Picea abies

Picea abies, the Norway spruce[2] or European spruce,[3] is a species of spruce native to Northern, Central and Eastern Europe.[4]

Norway spruce
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Gymnosperms
Division: Pinophyta
Class: Pinopsida
Order: Pinales
Family: Pinaceae
Genus: Picea
Species:
P. abies
Binomial name
Picea abies
The Norway spruce range.[1]
Distribution map. Green: native range. Orange: introduced areas. Crosses and triangles denote isolated populations.

It has branchlets that typically hang downwards, and the largest cones of any spruce, 9–17 cm long. It is very closely related to the Siberian spruce (Picea obovata), which replaces it east of the Ural Mountains, and with which it hybridizes freely. The Norway spruce has a wide distribution for it being planted for its wood, and is the species used as the main Christmas tree in several countries around the world. It was the first gymnosperm to have its genome sequenced. The Latin specific epithet abies means "like Abies, Fir tree".[5]

Description

An 1885 illustration of P. abies, showing the cones and leaves.
Young female cone

Norway spruce is a large, fast-growing evergreen coniferous tree growing 35–55 m (115–180 ft) tall and with a trunk diameter of 1 to 1.5 m. It can grow fast when young, up to 1 m per year for the first 25 years under good conditions, but becomes slower once over 20 m (65 ft) tall.[6] The shoots are orange-brown and glabrous. The leaves are needle-like with blunt tips,[7] 12–14 mm long, quadrangular in cross-section, and dark green on all four sides with inconspicuous stomatal lines. The seed cones are 9–17 cm long (the longest of any spruce), and have bluntly to sharply triangular-pointed scale tips. They are green or reddish, maturing brown 5–7 months after pollination. The seeds are black, 4–5 mm long, with a pale brown 15 mm wing.[1][8][9][10] The tallest measured Norway spruce is 62.26 m (204 ft) tall and grows near Ribnica na Pohorju, Slovenia.[11]

Range and ecology

The Norway spruce grows throughout Europe from Norway in the northwest and Poland eastward, and also in the mountains of central Europe, southwest to the western end of the Alps, and southeast in the Carpathians and Balkans to the extreme north of Greece. The northern limit is in the arctic, just north of 70° N in Norway. Its eastern limit in Russia is hard to define, due to extensive hybridization and intergradation with the Siberian spruce, but is usually given as the Ural Mountains. However, trees showing some Siberian spruce characters extend as far west as much of northern Finland, with a few records in northeast Norway. The hybrid is known as Picea × fennica (or P. abies subsp. fennica, if the two taxa are considered subspecies), and can be distinguished by a tendency towards having hairy shoots and cones with smoothly rounded scales.[8][9][10]

Norway spruce cone scales are used as food by the caterpillars of the tortrix moth Cydia illutana, whereas Cydia duplicana feeds on the bark around injuries or canker.

Taxonomy

Cones of P. obovata and Picea abies
Cones of P. obovata are short and have rounded scales.
Cones of P. abies are longer and have pointed scales.

Populations in southeast Europe tend to have on average longer cones with more pointed scales; these are sometimes distinguished as Picea abies var. acuminata, but there is extensive overlap in variation with trees from other parts of the range.[8][9][10]

Some botanists treat Siberian spruce as a subspecies of Norway spruce, though in their typical forms, they are very distinct, the Siberian spruce having cones only 5–10 cm long, with smoothly rounded scales, and pubescent shoots.[8][9][10] Genetically Norway and Siberian spruces have turned out to be extremely similar and may be considered as two closely related subspecies of P. abies.[12]

Another spruce with smoothly rounded cone scales and hairy shoots occurs rarely in the Central Alps in eastern Switzerland. It is also distinct in having thicker, blue-green leaves. Many texts treat this as a variant of Norway spruce, but it is as distinct as many other spruces, and appears to be more closely related to Siberian spruce (Picea obovata), Schrenk's spruce (Picea schrenkiana) from central Asia and Morinda spruce (Picea smithiana) in the Himalaya. Treated as a distinct species, it takes the name Alpine spruce (Picea alpestris). As with Siberian spruce, it hybridizes extensively with Norway spruce; pure specimens are rare. Hybrids are commonly known as Norwegian spruce, which should not be confused with the pure species Norway spruce.[8][9][10]

Cultivation

The Trafalgar Square Christmas tree in 2008. Given to London every year as a gift from Norway's capital city, Oslo, Norway spruces that are around 50 to 60 years old are typically used
Picea abies 'Inversa'
Picea abies 'Virgata'
Young spruce group marginal windthrow area twelve years after Kyrill / Vogelsberg

The Norway spruce is one of the most widely planted spruces, both in and outside of its native range, and one of the most economically important coniferous species in Europe.[3] It is used as an ornamental tree in parks and gardens. It is also widely planted for use as a Christmas tree. Every Christmas, the Norwegian capital city, Oslo, provides the cities of London (the Trafalgar Square Christmas tree), Edinburgh and Washington, D.C., with a Norway spruce, which is placed at the central most square of each city. This is mainly a sign of gratitude for the aid these countries gave during the Second World War.[13] In North America, Norway spruce is widely planted, specifically in the Northeastern, Pacific Coast, and Rocky Mountain states, as well as in southeastern Canada. It is naturalised in some parts of North America. There are naturalized populations occurring from Connecticut to Michigan, and it is probable that they occur elsewhere.[3] Norway spruces are more tolerant of hot, humid weather than many conifers which do not thrive except in cool-summer areas and they will grow up to USDA Growing Zone 8.

Seed production begins when the tree is in its fourth decade and total lifespan is up to 300 years in its natural range in Europe. Introduced Norway spruces in the British Isles and North America have a much shorter life expectancy. As the tree ages, its crown thins out and lower branches die off.

In the northern US and Canada, Norway spruce is reported as invasive in some locations; however, it does not pose a problem in Zone 6 and up as the seeds have a significantly reduced germination rate in areas with hot, humid summers.

The Norway spruce tolerates acidic soils well, but does not do well on dry or deficient soils. From 1928 until the 1960s it was planted on surface mine spoils in Indiana.[3]

Cultivars

Several cultivars have been selected as ornamentals (‘Barrya’, ‘Capitata’, ‘Decumbens’, ‘Dumosa’, ‘Clanbrassiliana’, ‘Gregoryana’, ‘Inversa’, ‘Microsperma’, ‘Nidiformis’, ‘Ohlendorffii’, ‘Repens’, ‘Tabuliformis’, ‘Maxwellii’, 'Virgata', 'Inversa', ‘Pendula’), with a wide variety of sizes and shapes, from full-sized forest trees to extremely slow-growing, prostrate forms. They are occasionally traded under the obsolete scientific name Picea excelsa (an illegitimate name).[14] The following cultivars have gained the Royal Horticultural Society's Award of Garden Merit:[15]

  • 'Acrocona'[16] - 4 m (13 ft) tall and broad
  • 'Clanbrassiliana'[17] - 1.2 m (3.9 ft) tall by 2.4 m (7.9 ft) broad
  • 'Inversa'[18] - 9 m (30 ft) tall by 4 m (13 ft) broad
  • 'Little Gem'[19] - 0.5 m (1.6 ft) tall and broad
  • 'Nidiformis'[20] - 1.5 m (4.9 ft) tall by 4 m (13 ft) broad

Uses

The Norway spruce is used in forestry for (softwood) timber,[21] and paper production.

The Norwegian company Borregaard produces the synthetic substitute for natural vanilla Vanillin using the Norwegian spruce.[22] They are currently the only company to produce wood based vanillin and is claimed by the company to be preferred by their customers due to, among other reasons, its much lower carbon footprint than petrochemically synthesized vanillin.[23]

It is esteemed as a source of tonewood by stringed-instrument makers.[24] One form of the tree called Haselfichte (Hazel-spruce) grows in the European Alps and has been recognized by UNESCO as intangible cultural heritage. This form was used by Stradivarius for instruments.[25]

As food

The tree is the source of spruce beer, which was once used to prevent and even cure scurvy.[26] This high vitamin C content can be consumed as a tea from the shoot tips or even eaten straight from the tree when light green and new in spring.

Norway spruce shoot tips have been used in traditional Austrian medicine internally (as syrup or tea) and externally (as baths, for inhalation, as ointments, as resin application or as tea) for treatment of disorders of the respiratory tract, skin, locomotor system, gastrointestinal tract and infections.[27]

During the production of Mont d'Or cheese it is wrapped in a "sangle" made from the cambium of a Norway spruce (French: Épicéa commun) for about two weeks at least, which gives the cheese a unique flavour.[28]

Longevity

A press release from Umeå University says that a Norway spruce clone named Old Tjikko, carbon dated as 9,550 years old, is the "oldest living tree".[29] The oldest individual specimen of Norway spruce discovered by tree ring dating found in 2012 in a nature reserve of Buskerud County, Norway was found to be 532 years old.[30]

However, Pando, a stand of 47,000 quaking aspen clones, is estimated to be between 14,000 and one million years old.[31][32][33]

The stress is on the difference between the singular "oldest tree" and the multiple "oldest trees", and between "oldest clone" and "oldest non-clone". Old Tjikko is one of a series of genetically identical clones growing from a root system, one part of which is estimated to be 9,550 years old based on carbon dating. The oldest known individual tree (that has not taken advantage of vegetative cloning) is a Great Basin bristlecone pine over 5,000 years old (germination in 3051 BC).[34]

Genetics

The genome of Picea abies was sequenced in 2013, the first gymnosperm genome to be completely sequenced.[35] The genome contains approximately 20 billion base pairs and is about six times the size of the human genome, despite possessing a similar number of genes. A large proportion of the spruce genome consists of repetitive DNA sequences, including long terminal repeat transposable elements. Despite recent advances in massively parallel DNA sequencing, the assembly of such a large and repetitive genome is a particularly challenging task, mainly from a computational perspective.[36]

Within populations of Picea abies there is great genetic variability, which most likely reflect populations' isolation in glacial refugia and post-glacial evolutionary history. Genetic diversity can in particular be detected when looking at how the populations respond to climatic conditions. E.g. variations in timing and length of the annual growth period as well as differences in frost-hardiness in spring and autumn. These annual growth patterns are important to recognize in order to choose the proper reforestation material of Picea abies.[37]

Chemistry

p-Hydroxybenzoic acid glucoside, picein, piceatannol and its glucoside (astringin), isorhapontin (the isorhapontigenin glucoside), catechin and ferulic acid are phenolic compounds found in mycorrhizal and non-mycorrhizal roots of Norway spruces.[38] Piceol[39] and astringin[40] are also found in P. abies.

Research

Extracts from Picea abies have shown inhibitory activity on porcine pancreatic lipase in vitro.[41]

Synonyms

Picea abies (L.) H. Karst is the accepted name of this species. More than 150 synonyms of Picea abies have been published.[42]

Homotypic synonyms of Picea abies are:[43]

  • Pinus abies L.
  • Abies picea Mill.
  • Pinus pyramidalis Salisb.
  • Pinus abies subsp. vulgaris Voss
  • Abies abies (L.) Druce

Some heterotypic synonyms of Picea abies are:

  • Abies alpestris Brügger
  • Abies carpatica (Loudon) Ravenscr.
  • Abies cinerea Borkh.
  • Abies clambrasiliana Lavallée
  • Abies clanbrassiliana P. Lawson
  • Abies coerulescens K. Koch
  • Abies conica Lavallée
  • Abies elegans Sm. ex J.Knight
  • Abies eremita K.Koch
  • Abies erythrocarpa (Purk.) Nyman
  • Abies excelsa (Lam.) Poir.
  • Abies extrema Th.Fr.
  • Abies finedonensis Gordon
  • Abies gigantea Sm. ex Carrière
  • Abies gregoryana H. Low. ex Gordon
  • Abies inverta R. Sm. ex Gordon
  • Abies lemoniana Booth ex Gordon
  • Abies medioxima C.Lawson
  • Abies minuta Poir.
  • Abies montana Nyman
  • Abies parvula Knight
  • Abies subarctica (Schur) Nyman
  • Abies viminalis Wahlenb.
  • Picea alpestris (Brügger) Stein
  • Picea cranstonii Beissn.
  • Picea elegantissima Beissn.
  • Picea excelsa (Lam.) Link
  • Picea finedonensis Beissn.
  • Picea gregoryana Beissn.
  • Picea integrisquamis (Carrière) Chiov.
  • Picea maxwellii Beissn.
  • Picea montana Schur
  • Picea remontii Beissn.
  • Picea rubra A. Dietr.
  • Picea subarctica Schur
  • Picea velebitica Simonk. ex Kümmerle
  • Picea viminalis (Alstr.) Beissn.
  • Picea vulgaris Link
  • Pinus excelsa Lam.
  • Pinus sativa Lam.
  • Pinus viminalis Alstr.

See also

References

  1. Farjon, A. (2017). "Picea abies". IUCN Red List of Threatened Species. 2017: e.T42318A71233492. doi:10.2305/IUCN.UK.2017-2.RLTS.T42318A71233492.en. Retrieved 12 November 2021.
  2. BSBI List 2007 (xls). Botanical Society of Britain and Ireland. Archived from the original (xls) on 2015-06-26. Retrieved 2014-10-17.
  3. Sullivan, Janet (1994). "Picea abies". Fire Effects Information System (FEIS). US Department of Agriculture (USDA), Forest Service (USFS), Rocky Mountain Research Station, Fire Sciences Laboratory. Retrieved 18 November 2009.
  4. "Picea abies (Norway spruce) description". Conifers.org. Retrieved 2017-01-08.
  5. Harrison, Lorraine (2012). RHS Latin for Gardeners. United Kingdom: Mitchell Beazley. ISBN 978-1845337315.
  6. Mitchell, A.F. (1974). A Field Guide to the Trees of Britain and Northern Europe. Collins ISBN 0-00-212035-6
  7. Taylor, Ronald J. (1993). "Picea abies". In Flora of North America Editorial Committee (ed.). Flora of North America North of Mexico (FNA). Vol. 2. New York and Oxford: Oxford University Press via eFloras.org, Missouri Botanical Garden, St. Louis, MO & Harvard University Herbaria, Cambridge, MA.
  8. Farjon, A. (1990). Pinaceae. Drawings and Descriptions of the Genera. Koeltz Scientific Books ISBN 3-87429-298-3.
  9. Rushforth, K. (1987). Conifers. Helm ISBN 0-7470-2801-X.
  10. Earle, Christopher J., ed. (2018). "Picea abies". The Gymnosperm Database.
  11. "Picea abies records". Monumental trees.
  12. Krutovskii, Konstantin V.; Bergmann, Fritz (1995). "Introgressive hybridization and phylogenetic relationships between Norway, Picea abies (L.) Karst., and Siberian, P. obovata Ledeb., spruce species studied by isozyme loci". Heredity. 74 (5): 464–480. doi:10.1038/hdy.1995.67.
  13. British Embassy Oslo. "Oslo's Christmas tree gift to Trafalgar Square". GOV.UK. Retrieved 28 June 2015.
  14. "ITIS Standard Report Page: Picea excelsa". www.itis.gov. Retrieved 2019-07-10.
  15. "AGM Plants - Ornamental" (PDF). Royal Horticultural Society. July 2017. p. 78. Retrieved 25 April 2018.
  16. "RHS Plantfinder - Picea abies 'Acrocona'". Retrieved 25 April 2018.
  17. "RHS Plantfinder - Picea abies 'Clanbrassiliana'". Retrieved 25 April 2018.
  18. "RHS Plantfinder - Picea abies 'Inversa'". Retrieved 25 April 2018.
  19. "RHS Plantfinder - Picea abies 'Little Gem'". Retrieved 25 April 2018.
  20. "RHS Plantfinder - Picea abies 'Nidiformis'". Retrieved 25 April 2018.
  21. Buckley, Michael (2005). "A basic guide to softwoods and hardwoods" (PDF). worldhardwoods.com. Archived from the original (PDF) on 19 August 2019. Retrieved 1 October 2017.
  22. https://zanos.co.uk/news/sustainable-vanillin-from-the-forests-of-norway/ Retrieved 1 April 2023
  23. https://www.borregaard.com/markets/food/plant-based-vanillin/ Retrieved 1 April 2023
  24. Paul Hostetter. "European spruce ranges, and commentary on Picea spp". Lutherie.net. Retrieved 2017-01-08.
  25. "Die Haselfichte". Waldwissen.net. 2012-06-20. Archived from the original on 2017-01-19. Retrieved 2017-01-08.
  26. Karellp (2012-06-11). "New Beer – Spruce Beer". The Black Creek Growler. Retrieved 30 September 2012.
  27. Vogl, S.; Picker, P.; Mihaly-Bison, J.; Fakhrudin, N.; Atanasov, A.G.; Heiss, E.H.; Wawrosch, C.; Reznicek, G.; Dirsch, V.M.; Saukel, J.; Kopp, B. (7 October 2013). "Ethnopharmacological in vitro studies on Austria's folk medicine – an unexplored lore. In vitro anti-inflammatory activities of 71 Austrian traditional herbal drugs". Journal of Ethnopharmacology. 149 (3): 750–771. doi:10.1016/j.jep.2013.06.007. PMC 3791396. PMID 23770053.
  28. "La sangle d'épicéa, secret d'un goût unique". Vacherin Mont-d'Or (in French). Retrieved 11 December 2022.
  29. "World's oldest living tree discovered in Sweden". Umeå University. April 16, 2008. Archived from the original on 20 April 2008. Retrieved 26 May 2013.
  30. "The oldest spruce in Northern Europe is 532 years old". 27 October 2012.
  31. Quaking Aspen by the Bryce Canyon National Park Service
  32. Mitton, J.B.; Grant, M.C. (1996). "Genetic variation and the natural history of quaking aspen". BioScience. 46 (1): 25–31. doi:10.2307/1312652. JSTOR 1312652.
  33. American, Scientific. "Swedish Spruce Is World's Oldest Tree". Scientific American.
  34. "Old List". Rocky Mountain Tree-Ring Research. Retrieved 16 August 2013.
  35. Nystedt, B.; Street, N.R.; Wetterbom, A.; Zuccolo, A.; Lin, Y.C.; Scofield, D.G.; Vezzi, F.; Delhomme, N.; Giacomello, S.; Alexeyenko, A.; et al. (30 May 2013). "The Norway spruce genome sequence and conifer genome evolution". Nature. 497 (7451): 579–584. Bibcode:2013Natur.497..579N. doi:10.1038/nature12211. hdl:1854/LU-4110028. PMID 23698360.
  36. Birol, I.; Raymond, A.; Jackman, S.D.; Pleasance, S.; Coope, R.; Taylor, G.A.; Yuen, M.M.; Keeling, C.I.; Brand, D.; Vandervalk, B.P.; et al. (2013). "Assembling the 20 Gb white spruce (Picea glauca) genome from whole-genome shotgun sequencing data". Bioinformatics. 29 (12): 1492–1497. doi:10.1093/bioinformatics/btt178. PMC 3673215. PMID 23698863.
  37. Skrøppa, T. (2003). "Picea abies - Norway spruce" (PDF). EUFORGEN; Technical Guidelines for Genetic Conservation and Use. Archived from the original (PDF) on 2016-10-22. Retrieved 2016-10-21.
  38. Münzenberger, B.; Heilemann, J.; Strack, D.; Kottke, I.; Oberwinkler, F. (1990). "Phenolics of mycorrhizas and non-mycorrhizal roots of Norway spruce". Planta. 182 (1): 142–148. doi:10.1007/BF00239996. PMID 24197010. S2CID 43504838.
  39. Løkke, Hans (June 1990). "Picein and piceol concentrations in Norway spruce". Ecotoxicology and Environmental Safety. 19 (3): 301–309. doi:10.1016/0147-6513(90)90032-Z. PMID 2364913.
  40. Lindberg, M.; Lundgren, L.; Gref, R.; Johansson, M. (1 May 1992). "Stilbenes and resin acids in relation to the penetration of Heterobasidion annosum through the bark of Picea abies". Forest Pathology. 22 (2): 95–106. doi:10.1111/j.1439-0329.1992.tb01436.x.
  41. Slanc, Petra; Doljak, Bojan; Kreft, Samo; Lunder, Mojca; Janeš, Damjan; šTrukelj, Borut (2009). "Screening of selected food and medicinal plant extracts for pancreatic lipase inhibition". Phytotherapy Research. 23 (6): 874–877. doi:10.1002/ptr.2718. PMID 19107742. S2CID 22562789.
  42. "Picea abies (L.) H. Karst". World Checklist of Selected Plant Families. Royal Botanic Gardens, Kew. Retrieved 14 March 2014 via The Plant List. Note that this website has been superseded by World Flora Online
  43. "Picea abies (L.) H.Karst., Deut. Fl.: 325 (1881)". World Checklist of Selected Plant Families (WCSP). Royal Botanic Gardens, Kew. Retrieved 14 March 2014.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.