Temporal range: Eocene-recent
Harpalium (Cass.) Cass.
Helianthus (//) is a genus comprising about 70 species of annual and perennial flowering plants in the daisy family Asteraceae. Except for three South American species, the species of Helianthus are native to North America and Central America. The common names "sunflower" and "common sunflower" typically refer to the popular annual species Helianthus annuus, whose round flower heads in combination with the ligules look like the sun. This and other species, notably Jerusalem artichoke (H. tuberosus), are cultivated in temperate regions and some tropical regions as food crops for humans, cattle, and poultry, and as ornamental plants. The species H. annuus typically grows during the summer and into early fall, with the peak growth season being mid-summer.
Several perennial Helianthus species are grown in gardens, but have a tendency to spread rapidly and can become aggressive. On the other hand, the whorled sunflower, Helianthus verticillatus, was listed as an endangered species in 2014 when the U.S. Fish and Wildlife Service issued a final rule protecting it under the Endangered Species Act. The primary threats are industrial forestry and pine plantations in Alabama, Georgia, and Tennessee. They grow to 1.8 m (6 ft) and are primarily found in woodlands, adjacent to creeks and moist, prairie-like areas.
Sunflowers originate in the Americas. They were first domesticated in what is now Mexico and the Southern United States. Domestic sunflower seeds have been found in Mexico, dating to 2100 BCE. Native American people grew sunflowers as a crop from Mexico to Southern Canada. In the 16th century the first crop breeds were brought from America to Europe by explorers.
Sunflowers are thought to have been domesticated 3000–5000 years ago by Native Americans who would use them primarily as a source for edible seeds. They were then introduced to Europe in the early 16th century and made their way to Russia. In Russia, where oilseed cultivators were located, these flowers were developed and grown on an industrial scale. Russia then reintroduced this oilseed cultivation process to North America in the mid-20th century; North America began their commercial era of sunflower production and breeding. New breeds of the Helianthus spp. began to become more prominent in new geographical areas.
This species' geographical history accounts for its evolutionary history, with its levels of genetic variation across its gene pool increasing as new hybrids are created both for commercial use and in the wild. Subsequent to this, sunflower species are also experiencing the bottle neck effect in their gene pool as a result of selective breeding for industrial use.
Facing the sun
Before blooming, sunflower plants tilt during the day to face the sun in order to gain more sunlight for photosynthesis. This heliotropism continues for a short time when the plant blooms, young sunflower heads tracking of the sun. This is thought to help attract pollinators, as many are more attracted to warm flowers. By the time they are mature, though, sunflowers generally stop moving to remain facing east. which lets them be warmed by the rising sun. The movement of sunflowers through heliotropism happens as the sunflower follows the sun, the opposite side of the sunflower stem begins to accumulate growth hormones and this causes growth which redirects the sunflower. The rough and hairy stem is branched in the upper part in wild plants, but is usually unbranched in domesticated cultivars.
Sunflowers are usually tall annual or perennial plants that in some species can grow to a height of 300 cm (120 in) or more. Each "flower" is actually a disc made up of tiny flowers, to form a larger false flower to better attract pollinators. The plants bear one or more wide, terminal capitula (flower heads made up of many tiny flowers), with bright yellow ray florets (mini flowers inside a flower head) at the outside and yellow or maroon (also known as a brown/red) disc florets inside. Several ornamental cultivars of H. annuus have red-colored ray florets; all of them stem from a single original mutant.
This genus is distinguished technically by the fact that the ray florets (when present) are sterile, and by the presence on the disk flowers of a pappus that is of two awn-like scales that are caducous (that is, easily detached and falling at maturity). Some species also have additional shorter scales in the pappus, and one species lacks a pappus entirely. Another technical feature that distinguishes the genus more reliably, but requires a microscope to see, is the presence of a prominent, multicellular appendage at the apex of the style. Further, the florets of a sunflower are arranged in a natural spiral.
Variability is seen among the perennial species that make up the bulk of those in the genus. Some have most or all of the large leaves in a rosette at the base of the plant and produce a flowering stem that has leaves that are reduced in size. Most of the perennials have disk flowers that are entirely yellow, but a few have disk flowers with reddish lobes. One species, H. radula, lacks ray flowers altogether.
The growth of a sunflower depends strictly on its genetic makeup and background. Additionally, the season it is planted will have effects on its development; those seasons tend to be in the middle of summer and beginning of fall. Sunflower development is classified by a series of vegetative stages and reproductive stages that can be determined by identifying the heads or main branch of a single head or branched head.
Researchers have analyzed the impact of various nitrogen-based fertilizers on the growth of sunflowers. Ammonium nitrate was found to produce better nitrogen absorption than urea, which performed better in low-temperature areas.
Production in Brazil
In Brazil, a unique system of production called the soybean-sunflower system is used: sunflowers are planted first, and then soybean crops follow, reducing idle periods and increasing total sunflower production and profitability. Sunflowers are usually planted in the extreme southern or northern regions of the country. Frequently, in the southern regions, sunflowers are grown in the beginning of rainy seasons, and soybeans can then be planted in the summer. Researchers have concluded that the soybean-sunflower method of plantation could be further improved through changes in fertilizer use. The current method has been shown to have positive environmental impacts.
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Sunflowers have been proven to be excellent plants to attract beneficial insects, including pollinators. Helianthus spp. are a nectar producing flowering plant that attract pollinators and parasitoids which reduce the pest populations in nearby crop vegetation. Sunflowers attract different beneficial pollinators (e.g., honey bees) and other known insect prey to feed on and control the population of parasitic pests that could be harmful to the crops. Predacious insects are first attracted to sunflowers once they are planted. Once the Helianthus spp. reaches six inches and produces flowers it begins to attract more pollinators. Distance between sunflower rows and crop vegetation plays an important role in this phenomenon, hypothesizing that closer proximity to the crops will increase insect attraction.
In addition to pollinators of Helianthus spp., there are other factors such as abiotic stress, florivory, and disease which also contribute to the evolution of floral traits. These selective pressures, which stem from several biotic and abiotic factors are associated with habitat environmental conditions which all play a role in the overall morphology of the sunflowers’ floral traits.
An ecosystem is composed of both biotic (which are living elements of an ecosystem such as plants, animals, fungi, protists, and bacteria), and abiotic factors (non-living elements of an ecosystem such as air, soil, water, light, salinity and temperature).
It is thought that two biotic factors can explain for the evolution of larger sunflowers and why they are present in more drier environments. For one thing, the selection by pollinators is thought to have increased the sunflower’s size in a drier environment. This is because in a drier environment, there are typically less pollinators. As a result, in order for the sunflower to be able to attract more pollinators, they had to increase the morphology of their floral traits in that they had to increase their display size. Another biotic factor that can explain for the evolution of larger sunflowers in drier environments is that the pressure from florivory and disease favors smaller flowers in habitats that have a more moderate supply of moisture (mesic habitat). Wetter environments usually have more dense vegetation, more herbivores, and more surrounding pathogens. As larger flowers are typically more susceptible to disease and florivory, smaller flowers may have evolved in wetter environments which explains the evolution of larger sunflowers in more drier environments.
Regarding the phylogeographic relations and population demographic patterns across sunflowers, earlier cultivated sunflowers formed a clade from wild populations from the Great Plains, which demonstrates that there was a single domestication event in central North America. Following the cultivated sunflower’s origin, it may have gone through significant bottlenecks dating back to ~5000 years ago.
The seed and sprouts of the common sunflower (Helianthus annuus L.) have many medicinal uses. The edible seed and the sprout have an abundance of nutrients and biological activities and have many antioxidants such as phenolic acids, flavonoids and vitamins. The common sunflower has many antioxidant effects which serve as a protective function for cellular damage. Their phytochemical constituents, which include phenolic acids, flavonoids and tocopherol (vitamin E), have many potential benefits. The sunflower seed and sprout also have high concentrations of vitamins A, B, and C and are high in niacin. They also have many minerals such as calcium, potassium and iron. Sunflower seed extract contain antidiabetic effects where secondary metabolites within those extracts are able to control glucose levels effectively. The bioactive peptides of the common sunflower are known to have antihypertensive effects. Sunflower oil also helps in anti-inflammatory activity, prevents gastric damage and is a therapeutic alternative in the healing process for microscopical and clinical wounds.
- Helianthus agrestis Pollard – southeastern sunflower – Florida Georgia
- Helianthus ambiguus Britt. – Wisconsin Michigan Ohio New York
- Helianthus angustifolius L. – swamp sunflower – Texas + Florida north to southern Illinois + Long Island
- Helianthus annuus L. – common sunflower, girasol – most of United States + Canada
- Helianthus anomalus S.F.Blake – western sunflower – Nevada Utah Arizona New Mexico
- Helianthus argophyllus Torr. & A.Gray – silverleaf sunflower – Texas North Carolina Florida
- Helianthus arizonensis R.C.Jacks. – Arizona sunflower – Arizona New Mexico
- Helianthus atrorubens L. – purpledisk sunflower – Louisiana Alabama Georgia Florida South Carolina North Carolina Tennessee Kentucky Virginia
- Helianthus bolanderi A.Gray – serpentine sunflower – California Oregon
- Helianthus × brevifolius E.Watson – Texas Indiana Ohio
- Helianthus californicus DC. – California sunflower – California
- Helianthus carnosus Small – lakeside sunflower – Florida
- Helianthus ciliaris DC. – Texas blueweed – Washington California Arizona New Mexico Nevada Utah Texas Oklahoma Colorado Kansas Illinois Tamaulipas Coahuila Chihuahua Sonora
- Helianthus cinereus Small – Missouri Kentucky Indiana Ohio
- Helianthus coloradensis Cockerell – prairie sunflower – Colorado New Mexico
- Helianthus cusickii A.Gray – Cusick's sunflower – Washington Oregon California Idaho Nevada
- Helianthus debilis Nutt. – cucumberleaf Sunflower – Texas to Maine; Mississippi
- Helianthus decapetalus L. – thinleaf sunflower – eastern United States; Ontario Quebec
- Helianthus deserticola Heiser – desert sunflower – Arizona Nevada Utah
- †Helianthus diffusus Sims – Missouri†
- Helianthus dissectifolius R.C.Jacks. – Mexico
- Helianthus divaricatus L. – woodland sunflower or rough woodland sunflower – eastern United States; Ontario Quebec
- Helianthus × divariserratus R.W.Long Michigan Indiana Ohio Connecticut
- Helianthus × doronicoides Lam. – Texas Oklahoma Arkansas Missouri Iowa Minnesota Illinois Kentucky Indiana Ohio Pennsylvania Michigan New Jersey Virginia
- Helianthus eggertii Small – Alabama, Kentucky, and Tennessee
- Helianthus exilis A.Gray – California
- Helianthus floridanus A.Gray ex Chapm. – Florida sunflower – Louisiana Alabama Georgia Florida South Carolina North Carolina
- Helianthus giganteus L. – giant sunflower – eastern United States; most of Canada
- Helianthus glaucophyllus D.M.Sm – whiteleaf sunflower – Tennessee South Carolina North Carolina
- Helianthus × glaucus Small – scattered locales in southeastern United States
- Helianthus gracilentus A.Gray – slender sunflower – California
- Helianthus grosseserratus M.Martens – sawtooth sunflower – Great Plains, Great Lakes, Ontario Quebec
- Helianthus heterophyllus Nutt. – variableleaf sunflower – Coastal Plain Texas to North Carolina
- Helianthus hirsutus Raf. – hairy sunflower – central + Eastern United States, Ontario
- Helianthus × intermedius R.W.Long – intermediate sunflower – scattered locales in United States
- Helianthus laciniatus A.Gray – alkali sunflower – Arizona New Mexico Texas Coahuila Nuevo León
- Helianthus × laetiflorus Pers. – cheerful sunflower, mountain sunflower – scattered in eastern + central United States + Canada
- Helianthus laevigatus Torr. & A.Gray – smooth sunflower – Georgia South Carolina North Carolina Virginia Maryland West Virginia
- Helianthus lenticularis Douglas ex Lindl. California Texas
- Helianthus longifolius Pursh – longleaf sunflower – Alabama Georgia North Carolina
- Helianthus × luxurians (E.Watson) E.Watson – Great Lakes region
- Helianthus maximiliani Schrad. – Maximillian sunflower – much of United States + Canada
- Helianthus membranifolius Poir. – French Guiana
- Helianthus microcephalus Torr. & A.Gray – eastern United States
- Helianthus mollis Lam. – downy sunflower, ashy sunflower – Ontario, eastern + central United States
- Helianthus multiflorus L. – manyflower sunflower – Ohio
- Helianthus navarri Phil. – Chile
- Helianthus neglectus Heiser – neglected sunflower – New Mexico Texas
- Helianthus niveus (Benth.) Brandegee – showy sunflower – California Arizona; Baja California, Baja California Sur
- Helianthus nuttallii Torr. & A.Gray – western + central United States + Canada
- Helianthus occidentalis Riddell – fewleaf sunflower, western sunflower – Great Lakes region, scattered in southeastern United States
- Helianthus × orgyaloides Cockerell – Colorado Kansas
- Helianthus paradoxus Heiser – paradox sunflower – Utah New Mexico Texas
- Helianthus pauciflorus Nutt. – stiff sunflower – central United States + Canada
- Helianthus petiolaris Nutt. – prairie sunflower, lesser sunflower – much of United States + Canada
- Helianthus porteri (A.Gray) Pruski – Porter's sunflower – Alabama Georgia South Carolina North Carolina
- Helianthus praecox Engelm. & A.Gray Texas sunflower – Texas
- †Helianthus praetermissus – New Mexico sunflower – New Mexico†
- Helianthus pumilus Nutt. – little sunflower – Colorado Wyoming Montana Utah Idaho
- Helianthus radula (Pursh) Torr. & A.Gray – rayless sunflower – Louisiana Mississippi Alabama Georgia South Carolina Florida
- Helianthus resinosus Small – resindot sunflower – Mississippi Alabama Georgia South Carolina North Carolina Florida
- Helianthus salicifolius A.Dietr. – willowleaf sunflower – Texas Oklahoma Kansas Missouri Illinois Wisconsin Ohio Pennsylvania New York
- Helianthus sarmentosus Rich. – French Guiana
- Helianthus scaberrimus Elliott – South Carolina
- Helianthus schweinitzii Torr. & A.Gray – Schweinitz's sunflower – South Carolina North Carolina
- Helianthus silphioides Nutt. – rosinweed sunflower – Lower Mississippi Valley
- Helianthus simulans E.Watson – muck sunflower – southeastern United States
- Helianthus smithii Heiser – Smith's sunflower – Alabama Georgia Tennessee
- Helianthus speciosus Hook. – Michoacán
- Helianthus strumosus L. – eastern + central United States + Canada
- Helianthus subcanescens (A.Gray) E.Watson – Manitoba, north-central United States
- Helianthus subtuberosus Bourg.
- Helianthus tuberosus L. – Jerusalem artichoke, sunchoke, earth-apple, topinambur – much of United States + Canada
- Helianthus verticillatus Small – whorled sunflower – Alabama Georgia Tennessee
The following species were previously included in the genus Helianthus.
- Flourensia thurifera (Molina) DC. (as H. thurifer Molina)
- Helianthella quinquenervis (Hook.) A.Gray (as H. quinquenervis Hook.)
- Helianthella uniflora (Nutt.) Torr. & A.Gray (as H. uniflorus Nutt.)
- Pappobolus imbaburensis (Hieron.) Panero (as H. imbaburensis Hieron.)
- Viguiera procumbens (Pers.) S.F.Blake (as H. procumbens Pers.)
- "Early sunflower family fossil found in South America". Phys.org. Lin Edwards.
- "Helianthus". Germplasm Resources Information Network (GRIN). Agricultural Research Service (ARS), United States Department of Agriculture (USDA). Retrieved 2011-02-22.
- Sunset Western Garden Book. Leisure Arts. 1995. pg. 606–607.
- Schilling, Edward E. (2006). "Helianthus". In Flora of North America Editorial Committee (ed.). Flora of North America North of Mexico (FNA). 21. New York and Oxford – via eFloras.org, Missouri Botanical Garden, St. Louis, MO & Harvard University Herbaria, Cambridge, MA.
- "Sunflower Production". North Dakota State University. Archived from the original on August 18, 2016. Retrieved July 12, 2016.
- Shorter Oxford English Dictionary, 6th ed. United Kingdom: Oxford University Press. 2007. p. 3804. ISBN 978-0-19-920687-2.
- RHS A-Z Encyclopedia of Garden Plants. United Kingdom: Dorling Kindersley. 2008. p. 1136. ISBN 978-1-4053-3296-5.
- "Conservation Plant Characteristics - Helianthus annuus L. common sunflower HEAN3". USDA - Natural Resources Conservation Service. Retrieved April 1, 2019.
- Remillard, Ashley (August 4, 2014) "U.S. Fish and Wildlife Service Issues Final Rule Protecting Three Flowers" Archived 2014-08-12 at the Wayback Machine Endangered Species Law and Policy Blog, Nossaman LLP
- Genetics, Genomics and Breeding of Sunflower, (CRC Press, 8 Apr 2010) edited by Jinguo Hu, Gerald Seiler, C. Kole, page 8
- Plant Evolution and the Origin of Crop Species, By James F. Hancock (CABI, 2012), page 188
- Park, Brian; Burke, John M. (2020-02-29). "Phylogeography and the Evolutionary History of Sunflower (Helianthus annuus L.): Wild Diversity and the Dynamics of Domestication". Genes. 11 (3): 266. doi:10.3390/genes11030266. ISSN 2073-4425. PMC 7140811. PMID 32121324.
- Atamian, Hagop S.; Creux, Nicky M.; Brown, Evan A.; Garner, Austin G.; Blackman, Benjamin K.; Harmer, Stacey L. (2016-08-04). "Circadian regulation of sunflower heliotropism, floral orientation, and pollinator visits". Science. 353 (6299): 587–590. Bibcode:2016Sci...353..587A. doi:10.1126/science.aaf9793. ISSN 0036-8075. PMID 27493185.
- "How Sunflowers Move to Follow the Sun". UC Berkeley Rausser College of Natural Resources. Retrieved 2020-05-01.
- Heiser, C.B. The Sunflower. University of Oklahoma Press. 1981.
- Ben Sparks. "Geogebra: Sunflowers are irrationally pretty".
- Berglund, Duane. "Sunflower Production". ag,ndsu. NDSU Extension Service and N.D. Agricultural Experiment Station. Retrieved Feb 7, 2019.
- Spinelli, D; Bardi, L; Fierro, A; Jez, S; Basosi, R (2017). "Environmental analysis of sunflower production with different forms of mineral nitrogen fertilizers" (PDF). The International Journal of Life Cycle Assessment. Journal of Environmental Management. 22 (4): 492–501. doi:10.1007/s11367-016-1089-6. PMID 23974447. S2CID 112613303.
- Castro, C.; Leite, Regina. "Main aspects of sunflower production in Brazil". ProQuest 2036361008. Cite journal requires
- Mastuura, M. I. S. F.; Dias, F. R. T.; Picoli, J. F.; Lucas, K. R. G.; Castro, C.; Hirakuri, M. H. (2017). "Life-cycle assessment of the soybean-sunflower production system in the Brazilian Cerrado" (PDF). The International Journal of Life Cycle Assessment. 22 (4): 492–501. doi:10.1007/s11367-016-1089-6. S2CID 112613303.
- "Major producer countries of sunflower seed, 2018/2019". Statista. Retrieved 2018-08-10.
- Jones, Gregory A.; Gillett, Jennifer L. (March 2005). "Intercropping with Sunflowers to Attract Beneficial Insects in Organic Agriculture". Florida Entomologist. 88 (1): 91–96. doi:10.1653/0015-4040(2005)088[0091:IWSTAB]2.0.CO;2. ISSN 0015-4040.
- Mason, Chase M.; Patel, Hiral S.; Davis, Kaleigh E.; Donovan, Lisa A. (2017-07-10). "Beyond pollinators: evolution of floral architecture with environment across the wild sunflowers (Helianthus, Asteraceae)". Plant Ecology and Evolution. 150 (2): 139–150. doi:10.5091/plecevo.2017.1321.
- "Abiotic & Biotic Factors in Ecosystems". Sciencing. Retrieved 2021-02-20.
- Park, Brian; Burke, John M. (March 2020). "Phylogeography and the Evolutionary History of Sunflower (Helianthus annuus L.): Wild Diversity and the Dynamics of Domestication". Genes. 11 (3): 266. doi:10.3390/genes11030266. PMC 7140811. PMID 32121324.
- Guo, Shuangshuang; Ge, Yan; Na Jom, Kriskamol (2017-09-29). "A review of phytochemistry, metabolite changes, and medicinal uses of the common sunflower seed and sprouts (Helianthus annuus L.)". Chemistry Central Journal. 11 (1): 95. doi:10.1186/s13065-017-0328-7. ISSN 1752-153X. PMC 5622016. PMID 29086881.
- "Helianthus". The Plant List. Missouri Botanical Garden. Royal Botanic Gardens, Kew.CS1 maint: others (link)
- "Helianthus". County-level distribution maps from the North American Plant Atlas (NAPA). Biota of North America Program (BONAP). 2014.