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Papaveraceae

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Papaveraceae
Corn poppy (Papaver rhoeas)
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Order: Ranunculales
Family: Papaveraceae
Juss.[1]
Genera

See text

The Papaveraceae, /pəˌpævəˈrsiˌ/[2] informally known as the poppy family, are an economically important family of about 42 genera and approximately 775 known species[3] of flowering plants in the order Ranunculales. The family is cosmopolitan, occurring in temperate and subtropical climates (mostly in the northern hemisphere) like Eastern Asia as well as California in North America. It is almost unknown in the tropics. Most are herbaceous plants, but a few are shrubs and small trees. The family currently includes two groups that have been considered to be separate families: Fumariaceae and Pteridophyllaceae. Papaver is the classical name for poppy in Latin.[4]

Description

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Papaveraceae are known for diverse and colorful flowers with distinctive sepals. The plants may be annual, biennial, or perennial. Usually herbaceous, a few species form shrubs or evergreen trees. All parts contain a well-developed system of latex ducts called "laticifers", that produce milky latex, a watery white, yellow or red juice.

The leaves are alternate or sometimes whorled and have petioles and no stipules. They are usually lobed or pinnatifid (i.e. consisting of several not entirely separate leaflets), or much divided.

The plants are hermaphroditic and pollinated mostly by insects (entomophilous), but nectaries are lacking. A few are wind pollinated (anemophilous). There is a distinct calyx and corolla, except in Macleaya where the corolla is lacking. The flowers are medium-sized or large. The terminal flowers are solitary in many species. In others the terminal inflorescence is cymose or racemose. The flowers are odourless and regular.

There are many stamens, mostly 16 to 60, arranged in two separate whorls, the outer one with stamens alternating with petals, the inner one opposite, or numerous in the subfamily Papaveroideae.[5]: 86  The gynoecium consists of a compound pistil with 2 to 100 carpels. The ovary is superior and unilocular. The ovary is either stemless (sessile) or on a short stem (stipitate). The sepals of the plant typically number half of the petals for example two sepals accompany 4 petals or 3 sepals accompany 6 petals. The pistils and stamens are hidden inside the petals.

The non-fleshy fruit is usually a capsule, breaking open at maturity to release the seeds through pores (poricidal), through the partitions between the cells (septicidal), or by means of valves (valvular). The numerous seeds are small. Their nutritive tissue (endosperm) is oily and farinose. The fruit of Platystemon is a schizocarp.

The basic chromosome number, x, is 6, 7, 8, 9, 10 and 11, up to 12n = 84 (dodecaploidy) in species of Papaver, Argemone and Meconopsis.

The Papaveraceae family includes many plants that produce alkaloids, including opium poppy (Papaver somniferum). Opium is derived from the latex of the opium poppy seed pods and has been used for centuries due to its psychoactive properties. The main alkaloids found in opium, such as morphine, and codeine have huge impact on pharmaceuticals and a big importance on many countries that produce it on a large-scale including Afghanistan. Afghanistan has an economic dependence on opium cultivation making it hard to stop large scale production of these flowers ultimately increasing illegal production. Researchers are understanding how alkaloids are made in poppy plants to develop poppy plants with specific alkaloid levels. There is high genetic variability among poppy cultivars and environmental factors like wounding and methyl jasmonate treatment induce higher alkaloid production. Challenges still remain in understanding what effects alkaloid production for pharmaceutical purposes, highlighting importance of research in this field.[citation needed]

Taxonomy

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The APG III system (2009; unchanged from the APG II system of 2003 and the APG system of 1998) places the family in the order Ranunculales, in the clade eudicots.[1] The Papaveraceae differ from the rest of the Ranunculales in some important characteristics but they share others such as the presence of isoquinoline-derived alkaloids. Based on molecular and morphological data, the family forms a clade with the families Lardizabalaceae, Circaeasteraceae, Menispermaceae, Berberidaceae and Ranunculaceae.[6]

Genera

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Horned poppy (Glaucium sp.)
Horned poppy (Glaucium sp.)
Papaver sp.
Roemeria sp.

The broad circumscription of Papaveraceae in the APG III system includes three taxa that have previously been separated into different families: the Papaveraceae sensu stricto, the Fumariaceae and the Pteridophyllaceae.[1] Thus the Cronquist system of 1981 recognised the Fumariaceae as a separate family, despite their close phylogenetic relationship to the Papaveraceae sensu stricto. The three former families may be treated as subfamilies. One morphological and molecular study concluded that the former family Pteridophyllaceae has a basal position with a subsequent division into two terminal clades each containing one of the subfamilies Fumarioideae and Papaveroideae, which are clearly monophyletic.[7] A more recent study includes the former Pteridophyllaceae in the Fumarioideae, dividing the Papaveraceae into only two subfamilies.[8]

The internal division of the Fumarioideae shown below follows Lidén (1993),[9] with the exception of the placement of Pteridophyllum.[8][6] The subtribes are given by the Germplasm Resources Information Network.[10] The division of the Papaveroideae follows Hoot et al. (1997).[7] In the latter study, the tribe Eschscholzieae would be the basal clade and sister group to the rest of the subfamily, which is divided into a different terminal clade (Chelidonieae) and into its sister group, formed by the Papavereae and Platystemoneae, whose separation is not based on the data presented by these authors. For discussions of subfamilies, see Carolan et al. (2006)[11] and Blattner & Kadereit (1999).[12]

Fumarioideae

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  • Tribe Fumarieae Dumort.
  • Subtribe Corydalinae
  • Subtribe Fumariinae

Papaveroideae

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  • Tribe Chelidonieae Dumort.
  • Tribe Platystemoneae Spach
  • Tribe Papavereae Dumort.

Ecology

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Pteridophyllum racemosum

Pollination is entomophile (basically by flies and wasps and bees, less often by beetles), except in Bocconia and Macleaya. In Papaveroideae, the reward is pollen as there is no nectar. The visual attractant is the petals that are usually brightly coloured and often have basal guides, sometimes the attractant can also be the androecium as the petals do not last long. Some species, mostly those from the arctic and alpine regions, reinforce their attraction with floral fragrance (for example, Papaver alpinum smells of cloves), which in the case of Romneya drugs the insects. The anthers and stigmas mature at the same time, but Bocconia is clearly protogynous, the stigmas emerge from the calyx that encloses them. Autopollination is common and in some cases (for example, Roemeria hybrida) it occurs before the bud opens (cleistogamy). The presence of an aril suggests dispersion of seeds by ants (myrmecochory), once they have been expelled by the fruit. In the case of Bocconia the seeds remain attached to the replums after the capsule's valves have fallen leaving their brilliant red or orange arils exposed, which attract birds to feed on them, facilitating their dispersal (ornithochory). Seeds that lack an aril appear to be dispersed by the wind (anemochory) for capsules that open, in the other cases they are freed when the fruit decomposes. Many Fumarioideae species have explosive fruits (ballistic), while Rupicapnos and Sarcocapnos species are chasmophytes, growing on rocks, and their fruit's peduncles and pedicels are geotropic and they lengthen so that the seeds bury into the base of the plant.

The Papaveroideae typically grow in cooler and wooded areas, forming part of the undergrowth. They have adapted to arctic and alpine habitats and to arid, Mediterranean areas, many species are ruderal and segetal (growing in cornfields). Pteridophyllum grows in the undergrowth of woods of needle-leaved trees between 1,000 and 2,000 metres (3,300 and 6,600 ft). The Fumarioideae are basically found in open, rocky, alpine landscapes or vertical or overhanging cracks, while some species are ruderal or segetal.

Phytochemistry

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Mexican prickly poppy (Argemone mexicana)

Alkaloids: The isoquinolinic alkaloids present in the family are well known. They are derived from berberine, tetrahydroberberine, protopine and benzophenanthridine in Papaveroideae, and from spirobenzylisoquinoline and cularine in Fumarioideae, as well as from other groups that give them pharmacological properties: derivatives of aporphine, morphinan, pavine, isopavine, narceine and rhoeadine.

Others: Other characteristic substances contained within these species include: meconic acid and chelidonic acid, as well as cyanogenic glycoside compounds derived from tyrosine: dhurrin and triglochinin; in the Fumarioideae while the Chelidonieae contain the free amino acid δ-acetylornithine.

Flavonoids: Iridoids and proanthocyanidins absent. Flavonols, kaempferol and/or quercetin present.

Many of these plants are poisonous. The Mexican prickly poppy is poisonous if taken internally and may cause oedema and glaucoma. Even if an animal, such as a goat, should persist in grazing on this plant, not only will the animal suffer but so will those who drink its milk, because the poisons are passed along in the milk.

Fossil record

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The fossils of the late Cretaceous poppy Palaeoaster inquirenda from the Western Interior of North America occurs from 74.5 million year old deposits in the Fruitland Formation in New Mexico to 64.5 million year old deposits in the Hell Creek Formation in North Dakota. Dehiscent fruit fossils of Palaeoaster have been found at the excavation site for the well known Tyrannosaurus rex specimen BHI 3033. The seed capsule of Palaeoaster has some similarities to that of the extant poppy genus Romneya.[14]

Papaverites, a fossil fruit from the Eocene of Germany, may be associated with Papaveraceae.[15] Chesters et al. (1967) mentions Papaver pictum from the Oligocene of England.[16]

Cultivation

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California poppy (Eschscholzia californica)
Himalayan blue poppy (Meconopsis betonicifolia)

The family is well known for its striking flowers, with many species grown as ornamental plants, including California poppy (Eschscholtzia californica, the California state flower), the stunning blue Himalayan poppies (Meconopsis), several species of Papaver, and the wildflower bloodroot. Only two species are of economic importance for the production of opium and its derivatives for pharmaceutical use: Papaver somniferum is cultivated legally in order to obtain morphine and other opiates, and Papaver bracteatum, for thebaine. Papaver somniferum is also the source of the poppy seeds used in cooking and baking, and poppy seed oil. The illegal cultivation of poppies in Asia for the production of opium and heroin is virtually equal to the legal production in the rest of the world. Some Funarioideae have a limited use in gardening, with Lamprocapnos spectabilis ("bleeding heart"), and Pseudofumaria lutea ("yellow corydalis") commonly used. Chinese traditional medicine used the boiled and dried tubers of Corydalis yanhusuo ("yanhusuo").

Symbolism

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The opium poppy and corn poppy are symbols, respectively, of sleep and death. In Great Britain, Canada, the United States, and Australia the corn poppy is worn in remembrance of World War I.

References

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  1. ^ a b c Angiosperm Phylogeny Group 2009.
  2. ^ "Papaveraceae". Merriam-Webster.com Dictionary. Merriam-Webster.
  3. ^ Christenhusz & Byng 2016.
  4. ^ Bayton, Ross (2020). The Gardener's Botanical. doi:10.1515/9780691209135. ISBN 978-0-691-20913-5.[page needed]
  5. ^ Stace 2010.
  6. ^ a b Stevens, P.F. "Ranunculales". Angiosperm Phylogeny Website. Retrieved 5 September 2013.
  7. ^ a b Hoot et al. 1997.
  8. ^ a b Wang et al. 2009.
  9. ^ Lidén 1993a.
  10. ^ "Papaveraceae Juss., nom. cons". GRIN Taxonomy for Plants. Archived from the original on 30 September 2015. Retrieved 21 April 2015.
  11. ^ Carolan et al. 2006.
  12. ^ Blattner & Kadereit 1999.
  13. ^ a b Kadereit, Schwarzbach & Jork 1997.
  14. ^ Smith 2001.
  15. ^ Friedel 1927.
  16. ^ Willemstein 1987.

Bibliography

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