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Maclura pomifera: osage orange

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Native Ecoregions:
Source: Wikipedia

Maclura pomifera, commonly known as the Osage orange (/ˈs/ OH-sayj), is a small deciduous tree or large shrub, native to the south-central United States. It typically grows about 8 to 15 metres (30–50 ft) tall. The distinctive fruit, a multiple fruit, is roughly spherical, bumpy, 8 to 15 centimetres (3–6 in) in diameter, and turns bright yellow-green in the fall.[5] The fruits secrete a sticky white latex when cut or damaged. Despite the name "Osage orange",[6] it is not related to the orange.[7] It is a member of the mulberry family, Moraceae.[8] Due to its latex secretions and woody pulp, the fruit is typically not eaten by humans and rarely by foraging animals. Ecologists Daniel H. Janzen and Paul S. Martin proposed in 1982 that the fruit of this species might be an example of what has come to be called an evolutionary anachronism—that is, a fruit coevolved with a large animal seed dispersal partner that is now extinct. This hypothesis is controversial.[9][10]

Maclura pomifera has many names, including mock orange, hedge apple, hedge, monkey ball, pap, monkey brains and yellow-wood. The name bois d'arc (from French meaning "bow-wood") has also been corrupted into bodark and bodock.[11][12][13]

History

The earliest account of the tree in the English language was given by William Dunbar, a Scottish explorer, in his narrative of a journey made in 1804 from St. Catherine's Landing on the Mississippi River to the Ouachita River.[14] Meriwether Lewis sent some slips and cuttings of the curiosity to President Jefferson in March 1804. According to Lewis's letter, the samples were donated by "Mr. Peter Choteau, who resided the greater portion of his time for many years with the Osage Nation". (Note: This referred to Pierre Chouteau, a fur trader from Saint Louis.) Those cuttings did not survive. In 1810, Bradbury relates that he found two Maclura pomifera trees growing in the garden of Pierre Chouteau, one of the first settlers of Saint Louis, apparently the same person.[14]

American settlers used the Osage orange (i.e. "hedge apple") as a hedge to exclude free-range livestock from vegetable gardens and corn fields. Under severe pruning, the hedge apple sprouted abundant adventitious shoots from its base; as these shoots grew, they became interwoven and formed a dense, thorny barrier hedge. The thorny Osage orange tree was widely naturalized throughout the United States until this usage was superseded by the invention of barbed wire in 1874.[15][6][16][17] By providing a barrier that was "horse-high, bull-strong, and pig-tight", Osage orange hedges provided the "crucial stop-gap measure for westward expansion until the introduction of barbed wire a few decades later".[18]

The trees were named bois d'arc ("bow-wood")[6] by early French settlers who observed the wood being used for war clubs and bow-making by Native Americans.[14] Meriwether Lewis was told that the people of the Osage Nation, "So much ... esteem the wood of this tree for the purpose of making their bows, that they travel many hundreds of miles in quest of it."[19] The trees are also known as "bodark", "bodarc", or "bodock" trees, most likely originating as a corruption of bois d'arc.[6]

The Comanche also used this wood for their bows.[20] They liked the wood because it was strong, flexible and durable,[6] and the bush/tree was common along river bottoms of the Comanchería. Some historians believe that the high value this wood had to Native Americans throughout North America for the making of bows, along with its small natural range, contributed to the great wealth of the Spiroan Mississippian culture that controlled all the land in which these trees grew.[21]

Etymology

The genus Maclura is named in honor of William Maclure[13] (1763–1840), a Scottish-born American geologist. The specific epithet pomifera means "fruit-bearing".[13] The common name Osage derives from Osage Native Americans from whom young plants were first obtained, as told in the notes of Meriwether Lewis in 1804.[17]

Description

General habit

Mature trees range from 12 to 20 metres (40–65 ft) tall with short trunks and round-topped canopies.[6] The roots are thick, fleshy, and covered with bright orange bark. The tree's mature bark is dark, deeply furrowed and scaly. The plant has significant potential to invade unmanaged habitats.[6]

The wood of M. pomifera is golden to bright yellow but fades to medium brown with ultraviolet light exposure.[22] The wood is heavy, hard, strong, and flexible, capable of receiving a fine polish and very durable in contact with the ground. It has a specific gravity of 0.7736 or 773.6 kg/m3 (48.29 lb/cu ft).

Leaves and branches

Leaves are arranged alternately in a slender growing shoot 90 to 120 centimetres (3–4 ft) long. In form they are simple, a long oval terminating in a slender point. The leaves are 8 to 13 centimetres (3–5 in) long and 5 to 8 centimetres (2–3 in) wide, and are thick, firm, dark green, shining above, and paler green below when full grown. In autumn they turn bright yellow. The leaf axils contain formidable spines which when mature are about 2.5 centimetres (1 in) long.

Branchlets are at first bright green and pubescent; during their first winter they become light brown tinged with orange, and later they become a paler orange brown. Branches contain a yellow pith, and are armed with stout, straight, axillary spines. During the winter, the branches bear lateral buds that are depressed-globular, partly immersed in the bark, and pale chestnut brown in color.

Flowers and fruit

As a dioecious plant, the inconspicuous pistillate (female) and staminate (male) flowers are found on different trees. Staminate flowers are pale green, small, and arranged in racemes borne on long, slender, drooping peduncles developed from the axils of crowded leaves on the spur-like branchlets of the previous year. They feature a hairy, four-lobed calyx; the four stamens are inserted opposite the lobes of calyx, on the margin of a thin disk. Pistillate flowers are borne in a dense spherical many-flowered head which appears on a short stout peduncle from the axils of the current year's growth. Each flower has a hairy four-lobed calyx with thick, concave lobes that invest the ovary and enclose the fruit. Ovaries are superior, ovate, compressed, green, and crowned by a long slender style covered with white stigmatic hairs. The ovule is solitary.

The mature multiple fruit's size and general appearance resembles a large, yellow-green orange (the fruit), about 10 to 13 centimetres (4–5 in) in diameter, with a roughened and tuberculated surface. The compound (or multiple) fruit is a syncarp of numerous small drupes, in which the carpels (ovaries) have grown together; thus, it is classified a multiple-accessory fruit. Each small drupe is oblong, compressed and rounded; they contain a milky latex which oozes when the fruit is damaged or cut.[23] The seeds are oblong. Although the flowering is dioecious, the pistillate tree when isolated will still bear large oranges, perfect to the sight but lacking the seeds.[14] The fruit has a cucumber-like flavor.[23]

Distribution

Osage orange's pre-Columbian range was largely restricted to a small area in what is now the United States, namely the Red River drainage of Oklahoma, Texas, and Arkansas, as well as the Blackland Prairies and post oak savannas.[6] A disjunct population also occurred in the Chisos Mountains of Texas.[24] It has since become widely naturalized in the United States and Ontario, Canada.[6] Osage orange has been planted in all the 48 contiguous states of the United States and in southeastern Canada.[24]

The largest known Osage orange tree is located at the Patrick Henry National Memorial, in Brookneal, Virginia, and is believed to be almost 350 years old.[25][26][27] Another historic tree is located on the grounds of Fort Harrod, a Kentucky pioneer settlement in Harrodsburg, Kentucky.[28]

Ecological aspects of historical distribution

Because of the limited original range and lack of obvious effective means of propagation, the Osage orange has been the subject of controversial claims by some authors to be an evolutionary anachronism, whereby one or more now extinct Pleistocene megafauna, such ground sloths, mammoths, mastodons or gomphotheres, fed on the fruit and aided in seed dispersal.[21][29] An equine species that became extinct at the same time also has been suggested as the plant's original dispersal agent because modern horses and other livestock will sometimes eat the fruit.[23] This hypothesis is controversial. For example, a 2015 study indicated that Osage orange seeds are not effectively spread by extant horse or elephant species,[30] while a 2018 study concludes that squirrels are ineffective, short-distance seed dispersers.[9] The claim has been criticised as a "just-so story" that lacks any empirical evidence.[10]

The fruit is not poisonous to humans or livestock, but is not preferred by them,[31] because it is mostly inedible due to a large size (about the diameter of a softball) and hard, dry texture.[23] The edible seeds of the fruit are used by squirrels as food.[32] Large animals such as livestock, which typically would consume fruits and disperse seeds, mainly ignore the fruit.[23]

Ecology

The fruits are consumed by black-tailed deer in Texas, and white-tailed deer and fox squirrels in the Midwest. Crossbills are said to peck the seeds out.[33] Loggerhead shrikes, a declining species in much of North America, use the tree for nesting and cache prey items upon its thorns.[34]

Cultivation

Maclura pomifera prefers a deep and fertile soil, but is hardy over most of the contiguous United States, where it is used as a hedge. It must be regularly pruned to keep it in bounds, and the shoots of a single year will grow one to two metres (3–6 ft) long, making it suitable for coppicing.[14][35] A neglected hedge will become fruit-bearing. It is remarkably free from insect predators and fungal diseases.[14] A thornless male cultivar of the species exists and is vegetatively reproduced for ornamental use.[24] M. pomifera is cultivated in Italy, the former Yugoslavia, Romania, former USSR, and India.[36]

Chemistry

Osajin and pomiferin are isoflavones present in the wood and fruit in an approximately 1:2 ratio by weight, and in turn comprise 4–6% of the weight of dry fruit and wood samples.[37] Primary components of fresh fruit include pectin (46%), resin (17%), fat (5%), and sugar (before hydrolysis, 5%). The moisture content of fresh fruits is about 80%.[38]

Uses

The Osage orange is commonly used as a tree row windbreak in prairie states, which gives it one of its colloquial names, "hedge apple".[6] It was one of the primary trees used in President Franklin Delano Roosevelt's "Great Plains Shelterbelt" WPA project, which was launched in 1934 as an ambitious plan to modify weather and prevent soil erosion in the Great Plains states; by 1942 it resulted in the planting of 30,233 shelterbelts containing 220 million trees that stretched for 18,600 miles (29,900 km).[39] The sharp-thorned trees were also planted as cattle-deterring hedges before the introduction of barbed wire and afterward became an important source of fence posts.[13][40] In 2001, its wood was used in the construction in Chestertown, Maryland of the schooner Sultana, a replica of HMS Sultana.[41]

The heavy, close-grained yellow-orange wood is dense and prized for tool handles, treenails, fence posts, and other applications requiring a strong, dimensionally stable wood that withstands rot.[6][42] Although its wood is commonly knotty and twisted, straight-grained Osage orange timber makes good bows, as used by Native Americans.[6] John Bradbury, a Scottish botanist who had traveled the interior United States extensively in the early 19th century, reported that a bow made of Osage timber could be traded for a horse and a blanket.[14] Additionally, a yellow-orange dye can be extracted from the wood, which can be used as a substitute for fustic and aniline dyes. At present, florists use the fruits of M. pomifera for decorative purposes.[43]

When dried, the wood has the highest heating value of any commonly available North American wood, and burns long and hot.[44][45][46]

Osage orange wood is more rot-resistant than most, making good fence posts.[6] They are generally set up green because the dried wood is too hard to reliably accept the staples used to attach the fencing to the posts. Palmer and Fowler's Fieldbook of Natural History 2nd edition rates Osage orange wood as being at least twice as hard and strong as white oak (Quercus alba). Its dense grain structure makes for good tonal properties. Production of woodwind instruments and waterfowl game calls are common uses for the wood.[47]

Compounds extracted from the fruit, when concentrated, may repel insects. However, the naturally occurring concentrations of these compounds in the fruit are too low to make the fruit an effective insect repellent.[31][48][49] In 2004, the EPA insisted that a website selling M. pomifera fruits online remove any mention of their supposed repellent properties as false advertising.[43]

Traditional medicine

The Comanche formerly used a decoction of the roots topically as a wash to treat sore eyes.[50]

References

  1. Stritch, L. (2018). "Maclura pomifera". IUCN Red List of Threatened Species. 2018: e.T61886714A61886723. doi:10.2305/IUCN.UK.2018-1.RLTS.T61886714A61886723.en. Retrieved October 15, 2022.
  2. "NatureServe Explorer 2.0". explorer.natureserve.org. Retrieved October 28, 2022.
  3. "Maclura pomifera (Raf.) C.K. Schneid". Tropicos. Retrieved February 24, 2014.
  4. "The Plant List". The Plant List. Retrieved February 24, 2014.
  5. Boggs, Joe (October 15, 2021). "Bois D'Arc". Buckeye Yard & Garden Online. Ohio State University. Retrieved March 26, 2023.
  6. 1 2 3 4 5 6 7 8 9 10 11 12 13 Wynia, Richard L. (March 2011). "Plant fact sheet: Osage orange, Maclura pomifera (Rafin.)" (PDF). US Department of Agriculture, Natural Resources Conservation Service. Retrieved October 25, 2017.
  7. Jesse, Laura; Lewis, Donald (October 24, 2014). "Hedge Apples for Home Pest Control?". Horticulture & Home Pest News. Iowa State University of Science and Technology. Retrieved January 29, 2016.
  8. Wayman, Dave (March 1985). "The Osage Orange Tree: Useful and Historically Significant". Mother Earth News. Retrieved January 29, 2016.
  9. 1 2 Murphy, Serena (2018). "Seed Dispersal in Osage Orange (Maclura pomifera) by Squirrels (Sciurus spp.)". American Midland Naturalist. 180 (2): 312–317. doi:10.1674/0003-0031-180.2.312. S2CID 92491077.
  10. 1 2 Sinnott-Armstrong, Miranda A.; Deanna, Rocio; Pretz, Chelsea; Liu, Sukuan; Harris, Jesse C.; Dunbar-Wallis, Amy; Smith, Stacey D.; Wheeler, Lucas C. (March 2022). "How to approach the study of syndromes in macroevolution and ecology". Ecology and Evolution. 12 (3): e8583. Bibcode:2022EcoEv..12E8583S. doi:10.1002/ece3.8583. ISSN 2045-7758. PMC 8928880. PMID 35342598.
  11. "Maclura pomifera". Germplasm Resources Information Network. Agricultural Research Service, United States Department of Agriculture. Retrieved January 30, 2016.
  12. Bobick, James (2004). The Handy Biology Answer Book. Detroit, Michigan: Visible Ink Press. p. 178. ISBN 1578593034. Retrieved January 30, 2016.
  13. 1 2 3 4 Wynia, Richard (March 2011). "Plant fact sheet for Osage orange (Maclura pomifera)" (PDF). Manhattan, Kansas: USDA Natural Resources Conservation Service, Manhattan Plant Materials Center. Retrieved December 16, 2015.
  14. 1 2 3 4 5 6 7 Keeler, Harriet L. (1900). Our Native Trees and How to Identify Them. New York: Charles Scribner's Sons. pp. 258–262.
  15. Barlow, Connie. "Anachronistic fruits and the ghosts who haunt them". Arnoldia 61, no. 2 (2001): 14–21.
  16. Michael L. Ferro. "A Cultural and Entomological Review of the Osage Orange (Maclura pomifera (Raf.) Schneid.) (Moraceae) and the Origin and Early Spread of 'Hedge Apple' Folklore". Southeastern Naturalist, 13(m7), 1–34, (1 January 2014)
  17. 1 2 "Osage Oranges Take a Bough". Smithsonian Magazine. March 2004. p. 35.
  18. Giannetto, Raffaella (2021). The culture of cultivation: recovering the roots of landscape architecture. Abingdon, Oxfordshire & New York: Routledge. ISBN 978-0367356422.
  19. Dillon, Richard (2003). Meriwether Lewis. Lafayette (California): Great West Books. p. 95. ISBN 0944220169. Retrieved January 30, 2016.
  20. Rollings, Willard Hughes (2005). The Comanche. Philadelphia: Chelsea House Publishers. p. 25. ISBN 978-0-7910-8349-9.
  21. 1 2 Connie Barlow. Anachronistic Fruits and the Ghosts Who Haunt Them Archived 2007-01-06 at the Wayback Machine. Arnoldia, vol. 61, no. 2 (2001)
  22. "Osage Orange | the Wood Database - Lumber Identification (Hardwood)".
  23. 1 2 3 4 5 Barlow, Connie (2002). "The Enigmatic Osage Orange". The Ghosts of Evolution, Nonsensical Fruit, Missing Partners, and Other Ecological Anachronisms. New York: Basic Books. p. 120. ISBN 0786724897. Retrieved January 31, 2016.
  24. 1 2 3 Burton, J D (1990). "Maclura pomifera". In Burns, Russell M.; Honkala, Barbara H. (eds.). Hardwoods. Silvics of North America. Vol. 2. Washington, D.C.: United States Forest Service (USFS), United States Department of Agriculture (USDA). Retrieved October 5, 2012 via Southern Research Station.
  25. "Tree Information". Virginia Big Trees. Retrieved November 18, 2022.
  26. "The mystery of Patrick Henry's osage-orange: which enigma is greater; the age of the national champion or how it got to Virginia? - Free Online Library". www.thefreelibrary.com. Retrieved November 19, 2022.
  27. "Osage-orange - VA". American Forests. Retrieved November 19, 2022.
  28. Allen Bush. The Undaunted and Undented Osage Orange.
  29. Bronaugh, Whit (2010). "The Trees That Miss The Mammoths". American Forests. 115 (Winter): 38–43.
  30. Boone, Madison J.; Davis, Charli N.; Klasek, Laura; del Sol, Jillian F.; Roehm, Katherine; Moran, Matthew D. (March 11, 2015). "A Test of Potential Pleistocene Mammal Seed Dispersal in Anachronistic Fruits using Extant Ecological and Physiological Analogs". Southeastern Naturalist. 14 (1): 22–32. doi:10.1656/058.014.0109. S2CID 86809830.
  31. 1 2 Jauron, Richard (October 10, 1997). "Facts and Myths Associated with "Hedge Apples"". Horticulture and Home Pest News. Iowa State University. Retrieved October 22, 2014.
  32. Murphy, Serena, Virginia Mitchell, Jessa Thurman, Charli N. Davis, Mattew D. Moran, Jessica Bonumwezi, Sophie Katz, Jennifer L. Penner, and Matthew D. Moran. "Seed Dispersal in Osage Orange (Maclura pomifera) by Squirrels (Sciurus spp.)." The American Midland Naturalist 180, no. 2 (2018): 312-317. Harvard
  33. Peattie, Donald Culross (1953). A Natural History of Western Trees. New York: Bonanza Books. p. 482.
  34. Tyler, Jack D (March 1992). "Nesting Ecology of the Loggerhead Shrike in Southwestern Oklahoma". The Wilson Bulletin. 104 (1): 95–104. JSTOR 4163119.
  35. Toensmeier, Eric (2016). The Carbon Farming Solution: A Global Toolkit of Perennial Crops and Regenerative Agriculture Practices for Climate Change Mitigation and Food Security. Chelsea Green Publishing. p. 230. ISBN 978-1-60358-571-2.
  36. Grandtner, Miroslav M. (2005). "Maclura pomifera". Elsevier's Dictionary of Trees, Volume 1: North America. Amsterdam: Elsevier. p. 500. ISBN 0080460186. Retrieved January 30, 2016.
  37. Darji, K; Miglis, C; Wardlow, A; Abourashed, E. A (2013). "HPLC Determination of Isoflavone Levels in Osage Orange from the United States Midwest and South". Journal of Agricultural and Food Chemistry. 61 (28): 6806–6811. doi:10.1021/jf400954m. PMC 3774050. PMID 23772950.
  38. Smith, Jeffrey L.; Perino, Janice V. (1981). "Osage orange (Maclura pomifera): History and economic uses" (PDF). Economic Botany. 35 (1): 24–41. doi:10.1007/BF02859211. ISSN 0013-0001. JSTOR 4254245. S2CID 35716036. Archived from the original (PDF) on April 28, 2020. Retrieved September 17, 2024.
  39. R. Douglas Hurt Forestry of the Great Plains, 1902–1942
  40. Kemp, Bill (May 31, 2015). "Hedgerows no match for bulldozers in postwar years". The Pantagraph. Retrieved April 18, 2016.
  41. "Schooner Sultana". Sultanaprojects.org. Archived from the original on March 13, 2014. Retrieved February 24, 2014.
  42. Cullina, William (2002). Native Trees, Shrubs, & Vines: A Guide to Using, Growing, and Propagating North American Woody Plants. Boston: Houghton Mifflin. p. 136. ISBN 0618098585. Retrieved January 31, 2016.
  43. 1 2 Grout, Pam. Kansas Curiosities: Quirky Characters, Roadside Oddities & Other Offbeat Stuff. Guilford, Conn: Globe Pequot Press, 2002.
  44. Kays, Jonathan (October 2010). "Heating with Wood" (PDF). University of Maryland Extension. Archived from the original (PDF) on September 6, 2015. Retrieved January 31, 2016.
  45. Prestemon, Dean R. (August 1998). "Firewood Production and Use" (PDF). Forestry Extension Notes. Iowa State University Extension Service. Retrieved January 31, 2016.
  46. Kuhns, Michael; Schmidt, Tom. "Heating With Wood: Species Characteristics and Volumes". Utah State University Extension. Retrieved January 31, 2016.
  47. Joe Duggan (November 20, 2018). "A block of wood and a waterfowl dream". Lincoln Journal Star. Retrieved November 16, 2018.
  48. Ogg, Barbara. "Facts and Myths of Hedge Apples". University of Nebraska Lincoln. Retrieved November 11, 2013.
  49. Nelson, Jennifer. "Osage Orange – Maclura pomifera". University of Illinois. Archived from the original on November 17, 2016. Retrieved November 11, 2013.
  50. "Maclura Pomifera (search result)". Native American Ethnobotany Database. University of Michigan–Dearborn. Retrieved December 24, 2015.

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