425 feet), due to gravity and the friction between water and the vessels through which it flows.
The largest in volume is the "Del Norte Titan", with an estimated volume of 1,044.7 m³; it is 93.57 m tall with a diameter of 7.22 m. Among current living trees only 15 Giant Sequoias are larger than this; these are shorter, but have thicker trunks, giving the largest Giant Sequoia, General Sherman, a volume of 1,487 cubic metres (52,510 cubic feet). A redwood cut down in 1926 had a claimed volume of 1,794 m³ (63,350 cubic feet), but this is not verified.

Reproduction

Coast Redwood reproduces both sexually and asexually. Seed production begins at 10-15 years of age, and large seed crops occur frequently, but viability of the seed is low, typically below 20%. The low viability may be an adaptation to discourage seed predators, which do not want to waste time sorting chaff (empty seeds) from edible seeds. The winged seeds are small and light, weighing 3.3-5 mg (200-300 seeds/g; 5,600-8,500/ounce). The wings are not effective for wide dispersal, and seeds are dispersed by wind an average of only 60-120 m (200-400 feet) from the parent tree.

Growth of seedlings is very fast, with young trees known to reach 20 m (65 feet) tall in 20 years. Coast Redwoods can also reproduce asexually by layering or sprouting from the root crown, stump, or even fallen branches; if a tree falls over, it will regenerate a row of new trees along the trunk. This is the reason for many trees naturally growing in a straight line. Sprouts originate from dormant or adventitious buds at or under the surface of the bark. The dormant sprouts are stimulated when the main adult stem gets damaged or starts to die. Many sprouts spontaneously erupt and develop around the circumference of the tree trunk. Within a short period after sprouting, each sprout will develop its own root system, with the dominant sprouts forming a ring of trees around the parent root crown or stump. This ring of trees is called a "fairy ring". Sprouts can achieve heights of 2.3 m (8 feet) in a single growing season.
Redwoods may also reproduce using burls. A burl is a woody lignotuber that commonly appears on a redwood tree below the soil line, though when above, usually within 3 m of the soil. Burls are capable of sprouting into new trees when detached from the parent tree, though exactly how this happens is yet to be studied. Shoot clones commonly sprout from burls and are often turned into decorative hedges when found in suburbia.
The species is very tolerant of flooding and flood deposits, the roots rapidly growing into thick silt deposits after floods.

Cultivation and uses

Coast Redwood is one of the most valuable timber species in California, with 364,000 ha of redwood forest, all second growth, managed for timber production [2]. Coast Redwood lumber is highly valued for its beauty, light weight, and resistance to decay. It is also resistant to fire since it does not burn well due to its lack of resin.
P. H. Shaughnessy, Chief Engineer of the San Francisco Fire Department wrote:
:In the recent great fire of San Francisco, that began April 18th, 1906, we succeeded in finally stopping it in nearly all directions where the unburned buildings were almost entirely of frame construction and if the exterior finish of these buildings had not been of redwood lumber, I am satisfied that the area of the burned district would have been greatly extended.
Because of its impressive resistance to decay, redwood was extensively used for railroad ties and trestles throughout California. Many of the old ties have been recycled for use in gardens as borders, steps, etc. Redwood burls are used in the production of table tops, veneers, and turned goods.
The Coast Redwood is locally naturalized in New Zealand, notably at Rotorua. Other areas of successful cultivation outside of the native range include western Europe from the British Isles south to Portugal, the Queen Charlotte Islands, middle elevations of Hawaii, and the southeastern United States from eastern Texas to North Carolina.

See also

★ ''Cryptomeria japonica'' - Sugi

References and external links

★ Database entry includes a lengthy justification of why this species is vulnerable

★ Farjon, A. (2005). ''Monograph of Cupressaceae and Sciadopitys''. Royal Botanic Gardens, Kew. ISBN 1-84246-068-4

★ Neale, D. B., Marshall, K. A., & Sederoff, R. R. (1989). Chloroplast and Mitochondrial DNA are Paternally Inherited in Sequoia sempervirens (D.Don) Endl. ''Proc. Natl. Acad. Sci. USA'' 86 (23): 9347-9349. Available online

★ Noss, R. F., ed. (2000). ''The Redwood Forest: history, ecology and conservation of the Coast Redwood''. Island Press, Washington DC. ISBN 1-55963-726-9

★ Gymnosperm Database - Sequoia sempervirens

★ US National Park Service

★ Humboldt State Park (CA)

★ Save-the-Redwoods League

★ Sempervirens Fund

★ Photo gallery with meteorology and plant physiology sensors installed in "Stratosphere Giant"

★ Preston, Richard. "Climbing the Redwoods" - 2/14-21/2005 New Yorker article with detailed insights into intricate upper canopy biology.

★ More about ''Sequoia sempervirens''

Further reading

★ Preston, Richard "''The Wild Trees: A Story of Passion and Daring''", Random House, 2007, ISBN 978-1-4000-6489-2.