Metasequoia glyptostroboides

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Metasequoia glyptostroboides
SJSU Dawn Redwood.JPG
Scientific classification e
Kingdom: Plantae
Division: Pinophyta
Class: Pinopsida
Order: Pinales
Family: Cupressaceae
Genus: Metasequoia
Species: M. glyptostroboides
Binomial name
Metasequoia glyptostroboides
Hu and W.C.Cheng, 1948

Metasequoia glyptostroboides, the dawn redwood, is a fast-growing, endangered deciduous conifer, the sole living species of the genus Metasequoia, one of three species in the subfamily Sequoioideae. It is native to Lichuan county in the Hubei province of China. Although shortest of the redwoods, it can grow to at least 165 ft (50 m) in height.

In 1941, the genus Metasequoia was originally reported by palaeobotanist Shigeru Miki as a widely distributed extinct genus based on fossils, before attracting considerable attention a few years later when small populations were found in central China. It is a particularly well-known example of a living fossil species. The tree faces considerable risks of extinction in its wild range due to deforestation, and so has been planted extensively in arboreta worldwide, where it has proved a popular and fast-growing ornamental plant.


Metasequoia glyptostroboides (dawn redwood) bonsai tree

Though once common across the northern hemisphere, the dawn redwood was originally considered extinct. The genus Metasequoia was first described in 1941 as a fossil of the Mesozoic Era, and none of the fossils discovered were less than 150 million years old. Dr. Shigeru Miki (1901–1974), a paleobotanist from Kyoto University, identified a divergent leaf form while studying fossil samples of the family Cupressaceae and realized he was looking at a new genus, which he named Metasequoia, meaning "like a sequoia".

In the same year a forester named T. Kan came across an enormous living specimen while performing a survey in Sichuan and Hubei provinces. Though unaware of Miki's new genus, he recognized the unique traits of the tree. It formed part of a local shrine, where villagers called it Shui-shan 水杉 or "water fir".[1][2]

In 1943, Zhan Wang (1911–2000), a Chinese forestry official, collected samples from an unidentified tree in Modaoxi, China (presently, Moudao, Lichuan County, Hubei)—now believed to be the same tree Kan discovered.[3] The samples were determined to belong to a tree yet unknown to science, but World War II postponed further study.

Professors Wan Chun Cheng and Hu Xiansu made the pivotal connection between Miki's genus and the living samples in 1946,[4] and provided the specific epithet "glyptostroboides", after its resemblance to the Chinese swamp cypress (Glyptostrobus).[5]

In 1948 the Arnold Arboretum of Harvard University funded an expedition to collect seeds from Kan's original tree and, soon after, distributed seeds and seedlings to various universities and arboreta worldwide for growth trials. Of these, two were distributed to the H. H. Hunnewell estate in Wellesley, MA, where they are still alive as of 2016.

Related species[edit]

Together with Sequoia sempervirens (coast redwood) and Sequoiadendron giganteum (giant sequoia) of California, M. glyptostroboides is classified in the subfamily Sequoioideae of the family Cupressaceae. Although it is the only living species in its genus, three fossil species are known as well. The other Sequoioideae and several other genera have been transferred from the Taxodiaceae to the Cupressaceae based on DNA analysis.[6]


While the bark and foliage are similar to another closely related genus of redwoods, Sequoia, M. glyptostroboides differs from the coast redwood in that it is deciduous, like Taxodium distichum (bald cypress). Similar to Taxodium, older trees may form wide buttresses on the lower trunk. Metasequoia is a fast-growing tree, exceeding 35 m (115 ft) in height and 1 m (3.3 ft) in trunk diameter by the age of 50, in cultivation (with the potential to grow to even greater dimensions). The trunk forms a distinctive "armpit" under each branch. The bark is vertically fissured and tends to exfoliate in ribbon-like strips.

The largest Dawn Redwood recorded was an isolated specimen in China about 50 meters (165 feet) tall and 2.2 meters (7.2 feet) wide. This tree was killed by a lightning strike in 1951.[7] Several Dawn Redwoods of this height still live in the eastern part of Shuishaba Valley, AKA Metasequoia Valley, where the tree was discovered.[7][8]

The leaves are opposite, 1–3 cm (0.39–1.18 in) long, and bright fresh green, turning a foxy reddish brown in fall. The pollen cones are 5–6 mm (0.20–0.24 in) long, produced on long spikes in early spring; they are produced only on trees growing in regions with hot summers. The cones are globose to ovoid, 1.5–2.5 cm (0.59–0.98 in) in diameter with 16-28 scales arranged in opposite pairs in four rows, each pair at right angles to the adjacent pair; they mature in about 8–9 months after pollination.


In Lichuan, Hubei, there is a dawn redwood forest consisting of barely 5,000 trees[9] (by another count, around 5,400 trees.[10]), and some smaller groups (typically, under 30 trees each).[10] The floodplain of "Metasequoia Valley" in Hubei had already been turned to rice paddies by the time of the tree's discovery, but was once probably a more extensive dawn redwood forest. Over 200 trunks were found in the floor of the valley, many over 2 meters (7 feet) wide. Additionally, houses made of Metasequoia wood 200–300 years old still exist and probably date back to the original settlement of the valley.[8] Since its discovery, the dawn redwood has become something of a national point of pride, and it is protected under Chinese law and also planted widely.[9] However, it is still listed as endangered in the wild.[11] Cutting of trees or branches is illegal, but the demand for seedlings drives cone collection to the point that natural reproduction is no longer occurring in the dawn redwood forest.[9] In addition, the landscape has been highly modified by human use, and a 1980 expedition found that the habitat has significantly degraded since the tree's discovery. Most of the other vegetation has been cut, and most of the area is no longer suitable ground for seedlings.[7] Between 1950 and 1980 several hundred were logged in Metasequoia valley, some over 2 meters (7 feet) wide.[7][8] The species will continue to live in yards, parks and on roadsides all over China, but the M. glyptostroboides forest ecosystem could disappear when its mature trees die.

Pizhou, Jiangsu boasts the longest dawn redwood avenue in the world. The avenue is approximately 60 km long with over one million trees.[12][13]


Since the tree's rediscovery in 1943, the Dawn redwood has become a popular ornamental tree in parks and gardens worldwide. It has gained the Royal Horticultural Society's Award of Garden Merit.[14]

Dawn redwood has proved an easy tree to grow in temperate regions, and is now widely planted as an ornamental tree. Planted trees have already reached 25–40 m (82–131 ft) in height and 1–1.3 m (3.3–4.3 ft) in diameter, despite being in cultivation for less than sixty years. This rapid rate of growth has led to consideration for using the tree in forestry plantations. It has been discovered that M. glyptostroboides will thrive in standing water, much like Bald Cypress, and if left branched to the ground in full sun, will develop the large, contorted boles that have made it famous. Limbing or pruning at an early age will prohibit this formation later on.

In cultivation, M. glyptostroboides is hardy to USDA Zone 5, making it hardy down to lows of -25 °F (-32 °C). It is tolerant of soggy, waterlogged soils; in the wild it is adapted to growing on flood plains. Until it is established in a specific site, it is prone to drought and inadequate water availability. The Dawn redwood is recommended for urban areas in the Midwest, Southeast, and East Coast of North America, as its fast growth rate and tolerance for air pollution make it widely adaptable and able to thrive where other species might suffer. This species tends to struggle without irrigation in arid climates such as the American West unless planted directly on or adjacent to a body of water such as a pond or stream. This species is also highly susceptible to damage from contact with heavy amounts of winter de-icing salt.[15]

In the late 1980s, it was discovered that many of the second generation trees in cultivation suffered from inbreeding depression (extremely low genetic variability) which could lead to increased susceptibility to disease and reproductive failure. This was because most of the trees were grown from seeds and cuttings derived from as few as three trees that the Arnold Arboretum had used as its source. More widespread seed-collecting expeditions in China in the 1990s sought to resolve this problem and restore genetic diversity to cultivated M. glyptostroboides.

In the United Kingdom[edit]

The Dawn redwood is frequently encountered across the UK. Growth has been fastest in the south-east, but it is believed the tree may have a longer future in the more humid western regions. The TROBI Champions are at Woking Park, Surrey: 22 m height by 144 cm d.b.h, Clare College, Cambridge: 21 m × 129 cm (planted 1949), and Wayford Woods, Somerset: 32 m × 99 cm.[16]

In the United States[edit]

Dawn redwoods thrive over a large, crescent-shaped region that encompasses the eastern and southern United States. Many institutions, such as the Arnold Arboretum of Harvard University have fine specimens, but the Crescent Ridge Dawn Redwoods Preserve in North Carolina remains the only endeavor for the re-introduction of the species into a natural setting in the US.

There is a small grove of Dawn Redwoods at Bailey Arboretum in Locust Valley, NY, including one tree which is claimed to be the world's largest by diameter.[17] And the New York City Department of Parks and Recreation has begun planting Dawn Redwoods on sidewalks throughout Manhattan and Brooklyn. Dawn Redwoods appear as ornamental trees in the United States.

This tree is sparingly naturalizing in parts of New Jersey and Appalachia.

See also[edit]


  1. ^ Bartholomew, Bruce, D. E. Boufford, and S. A. Spongberg. "Metasequoia glyptostroboides--Its present status in central China." Journal of the Arnold Arboretum 64.1 (1983): 105-128.
  2. ^ This hanzi for "fir" is the same as the kanji for another species, Cryptomeria japonica, that is, sugi, Japanese cedar. sugi in Wolfgang Hadamitzky and Mark Spahn (2011), Japanese Kanji and Kana: A Complete Guide to the Japanese Writing System, Rutland, VT: Tuttle, p. 361, Kanji 2033.
  3. ^ Ma, Jinshuang; Shao, Guofan (2003). "Rediscovery of the 'first collection' of the 'Living Fossil', Metasequoia glyptostroboides". Taxon. 52 (3): 585–8. doi:10.2307/3647458. 
  4. ^ Ma, Jinshuang (2003). "The chronology of the "living fossil" Metasequoia glyptostroboides (Taxodiaceae): A review (1943–2003)" (PDF). Harvard Papers in Botany. 8 (1): 9–18. Retrieved 22 March 2014. 
  5. ^ "Crescent Ridge_History". 
  6. ^ Gadek, P.A., Alpers, D.L., Heslewood, M.M., and Quinn, C.J. (2000). Relationships within Cupressaceae sensu lato: A combined morphological and molecular approach. American Journal of Botany, 87(7): 1044-1057.
  7. ^ a b c d
  8. ^ a b c
  9. ^ a b c Save The Redwoods League, Fall Bulletin, 1999, PDF 2.7 MB
  10. ^ a b Langlois, Gaytha A. (2005). "A conservation plan for Metasequoia in China". In LePage, Ben A.; Williams, Christopher James; Yang, Hong. The geobiology and ecology of Metasequoia. Volume 22 of Topics in geobiology. Springer. p. 369. ISBN 1-4020-2631-5. 
  11. ^ Farjon, A. (2013). "Metasequoia glyptostroboides". The IUCN Red List of Threatened Species. IUCN. 2013: e.T32317A2814244. doi:10.2305/IUCN.UK.2013-1.RLTS.T32317A2814244.en. Retrieved 16 January 2018.  Listed as Endangered B1ab(iii,v), v3.1
  12. ^ The Creation of the Longest Avenue in The World, Arboricultural Journal: The International Journal of Urban Forestry, 2013.
  13. ^ The Longest Avenue, The Horticulturalist: The Journal of the Institute of Horticulture, 2013.
  14. ^ "RHS Plant Selector - Metasequoia glyptostroboides". Retrieved 24 May 2013. 
  15. ^ Dirr, M.A. 1998. Manual of Woody Landscape Plants. Stipes Publishing Co., Champaign, IL. (1453 p.)
  16. ^ Johnson, O. (2011). Champion Trees of Britain & Ireland.  p.111. Kew Publishing. ISBN 978-1-84246-452-6
  17. ^ "Bailey Arboretum - the Dawn Redwood". 

Further reading[edit]

  • He, Zican, Jianqiang Li, Qing Cai, Xiaodong Li, and Hongwen Huang. 2004. "Cytogenetic Studies on Metasequoia Glyptostroboides, a Living Fossil Species". Genetica. 122, no. 3: 269-276.
  • International Metasequoia Symposium, Ben A. LePage, Christopher J. Williams, and Hong Yang. The Geobiology and Ecology of Metasequoia. Topics in geobiology, v. 22. Dordrecht: Springer, 2005. ISBN 1-4020-2764-8
  • Proceedings of the Second International Symposium on Metasequoia and Associated Plants, August 6–10, 2006, Metasequoia: Back from the Brink? An Update. Edited by Hong Yang and Leo J. Hickey. Bulletin of the Peabody Museum of Natural History, Volume 48, Issue 2 31 October 2007, pp. 179–426. [1]
  • Bartholomew, Bruce, D. E. Boufford, and S. A. Spongberg. "Metasequoia glyptostroboides--Its present status in central China." Journal of the Arnold Arboretum 64.1 (1983): 105-128.
  • Farjon, A. (2005). Monograph of Cupressaceae and Sciadopitys. Royal Botanic Gardens, Kew. ISBN 1-84246-068-4.
  • Hanks, D.A. Crescent Ridge Dawn Redwoods Preserve (2005).
  • Jahren, A. H. & Sternberg, L. S. L. (2003). Humidity estimate for the middle Eocene Arctic rain forest. Geology May 2003 pdf file[permanent dead link]
  • LePage, Ben A.; Williams, Christopher James; Yang, Hong, eds. (2005). The geobiology and ecology of Metasequoia. Volume 22 of Topics in geobiology. Springer. ISBN 1-4020-2631-5 
  • "Metasequoia Glyptostroboides". Integrated Taxonomic Information System. Retrieved September 25, 2006. 
  • "Metasequoia stumps, Axel Heiberg Island" (PDF).  (804 KB)
  • Williams C.J., LePage, B.A., Vann D.R., Tange, T., Ikeda, H., Ando, M., Kusakabe, T., Tsuzuki, T. and T. Sweda. (2003). Structure, allometry, and biomass of plantation Metasequoia glyptostroboides[permanent dead link] in Japan. Forest Ecology and Management, 180(103): 287-301. [2][permanent dead link]
  • Williams C.J., Johnson A.H., LePage, B.A., Vann D.R. and T. Sweda. 2003. Reconstruction of Tertiary Metasequoia Forests II. Structure, Biomass and Productivity of Eocene Floodplain Forests in the Canadian Arctic. Paleobiology, 29(2): 271-292. [3]

External links[edit]