fbpx
Wikipedia

Alnus glutinosa

February 06, 2023

Alnus glutinosa, the common alder, black alder, European alder, European black alder, or just alder, is a species of tree in the family Betulaceae, native to most of Europe, southwest Asia and northern Africa. It thrives in wet locations where its association with the bacterium Frankia alni enables it to grow in poor quality soils. It is a medium-sized, short-lived tree growing to a height of up to 30 metres (98 feet). It has short-stalked rounded leaves and separate male and female flowers in the form of catkins. The small, rounded fruits are cone-like and the seeds are dispersed by wind and water.

Alnus glutinosa
Scientific classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Fagales
Family: Betulaceae
Genus: Alnus
Subgenus: Alnus subg. Alnus
Species:
A. glutinosa
Binomial name
Alnus glutinosa
Distribution map
Synonyms[3]
  • Alnus glutinosa var. vulgaris Spach, nom. inval.
  • Alnus vulgaris Hill, nom. inval.
  • Betula alnus var. glutinosa L.
  • Betula glutinosa (L.) Lam.

The common alder provides food and shelter for wildlife, with a number of insects, lichens and fungi being completely dependent on the tree. It is a pioneer species, colonising vacant land and forming mixed forests as other trees appear in its wake. Eventually common alder dies out of woodlands because the seedlings need more light than is available on the forest floor. Its more usual habitat is forest edges, swamps and riverside corridors. The timber has been used in underwater foundations and for manufacture of paper and fibreboard, for smoking foods, for joinery, turnery and carving. Products of the tree have been used in ethnobotany, providing folk remedies for various ailments, and research has shown that extracts of the seeds are active against pathogenic bacteria.

Description

A. glutinosa is a tree that thrives in moist soils, and grows under favourable circumstances to a height of 20 to 30 metres (66 to 98 feet) and exceptionally up to 37 m (121 ft).[4] Young trees have an upright habit of growth with a main axial stem but older trees develop an arched crown with crooked branches. The base of the trunk produces adventitious roots which grow down to the soil and may appear to be propping the trunk up. The bark of young trees is smooth, glossy and greenish-brown while in older trees it is dark grey and fissured. The branches are smooth and somewhat sticky, being scattered with resinous warts. The buds are purplish-brown and have short stalks. Both male and female catkins form in the autumn and remain dormant during the winter.[5]

The leaves of the common alder are short-stalked, rounded, up to 10 centimetres (4 inches) long with a slightly wedge-shaped base and a wavy, serrated margin. They have a glossy dark green upper surface and paler green underside with rusty-brown hairs in the angles of the veins. As with some other trees growing near water, the common alder keeps its leaves longer than do trees in drier situations, and the leaves remain green late into the autumn. As the Latin name glutinosa implies, the buds and young leaves are sticky with a resinous gum.[5][6][7]

The species is monoecious and the flowers are wind-pollinated; the slender cylindrical male catkins are pendulous, reddish in colour and 5 to 10 cm (2 to 4 in) long; the female flowers are upright, broad and green, with short stalks. During the autumn they become dark brown to black in colour, hard, somewhat woody, and superficially similar to small conifer cones. They last through the winter and the small winged seeds are mostly scattered the following spring. The seeds are flattened reddish-brown nuts edged with webbing filled with pockets of air. This enables them to float for about a month which allows the seed to disperse widely.[5][6][7]

Unlike some other species of tree, common alders do not produce shade leaves. The respiration rate of shaded foliage is the same as well-lit leaves but the rate of assimilation is lower. This means that as a tree in woodland grows taller, the lower branches die and soon decay, leaving a small crown and unbranched trunk.[8]

  •  

    Bark

  •  

    Buds

  •  

    Foliage

  •  

    Male inflorescence (left) and mature cone-like flowers (right)

Taxonomy

A. glutinosa was first described by Carl Linnaeus in 1753, as one of two varieties of alder (the other being Alnus incana), which he regarded as a single species Betula alnus.[9] In 1785, Jean-Baptiste Lamarck treated it as a full species under the name Betula glutinosa.[10] Its present scientific name is due to Joseph Gaertner, who in 1791 accepted the separation of alders from birches, and transferred the species to Alnus.[2] The epithet glutinosa means "sticky", referring particularly to the young shoots.[11]

Within the genus Alnus, the common alder is placed in subgenus Alnus as part of a closely related group of species including the grey alder, A. incana,[12] with which it hybridizes to form the hybrid A. × hybrida.[13] Both species are diploid. In 2017, populations formerly considered to be A. glutinosa were found to be separate, polyploid species: A. lusitanica, which is native to the Iberian Peninsula and Morocco, and A. rohlenae, which is native to the western part of the Balkan Peninsula.[14]

Distribution and habitat

The common alder is native to almost the whole of continental Europe (except for both the extreme north and south) as well as the United Kingdom and Ireland. In Asia its range includes Turkey, Iran and Kazakhstan, and in Africa it is found in Tunisia, Algeria and Morocco. It is naturalised in the Azores.[15] It has been introduced, either by accident or by intent, to Canada, the United States, Chile, South Africa, Australia and New Zealand.[16] Its natural habitat is in moist ground near rivers, ponds and lakes but it can also grow in drier locations and sometimes occurs in mixed woodland and on forest edges. It tolerates a range of soil types and grows best at a pH of between 5.5 and 7.2. Because of its association with the nitrogen-fixing bacterium Frankia alni, it can grow in nutrient-poor soils where few other trees thrive.[16]

  •  

    Alder carr in Germany

  •  

    Trees in winter, Germany

  •  

    Black alder in Ås, Norway

  •  

    Black alder defies harsh conditions in the Swedish archipelago

  •  

    September foliage in Reilingen

Ecology

 
Nodules on the roots caused by Frankia alni
 
Galls on the leaves caused by the mite Eriophyes inangulis
 
Alder tongue gall (Taphrina alni)

The common alder is most noted for its symbiotic relationship with the bacterium Frankia alni, which forms nodules on the tree's roots. This bacterium absorbs nitrogen from the air and fixes it in a form available to the tree. In return, the bacterium receives carbon products produced by the tree through photosynthesis. This relationship, which improves the fertility of the soil, has established the common alder as an important pioneer species in ecological succession.[17]

The common alder is susceptible to Phytophthora alni, a recently evolved species of oomycete plant pathogen probably of hybrid origin. This is the causal agent of phytophthora disease of alder which is causing extensive mortality of the trees in some parts of Europe.[18] The symptoms of this infection include the death of roots and of patches of bark, dark spots near the base of the trunk, yellowing of leaves and in subsequent years, the death of branches and sometimes the whole tree.[16] Taphrina alni is a fungal plant pathogen that causes alder tongue gall, a chemically induced distortion of female catkins. The gall develops on the maturing fruits and produces spores which are carried by the wind to other trees. This gall is believed to be harmless to the tree.[19] Another, also harmless, gall is caused by a midge, Eriophyes inangulis, which sucks sap from the leaves forming pustules.[20]

The common alder is important to wildlife all year round and the seeds are a useful winter food for birds. Deer, sheep, hares and rabbits feed on the tree and it provides shelter for livestock in winter.[16] It shades the water of rivers and streams, moderating the water temperature, and this benefits fish which also find safety among its exposed roots in times of flood. The common alder is the foodplant of the larvae of a number of different butterflies and moths[21] and is associated with over 140 species of plant-eating insect.[20] The tree is also a host to a variety of mosses and lichens which particularly flourish in the humid moist environment of streamside trees. Some common lichens found growing on the trunk and branches include tree lungwort (Lobaria pulmonaria), Menneguzzia terebrata and Stenocybe pullatula, the last of which is restricted to alders.[20] Some 47 species of mycorrhizal fungi have been found growing in symbiosis with the common alder, both partners benefiting from an exchange of nutrients. As well as several species of Naucoria, these symbionts include Russula alnetorum, the milkcaps Lactarius obscuratus and Lactarius cyathula, and the alder roll-rim Paxillus filamentosus, all of which grow nowhere else except in association with alders. In spring, the catkin cup Ciboria amentacea grows on fallen alder catkins.[20]

As an introduced species, the common alder can affect the ecology of its new locality. It is a fast-growing tree and can quickly form dense woods where little light reaches the ground, and this may inhibit the growth of native plants. The presence of the nitrogen-fixing bacteria and the annual accumulation of leaf litter from the trees also alters the nutrient status of the soil. It also increases the availability of phosphorus in the ground, and the tree's dense network of roots can cause increased sedimentation in pools and waterways. It spreads easily by wind-borne seed, may be dispersed to a certain extent by birds and the woody fruits can float away from the parent tree. When the tree is felled, regrowth occurs from the stump, and logs and fallen branches can take root.[16] In the Midwestern United States, Alnus glutinosa is a highly invasive terrestrial plant and is prohibited in Indiana.[22] A. glutinosa is classed as an environmental weed in New Zealand.[23]

Toxicity

Pollen from the common alder, along with that from birch and hazel, is one of the many sources of tree pollen allergy. As the pollen is often present in the atmosphere at the same time as that of birch, hazel, hornbeam and oak, and they have similar physicochemical properties, it is difficult to separate out their individual effects. In central Europe, these tree pollens are the second most common cause of allergic conditions after grass pollen.[24]

Uses

The common alder is used as a pioneer species and to stabilise river banks, to assist in flood control, to purify water in waterlogged soils and to moderate the temperature and nutrient status of water bodies. It can be grown by itself or in mixed species plantations, and the nitrogen-rich leaves falling to the ground enrich the soil and increase the production of such trees as walnut, Douglas-fir and poplar on poor quality soils. Although the tree can live for up to 160 years, it is best felled for timber at 60 to 70 years before heart rot sets in.[8]

On marshy ground it is important as coppice-wood, being cut near the base to encourage the production of straight poles. It is capable of enduring clipping as well as marine climatic conditions and may be cultivated as a fast-growing windbreak. In woodland natural regeneration is not possible as the seeds need sufficient nutrients, water and light to germinate. Such conditions are rarely found at the forest floor and as the forest matures, the alder trees in it die out.[25][26] The species is cultivated as a specimen tree in parks and gardens, and the cultivar 'Imperialis' has gained the Royal Horticultural Society's Award of Garden Merit.[27]

Timber

The wood is soft, white when first cut, turning to pale red; the knots are attractively mottled. The timber is not used where strength is required in the construction industry, but is used for paper-making, the manufacture of fibreboard and the production of energy.[8] Under water the wood is very durable and is used for deep foundations of buildings. The piles beneath the Rialto in Venice, and the foundations of several medieval cathedrals are made of alder. The Roman architect Vitruvius mentioned that the timber was used in the construction of the causeways across the Ravenna marshes.[28] The wood is used in joinery, both as solid timber and as veneer, where its grain and colour are appreciated, and it takes dye well. As the wood is soft, flexible and somewhat light, it can be easily worked as well as split. It is also valued in turnery, carving, furniture making, window frames, clogs, toys, blocks, pencils and bowls.[5]

European (common) Alder is a Tonewood commonly used in the manufacture of electric guitars.[29] It exhibits a balanced, even tone with a good mid-midrange projection making it suitable for a wide variety of musical applications. It's relatively lightweight, easy to work and sand,[30] accepts glue, stain, paint and finish very well and is inexpensive. All this has made it a favourite of large factories mass producing instruments. The Fender musical instrument company has been continuously and uninterruptedly using Alder to make electric guitars since 1956.[29]

Tanning and dyeing

The bark of the common alder has long been used in tanning and dyeing. The bark and twigs contain 16 to 20% tannic acid but their usefulness in tanning is limited by the strong accompanying colour they produce.[31] Depending on the mordant and the methods used, various shades of brown, fawn, and yellowish-orange hues can be imparted to wool, cotton and silk. Alder bark can also be used with iron sulphate to create a black dye which can substitute for the use of sumach or galls.[32] The Laplanders are said to chew the bark and use their saliva to dye leather. The shoots of the common alder produce a yellowish or cinnamon-coloured dye if cut early in the year. Other parts of the tree are also used in dyeing; the catkins can yield a green colour and the fresh-cut wood a pinkish-fawn colour.[31]

Medicine

The bark of common alder has traditionally been used as an astringent, a cathartic, a hemostatic, a febrifuge, a tonic and a restorative (a substance able to restore normal health). A decoction of the bark has been used to treat swelling, inflammation and rheumatism, as an emetic, and to treat pharyngitis and sore throat.[33] Ground up bark has been used as an ingredient in toothpaste, and the inner bark can be boiled in vinegar to provide a skin wash for treating dermatitis, lice and scabies. The leaves have been used to reduce breast discomfort in nursing mothers and folk remedies advocate the use of the leaves against various forms of cancer.[25] Alpine farmers are said to use the leaves to alleviate rheumatism by placing a heated bag full of leaves on the affected areas. Alder leaves are consumed by cows, sheep, goats and horses though pigs refuse to eat them. According to some people, consumption of alder leaves causes blackening of the tongue and is harmful to horses.[31]

In a research study, extracts from the seeds of the common alder have been found to be active against all the eight pathogenic bacteria against which they were tested, which included Escherichia coli and methicillin-resistant Staphylococcus aureus (MRSA). The only extract to have significant antioxidant activity was that extracted in methanol. All extracts were of low toxicity to brine shrimps. These results suggest that the seeds could be further investigated for use in the development of possible anti-MRSA drugs.[34]

Other uses

It is also the traditional wood that is burnt to produce smoked fish and other smoked foods, though in some areas other woods are now more often used. It supplies high quality charcoal.[5]

The leaves of this tree are sticky and if they are spread on the floor of a room, their adhesive surface is said to trap fleas.[31]

Chemical constituents of Alnus glutinosa include hirsutanonol, oregonin, genkwanin,[35] rhododendrin {3-(4-hydroxyphenyl)-l-methylpropyl-β-D-glucopyranoside} and (penta-2,3-dienedioic acid).[33]

References

  1. ^ Participants of the FFI; IUCN SSC Central Asian regional tree Red Listing workshop, Bishkek, Kyrgyzstan (11–13 July 2006) (2007). "Alnus glutinosa". IUCN Red List of Threatened Species. 2007. Retrieved 8 October 2014.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  2. ^ a b "Alnus glutinosa". The International Plant Names Index. Retrieved 2014-08-31.
  3. ^ "Alnus glutinosa". World Checklist of Selected Plant Families. Royal Botanic Gardens, Kew. Retrieved 2014-08-31.
  4. ^ . Land Brandenburg. Archived from the original on 2016-03-03. Retrieved 2009-01-19.
  5. ^ a b c d e Vedel, Helge; Lange, Johan (1960). Trees and Bushes in Woods and Hedgerows. Methuen. pp. 143–145. ISBN 978-0-416-61780-1.
  6. ^ a b . Archived from the original on 2014-03-01. Retrieved 2008-10-13.
  7. ^ a b Flora of NW Europe: Alnus glutinosa
  8. ^ a b c Claessens, Hugues; Oosterbaan, Anne; Savill, Peter; Rondeux, Jacques (2010). "A review of the characteristics of black alder (Alnus glutinosa (L.) Gaertn.) and their implications for silvicultural practices". Forestry. 83 (2): 163–175. doi:10.1093/forestry/cpp038.
  9. ^ "Betula alnus var. glutinosa". The International Plant Names Index. Retrieved 2014-08-31.
  10. ^ "Betula glutinosa". The International Plant Names Index. Retrieved 2014-08-31.
  11. ^ Coombes, Allen J. (1994). Dictionary of Plant Names. London: Hamlyn Books. p. 8. ISBN 978-0-600-58187-1.
  12. ^ Chen, Zhiduan & Li, Jianhua (2004). "Phylogenetics and Biogeography of Alnus (Betulaceae) Inferred from Sequences of Nuclear Ribosomal DNA ITS Region". International Journal of Plant Sciences. 165 (2): 325–335. doi:10.1086/382795. S2CID 85579093.
  13. ^ Stace, Clive (2010). New Flora of the British Isles (3rd ed.). Cambridge, UK: Cambridge University Press. p. 296. ISBN 978-0-521-70772-5.
  14. ^ Vít, Petr; Douda, Jan; Krak, Karol; Havrdová, Alena; Mandák, Bohumil (2017). "Two new polyploid species closely related to Alnus glutinosa in Europe and North Africa – an analysis based on morphometry, karyology, flow cytometry and microsatellites". Taxon. 66 (3): 567–583. doi:10.12705/663.4.
  15. ^ "Alnus glutinosa". Flora Europaea. Royal Botanic Garden Edinburgh. Retrieved 2014-08-09.
  16. ^ a b c d e . Global Invasive Species Database. IUCN SSC Invasive Species Specialist Group. 2010-08-27. Archived from the original on 2014-08-11. Retrieved 2014-08-04.
  17. ^ Schwencke, J.; Caru, M. (2001). "Advances in actinorhizal symbiosis: Host plant-Frankia interactions, biology, and application in arid land reclamation: A review". Arid Land Research and Management. 15 (4): 285–327. doi:10.1080/153249801753127615. S2CID 84165205.
  18. ^ (PDF). Archived from the original (PDF) on 2015-09-24. Retrieved 2008-10-13.
  19. ^ Ellis, Hewett A. (2001). Cecidology. Vol.16, No.1. p. 24.
  20. ^ a b c d Featherstone, Alan Watson (2012-11-26). . Trees for life. Archived from the original on 2014-03-01. Retrieved 2014-08-07.
  21. ^ Carter, David James; Hargreaves, Brian (1986). A field guide to caterpillars of butterflies and moths in Britain and Europe. Collins. ISBN 978-0-00-219080-0.
  22. ^ Indiana Invasive Species Council (17 April 2020). "Official IISC Invasive Plant List". West Lafayette, Ind.: Purdue University. Retrieved 2020-12-25.
  23. ^ Clayson, Howell (May 2008). Consolidated list of environmental weeds in New Zealand. Wellington: Department of Conservation. ISBN 978-0-478-14412-3.
  24. ^ "Erle: Schwarzerle, Alnus glutinosa". Alles zur Allergologie (in German). Retrieved 2014-08-05.
  25. ^ a b "Alnus glutinosa - (L.)Gaertn". Plants For A Future. 2012. Retrieved 2014-08-05.
  26. ^ Kajba, D. & Gračan, J. (2003). "Alnus glutinosa" (PDF). EUFORGEN Technical Guidelines for Genetic Conservation and Use for Black Alder: 4 p.
  27. ^ "Alnus glutinosa Imperialis". Royal Horticultural Society. Retrieved 2014-08-06.
  28. ^ Paterson, J. M. "The Alder Tree". A Tree in Your Pocket. Retrieved 2014-08-03.
  29. ^ a b Ash vs. Alder: What's the Difference?
  30. ^ European Alder (Alnus glutinosa)
  31. ^ a b c d Grieve, M. "Alder, Common". Botanical.com: A Modern Herbal. Retrieved 2014-08-05.
  32. ^ Adrosko, Rita J. (2012). Natural Dyes and Home Dyeing. Courier Dover Publications. pp. 41–42. ISBN 978-0-486-15609-5.
  33. ^ a b Sati, Sushil Chandra; Sati, Nitin; Sati, O. P. (2011). "Bioactive constituents and medicinal importance of genus Alnus". Pharmacognosy Reviews. 5 (10): 174–183. doi:10.4103/0973-7847.91115. PMC 3263052. PMID 22279375.
  34. ^ Middleton, P.; Stewart, F.; Al-Qahtani, S.; Egan, P.; O'Rourke, C.; Abdulrahman, A.; Byres, M.; Middleton, M.; Kumarasamy, Y.; Shoeb, M.; Nahar, L.; Delazar, A.; Sarker, S. D. (2005). "Antioxidant, Antibacterial Activities and General Toxicity of Alnus glutinosa, Fraxinus excelsior and Papaver rhoeas". Iranian Journal of Pharmaceutical Research. 4 (2): 101–103.
  35. ^ O'Rourke, Ciara; Sarker, Satyajit D.; Stewart, Fiona; Byres, Maureen; Delazar, Abbas; Kumarasamy, Yashodharan; Nahar, Lutfun (2005). "Hirsutanonol, oregonin and genkwanin from the seeds of Alnus glutinosa (Betulaceae)". Biochemical Systematics and Ecology. 33 (7): 749–752. doi:10.1016/j.bse.2004.10.005. ISSN 0305-1978.

External links

  • Alnus glutinosa - distribution map, genetic conservation units and related resources. European Forest Genetic Resources Programme (EUFORGEN)
  •   Media related to Alnus glutinosa at Wikimedia Commons
  •   Data related to Alnus glutinosa at Wikispecies

February 06, 2023
alnus, glutinosa, common, alder, black, alder, european, alder, european, black, alder, just, alder, species, tree, family, betulaceae, native, most, europe, southwest, asia, northern, africa, thrives, locations, where, association, with, bacterium, frankia, a. Alnus glutinosa the common alder black alder European alder European black alder or just alder is a species of tree in the family Betulaceae native to most of Europe southwest Asia and northern Africa It thrives in wet locations where its association with the bacterium Frankia alni enables it to grow in poor quality soils It is a medium sized short lived tree growing to a height of up to 30 metres 98 feet It has short stalked rounded leaves and separate male and female flowers in the form of catkins The small rounded fruits are cone like and the seeds are dispersed by wind and water Alnus glutinosaConservation statusLeast Concern IUCN 3 1 1 Scientific classificationKingdom PlantaeClade TracheophytesClade AngiospermsClade EudicotsClade RosidsOrder FagalesFamily BetulaceaeGenus AlnusSubgenus Alnus subg AlnusSpecies A glutinosaBinomial nameAlnus glutinosa L Gaertn 2 Distribution mapSynonyms 3 Alnus glutinosa var vulgaris Spach nom inval Alnus vulgaris Hill nom inval Betula alnus var glutinosa L Betula glutinosa L Lam The common alder provides food and shelter for wildlife with a number of insects lichens and fungi being completely dependent on the tree It is a pioneer species colonising vacant land and forming mixed forests as other trees appear in its wake Eventually common alder dies out of woodlands because the seedlings need more light than is available on the forest floor Its more usual habitat is forest edges swamps and riverside corridors The timber has been used in underwater foundations and for manufacture of paper and fibreboard for smoking foods for joinery turnery and carving Products of the tree have been used in ethnobotany providing folk remedies for various ailments and research has shown that extracts of the seeds are active against pathogenic bacteria Contents 1 Description 2 Taxonomy 3 Distribution and habitat 4 Ecology 5 Toxicity 6 Uses 6 1 Timber 6 2 Tanning and dyeing 6 3 Medicine 6 4 Other uses 7 References 8 External linksDescription EditA glutinosa is a tree that thrives in moist soils and grows under favourable circumstances to a height of 20 to 30 metres 66 to 98 feet and exceptionally up to 37 m 121 ft 4 Young trees have an upright habit of growth with a main axial stem but older trees develop an arched crown with crooked branches The base of the trunk produces adventitious roots which grow down to the soil and may appear to be propping the trunk up The bark of young trees is smooth glossy and greenish brown while in older trees it is dark grey and fissured The branches are smooth and somewhat sticky being scattered with resinous warts The buds are purplish brown and have short stalks Both male and female catkins form in the autumn and remain dormant during the winter 5 The leaves of the common alder are short stalked rounded up to 10 centimetres 4 inches long with a slightly wedge shaped base and a wavy serrated margin They have a glossy dark green upper surface and paler green underside with rusty brown hairs in the angles of the veins As with some other trees growing near water the common alder keeps its leaves longer than do trees in drier situations and the leaves remain green late into the autumn As the Latin name glutinosa implies the buds and young leaves are sticky with a resinous gum 5 6 7 The species is monoecious and the flowers are wind pollinated the slender cylindrical male catkins are pendulous reddish in colour and 5 to 10 cm 2 to 4 in long the female flowers are upright broad and green with short stalks During the autumn they become dark brown to black in colour hard somewhat woody and superficially similar to small conifer cones They last through the winter and the small winged seeds are mostly scattered the following spring The seeds are flattened reddish brown nuts edged with webbing filled with pockets of air This enables them to float for about a month which allows the seed to disperse widely 5 6 7 Unlike some other species of tree common alders do not produce shade leaves The respiration rate of shaded foliage is the same as well lit leaves but the rate of assimilation is lower This means that as a tree in woodland grows taller the lower branches die and soon decay leaving a small crown and unbranched trunk 8 Bark Buds Foliage Male inflorescence left and mature cone like flowers right Infrutescence and achenesTaxonomy EditA glutinosa was first described by Carl Linnaeus in 1753 as one of two varieties of alder the other being Alnus incana which he regarded as a single species Betula alnus 9 In 1785 Jean Baptiste Lamarck treated it as a full species under the name Betula glutinosa 10 Its present scientific name is due to Joseph Gaertner who in 1791 accepted the separation of alders from birches and transferred the species to Alnus 2 The epithet glutinosa means sticky referring particularly to the young shoots 11 Within the genus Alnus the common alder is placed in subgenus Alnus as part of a closely related group of species including the grey alder A incana 12 with which it hybridizes to form the hybrid A hybrida 13 Both species are diploid In 2017 populations formerly considered to be A glutinosa were found to be separate polyploid species A lusitanica which is native to the Iberian Peninsula and Morocco and A rohlenae which is native to the western part of the Balkan Peninsula 14 Distribution and habitat EditThe common alder is native to almost the whole of continental Europe except for both the extreme north and south as well as the United Kingdom and Ireland In Asia its range includes Turkey Iran and Kazakhstan and in Africa it is found in Tunisia Algeria and Morocco It is naturalised in the Azores 15 It has been introduced either by accident or by intent to Canada the United States Chile South Africa Australia and New Zealand 16 Its natural habitat is in moist ground near rivers ponds and lakes but it can also grow in drier locations and sometimes occurs in mixed woodland and on forest edges It tolerates a range of soil types and grows best at a pH of between 5 5 and 7 2 Because of its association with the nitrogen fixing bacterium Frankia alni it can grow in nutrient poor soils where few other trees thrive 16 Alder carr in Germany Trees in winter Germany Black alder in As Norway Black alder defies harsh conditions in the Swedish archipelago September foliage in ReilingenEcology Edit Nodules on the roots caused by Frankia alni Galls on the leaves caused by the mite Eriophyes inangulis Alder tongue gall Taphrina alni The common alder is most noted for its symbiotic relationship with the bacterium Frankia alni which forms nodules on the tree s roots This bacterium absorbs nitrogen from the air and fixes it in a form available to the tree In return the bacterium receives carbon products produced by the tree through photosynthesis This relationship which improves the fertility of the soil has established the common alder as an important pioneer species in ecological succession 17 The common alder is susceptible to Phytophthora alni a recently evolved species of oomycete plant pathogen probably of hybrid origin This is the causal agent of phytophthora disease of alder which is causing extensive mortality of the trees in some parts of Europe 18 The symptoms of this infection include the death of roots and of patches of bark dark spots near the base of the trunk yellowing of leaves and in subsequent years the death of branches and sometimes the whole tree 16 Taphrina alni is a fungal plant pathogen that causes alder tongue gall a chemically induced distortion of female catkins The gall develops on the maturing fruits and produces spores which are carried by the wind to other trees This gall is believed to be harmless to the tree 19 Another also harmless gall is caused by a midge Eriophyes inangulis which sucks sap from the leaves forming pustules 20 The common alder is important to wildlife all year round and the seeds are a useful winter food for birds Deer sheep hares and rabbits feed on the tree and it provides shelter for livestock in winter 16 It shades the water of rivers and streams moderating the water temperature and this benefits fish which also find safety among its exposed roots in times of flood The common alder is the foodplant of the larvae of a number of different butterflies and moths 21 and is associated with over 140 species of plant eating insect 20 The tree is also a host to a variety of mosses and lichens which particularly flourish in the humid moist environment of streamside trees Some common lichens found growing on the trunk and branches include tree lungwort Lobaria pulmonaria Menneguzzia terebrata and Stenocybe pullatula the last of which is restricted to alders 20 Some 47 species of mycorrhizal fungi have been found growing in symbiosis with the common alder both partners benefiting from an exchange of nutrients As well as several species of Naucoria these symbionts include Russula alnetorum the milkcaps Lactarius obscuratus and Lactarius cyathula and the alder roll rim Paxillus filamentosus all of which grow nowhere else except in association with alders In spring the catkin cup Ciboria amentacea grows on fallen alder catkins 20 As an introduced species the common alder can affect the ecology of its new locality It is a fast growing tree and can quickly form dense woods where little light reaches the ground and this may inhibit the growth of native plants The presence of the nitrogen fixing bacteria and the annual accumulation of leaf litter from the trees also alters the nutrient status of the soil It also increases the availability of phosphorus in the ground and the tree s dense network of roots can cause increased sedimentation in pools and waterways It spreads easily by wind borne seed may be dispersed to a certain extent by birds and the woody fruits can float away from the parent tree When the tree is felled regrowth occurs from the stump and logs and fallen branches can take root 16 In the Midwestern United States Alnus glutinosa is a highly invasive terrestrial plant and is prohibited in Indiana 22 A glutinosa is classed as an environmental weed in New Zealand 23 Toxicity EditPollen from the common alder along with that from birch and hazel is one of the many sources of tree pollen allergy As the pollen is often present in the atmosphere at the same time as that of birch hazel hornbeam and oak and they have similar physicochemical properties it is difficult to separate out their individual effects In central Europe these tree pollens are the second most common cause of allergic conditions after grass pollen 24 Uses EditThe common alder is used as a pioneer species and to stabilise river banks to assist in flood control to purify water in waterlogged soils and to moderate the temperature and nutrient status of water bodies It can be grown by itself or in mixed species plantations and the nitrogen rich leaves falling to the ground enrich the soil and increase the production of such trees as walnut Douglas fir and poplar on poor quality soils Although the tree can live for up to 160 years it is best felled for timber at 60 to 70 years before heart rot sets in 8 On marshy ground it is important as coppice wood being cut near the base to encourage the production of straight poles It is capable of enduring clipping as well as marine climatic conditions and may be cultivated as a fast growing windbreak In woodland natural regeneration is not possible as the seeds need sufficient nutrients water and light to germinate Such conditions are rarely found at the forest floor and as the forest matures the alder trees in it die out 25 26 The species is cultivated as a specimen tree in parks and gardens and the cultivar Imperialis has gained the Royal Horticultural Society s Award of Garden Merit 27 Timber Edit The wood is soft white when first cut turning to pale red the knots are attractively mottled The timber is not used where strength is required in the construction industry but is used for paper making the manufacture of fibreboard and the production of energy 8 Under water the wood is very durable and is used for deep foundations of buildings The piles beneath the Rialto in Venice and the foundations of several medieval cathedrals are made of alder The Roman architect Vitruvius mentioned that the timber was used in the construction of the causeways across the Ravenna marshes 28 The wood is used in joinery both as solid timber and as veneer where its grain and colour are appreciated and it takes dye well As the wood is soft flexible and somewhat light it can be easily worked as well as split It is also valued in turnery carving furniture making window frames clogs toys blocks pencils and bowls 5 European common Alder is a Tonewood commonly used in the manufacture of electric guitars 29 It exhibits a balanced even tone with a good mid midrange projection making it suitable for a wide variety of musical applications It s relatively lightweight easy to work and sand 30 accepts glue stain paint and finish very well and is inexpensive All this has made it a favourite of large factories mass producing instruments The Fender musical instrument company has been continuously and uninterruptedly using Alder to make electric guitars since 1956 29 Tanning and dyeing Edit The bark of the common alder has long been used in tanning and dyeing The bark and twigs contain 16 to 20 tannic acid but their usefulness in tanning is limited by the strong accompanying colour they produce 31 Depending on the mordant and the methods used various shades of brown fawn and yellowish orange hues can be imparted to wool cotton and silk Alder bark can also be used with iron sulphate to create a black dye which can substitute for the use of sumach or galls 32 The Laplanders are said to chew the bark and use their saliva to dye leather The shoots of the common alder produce a yellowish or cinnamon coloured dye if cut early in the year Other parts of the tree are also used in dyeing the catkins can yield a green colour and the fresh cut wood a pinkish fawn colour 31 Medicine Edit The bark of common alder has traditionally been used as an astringent a cathartic a hemostatic a febrifuge a tonic and a restorative a substance able to restore normal health A decoction of the bark has been used to treat swelling inflammation and rheumatism as an emetic and to treat pharyngitis and sore throat 33 Ground up bark has been used as an ingredient in toothpaste and the inner bark can be boiled in vinegar to provide a skin wash for treating dermatitis lice and scabies The leaves have been used to reduce breast discomfort in nursing mothers and folk remedies advocate the use of the leaves against various forms of cancer 25 Alpine farmers are said to use the leaves to alleviate rheumatism by placing a heated bag full of leaves on the affected areas Alder leaves are consumed by cows sheep goats and horses though pigs refuse to eat them According to some people consumption of alder leaves causes blackening of the tongue and is harmful to horses 31 In a research study extracts from the seeds of the common alder have been found to be active against all the eight pathogenic bacteria against which they were tested which included Escherichia coli and methicillin resistant Staphylococcus aureus MRSA The only extract to have significant antioxidant activity was that extracted in methanol All extracts were of low toxicity to brine shrimps These results suggest that the seeds could be further investigated for use in the development of possible anti MRSA drugs 34 Other uses Edit It is also the traditional wood that is burnt to produce smoked fish and other smoked foods though in some areas other woods are now more often used It supplies high quality charcoal 5 The leaves of this tree are sticky and if they are spread on the floor of a room their adhesive surface is said to trap fleas 31 Chemical constituents of Alnus glutinosa include hirsutanonol oregonin genkwanin 35 rhododendrin 3 4 hydroxyphenyl l methylpropyl b D glucopyranoside and penta 2 3 dienedioic acid 33 References Edit Participants of the FFI IUCN SSC Central Asian regional tree Red Listing workshop Bishkek Kyrgyzstan 11 13 July 2006 2007 Alnus glutinosa IUCN Red List of Threatened Species 2007 Retrieved 8 October 2014 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link old form url a b Alnus glutinosa The International Plant Names Index Retrieved 2014 08 31 Alnus glutinosa World Checklist of Selected Plant Families Royal Botanic Gardens Kew Retrieved 2014 08 31 Spitzenbaume Land Brandenburg Archived from the original on 2016 03 03 Retrieved 2009 01 19 a b c d e Vedel Helge Lange Johan 1960 Trees and Bushes in Woods and Hedgerows Methuen pp 143 145 ISBN 978 0 416 61780 1 a b Trees for Life Species Profile Alnus glutinosa Archived from the original on 2014 03 01 Retrieved 2008 10 13 a b Flora of NW Europe Alnus glutinosa a b c Claessens Hugues Oosterbaan Anne Savill Peter Rondeux Jacques 2010 A review of the characteristics of black alder Alnus glutinosa L Gaertn and their implications for silvicultural practices Forestry 83 2 163 175 doi 10 1093 forestry cpp038 Betula alnus var glutinosa The International Plant Names Index Retrieved 2014 08 31 Betula glutinosa The International Plant Names Index Retrieved 2014 08 31 Coombes Allen J 1994 Dictionary of Plant Names London Hamlyn Books p 8 ISBN 978 0 600 58187 1 Chen Zhiduan amp Li Jianhua 2004 Phylogenetics and Biogeography of Alnus Betulaceae Inferred from Sequences of Nuclear Ribosomal DNA ITS Region International Journal of Plant Sciences 165 2 325 335 doi 10 1086 382795 S2CID 85579093 Stace Clive 2010 New Flora of the British Isles 3rd ed Cambridge UK Cambridge University Press p 296 ISBN 978 0 521 70772 5 Vit Petr Douda Jan Krak Karol Havrdova Alena Mandak Bohumil 2017 Two new polyploid species closely related to Alnus glutinosa in Europe and North Africa an analysis based on morphometry karyology flow cytometry and microsatellites Taxon 66 3 567 583 doi 10 12705 663 4 Alnus glutinosa Flora Europaea Royal Botanic Garden Edinburgh Retrieved 2014 08 09 a b c d e Alnus glutinosa tree Global Invasive Species Database IUCN SSC Invasive Species Specialist Group 2010 08 27 Archived from the original on 2014 08 11 Retrieved 2014 08 04 Schwencke J Caru M 2001 Advances in actinorhizal symbiosis Host plant Frankia interactions biology and application in arid land reclamation A review Arid Land Research and Management 15 4 285 327 doi 10 1080 153249801753127615 S2CID 84165205 Phytophthora Disease of Alder PDF Archived from the original PDF on 2015 09 24 Retrieved 2008 10 13 Ellis Hewett A 2001 Cecidology Vol 16 No 1 p 24 a b c d Featherstone Alan Watson 2012 11 26 Common or black alder Trees for life Archived from the original on 2014 03 01 Retrieved 2014 08 07 Carter David James Hargreaves Brian 1986 A field guide to caterpillars of butterflies and moths in Britain and Europe Collins ISBN 978 0 00 219080 0 Indiana Invasive Species Council 17 April 2020 Official IISC Invasive Plant List West Lafayette Ind Purdue University Retrieved 2020 12 25 Clayson Howell May 2008 Consolidated list of environmental weeds in New Zealand Wellington Department of Conservation ISBN 978 0 478 14412 3 Erle Schwarzerle Alnus glutinosa Alles zur Allergologie in German Retrieved 2014 08 05 a b Alnus glutinosa L Gaertn Plants For A Future 2012 Retrieved 2014 08 05 Kajba D amp Gracan J 2003 Alnus glutinosa PDF EUFORGEN Technical Guidelines for Genetic Conservation and Use for Black Alder 4 p Alnus glutinosa Imperialis Royal Horticultural Society Retrieved 2014 08 06 Paterson J M The Alder Tree A Tree in Your Pocket Retrieved 2014 08 03 a b Ash vs Alder What s the Difference European Alder Alnus glutinosa a b c d Grieve M Alder Common Botanical com A Modern Herbal Retrieved 2014 08 05 Adrosko Rita J 2012 Natural Dyes and Home Dyeing Courier Dover Publications pp 41 42 ISBN 978 0 486 15609 5 a b Sati Sushil Chandra Sati Nitin Sati O P 2011 Bioactive constituents and medicinal importance of genus Alnus Pharmacognosy Reviews 5 10 174 183 doi 10 4103 0973 7847 91115 PMC 3263052 PMID 22279375 Middleton P Stewart F Al Qahtani S Egan P O Rourke C Abdulrahman A Byres M Middleton M Kumarasamy Y Shoeb M Nahar L Delazar A Sarker S D 2005 Antioxidant Antibacterial Activities and General Toxicity of Alnus glutinosa Fraxinus excelsior and Papaver rhoeas Iranian Journal of Pharmaceutical Research 4 2 101 103 O Rourke Ciara Sarker Satyajit D Stewart Fiona Byres Maureen Delazar Abbas Kumarasamy Yashodharan Nahar Lutfun 2005 Hirsutanonol oregonin and genkwanin from the seeds of Alnus glutinosa Betulaceae Biochemical Systematics and Ecology 33 7 749 752 doi 10 1016 j bse 2004 10 005 ISSN 0305 1978 External links EditAlnus glutinosa distribution map genetic conservation units and related resources European Forest Genetic Resources Programme EUFORGEN Media related to Alnus glutinosa at Wikimedia Commons Data related to Alnus glutinosa at Wikispecies Retrieved from https en wikipedia org w index php title Alnus glutinosa amp oldid 1128161899, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.