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Classification System: APG IV

Superregnum: Eukaryota
Regnum: Plantae
Cladus: Angiosperms
Cladus: Eudicots
Cladus: Core eudicots
Cladus: Asterids
Cladus: Campanulids
Ordo: Asterales

Familia: Asteraceae
Subfamilia: Asteroideae
Tribus: Heliantheae
Subtribus: Ambrosiinae
Genus: Ambrosia
Species: A. acanthicarpa – A. acuminata – A. ambrosioides – A. arborescens – A. artemisiifolia – A. artemisioides – A. bidentata – A. bryantii – A. camphorata – A. canescens – A. carduacea – A. chamissonis – A. cheiranthifolia – A. chenopodiifolia – A. confertiflora – A. cordifolia – A. cumanensis – A. deltoidea – A. dentata – A. divaricata – A. dumosa – A. eriocentra – A. flexuosa – A. grayi – A. helenae – A. hispida – A. humi – A. ilicifolia – A. intergradiens – A. johnstoniorum – A. linearis – A. magdalenae – A. maritima – A. microcephala – A. monogyra – A. nivea – A. pannosa – A. peruviana – A. platyspina – A. polystachya – A. psilostachya – A. pumila – A. salsola – A. sandersonii – A. scabra – A. tenuifolia – A. tomentosa – A. trifida – A. velutina
Source(s) of checklist:

Ambrosia L. 1753

Type species: Ambrosia maritima L.


Acanthambrosia Rydb.
Franseria Cav.
Hymenoclea Torr. & A.Gray ex Torr. & A.Gray
Xanthidium Delpino
Gaertneria Medik.
Hemiambrosia Delpino
Hemixanthidium Delpino


Linnaeus, C. 1753. Species Plantarum. Tomus II: 987. Reference page.


International Plant Names Index. 2018. Ambrosia. Published online. Accessed: January 29 2018.
The Plant List 2013. Ambrosia in The Plant List Version 1.1. Published on the internet. Accessed: 2018 January 29. 2018. Ambrosia. Missouri Botanical Garden. Published on the internet. Accessed: 2018 January 29.
Hassler, M. 2018. Ambrosia. World Plants: Synonymic Checklists of the Vascular Plants of the World In: Roskovh, Y., Abucay, L., Orrell, T., Nicolson, D., Bailly, N., Kirk, P., Bourgoin, T., DeWalt, R.E., Decock, W., De Wever, A., Nieukerken, E. van, Zarucchi, J. & Penev, L., eds. 2018. Species 2000 & ITIS Catalogue of Life. Published on the internet. Accessed: 2018 January 29. Reference page.
USDA, ARS, Germplasm Resources Information Network. Ambrosia in the Germplasm Resources Information Network (GRIN), U.S. Department of Agriculture Agricultural Research Service. Accessed: Ambrosia.
Ambrosia L. – Taxon details on Integrated Taxonomic Information System (ITIS).
Ambrosia – Taxon details on National Center for Biotechnology Information (NCBI).

Vernacular names
български: Амброзия
Deutsch: Traubenkräuter
English: Ragweed
español: Ambrosías
suomi: Tuoksukit
հայերեն: Ամբրոսիա
polski: Ambrozja
русский: Амброзия

Ragweeds are flowering plants in the genus Ambrosia in the aster family, Asteraceae. They are distributed in the tropical and subtropical regions of the Americas, especially North America,[2] where the origin and center of diversity of the genus are in the southwestern United States and northwestern Mexico.[3] Several species have been introduced to the Old World and some have naturalized and have become invasive species.[2] Ragweed species are expected to continue spreading across Europe in the near future in response to ongoing climate change.[4]

Other common names include bursages[5] and burrobrushes.[6] The genus name is from the Greek ambrosia, meaning "food or drink of immortality".[2]

Ragweed pollen is notorious for causing allergic reactions in humans, specifically allergic rhinitis. Up to half of all cases of pollen-related allergic rhinitis in North America are caused by ragweeds.[7]

The most widespread species of the genus in North America is Ambrosia artemisiifolia.

Description and ecology

Ragweeds are annual and perennial herbs and shrubs. Species may grow just a few centimeters tall or exceed four meters in height. The stems are erect, decumbent or prostrate, and many grow from rhizomes. The leaves may be arranged alternately, oppositely, or both. The leaf blades come in many shapes, sometimes divided pinnately or palmately into lobes. The edges are smooth or toothed. Some are hairy, and most are glandular.[2]

Ragweeds are monoecious, most producing inflorescences that contain both staminate and pistillate flowers. Inflorescences are often in the form of a spike or raceme made up mostly of staminate flowers with some pistillate clusters around the base. Staminate flower heads have stamens surrounded by whitish or purplish florets. Pistillate flower heads have fruit-yielding ovules surrounded by many phyllaries and fewer, smaller florets.[2] The pistillate flowers are wind pollinated,[8][9] and the fruits develop. They are burs, sometimes adorned with knobs, wings, or spines.[2]

Many Ambrosia species occur in desert and semi-desert areas, and many are ruderal species that grow in disturbed habitat types.[3]
Ambrosia artemisiifolia pollen

Ragweed pollen is a common allergen. A single plant may produce about a billion grains of pollen per season,[10][11] and the pollen is transported on the wind. It causes about half of all cases of pollen-associated allergic rhinitis in North America, where ragweeds are most abundant and diverse.[7] Common culprits are common ragweed (A. artemisiifolia) and great ragweed (A. trifida).[12]

Concentration of ragweed pollen—in the absence of significant rainfall, which removes pollen from the air, is the lowest in the early morning hours (6:00 AM), when emissions starts, pollen concentration peaks at midday.[13] Ragweed pollen can remain airborne for days and travel great distances, and can even be carried 300–400 miles (500–600 km) out to sea.[14] Ragweeds native to the Americas have been introduced to Europe starting in the nineteenth century and especially during World War I, and have spread rapidly since the 1950s.[15] Eastern Europe, particularly Hungary, has been badly affected by ragweed since the early 1990s, when the dismantling of Communist collective agriculture led to large-scale abandonment of agricultural land, and new building projects also resulted in disturbed, un-landscaped areas.[16]

The major allergenic compound in the pollen has been identified as Amb a 1, a 38 kDa nonglycosylated protein composed of two subunits. It also contains other allergenic components, such as profilin and calcium-binding proteins.[17]

Ragweed allergy sufferers may show signs of oral allergy syndrome, a food allergy classified by a cluster of allergic reactions in the mouth in response to the consumption certain fruits, vegetables, and nuts.[18] Foods commonly involved include beans, celery, cumin, hazelnuts, kiwifruit, parsley, potatoes, bananas, melons, cucumbers, and zucchini. Because cooking usually denatures the proteins that cause the reaction, the foods are more allergenic when eaten raw; exceptions are celery and nuts, which may not be safe even when cooked.[18] Signs of reaction can include itching, burning, and swelling of the mouth and throat, runny eyes and nose, hives, and, less commonly, vomiting, diarrhea, asthma, and anaphylaxis.[18] These symptoms are due to the abnormal increase of IgE antibodies which attach to a type of immune cell called mast cells. When the ragweed antigen then attaches to these antibodies the mast cells release histamine and other symptom evoking chemicals.[19]

Merck & Co, under license from allergy immunotherapy (AIT) company ALK, has launched a ragweed allergy immunotherapy treatment in sublingual tablet form in the US and Canada. Allergy immunotherapy treatment involves administering doses of the allergen to accustom the body to induce specific long-term tolerance.[20]
Control and eradication

Chemical spraying has been used for control in large areas. Because ragweed only reacts to some of the more aggressive herbicides, it is highly recommended to consult professionals when deciding on dosage and methodology, especially near urban areas.[by whom?] Effective active ingredients include those that are glyphosate-based (Roundup, Glyphogan, Glialka), sulfosate-based (Medallon), and glufosinate ammonium-based (Finale 14SL). In badly infested areas, 2 to 6.5 liters per hectare (0.2–0.7 U.S. gal/acre) are usually dispersed.[21] In 2007 several Ambrosia artemisiifolia populations were glyphosate resistant, exclusively in the USA.[22]

Where herbicides cannot be used, mowing may be repeated about every three weeks, as it grows back rapidly. In the past, ragweed was usually cut down, left to dry, and then burned.[23] This method is used less often now, because of the pollution caused by smoke. Manually uprooting ragweed is generally ineffective, and skin contact can cause allergic reaction. If uprooting is the method of choice, it should be performed before flowering. There is evidence that mechanical and chemical control methods are actually no more effective in the long run than leaving the weed in place.[23]

Fungal rusts and the leaf-eating beetle Ophraella communa have been proposed as agents of biological pest control of ragweeds, but the latter may also attack sunflowers, and applications for permits and funding to test these controls have been unsuccessful.[24] The beetle has, however, appeared in Europe, either on its own or as an uncontrolled introduction, and it has started making a dent into Ambrosia populations there.[25][26][27][28]
Ambrosia dumosa
Ambrosia chamissonis
Ambrosia ambrosioides

There are about 50 species in genus Ambrosia. Species include:[29]

Ambrosia acanthicarpa Hook. – flatspine bur ragweed, annual bursage, sand bursage
Ambrosia acuminata (Brandegee) W.W.Payne
Ambrosia ambrosioides (Cav.) W.W.Payne – ambrosia-leaf bur ragweed, big bursage, ambrosia bursage
Ambrosia arborescens Mill. – marko, altamisa
Ambrosia artemisiifolia L. – common ragweed, short ragweed, Roman wormwood
Ambrosia artemisioides Meyen & Walp.
Ambrosia bidentata Michx. – lanceleaf ragweed, southern ragweed
Ambrosia bryantii (Curran) Payne
Ambrosia camphorata (Greene) W.W.Payne
Ambrosia canescens A.Gray – hairy ragweed
Ambrosia carduacea (Greene) W.W.Payne
Ambrosia chamissonis (Less.) Greene – silver burr ragweed, beach-bur
Ambrosia cheiranthifolia A.Gray – Rio Grande ragweed, South Texas ambrosia
Ambrosia chenopodiifolia (Benth.) W.W.Payne – San Diego bur ragweed, San Diego bursage
Ambrosia confertiflora DC. – weakleaf bur ragweed
Ambrosia cordifolia (A.Gray) W.W.Payne – Tucson bur ragweed, heartleaf bursage
Ambrosia deltoidea (Torr.) W.W.Payne – triangle bur ragweed, triangle bursage
Ambrosia dentata (Cabrera) M.O.Dillon
Ambrosia divaricata (Brandegee) Payne
Ambrosia diversifolia (Piper) Rydb.
Ambrosia dumosa (A.Gray) W.W.Payne – burrobush, white bursage
Ambrosia eriocentra (A.Gray) W.W.Payne – woolly fruit bur ragweed, hollyleaf bursage
Ambrosia flexuosa (A.Gray) W.W.Payne
Ambrosia grayi (A.Nelson) Shinners – woollyleaf bur ragweed, lagoonweed
Ambrosia × helenae Rouleau – Helen ragweed
Ambrosia hispida Pursh – coastal ragweed
Ambrosia humi León de la Luz & Rebman[3]
Ambrosia ilicifolia (A.Gray) W.W.Payne – hollyleaf bur ragweed
Ambrosia × intergradiens W.H.Wagner – intergrading ragweed
Ambrosia johnstoniorum Henrickson
Ambrosia linearis (Rydb.) W.W.Payne – streaked bur ragweed
Ambrosia magdalenae (Brandegee) W.W.Payne
Ambrosia maritima L.
Ambrosia microcephala DC.
Ambrosia monogyra (Torr. & A.Gray) Strother & B.G.Baldwin – singlewhorl burrobrush
Ambrosia nivea (B.L.Rob. & Fernald) W.W.Payne
Ambrosia pannosa W.W.Payne
Ambrosia peruviana Willd. – ragweed, altamisa
Ambrosia × platyspina (Seaman) Strother & B.G.Baldwin
Ambrosia polystachya DC.
Ambrosia psilostachya DC. – Cuman ragweed, western ragweed, perennial ragweed
Ambrosia pumila (Nutt.) A.Gray – dwarf bur ragweed, San Diego ambrosia
Ambrosia salsola (Torr. & A. Gray) Strother & B.G. Baldwin
Ambrosia scabra Hook. & Arn.
Ambrosia tacorensis Meyen
Ambrosia tarapacana Phil.
Ambrosia tenuifolia Spreng. – slimleaf bur ragweed, lacy ambrosia
Ambrosia tomentosa Nutt. – skeletonleaf bur ragweed
Ambrosia trifida L. – great ragweed, giant ragweed
Ambrosia velutina O.E.Schulz
Ambrosia villosissima Forssk.

See also

List of Lepidoptera that feed on ragweeds


"Global Compositae Checklist". Retrieved 6 March 2015.
Ambrosia. Flora of North America.
León de la Luz, José Luis; Rebman, Jon P. (June 2010). "A new Ambrosia (Asteraceae) from the Baja California Peninsula, Mexico". Boletín de la Sociedad Botánica de México. 86 (6): 65–70.
Rasmussen, Karen; Thyrring, Jakob; Muscarella, Robert; Borchsenius, Finn (16 March 2017). "Climate-change-induced range shifts of three allergenic ragweeds (Ambrosia L.) in Europe and their potential impact on human health". PeerJ. 5: e3104. doi:10.7717/peerj.3104. PMC 5357339. PMID 28321366.
Ambrosia. Integrated Taxonomic Information System (ITIS).
Ambrosia. The Jepson eFlora 2013.
Taramarcaz, P.; et al. (2005). "Ragweed (Ambrosia) progression and its health risks: will Switzerland resist this invasion?" (PDF). Swiss Medical Weekly. 135 (37/38): 538–48.
Genus Ambrosia. Arizona-Sonora Desert Museum.
Payne, Willard W. (October 1963). "The Morphology of the Inflorescence of Ragweeds (Ambrosia-Franseria: Compositae)" (PDF). American Journal of Botany. 50 (9): 872–80. doi:10.2307/2439774. hdl:2027.42/141142. JSTOR 2439774.
Samter, M. and D. W. Talmage. Immunological Diseases 3rd ed. Volume 2. Boston: Little Brown. 1978. pg. 788. ISBN 0-316-76985-1 "It is estimated that a single plant produces 1 billion shafts of pollen, or that 1 square mile of ragweed plants produces 16 tons of pollen".
Rees, A. M. Consumer Health USA: Essential Information from the Federal Health Network 2nd ed. Volume 2. Westwood, Connecticut: Greenwood, 1997. pg. 32. ISBN 1-57356-068-5 "Each ragweed plant produces about one billion pollen grains during an average allergy season".
Dahl, Åslög; Strandhede, Sven-Olov; Wihl, Jan-Ålxe (1999). "Ragweed – An allergy risk in Sweden?". Aerobiologia. 15 (4): 293–297. doi:10.1023/A:1007678107552. S2CID 81763493.
Barnes, Charles; Pacheco, Freddy; Landuyt, Julie; Hu, Frank; Portnoy, Jay (2001). "Hourly variation of airborne ragweed pollen in Kansas City". Annals of Allergy, Asthma & Immunology. 86 (2): 166–71. doi:10.1016/S1081-1206(10)62686-5. PMID 11258685.
Rees p. 32
Kiss, L. "Spread of Common Ragweed in Europe: An Example for Biological Invasion Caused by an Alien Weed Introduced to a New Environment". In: Vincent, C., et al. Biological Control: A Global Perspective. Wallingford, Oxon.: CABI. 2007. pg. 81. ISBN 1-84593-265-X
Kiss pp. 81–82
Wopfner, Nicole; Gadermaier, Gabriele; Egger, Matthias; Asero, Riccardo; Ebner, Christof; Jahn-Schmid, Beatrice; Ferreira, Fatima (2005). "The Spectrum of Allergens in Ragweed and Mugwort Pollen". International Archives of Allergy and Immunology. 138 (4): 337–46. doi:10.1159/000089188. PMID 16254437. S2CID 34313189.
Oral Allergy Syndrome. Canadian Food Inspection Agency.
Owen, Judith (2013). Immunology. New York: W. H. Freeman and Company. p. 493. ISBN 978-14292-1919-8.
Moingeon, P.; Batard, T.; Fadel, R.; Frati, F.; Sieber, J.; Overtvelt, L. (2006). "Immune mechanisms of allergen-specific sublingual immunotherapy". Allergy. 61 (2): 151–65. doi:10.1111/j.1398-9995.2006.01002.x. PMID 16409190. S2CID 36043612.
A. Davis, K. Renner, C. Sprague, L. Dyer, D. Mutch (2005). Integrated Weed Management. MSU.
Stephen B Powles (April 2008). "Evolved glyphosate-resistant weeds around the world: lessons to be learnt". Pest Management Science Pest Management Science. 64 (4): 360–365. doi:10.1002/ps.1525. PMID 18273881.
Lewis, Alan J. (1973). "Ragweed Control Techniques: Effect on Old-Field Plant Populations". Bulletin of the Torrey Botanical Club. 100 (6): 333–8. doi:10.2307/2484099. JSTOR 2484099.
Kiss, pp. 83–89.
Müller-Schärer, H; Lommen, S T E; Rossinelli, M; Bonini, M; Boriani, M; Bosio, G; Schaffner, U (2014). "Ophraella communa, the ragweed leaf beetle, has successfully landed in Europe: fortunate coincidence or threat?". Weed Research. 54 (2): 109–119. doi:10.1111/wre.12072.
Shiyake, S.; Moriya, S. (2005). "Expansion of Ophraella communa LeSage in east Asia". Insect Nat. 40: 11–13.
W. A. Palmer and R. D. Goeden The Host Range of Ophraella communa Lesage (Coleoptera: Chrysomelidae)
Ambrosia. The Plant List.

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