Biology:Beech

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Short description: Genus of flowering plants in the family Fagaceae


Beech
Fagus sylvatica Purpurea JPG4a.jpg
European beech (Fagus sylvatica)
Scientific classification e
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Fagales
Family: Fagaceae
Subfamily: Fagoideae
K.Koch
Genus: Fagus
L.
Type species
Castanea fagus
Species

See text

Beech (Fagus) is a genus of deciduous trees in the family Fagaceae, native to temperate Eurasia and North America. Recent classifications recognize 10 to 13 species in two distinct subgenera, Engleriana and Fagus. The Engleriana subgenus is found only in East Asia, distinctive for its low branches, often made up of several major trunks with yellowish bark. The better known Fagus subgenus beeches are high-branching with tall, stout trunks and smooth silver-grey bark. The European beech (Fagus sylvatica) is the most commonly cultivated.

The European species Fagus sylvatica yields a utility timber used for furniture construction, flooring and engineering purposes, in plywood, and household items. The timber can be used to build homes.

Beechwood makes excellent firewood. Slats of washed beech wood are spread around the bottom of fermentation tanks for Budweiser beer. Beech logs are burned to dry the malt used in some German smoked beers. Beech is also used to smoke Westphalian ham, andouille sausage, and some cheeses.

Description

Leaf of Fagus sylvatica
Beechnuts in autumn

Beeches are monoecious, bearing both male and female flowers on the same plant. The small flowers are unisexual, the female flowers borne in pairs, the male flowers wind-pollinating catkins. They are produced in spring shortly after the new leaves appear. The fruit of the beech tree, known as beechnuts or mast, is found in small burrs that drop from the tree in autumn. They are small, roughly triangular, and edible, with a bitter, astringent, or mild and nut-like taste.

The European beech (Fagus sylvatica) is the most commonly cultivated, although few important differences are seen between species aside from detail elements such as leaf shape. The leaves of beech trees are entire or sparsely toothed, from 5–15 centimetres (2–6 inches) long and 4–10 cm (2–4 in) broad. Beeches are monoecious, bearing both male and female flowers on the same plant. The small flowers are unisexual, the female flowers borne in pairs, the male flowers wind-pollinating catkins. They are produced in spring shortly after the new leaves appear.

The bark is smooth and light gray. The fruit is a small, sharply three-angled nut 10–15 mm (3858 in) long, borne singly or in pairs in soft-spined husks 1.5–2.5 cm (58–1 in) long, known as cupules. The husk can have a variety of spine- to scale-like appendages, the character of which is, in addition to leaf shape, one of the primary ways beeches are differentiated.[1] The nuts have a bitter taste (though not nearly as bitter as acorns) and a high tannin content; these are called beechnuts[2] or beech mast.

Taxonomy

Recent classification systems of the genus recognize 10 to 13 species in two distinct subgenera, Engleriana and Fagus.[3][1] The Engleriana subgenus is found only in East Asia, and is notably distinct from the Fagus subgenus in that these beeches are low-branching trees, often made up of several major trunks with yellowish bark. Further differentiating characteristics include the whitish bloom on the underside of the leaves, the visible tertiary leaf veins, and a long, smooth cupule-peduncle. Proposed by botanist Chung-Fu Shen in 1992, F. japonica, F. engleriana, and F. okamotoi comprise this subgenus.[1]

The better known Fagus subgenus beeches are high-branching with tall, stout trunks and smooth silver-gray bark. This group includes F. sylvatica, F. grandifolia, F. crenata, F. lucida, F. longipetiolata, and F. hayatae.[1] The classification of the European beech, F. sylvatica, is complex, with a variety of different names proposed for different species and subspecies within this region (for example F. taurica, F. orientalis, and F. moesica[4]). Research suggests that beeches in Eurasia differentiated fairly late in evolutionary history, during the Miocene. The populations in this area represent a range of often overlapping morphotypes, and genetic analysis does not clearly support separate species.[5]

Fagus is the most basal group in the evolution of the Fagaceae family, which also includes oaks and chestnuts.[6] The southern beeches (genus Nothofagus) previously thought closely related to beeches, are now treated as members of a separate family, the Nothofagaceae (which remains a member of the order Fagales). They are found throughout the Southern Hemisphere in Australia , New Zealand, New Guinea, New Caledonia, as well as Argentina and Chile (principally Patagonia and Tierra del Fuego).

Species

Species accepted by Plants of the World Online (As of April 2023):[7]

Image Name Distribution
Fagus chienii W.C.Cheng China (Sichuan)
Fagus crenata leave in Mount Mominuka.jpg Fagus crenata Blume – Siebold's beech or Japanese beech Japan
Fagus engleriana - Morris Arboretum - DSC00475.JPG Fagus engleriana Seemen ex Diels – Chinese beech China
Fagus grandifolia JPG1Ms.jpg Fagus grandifolia Ehrh. – American beech Canada, United States, Mexico
Fagus hayatae 98412.jpg Fagus hayatae Palib. ex Hayata Taiwan
Forest in Tanzawa 08.jpg Fagus japonica Maxim. Japan
Fagus lucida Buk 2020-07-18 01.jpg Fagus lucida Rehder & E.H.Wilson China
Fagus multinervis Nakai South Korea (Ulleungdo)
Fagus orientalis near Fioletovo village, Armenia S-N 04.jpg Fagus orientalis Lipsky – Oriental beech Eastern Europe and Western Asia
Fagus pashanica C.C.Yang China (Sichuan, Zhejiang)
Fagus sinensis Oliv. China (Hubei), Vietnam
Fagus sylvatica 019.jpg Fagus sylvatica L. – European beech Europe

Natural hybrids

Image Name Parentage Distribution
Bukva 2.jpg Fagus × taurica Popl. – Crimean beech F. orientalis × F. sylvatica Eurasia

Fossil species

Numerous species have been named globally from the fossil record spanning from the Cretaceous to the Pleistocene[8]

  • Fagus aburatoensis Tanai, 1951[9]
  • Fagus alnitifolia Hollick[10]
  • Fagus altaensis Kornilova & Rajushkina, 1979
  • Fagus ambigua (Massalongo) Massalongo, 1853
  • Fagus angusta Andreánszky, 1959
  • Fagus antipofii Heer, 1858
  • Fagus aperta Andreánszky, 1959
  • Fagus arduinorum Massalongo, 1858
  • Fagus aspera (Berry) Brown, 1944
  • Fagus aspera Chelebaeva, 2005 (jr homonym)
  • Fagus atlantica Unger, 1847
  • Fagus attenuata Göppert, 1855
  • Fagus aurelianii Marion & Laurent, 1895
  • Fagus australis Oliver, 1936
  • Fagus betulifolia Massalongo, 1858
  • Fagus bonnevillensis Chaney, 1920
  • Fagus castaneifolia Unger, 1847
  • Fagus celastrifolia Ettingshausen, 1887
  • Fagus ceretana (Rérolle) Saporta, 1892
  • Fagus chamaephegos Unger, 1861
  • Fagus chankaica Alexeenko, 1977
  • Fagus chiericii Massalongo, 1858
  • Fagus chinensis Li, 1978
  • Fagus coalita Rylova, 1996
  • Fagus cordifolia Heer, 1883
  • Fagus cretacea Newberry, 1868
  • Fagus decurrens Reid & Reid, 1915
  • Fagus dentata Göppert, 1855
  • Fagus deucalionis Unger, 1847
  • Fagus dubia Mirb, 1822
  • Fagus dubia Watelet, 1866 (jr homonym)
  • Fagus echinata Chelebaeva, 2005
  • Fagus eocenica Watelet, 1866
  • Fagus etheridgei Ettingshausen, 1891
  • Fagus ettingshausenii Velenovský, 1881
  • Fagus europaea Schwarewa, 1960
  • Fagus evenensis Chelebaeva, 1980
  • Fagus faujasii Unger, 1850
  • Fagus feroniae Unger, 1845
  • Fagus florinii Huzioka & Takahashi, 1973
  • Fagus forumlivii Massalongo, 1853
  • Fagus friedrichii Grímsson & Denk, 2005
  • Fagus gortanii Fiori, 1940
  • Fagus grandifoliiformis Panova, 1966
  • Fagus gussonii Massalongo, 1858
  • Fagus haidingeri Kováts, 1856
  • Fagus herthae (Unger) Iljinskaja, 1964
  • Fagus hitchcockii Lesquereux, 1861
  • Fagus hondoensis (Watari) Watari, 1952
  • Fagus hookeri Ettingshausen, 1887
  • Fagus horrida Ludwig, 1858
  • Fagus humata Menge & Göppert, 1886
  • Fagus idahoensis Chaney & Axelrod, 1959
  • Fagus inaequalis Göppert, 1855
  • Fagus incerta (Massalongo) Massalongo, 1858
  • Fagus integrifolia Dusén, 1899
  • Fagus intermedia Nathorst, 1888
  • Fagus irvajamensis Chelebaeva, 1980
  • Fagus japoniciformis Ananova, 1974
  • Fagus japonicoides Miki, 1963
  • Fagus jobanensis Suzuki, 1961
  • Fagus jonesii Johnston, 1892
  • Fagus juliae Jakubovskaya, 1975
  • Fagus kitamiensis Tanai, 1995
  • Fagus koraica Huzioka, 1951
  • Fagus kraeuselii Kvaček & Walther, 1991
  • Fagus kuprianoviae Rylova, 1996
  • Fagus lancifolia Heer, 1868 (nomen nudum)
  • Fagus langevinii Manchester & Dillhoff, 2004[11]
  • Fagus laptoneura Ettingshausen, 1895
  • Fagus latissima Andreánszky, 1959
  • Fagus leptoneuron Ettingshausen, 1893
  • Fagus macrophylla Unger, 1854
  • Fagus maorica Oliver, 1936
  • Fagus marsillii Massalongo, 1858
  • Fagus menzelii Kvaček & Walther, 1991
  • Fagus microcarpa Miki, 1933
  • Fagus miocenica Ananova, 1974
  • Fagus napanensis Iljinskaja, 1982
  • Fagus nelsonica Ettingshausen, 1887
  • Fagus oblonga Suzuki, 1959
  • Fagus oblonga Andreánszky, 1959
  • Fagus obscura Dusén, 1908
  • Fagus olejnikovii Pavlyutkin, 2015
  • Fagus orbiculatum Lesquereux, 1892
  • Fagus orientaliformis Kul'kova
  • Fagus orientalis var fossilis Kryshtofovich & Baikovskaja, 1951
  • Fagus orientalis var palibinii Iljinskaja, 1982
  • Fagus pacifica Chaney, 1927
  • Fagus palaeococcus Unger, 1847
  • Fagus palaeocrenata Okutsu, 1955
  • Fagus palaeograndifolia Pavlyutkin, 2002
  • Fagus palaeojaponica Tanai & Onoe, 1961
  • Fagus pittmanii Deane, 1902
  • Fagus pliocaenica Geyler & Kinkelin, 1887 (jr homonym)
  • Fagus pliocenica Saporta, 1882
  • Fagus polycladus Lesquereux, 1868
  • Fagus praelucida Li, 1982
  • Fagus praeninnisiana Ettingshausen, 1893
  • Fagus praeulmifolia Ettingshausen, 1893
  • Fagus prisca Ettingshausen, 1867
  • Fagus pristina Saporta, 1867
  • Fagus producta Ettingshausen, 1887
  • Fagus protojaponica Suzuki, 1959
  • Fagus protolongipetiolata Huzioka, 1951
  • Fagus protonucifera Dawson, 1884
  • Fagus pseudoferruginea Lesquereux, 1878
  • Fagus pygmaea Unger, 1861
  • Fagus pyrrhae Unger, 1854
  • Fagus salnikovii Fotjanova, 1988
  • Fagus sanctieugeniensis Hollick, 1927
  • Fagus saxonica Kvaček & Walther, 1991
  • Fagus schofieldii Mindell, Stockey, & Beard, 2009
  • Fagus septembris Chelebaeva, 1991
  • Fagus shagiana Ettingshausen, 1891
  • Fagus stuxbergii Tanai, 1976
  • Fagus subferruginea Wilf et al., 2005[12]
  • Fagus succinea Göppert & Menge, 1853
  • Fagus sylvatica var diluviana Saporta, 1892
  • Fagus sylvatica var pliocenica Saporta, 1873
  • Fagus tenella Panova, 1966
  • Fagus uemurae Tanai, 1995
  • Fagus uotanii Huzioka, 1951
  • Fagus vivianii Unger, 1850
  • Fagus washoensis LaMotte, 1936

Fossil species formerly placed in Fagus include:[8]

  • Alnus paucinervis (Borsuk) Iljinskaja
  • Castanea abnormalis (Fotjanova) Iljinskaja
  • Fagopsis longifolia (Lesquereux) Hollick
  • Fagopsis undulata (Knowlton) Wolfe & Wehr
  • Fagoxylon grandiporosum (Beyer) Süss
  • Fagus-pollenites parvifossilis (Traverse) Potonié
  • Juglans ginannii Massalongo (new name for F. ginannii)
  • Nothofagaphyllites novae-zealandiae (Oliver) Campbell
  • Nothofagus benthamii (Ettingshausen) Paterson
  • Nothofagus dicksonii (Dusén) Tanai
  • Nothofagus lendenfeldii (Ettingshausen) Oliver
  • Nothofagus luehmannii (Deane) Paterson
  • Nothofagus magelhaenica (Ettingshausen) Dusén
  • Nothofagus maidenii (Deane) Chapman
  • Nothofagus muelleri (Ettingshausen) Paterson
  • Nothofagus ninnisiana (Unger) Oliver
  • Nothofagus risdoniana (Ettingshausen) Paterson
  • Nothofagus ulmifolia (Ettingshausen) Oliver
  • Nothofagus wilkinsonii (Ettingshausen) Paterson
  • Trigonobalanus minima (M. Chandler) Mai


Etymology

The name of the tree in Latin, fagus (from whence the generic epithet), is cognate with English "beech" and of Indo-European origin, and played an important role in early debates on the geographical origins of the Indo-European people, the beech argument. Greek φηγός (figós) is from the same root, but the word was transferred to the oak tree (e.g. Iliad 16.767) as a result of the absence of beech trees in southern Greece.[13]

Distribution and habitat

European beech (Fagus sylvatica)
Beeches in Ehrenbach, Germany
North American beech, seen in autumn
Chinese beech (Fagus engleriana)

Britain and Ireland

Fagus sylvatica was a late entrant to Great Britain after the last glaciation, and may have been restricted to basic soils in the south of England. Some suggest that it was introduced by Neolithic tribes who planted the trees for their edible nuts.[14] The beech is classified as a native in the south of England and as a non-native in the north where it is often removed from 'native' woods.[15] Large areas of the Chilterns are covered with beech woods, which are habitat to the common bluebell and other flora. The Cwm Clydach National Nature Reserve in southeast Wales was designated for its beech woodlands, which are believed to be on the western edge of their natural range in this steep limestone gorge.[16]

Beech is not native to Ireland; however, it was widely planted in the 18th century and can become a problem shading out the native woodland understory.

Beech is widely planted for hedging and in deciduous woodlands, and mature, regenerating stands occur throughout mainland Britain at elevations below about 650 m (2,100 ft).[17] The tallest and longest hedge in the world (according to Guinness World Records) is the Meikleour Beech Hedge in Meikleour, Perth and Kinross, Scotland.

Continental Europe

Fagus sylvatica is one of the most common hardwood trees in north-central Europe, in France constituting alone about 15% of all nonconifers. The Balkans are also home to the lesser-known oriental beech (F. orientalis) and Crimean beech (F. taurica).

As a naturally growing forest tree, beech marks the important border between the European deciduous forest zone and the northern pine forest zone. This border is important for wildlife and fauna.

In Denmark and Scania at the southernmost peak of the Scandinavian peninsula, southwest of the natural spruce boundary, it is the most common forest tree. It grows naturally in Denmark and southern Norway and Sweden up to about 57–59°N. The most northern known naturally growing (not planted) beech trees are found in a small grove north of Bergen on the west coast of Norway. Near the city of Larvik is the largest naturally occurring beech forest in Norway, Bøkeskogen.

Some research suggests that early agriculture patterns supported the spread of beech in continental Europe. Research has linked the establishment of beech stands in Scandinavia and Germany with cultivation and fire disturbance, i.e. early agricultural practices. Other areas which have a long history of cultivation, Bulgaria for example, do not exhibit this pattern, so how much human activity has influenced the spread of beech trees is as yet unclear.[18]

The primeval beech forests of the Carpathians are also an example of a singular, complete, and comprehensive forest dominated by a single tree species - the beech tree. Forest dynamics here were allowed to proceed without interruption or interference since the last ice age. Nowadays, they are amongst the last pure beech forests in Europe to document the undisturbed postglacial repopulation of the species, which also includes the unbroken existence of typical animals and plants. These virgin beech forests and similar forests across 12 countries in continental Europe were inscribed on the UNESCO World Heritage List in 2007.[19]

North America

The American beech (Fagus grandifolia) occurs across much of the eastern United States and southeastern Canada, with a disjunct population in Mexico. It is the only Fagus species in the Western Hemisphere. Before the Pleistocene Ice Age, it is believed to have spanned the entire width of the continent from the Atlantic Ocean to the Pacific but now is confined to the east of the Great Plains. F. grandifolia tolerates hotter climates than European species but is not planted much as an ornamental due to slower growth and less resistance to urban pollution. It most commonly occurs as an overstory component in the northern part of its range with sugar maple, transitioning to other forest types further south such as beech-magnolia. American beech is rarely encountered in developed areas except as a remnant of a forest that was cut down for land development.

The dead brown leaves of the American beech remain on the branches until well into the following spring, when the new buds finally push them off.

Asia

East Asia is home to five species of Fagus, only one of which (F. crenata) is occasionally planted in Western countries. Smaller than F. sylvatica and F. grandifolia, this beech is one of the most common hardwoods in its native range.

Ecology

Beech grows on a wide range of soil types, acidic or basic, provided they are not waterlogged. The tree canopy casts dense shade and thickens the ground with leaf litter.

In North America, they can form beech-maple climax forests by partnering with the sugar maple.

The beech blight aphid (Grylloprociphilus imbricator) is a common pest of American beech trees. Beeches are also used as food plants by some species of Lepidoptera.

Beech bark is extremely thin and scars easily. Since the beech tree has such delicate bark, carvings, such as lovers' initials and other forms of graffiti, remain because the tree is unable to heal itself.[20]

Diseases

Beech bark disease is a fungal infection that attacks the American beech through damage caused by scale insects.[21] Infection can lead to the death of the tree.[22]

Beech leaf disease is a disease that affects American beeches spread by the newly discovered nematode, Litylenchus crenatae mccannii. This disease was first discovered in Lake County, Ohio, in 2012 and has now spread to over 41 counties in Ohio, Pennsylvania, New York, and Ontario, Canada.[23]

Cultivation

The beech most commonly grown as an ornamental tree is the European beech (Fagus sylvatica), widely cultivated in North America as well as its native Europe. Many varieties are in cultivation, notably the weeping beech F. sylvatica 'Pendula', several varieties of copper or purple beech, the fern-leaved beech F. sylvatica 'Asplenifolia', and the tricolour beech F. sylvatica 'Roseomarginata'. The columnar Dawyck beech (F. sylvatica 'Dawyck') occurs in green, gold, and purple forms, named after Dawyck Botanic Garden in the Scottish Borders, one of the four garden sites of the Royal Botanic Garden Edinburgh.

Uses

Beech Tree photographed by Eugène Atget, circa 1910–1915

Wood

Beech wood is an excellent firewood, easily split and burning for many hours with bright but calm flames. Slats of beech wood are washed in caustic soda to leach out any flavour or aroma characteristics and are spread around the bottom of fermentation tanks for Budweiser beer. This provides a complex surface on which the yeast can settle, so that it does not pile up, preventing yeast autolysis which would contribute off-flavours to the beer.[citation needed] Beech logs are burned to dry the malt used in German smoked beers.[24] Beech is also used to smoke Westphalian ham,[25] traditional andouille (an offal sausage) from Normandy,[26] and some cheeses.

Some drums are made from beech, which has a tone between those of maple and birch, the two most popular drum woods.

The textile modal is a kind of rayon often made wholly from reconstituted cellulose of pulped beech wood.[27][28][29]

The European species Fagus sylvatica yields a tough, utility timber. It weighs about 720 kg per cubic metre and is widely used for furniture construction, flooring, and engineering purposes, in plywood and household items, but rarely as a decorative wood. The timber can be used to build chalets, houses, and log cabins.[citation needed]

Beech wood is used for the stocks of military rifles when traditionally preferred woods such as walnut are scarce or unavailable or as a lower-cost alternative.[30]

Food

The edible fruit of the beech tree,[2] known as beechnuts or mast, is found in small burrs that drop from the tree in autumn. They are small, roughly triangular, and edible, with a bitter, astringent, or in some cases, mild and nut-like taste. According to the Roman statesman Pliny the Elder in his work Natural History, beechnut was eaten by the people of Chios when the town was besieged, writing of the fruit: "that of the beech is the sweetest of all; so much so, that, according to Cornelius Alexander, the people of the city of Chios, when besieged, supported themselves wholly on mast".[31] They can also be roasted and pulverized into an adequate coffee substitute.[32] The leaves can be steeped in liquor to give a light green/yellow liqueur.

Books

Painting on beech wood - 1511

In antiquity, the bark of the beech tree was used by Indo-European people for writing-related purposes, especially in a religious context.[33] Beech wood tablets were a common writing material in Germanic societies before the development of paper. The Old English bōc[34] has the primary sense of "beech" but also a secondary sense of "book", and it is from bōc that the modern word derives.[35] In modern German, the word for "book" is Buch, with Buche meaning "beech tree". In modern Dutch, the word for "book" is boek, with beuk meaning "beech tree". In Swedish, these words are the same, bok meaning both "beech tree" and "book". There is a similar relationship in some Slavic languages. In Russian and Bulgarian, the word for beech is бук (buk), while that for "letter" (as in a letter of the alphabet) is буква (bukva), while Serbo-Croatian and Slovene use "bukva" to refer to the tree.

Other

The pigment bistre was made from beech wood soot. Beech litter raking as a replacement for straw in animal husbandry was an old non-timber practice in forest management that once occurred in parts of Switzerland in the 17th century.[36][37][38][39] Beech has been listed as one of the 38 plants whose flowers are used to prepare Bach flower remedies.[40]

See also

  • Ancient and Primeval Beech Forests of the Carpathians and Other Regions of Europe
  • English Lowlands beech forests
  • The Weeping Beech

References

  1. 1.0 1.1 1.2 1.3 Shen, Chung-Fu (1992). A Monograph of the Genus Fagus Tourn. Ex L. (Fagaceae) (PhD). City University of New York. OCLC 28329966.
  2. 2.0 2.1 Lyle, Katie Letcher (2010). The Complete Guide to Edible Wild Plants, Mushrooms, Fruits, and Nuts: How to Find, Identify, and Cook Them (2nd ed.). Guilford, CN: FalconGuides. pp. 138. ISBN 978-1-59921-887-8. OCLC 560560606. 
  3. Denk, Thomas; Grimm, Guido; Hemleben, Vera (2005). "Patterns of Molecular and Morphological Differentiation in Fagus (Fagaceae): Phylogenetic Implications". American Journal of Botany 92 (6): 1006–16. doi:10.3732/ajb.92.6.1006. PMID 21652485. 
  4. Gömöry, D.; Paule, L.; Brus, R.; Zhelev, P.; Tomović, Z.; Gračan, J. (1999). "Genetic differentiation and phylogeny of beech on the Balkan peninsula". Journal of Evolutionary Biology 12 (4): 746–752. doi:10.1046/j.1420-9101.1999.00076.x. 
  5. Denk, Thomas; Grimm, Guido; Stogerer, K.; Langer, M.; Hemleben, Vera (2002). "The evolutionary history of Fagus in western Eurasia: Evidence from genes, morphology and the fossil record". Plant Systematics and Evolution 232 (3–4): 213–236. doi:10.1007/s006060200044. Bibcode2002PSyEv.232..213D. 
  6. Manos, Paul S.; Steele, Kelly P. (1997). "Phylogenetic analysis of "Higher" Hamamelididae based on Plasid Sequence Data". American Journal of Botany 84 (10): 1407–19. doi:10.2307/2446139. PMID 21708548. 
  7. "Fagus L. - Plants of the World Online". 2022-05-07. http://powo.science.kew.org/taxon/urn:lsid:ipni.org:names:30048723-2. 
  8. 8.0 8.1 "Fagus". http://ifpni.org/genus.htm?id=3EE9EA96-C4DC-4621-B6EB-697227CF797B. Retrieved 6 Feb 2023. 
  9. Tanai, T.. "Des fossiles végétaux dans le bassin houiller de Nishitagawa, Préfecture de Yamagata, Japon". Japanese Journal of Geology and Geography 22: 119–135. 
  10. Brown, R. W. (1937). Additions to some fossil floras of the Western United States (Report). Professional Paper. 186. United States Geological Survey. pp. 163–206. doi:10.3133/pp186J. https://pubs.usgs.gov/pp/0186j/report.pdf. 
  11. Manchester, S. R.; Dillhoff, R. M. (2004). "Fagus (Fagaceae) fruits, foliage, and pollen from the Middle Eocene of Pacific Northwestern North America". Canadian Journal of Botany 82 (10): 1509–1517. doi:10.1139/b04-112. 
  12. Wilf, P.; Johnson, K.R.; Cúneo, N.R.; Smith, M.E.; Singer, B.S.; Gandolfo, M.A. (2005). "Eocene Plant Diversity at Laguna del Hunco and Río Pichileufú, Patagonia, Argentina". The American Naturalist 165 (6): 634–650. doi:10.1086/430055. PMID 15937744. https://www.researchgate.net/publication/312253100. Retrieved 2019-02-22. 
  13. Robert Beekes, Etymological Dictionary of Greek, Leiden and Boston 2010, pp. 1565–6
  14. "Map" (JPG). http://linnaeus.nrm.se/flora/di/faga/fagus/fagusylv.jpg. 
  15. "International Foresters Study Lake District's greener, friendlier forests". Forestry Commission. http://www.forestry.gov.uk/newsrele.nsf/WebPressReleases/1A301105A92950FE80257012002508A0. 
  16. "Cwm Clydach". Countryside Council for Wales Landscape & wildlife. http://www.ccw.gov.uk/landscape--wildlife/protecting-our-landscape/special-landscapes--sites/protected-landscapes/national-nature-reserves/cwm-clydach.aspx. 
  17. Preston, C.D.; Pearman, D.; Dines, T.D. (2002). New Atlas of the British Flora. Oxford University Press. ISBN 978-0-19-851067-3. 
  18. Bradshaw, R.H.W.; Kito and, N.; Giesecke, T. (2010). "Factors influencing the Holocene history of Fagus". Forest Ecology and Management 259 (11): 2204–12. doi:10.1016/j.foreco.2009.11.035. 
  19. "Ancient and Primeval Beech Forests of the Carpathians and Other Regions of Europe". United Nations Educational, Scientific, and Cultural Organization. https://whc.unesco.org/en/list/1133. 
  20. Lawrence, Gale; Tyrol, Adelaide (1984). A Field Guide to the Familiar: Learning to Observe the Natural World. Prentice-Hall. pp. 75–76. ISBN 978-0-13-314071-2. 
  21. "beech." The Columbia Encyclopedia. New York: Columbia University Press, 2008. Credo Reference. Web. 17 September 2012.
  22. "beech bark disease". Dictionary of Microbiology & Molecular Biology. Wiley. 2006. ISBN 978-0-470-03545-0.  Credo Reference. Web. 27 September 2012.
  23. Crowley, Brendan (2020-09-28). "Deadly 'Beech Leaf Disease' Identified Across Connecticut and Rhode Island". The Connecticut Examiner. https://ctexaminer.com/2020/09/28/deadly-beech-leaf-disease-identified-across-connecticut-and-rhode-island/. 
  24. "Der Brauprozeß von Schlenkerla Rauchbier" (in de). Schlenkerla. 2011. https://www.schlenkerla.de/rauchbier/prozess/prozess.html. 
  25. "GermanFoods.org - Guide to German Sausages and German Hams". http://www.germanfoods.org/consumer/facts/guidetoham.cfm. 
  26. "What is andouille? | Cookthink". http://www.cookthink.com/reference/823/What_is_andouille. 
  27. holistic-interior-designs.com, Modal Fabric , retrieved 9 October 2011
  28. uniformreuse.co.uk, Modal data sheet , retrieved 9 October 2011
  29. fabricstockexchange.com, Modal (dictionary entry), retrieved 9 October 2011
  30. Walter, J. (2006). Rifles of the World (3rd ed.). Krause Publications. ISBN 978-0-89689-241-5. 
  31. "How did beech mast save the people of Chios? - Interesting Earth". https://interestingearth.com/how_did_beech_mast_save_the_people_of_chios.html. 
  32. United States Department of the Army (2009) (in en-US). The Complete Guide to Edible Wild Plants. New York: Skyhorse Publishing. pp. 29. ISBN 978-1-60239-692-0. OCLC 277203364. https://www.worldcat.org/oclc/277203364. 
  33. Pronk-Tiethoff, Saskia (25 October 2013). The Germanic loanwords in Proto-Slavic. Rodopi. pp. 81. ISBN 978-94-012-0984-7. https://books.google.com/books?id=0iWLAgAAQBAJ&pg=PA81. 
  34. A Concise Anglo-Saxon Dictionary, Second Edition (1916), Blōtan-Boldwela, John Richard Clark Hall
  35. Douglas Harper. "Book". Online Etymological Dictionary. http://www.etymonline.com/index.php?term=book. 
  36. Bürgi, M.; Gimmi, U. (2007). "Three objectives of historical ecology: the case of litter collecting in Central European forests". Landscape Ecology 22 (S1): 77–87. doi:10.1007/s10980-007-9128-0. Bibcode2007LaEco..22S..77B. http://doc.rero.ch/record/316425/files/10980_2007_Article_9128.pdf. 
  37. Gimmi, U.; Poulter, B.; Wolf, A.; Portner, H.; Weber, P.; Bürgi, M. (2013). "Soil carbon pools in Swiss forests show legacy effects from historic forest litter raking". Landscape Ecology 28 (5): 385–846. doi:10.1007/s10980-012-9778-4. Bibcode2013LaEco..28..835G. http://doc.rero.ch/record/315772/files/10980_2012_Article_9778.pdf. 
  38. McGrath, M.J. (2015). "Reconstructing European forest management from 1600 to 2010". Biogeosciences 12 (14): 4291–4316. doi:10.5194/bg-12-4291-2015. Bibcode2015BGeo...12.4291M. 
  39. Scalenghe, R.; Minoja, A.P.; Zimmermann, S.; Bertini, S. (2016). "Consequence of litter removal on pedogenesis: A case study in Bachs and Irchel (Switzerland)". Geoderma 271: 191–201. doi:10.1016/j.geoderma.2016.02.024. Bibcode2016Geode.271..191S. https://zenodo.org/record/889561. 
  40. D. S. Vohra (1 June 2004). Bach Flower Remedies: A Comprehensive Study. B. Jain Publishers. p. 3. ISBN 978-81-7021-271-3. https://books.google.com/books?id=icG8onA0ys8C&pg=PR3. Retrieved 2 September 2013. 

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