|Foliage and immature fruit|
|Section:||Fraxinus sect. Fraxinus|
Fraxinus excelsior, known as the ash, or European ash or common ash to distinguish it from other types of ash, is a flowering plant species in the olive family Oleaceae. It is native throughout mainland Europe east to the Caucasus and Alborz mountains. The northernmost location is in the Trondheimsfjord region of Norway. The species is widely cultivated and reportedly naturalised in New Zealand and in scattered locales in the United States and Canada.
It is a large deciduous tree growing to 12–18 m (39–59 ft) (exceptionally to 43 m or 141 ft) tall with a trunk up to 2 m (6.6 ft) (exceptionally to 3.5 m or 11 ft) diameter, with a tall, narrow crown. The bark is smooth and pale grey on young trees, becoming thick and vertically fissured on old trees. The shoots are stout, greenish-grey, with jet black buds (which distinguish it from most other ash species, which have grey or brown buds). The leaves are opposite, 20–35 cm (7.9–13.8 in) long, pinnately compound, with 7–13 leaflets with coarsely serrated margins, elliptic to narrowly elliptic, 3–12 cm (1.2–4.7 in) long and 0.8–3 cm (0.31–1.18 in) broad and sessile on the leaf rachis. There are no stipules. These features distinguish ash from mountain ash (Sorbus aucuparia) in which the leaves are alternate with paired stipules. The leaves are often among the last to open in spring, and the first to fall in autumn if an early frost strikes; they have no marked autumn colour, often falling dull green. The flowers are borne in short panicles, open before the leaves, and have no perianth. The female flowers are somewhat longer than the male flowers, dark purple, without petals, and are wind-pollinated. Both male and female flowers can occur on the same tree, but it is more common to find all male and all female trees. A tree that is all male one year can produce female flowers the next, and similarly a female tree can become male. The fruit is a samara 2.5–4.5 cm (0.98–1.77 in) long and 5–8 mm (0.20–0.31 in) broad, often hanging in bunches through the winter; they are often called 'ash keys'. If the fruit is gathered and planted when it is still green and not fully ripe, it will germinate straight away, however once the fruit is brown and fully ripe, it will not germinate until 18 months after sowing (i.e. not until two winters have passed).
European Ash rarely exceeds 250 years of age. However, there are numerous specimens estimated between 200 and 250 years old and there are a few over 250. The largest is in Clapton Court, England and is 9 m (29.5 ft) in girth. There are several examples over 4.5 metres (14.8 ft) in Derbyshire alone.
Fraxinus excelsior is native to Europe from northern Spain to Russia, and from southern Fennoscandia to northern Greece. It is also considered native in southwestern Asia from northern Turkey east to the Caucasus and Alborz mountains. The northernmost location is in the Trondheimsfjord region of Norway. The species is widely cultivated and reportedly naturalized in New Zealand and in scattered locales in the United States and Canada including Nova Scotia, New Brunswick, Quebec, Massachusetts, Connecticut, New York, New Jersey, Maryland, Ontario, Ohio, Kentucky and British Columbia.
It is native throughout the British Isles, particularly on limestone, as in northern Scotland, where the most northerly native ashwood in the British Isles occurs on limestone at Rassal Ashwood. It is widely planted elsewhere.
Ash occurs on a wide range of soil types, but is particularly associated with basic soils on calcareous substrates. The most northerly ashwood in Britain is on limestone at Rassal, Wester Ross, latitude 57.4278 N. Ash prefers moister soil types and is commonly limited by temperature and so not found at the higher colder altitudes in much of Europe, though in Iran, it may reach 2000 m asl. As a young seedling, it is shade tolerant, but older trees are light-demanding. It is an early-succession species and may well outcompete beech and oak, which are later-succession species.
F. excelsior mycorrhizae are of the internal arbuscular mycorrhizal type, in which the fungus grows within the tissues of the root and forms branched, tree-like structures within the cells of the root cortex. Unlike other Fraxinus species, F. excelsior does not form ectomycorrhizae.
The Biological Records Centre of the UK records 111 species of insects and mites using ash as a food plant, of which 29 are specific to ash. A further six are specific to ash and its Oleaceae relative wild privet (Ligustrum vulgare). A number of Lepidoptera species use the species as a food source. One example of an ash-specific feeding moth is the centre-barred sallow (Atethmia centrago). The larvae burrow into the buds when newly hatched and later feed on the flowers and leaves. A common moth which causes the browning of ash leaves, as well as garden privet and lilac, is Gracillaria syringella. The usually gregarious larvae form an epidermal gallery (i.e. feed within the leaf) which leads to a brown blotch with black frass. Later, two successive cones are formed by folding the tip of a leaf downwards.
Ash dieback is caused by the fungus Hymenoscyphus fraxineus which was previously known as Chalara fraxinea. Research into the genetics of the resistance of ash (Fraxinus excelsior) has shown that resistance does occur in European populations, but at least for the samples tested, it is neither common nor strong.
The genome of Fraxinus excelsior is being sequenced by two groups of scientists in the United Kingdom. A group at Queen Mary University of London led by Richard Buggs are sequencing the self-pollinated offspring of a tree from Worcestershire, held by the Earth Trust. A group at the John Innes Centre and The Genome Analysis Centre led by Allan Downie are sequencing "Tree 35" from Denmark, discovered by Erik Kjær, which has survived 8 years of ash dieback.
The resilience and rapid growth made it an important resource for smallholders and farmers. It was probably the most versatile wood in the countryside with wide-ranging uses. Until World War II, the trees were often coppiced on a 10-year cycle to provide a sustainable source of timber for fuel and poles for building and woodworking. The colour of the wood ranges from creamy white to light brown, and the heart wood may be a darker olive-brown. Ash timber is hard, tough and very hard-wearing, with a coarse, open grain and a density of 710 kg/m3. It lacks oak's natural resistance to decay, and is not as suitable for posts buried in the ground. Because of its high flexibility, shock resistance, and resistance to splitting, ash wood is the traditional material for bows, tool handles, especially for hammers and axes, tennis rackets, and snooker cue sticks, and it was extensively used in the construction of early aircraft. Ash was commonly used green for making chair frames which would be seated with another timber or with woven rush (e.g. those made by Philip Clissett, see also The English Regional Chair). The parts were turned on a pole lathe or shaped with a drawknife. The practice essentially died out in the early 20th century, but has seen a revival in recent years.
Ash is an important constituent of wood pasture, a European management system in which open woodland provided shelter and forage for grazing animals. Ash was coppiced and pollarded, often in hedgerows, and evidence in the form of some huge boles with multiple trunks emerging at head height can still be seen in parts of Britain. The Glen Lyon ash is a notable example of a pollarded ash which at about 400–500 years of age achieved a girth of 6 m. In Northumberland, crab and lobster pots (traps) sometimes known as 'creeves' by local people are still made from ash sticks. Because of its elasticity European ash wood was commonly used for walking sticks. Poles were cut from a coppice and the ends heated in steam. The wood could then be bent in a curved vise to form the handle of the walking stick. The light colour and attractive grain of ash wood make it popular in modern furniture such as chairs, dining tables, doors, and other architectural features and wood flooring.
Ash is the only wood used for the manufacture of hurleys, referred to as hurls in parts of Leinster and known as a camán in Irish, the timber sticks used in the game of hurling in Ireland. Hurleys are manufactured from the butt log (bottom 1.5-m of the stem) and from trees ideally of a diameter at breast height around 25–30 cm. Only fast-grown, straight, and knot-free ash can be used for this purpose. Due to the lack of available ash in Ireland, over 75% of the timber needed to produce the 350,000 hurleys required for the game annually must be imported, mostly from Eastern European countries. The importance of ash timber to the game of hurling is reflected in the fact that the game is referred to all over Ireland as "The Clash of the Ash".
On the Isle of Bute in Scotland, lovers reportedly used to eat leaves of an ash tree known as the "Dreamin' Tree" that grew near the church of St Blane, and the pleasant dreams they then experienced revealed their actual spouses and intended fates.
Its many cultivars include;
- Fraxinus excelsior 'Aurea', the traditional, slow-growing golden ash- not to be confused with 'Jaspidea'
- Fraxinus excelsior 'Aurea Pendula' (weeping golden ash)
- Fraxinus excelsior 'Autumn Blaze'
- Fraxinus excelsior 'Autumn Purple'
- Fraxinus excelsior 'Crispa'
- Fraxinus excelsior 'Diversifolia' (one-leaved ash)
- Fraxinus excelsior 'Erosa'
- Fraxinus excelsior 'Jaspidea' a modern, vigorous golden ash
- Fraxinus excelsior 'Monophylla'
- Fraxinus excelsior 'Nana'
- Fraxinus excelsior 'Pendula' (weeping ash), one of the best-known cultivars, widely planted during the Victorian era, grows vigorously forming an attractive small to medium-sized tree with mounds of weeping branches
- Fraxinus excelsior 'Skyline'
Tree 46 m tall, Château des princes de Croÿ, Le Roeulx, Belgium
Old tree, Belgium
Weeping ash Fraxinus excelsior 'Pendula', Knightshayes Court, England
- Thomas, Peter A. (2016). "Biological Flora of the British Isles: Fraxinus excelsior". Journal of Ecology. 104: 1158–1209. doi:10.1111/1365-2745.12566.
- Rushforth, K. (1999). Trees of Britain and Europe. Collins ISBN 0-00-220013-9.
- Den virtuella floran: Fraxinus excelsior distribution
- Kew World Checklist of Selected Plant Families, Fraxinus excelsior
- Biota of North America Program, Fraxinus excelsior
- Altervista Flora of the United States and Canada, Fraxinus excelsior
- Kilbracken, J.1983. Larousse Easy way guide Trees. Larousse. ISBN 0-7523-0027 X
- Mitchell, A. F. (1974). A Field Guide to the Trees of Britain and Northern Europe. Collins ISBN 0-00-212035-6
- Mitchell, A. F. (1982). The Trees of Britain and Northern Europe. Collins ISBN 0-00-219037-0
- Forestry Commission/ Edlin, H. L. Broadleaves, HMSO, 1985, p36
- Stiven, Roland; Holl, Kate (2004). Wood Pasture. Perth, UK: Scottish Natural Heritage. ISBN 1853973866.
- "Online atlas of the British and Irish Flora, Fraxinus excelsior (Ash)". Biological Records Centre and Botanical Society of Britain and Ireland.
- "Wood Pasture: Rassal Ashwood National Nature Reserve". Scottish Natural Heritage.
- A review of European ash (Fraxinus excelsior L.): implications for silviculture Forestry, Dorota Dobrowolska1,*, Sebastian Hein, Anne Oosterbaan, Sven Wagner, Jo Clark and Jens Peter Skovsgaard (2011) doi: 10.1093/forestry/cpr001, 2011
- Rackham, Oliver (2014). The Ash Tree. Toller Fratrum, Dorset: Little Toller Books. pp. 25–6. ISBN 978 1 908213 14 3.
- "Archived copy" (PDF). Archived from the original (PDF) on 3 September 2013. Retrieved 28 February 2015.
- "Centre-barred Sallow Atethmia centrago". UKmoths. Retrieved 28 July 2017.
- "15.014 Gracillaria syringella (Fabricius, 1794)". British leafminers. Retrieved 28 July 2017.
- Redfern, Margaret; Shirley, Peter; Bloxham, Michael (2011). British Plant Galls (Second ed.). Shrewsbury: FSC Publications. ISBN 978 1 85153 284 1.
- L.G. Stener (2012). "Clonal differences in susceptibility to the dieback of Fraxinus excelsior in southern Sweden". Scandinavian Journal of Forest Research. 28: 205–216. doi:10.1080/02827581.2012.735699. Retrieved 26 September 2012.
- E.D. Kjær; et al. (2012). "Adaptive potential of ash (Fraxinus excelsior) populations against the novel emerging pathogen Hymenoscyphus pseudoalbidus". Evolutionary Applications. 5: 219–228. doi:10.1111/j.1752-4571.2011.00222.x. Retrieved 9 November 2012.
- L.V. McKinney; et al. (2011). "Presence of natural genetic resistance in Fraxinus excelsior (Oleraceae) to Chalara fraxinea (Ascomycota): an emerging infectious disease". Heredity. 106: 788–797. doi:10.1038/hdy.2010.119. PMC . Retrieved 9 November 2012.
- Pliūra, A.; Lygis, V.; Suchockas, V.; Bartkevičius, E. (2011). "Performance of twenty four European Fraxinus excelsior populations in three Lithuanian progeny trials with a special emphasis on resistance to Chlara fraxinea". Baltic Forestry. 17 (1): 17–34.
- "Welcome to Ash tree genomes - Ash Tree Genomes". www.ashgenome.org.
- Heap, Tom (16 June 2013). "Ash genome reveals fungus resistance" – via www.bbc.co.uk.
- Mabey, R. (1996). Flora Britannica. Sinclair-Stevenson Ltd ISBN 1-85619-377-2.
- Ash. Niche Timbers. Accessed 19-08-2009.
- Cotton, Bernard D. (1990). The English Regional Chair. Woodbridge, Suffolk: Antiques Collectors Club. ISBN 1 85149 023 X.
- Teagasc. "404 - Teagasc - Agriculture and Food Development Authority" (PDF). www.teagasc.ie.
- Pliûra, A.; Heuertz, M. (2003). "Common ash – Fraxinus excelsior: Technical guidelines for genetic conservation and use" (PDF). EUFORGEN.
- Downie, R. Angus (1934). Bute and the Cumbraes Glasgow & London : BlacKwood & Son Ltd. Page 83