Tumbleweed

A tumbleweed is a structural part of the above-ground anatomy of a number of species of plants, a diaspore that, once it is mature and dry, detaches from its root or stem, and tumbles away in the wind. In most such species, the tumbleweed is in effect the entire plant apart from the root system, but in other plants, a hollow fruit or an inflorescence might serve the function.[1] Tumbleweed species occur most commonly in steppe and arid ecologies, where frequent wind and the open environment permit rolling without prohibitive obstruction.[2]

Apart from its propagules (that is, its seeds or spores), the tissues of the tumbleweed structure are dead; their death is functional because it is necessary for the structure to degrade gradually and fall apart so that the propagules can escape during the tumbling, or germinate after the tumbleweed has come to rest in a wet location. In the latter case, many species of tumbleweed open mechanically, releasing their seeds as they swell when they absorb water.[3]

The tumbleweed diaspore disperses propagules, but the tumbleweed strategy is not limited to the seed plants; some species of spore-bearing Cryptogams such as Selaginella form tumbleweeds, and some fungi that resemble puffballs dry out, break free of their attachments and are similarly tumbled by the wind, dispersing spores as they go.[4][5]

Young tumbleweed blooming in the Mojave desert in April, after an extremely wet winter season

Plants that form tumbleweeds

A Salsola tragus tumbleweed caught against a fence

The tumbleweed dispersal strategies are unusual among plants; most species disperse their seeds by other mechanisms. Many tumbleweeds (though by no means all) are ruderal species, opportunistic agricultural weeds. Tumbleweeds have been recorded in the following plant groups:[6]

In the family Amaranthaceae (s.l., including Chenopodiaceae), several annual species of the genus Kali are the most notorious tumbleweeds. They are thought to be native to Eurasia, but when their seeds entered North America in shipments of agricultural seeds, they became naturalized in large areas. They have been so successful that in the cinema genre of Westerns, they have long been symbols of frontier areas. Salsola tragus (currently not valid synonym[7][8] Kali tragus) is the so-called "Russian thistle". It is an annual plant that breaks off at the stem base when it dies, and forms a tumbleweed, dispersing its seeds as the wind rolls it along.[9] It is said to have arrived in the United States in shipments of flax seeds to South Dakota, perhaps about 1870.[10] It now is a noxious weed throughout North America, dominating disturbed habitats such as roadsides, cultivated fields, eroded slopes, and arid regions with sparse vegetation. Though it is a troublesome weed, Salsola tragus also provides useful livestock forage on arid rangelands.[11]

Brunsvigia bosmaniae in flower in the veld, showing the globular umbels of tumbleweed Amaryllidaceae
Brunsvigia bosmaniae tumbleweed inflorescences caught behind a fence
Anastatica, a North African desert tumbleweed

Other members of the Amaranthaceae (s.l.) that form tumbleweeds include Kochia species,[12][13] Cycloloma atriplicifolium, and Corispermum hyssopifolium,[12] which are called plains tumbleweed.[14] Atriplex rosea is called the tumbling oracle or tumbling orach.[15][16]

Among the Amaranthaceae (s.s.) that form tumbleweeds, there are several species of Amaranthus, such as Amaranthus albus, native to Central America but invasive in Europe, Asia, and Australia; and Amaranthus graecizans, native to Africa, but naturalized in North America.[17] Amaranthus retroflexus, which is indigenous to tropical North and South America, has become nearly cosmopolitan largely as a weed, but like many other species of Amaranthus, it also is widely valued as animal forage and as human food, though it should be utilised with caution to avoid toxicity.[18]

Several Southern African genera in the family Amaryllidaceae produce highly optimised tumbleweeds; their inflorescences are globular umbels with long, spoke-like pedicels, either effectively at ground level, or breaking off once the stems are dry. When the seeds are about ripe, the fruit remain attached to the peduncles, but the stem of the umbel detaches, permitting the globes to roll about in the wind. The light, open, globular structures form very effective tumbleweed diaspores, dropping their seeds usually within a few days as the follicles fail under the wear of rolling. The seeds are fleshy, short-lived, and germinate rapidly where they land. Being poisonous and distasteful, they are not attractive to candidate transport animals, so the rolling diaspore is a very effective dispersal strategy for such plants. Genera with this means of seed dispersal include Ammocharis, Boophone, Crossyne and Brunsvigia.[19]

Some species of the Apiaceae form tumbleweeds from their flower umbels, much as some Amaryllidaceae do.[1]

In the Asteraceae, the knapweed Centaurea diffusa forms tumbleweeds. It is native to Eurasia and is naturalized in much of North America. Also in the Asteraceae, Lessingia glandulifera, native to America, sometimes forms tumbleweeds; it grows on sandy soils in desert areas, chaparral, and open pine forests of the western United States.[20]

In the Brassicaceae, Sisymbrium altissimum, Crambe maritima, Lepidium, and a resurrection plant, Anastatica form tumbleweeds.

In the Caryophyllaceae, the garden plant "baby's-breath" (Gypsophila paniculata), produces a dry inflorescence that forms tumbleweeds. In parts of central and western North America, it has become a common weed in many locations including hayfields and pastures.[21]

In the legume family (Fabaceae), Baptisia tinctoria and some species of Psoralea produce tumbleweeds. In Psoralea the tumbleweed detaches from the plant by abscission of the stem.[22]

In the Plantaginaceae, Plantago cretica forms tumbleweeds.

Inflorescences that act as tumbling diaspores occur in some grasses, including Schedonnardus paniculatus and some species of Eragrostis and Aristida.[23] In these plants, the inflorescences break off and tumble in the wind instead of the whole plant, much as happens in some of the Apiaceae and Amaryllidaceae. The species of Spinifex from Southeast Asia are prominent examples of this dispersal adaptation.[24] These grasses are often called tumble-grasses, including such species as Panicum capillare and Eragrostis pectinacea in the United States.[25]

In the Solanaceae, Solanum rostratum .[12] forms tumbleweeds.

Wind dispersed fruits that tumble or roll on the ground, sometimes known as "tumble fruits", are rare. Some are technically achenes. Highly inflated indehiscent fruits that may facilitate tumbling include Alyssopsis,[26] Coluteocarpus,[26] Physoptychis,[26] Sutherlandia and Physaria.[26]

Very similar in habit to Anastatica, but practically unrelated, are the spore-bearing Selaginella lepidophylla (a lycopod) and earthstar mushroom family (Geastraceae). All of these curl into a ball when dry and uncurl when moistened.

Bovista, a genus of puffball, uses essentially the same dispersal strategy.

Environmental effects

A tumbleweed in Chelan, Washington

Some ruderal species that disperse as tumbleweeds are serious weeds that significantly promote wind erosion in open regions. Their effects are particularly harmful to dry-land agricultural operations where the outside application of additional moisture is not practicable. One study showed that a single Russian thistle can remove up to 167 liters (44 gallons) of water from the soil in competition with a wheat crop in one year.[27] The amount of water removed from fallow land more subject to erosion would be even more damaging.

It sometimes happens that species of large tumbleweed, especially if thorny, can form aggregations that are physically hazardous and can block roads and cover buildings and vehicles. This can most obviously happen where fences and similar obstacles cause the accumulation, but the weeds also can entangle each other spontaneously until they form piles that can no longer roll. Such piles can be a serious threat to trapped vehicles or buildings and their occupants, most particularly because they are dry and flammable. Examples of enveloped buildings and vehicles have been documented mainly in the Western regions of the USA. One example was in the open on highway 349 in West Texas. In residential areas an example was in South Dakota in the town of Mobridge, where tens of tonnes of large tumbleweeds ("Russian thistles") that had matured in the dry bed of nearby Lake Oahe buried many houses so deeply that mechanical equipment was necessary to remove it, release occupants, and counter the fire hazard.[28][29]

There was a significant outbreak of Panicum effusum in the Australian town of Wangaratta in February 2016 that attracted international attention. The seed heads of the weed, known locally as "hairy panic", had piled several meters deep in some places, forcing residents to spend several hours removing it to regain access to their doors and homes.[30][31][32] The local council subsequently indicated it was considering attaching large vacuums to street-sweepers in an attempt to control the outbreak.[33]

Symbolism

The tumbleweed's association with the Western film genre has led to a highly symbolic meaning in visual media. It has come to represent locations that are desolate, dry, and often humorless, with few or no occupants. A common use is when characters encounter a long abandoned or dismal-looking place: a tumbleweed will be seen rolling past, often accompanied by the sound of a dry, hollow wind. This is sometimes used for comic effect in locations where tumbleweeds are not expected, but the emptiness is obvious.

As with the sound of crickets, tumbleweeds can also be shown to emphasize an awkward silence after a bad joke or a character otherwise making an absurd declaration, with the aforementioned sound of wind and the plant rolling past in the background.

References

  1. 1 2 William Francis Ganong (1921). A Textbook of Botany for Colleges. MacMillan Co. p. 359.
  2. Dirk V. Baker (2007). Dispersal of an Invasive Tumbleweed. ProQuest. pp. 90–. ISBN 978-0-549-44310-0.
  3. W. F. Ganong (1896). "An outline of phytobiology". Bulletin of the Natural History Society of New Brunswick. 13: 3–26, page 1 errata. page 16
  4. Orson K. Miller, Jr.; Hope H. Miller (1988). Gasteromycetes: Morphological and Developmental Features with Keys to the Orders, Families, and Genera. Mad River PressInc. ISBN 978-0-916422-74-5.
  5. Bulletin. Ohio State University. 1928.
  6. Baker, Dirk V. (2007). Dispersal of an Invasive Tumbleweed. ProQuest. p. 3. ISBN 978-0-549-44310-0.
  7. "Calflora: Salsola tragus". calflora.org.
  8. "Plants Profile for Salsola tragus (prickly Russian thistle)". usda.gov.
  9. Main, Douglas. "Consider the tumbleweed". scienceline.org. Retrieved 4 August 2011.
  10. Epple, Anne (1997). Plants of Arizona. Falcon. p. 352. ISBN 978-1-56044-563-0.
  11. Salsola tragus Linnaeus in Vol. 4 Page 399, 400, 401, 402 Flora of North America, eFloras.org.
  12. 1 2 3 Louis Hermann Pammel (1903). Some Weeds of Iowa. Experiment Station, Iowa State College of Agriculture and the Mechanic Arts. page 477
  13. D. A. Becker (1978). "Stem abscission in tumbleweeds of the Chenopodiaceae: Kochia". American Journal of Botany. 65: 375–383. doi:10.2307/2442692.
  14. Chenopodiaceae, Standardized nomenclature, Texas A&M University: Center for the Study of Digital Libraries.
  15. WILDLAND FIRE MANAGEMENT PLAN: SACRAMENTO NATIONAL WILDLIFE REFUGE COMPLEX, U.S. Fish and Wildlife Service.
  16. Atriplex rosea Linnaeus, in Vol. 4 Page 326, 340, 358 Flora of North America, eFloras.org.
  17. Matt Jolley Abrams, LeRoy (1944). Illustrated Flora of the Pacific States Volume 2. Stanford University Press. p. 644. ISBN 978-0-8047-0004-7.
  18. Watt, John Mitchell; Breyer-Brandwijk, Maria Gerdina: The Medicinal and Poisonous Plants of Southern and Eastern Africa 2nd ed Pub. E & S Livingstone 1962
  19. Manning, John (2008). Field Guide to Fynbos. Cape Town: Struik Publishers. ISBN 9781770072657.
  20. Lessingia glandulifera in Vol. 20 Page 452, 454, 456 Flora of North America, eFloras.org.
  21. Gypsophila paniculata Linnaeus in Vol. 5 Flora of North America, eFloras.org.
  22. D. A. Becker (1968). "Stem abscission in the tumbleweed, Psoralea". American Journal of Botany. 55: 753–756. doi:10.2307/2440962.
  23. Gibson, David J. (2009). Grasses and grassland ecology. Oxford: Oxford University Press. p. 52. ISBN 0-19-852919-8.
  24. Dawson, John; Lucas, Rob (2005). The nature of plants : habitats, challenges, and adaptations. Melbourne. p. 314. ISBN 0-643-09161-0.
  25. Pound, Roscoe; Clements, Frederic E. (1977). The phytogeography of Nebraska. New York: Arno Press: Arno Press. p. 156. ISBN 0-405-10417-0.
  26. 1 2 3 4 O. Appel and I. A. Al-Shehbaz. "Cruciferae". In K. Kubitzki and C. Bayer. The families and genera of vascular plants. 5: Flowering Plants: Dicotyledons: Malvales, Capparales and Non-betalain Caryophyllales. Springer. pp. 75–174. ISBN 3-540-42873-9. page 83
  27. Parker, Ph.D., Robert (2003). DROUGHT ADVISORY EM4856 – Water Conservation, Weed Control Go Hand in Hand (PDF). Washington State University Cooperative Extension.
  28. Marilyn Stablein (1995). Climate of Extremes: Landscape and Imagination. Black Heron Press. pp. 33–. ISBN 978-0-930773-39-7.
  29. "Toledo Blade - Google News Archive Search". google.com.
  30. "Australia town consumed by 'hairy panic'". BBC News. British Broadcasting Corporation. 2016-02-18. Retrieved 2016-05-12.
  31. "Video: 'Hairy Panic' tumbleweed takes over Australian homes". Belfast Telegraph. 2016-02-18. Retrieved 2016-05-12.
  32. Halkon, Ruth (2016-02-18). "Entire town buried under bizarre 'hairy panic' weed that has baffled experts". Mirror (UK). Retrieved 2016-05-12.
  33. "Big vacuums could combat 'hairy panic' in Australia city". BBC News. British Broadcasting Corporation. 2016-02-19. Retrieved 2016-05-12.

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