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Amaranthaceae

January 24, 2023

Amaranthaceae is a family of flowering plants commonly known as the amaranth family, in reference to its type genus Amaranthus. It includes the former goosefoot family Chenopodiaceae and contains about 165 genera and 2,040 species,[2][3] making it the most species-rich lineage within its parent order, Caryophyllales.

Description

Vegetative characters

 
Bassia laniflora (illustration), Camphorosmoideae

Most species in the Amaranthaceae are annual or perennial herbs or subshrubs; others are shrubs; very few species are vines or trees. Some species are succulent. Many species have stems with thickened nodes. The wood of the perennial stem has a typical "anomalous" secondary growth; only in subfamily Polycnemoideae is secondary growth normal.[3]

The leaves are simple and mostly alternate, sometimes opposite. They never possess stipules. They are flat or terete, and their shape is extremely variable, with entire or toothed margins. In some species, the leaves are reduced to minute scales. In most cases, neither basal nor terminal aggregations of leaves occur.[3]

 
Pollen grains of Halothamnus glaucus

Inflorescence and flowers

 
Flower of silver cockscomb, Celosia argentea, in Tirunelveli, India

The flowers are solitary or aggregated in cymes, spikes, or panicles and typically perfect (bisexual) and actinomorphic. Some species have unisexual flowers. Bracts and bracteoles are either herbaceous or scarious. Flowers are regular with an herbaceous or scarious perianth of (one to) mostly five (rarely to eight) tepals, often joined. One to five stamens are opposite to tepals or alternating, inserting from a hypogynous disc, which may have appendages (pseudostaminodes) in some species. The anthers have two or four pollen sacs (locules). In tribe Caroxyloneae, anthers have vesicular appendages. The pollen grains are spherical with many pores (pantoporate), with pore numbers from a few to 250 (in Froelichia).[4] One to three (rarely six) carpels are fused to a superior ovary with one (rarely two) basal ovule.[3] Idioblasts are found in the tissues.

Fruits and seeds

The diaspores are seeds or fruits (utricles), more often the perianth persists and is modified in fruit for means of dispersal. Sometimes even bracts and bracteoles may belong to the diaspore. More rarely the fruit is a circumscissile capsule or a berry. The horizontal or vertical seed often has a thickened or woody seed coat. The green or white embryo is either spirally (and without perisperm) or annular (rarely straight).[3]

Chromosome number

The basic chromosome number is (rarely 6) mostly 8–9 (rarely 17).[3]

Phytochemistry

Widespread in the Amaranthaceae is the occurrence of betalain pigments. The former Chenopodiaceae often contain isoflavonoids.[3]

In phytochemical research, several methylenedioxyflavonols, saponins, triterpenoids, ecdysteroids, and specific root-located carbohydrates have been found in these plants.[4]

Photosynthesis pathway

Although most of the family use the more common C3 photosynthesis pathway, around 800 species are C4 plants; this makes the Amaranthaceae the largest group with this photosynthesis pathway among the eudicots (which collectively includes about 1,600 C4 species).[5] Within the family, several types of C4 photosynthesis occur, and about 17 different types of leaf anatomy are realized. Therefore, this photosynthesis pathway seems to have developed about 15 times independently during the evolution of the family. About two-thirds of the C4 species belong to the former Chenopodiaceae. The first occurrence of C4 photosynthesis dates from the early Miocene, about 24 million years ago, but in some groups, this pathway evolved much later, about 6 (or less) million years ago.[5]

The multiple origin of C4 photosynthesis in the Amaranthaceae is regarded as an evolutionary response to inexorably decreasing atmospheric CO2 levels, coupled with a more recent permanent shortage in water supply as well as high temperatures. Species with higher water-use efficiency had a selective advantage and were able to spread out into arid habitats.[5]

Distribution

Amaranthaceae is a widespread and cosmopolitan family from the tropics to cool temperate regions. The Amaranthaceae (sensu stricto) are predominantly tropical, whereas the former Chenopodiaceae have their centers of diversity in dry temperate and warm temperate areas.[4] Many of the species are halophytes, tolerating salty soils, or grow in dry steppes or semi-deserts.

Economic importance

Some species, such as spinach (Spinacia oleracea) or forms of beet (Beta vulgaris) (beetroot, chard), are used as vegetables. Forms of Beta vulgaris include fodder beet (Mangelwurzel) and sugar beet. The seeds of Amaranthus, lamb's quarters (Chenopodium berlandieri), quinoa (Chenopodium quinoa) and kañiwa (Chenopodium pallidicaule) are edible and are used as pseudocereals.

Dysphania ambrosioides (epazote) and Dysphania anthelmintica are used as medicinal herbs. Several amaranth species are also used indirectly as a source of soda ash, such as members of the genus Salicornia (see glasswort).

A number of species are popular garden ornamental plants, especially species from the genera Alternanthera, Amaranthus, Celosia, and Iresine. Other species are considered weeds, e.g., redroot pigweed (Amaranthus retroflexus) and alligatorweed (Alternanthera philoxeroides), and several are problematic invasive species, particularly in North America, including Kali tragus and Bassia scoparia. Many species are known to cause pollen allergies.[6]

Systematics

 
Cladogram of Amaranthaceae s.l., modified and simplified, based on phylogenetic research of Müller & Borsch 2005, Kadereit et al. 2006, Sanchez del-Pino et al. 2009
 
Achyranthes splendens, Amaranthoideae
 
Gomphrena arborescens, Gomphrenoideae
 
Sugar beet, Beta vulgaris subsp. vulgaris 'altissima', Betoideae
 
Grayia spinosa, Chenopodioideae
 
Salicornia perennis, Salicornioideae
 
Kali turgidum (Syn. Salsola kali subsp. kali), Salsoloideae
 
Suaeda nigra, Suaedoideae

In the APG IV system of 2016, as in the previous Angiosperm Phylogeny Group classifications, the family is placed in the order Caryophyllales and includes the plants formerly treated as the family Chenopodiaceae.[7] The monophyly of this broadly defined Amaranthaceae has been strongly supported by both morphological and phylogenetic analyses.[8]

The family Amaranthaceae was first published in 1789 by Antoine Laurent de Jussieu in Genera Plantarum, p. 87–88. The first publication of family Chenopodiaceae was in 1799 by Étienne Pierre Ventenat in Tableau du Regne Vegetal, 2, p. 253. The older name has priority and is now the valid scientific name of the extended Amaranthaceae (s.l. = sensu lato).

Some publications still continued to use the family name Chenopodiaceae.[9][10][11][12][13][14] Phylogenetic research revealed the important impact of the subfamily Polycnemoideae on the classification (see cladogram): if Polycnemoideae are considered a part of Chenopodiaceae, then Amaranthaceae (s.str. = sensu stricto) have to be included, too, and the name of the extended family is Amaranthaceae. If Polycnemoideae would be separated as its own family, Chenopodiaceae and Amaranthaceae (s.str.) would form two distinct monophyletic groups and could be treated as two separate families.

Amaranthaceae Juss. (s.l.) includes the former families Achyranthaceae Raf., Atriplicaceae Durande, Betaceae Burnett, Blitaceae T.Post & Kuntze, Celosiaceae Martynov, Chenopodiaceae Vent. nom. cons., Corispermaceae Link, Deeringiaceae J.Agardh, Dysphaniaceae (Pax) Pax nom. cons., Gomphrenaceae Raf., Polycnemaceae Menge, Salicorniaceae Martynov, Salsolaceae Menge, and Spinaciaceae Menge.

The systematics of Amaranthaceae are the subject of intensive recent research. Molecular genetic studies revealed the traditional classification, based on morphological and anatomical characters, often did not reflect the phylogenetic relationships.

The former Amaranthaceae (in their narrow circumscription) are classified into two subfamilies, Amaranthoideae and Gomphrenoideae, and contain about 65 genera and 900 species in tropical Africa and North America. The Amaranthoideae and some genera of Gomphrenoideae were found to be polyphyletic, so taxonomic changes are needed.[15]

Current studies classified the species of former Chenopodiaceae to eight distinct subfamilies (the research is not yet completed): Polycnemoideae,[4][16] which are regarded as a basal lineage, Betoideae,[10] Camphorosmoideae,[14] Chenopodioideae,[13] Corispermoideae,[17] Salicornioideae,[11] Salsoloideae,[9] and Suaedoideae.[18] In this preliminary classification, the Amaranthaceae s.l. are divided into 10 subfamilies with approximately 180 genera and 2,500 species.[4]

Genera

A short synoptic list of genera is given here. For further and more detailed information, see the subfamily pages.

Subfamily Genera
Amaranthoideae Achyranthes, Achyropsis, Aerva, Allmania, Allmaniopsis, Amaranthus, Arthraerua, Bosea, Calicorema, Celosia, Centema, Centemopsis, Centrostachys, Chamissoa, Charpentiera, Chionothrix, Cyathula, Cyphocarpa, Dasysphaera, Deeringia, Digera, Eriostylos, Henonia, Herbstia, Hermbstaedtia, Indobanalia, Kelita, Lagrezia, Lecosia, Leucosphaera, Lopriorea, Marcelliopsis, Mechowia, Nelsia, Neocentema, Nothosaerva, Nototrichium, Nyssanthes, Omegandra, Pandiaka, Pleuropetalum, Pleuropterantha, Polyrhabda, Pseudosericocoma, Psilotrichopsis, Psilotrichum, Ptilotus, Pupalia, Rosifax, Saltia, Sericocoma, Sericocomopsis, Sericorema, Sericostachys, Stilbanthus, Trichuriella, Volkensinia, Wadithamnus
Gomphrenoideae Alternanthera, Blutaparon, Froelichia, Froelichiella, Gomphrena, Gossypianthus, Guilleminea, Hebanthe, Hebanthodes, Irenella, Iresine, Lithophila, Pedersenia, Pfaffia, Pseudogomphrena, Pseudoplantago, Quaternella, Tidestromia, Woehleria, Xerosiphon
Betoideae Acroglochin, Aphanisma, Beta, Hablitzia, Oreobliton, Patellifolia
Camphorosmoideae Bassia, Camphorosma, Chenolea, Didymanthus, Dissocarpus, Enchylaena, Eokochia, Eremophea, Eriochiton, Grubovia, Maireana, Malacocera, Neobassia, Neokochia, Osteocarpum, Roycea, Sclerolaena, Sedobassia, Spirobassia, Threlkeldia
Chenopodioideae Archiatriplex, Atriplex, Axyris, Baolia, Blitum, Ceratocarpus, Chenopodiastrum, Chenopodium, Cycloloma, Dysphania, Exomis, Extriplex, Grayia, Halimione, Holmbergia, Krascheninnikovia, Lipandra, Manochlamys, Microgynoecium, Micromonolepis, Oxybasis, Proatriplex, Spinacia, Stutzia, Suckleya, Teloxys
Corispermoideae Agriophyllum, Anthochlamys, Corispermum
Polycnemoideae Hemichroa, Nitrophila, Polycnemum, Surreya
Salicornioideae Allenrolfea, Arthrocaulon (split from Arthrocnemum),[19] Arthroceras (split from Arthrocnemum),[19] Halocnemum, Halopeplis, Halostachys, Heterostachys, Kalidium, Microcnemum, Salicornia, Sarcocornia, Tecticornia
Salsoloideae Anabasis, Arthrophytum, Caroxylon, Climacoptera, Cornulaca, Cyathobasis, Fredolia, Girgensohnia, Halarchon, Halimocnemis, Halocharis, Halogeton, Halothamnus, Haloxylon, Hammada, Horaninovia, Iljinia, Kali, Kaviria, Lagenantha, Nanophyton, Noaea, Nucularia, Ofaiston, Petrosimonia, Piptoptera, Physandra, Pyankovia, Rhaphidophyton, Salsola, Sympegma, Traganum, Traganopsis, Turania, Xylosalsola
Suaedoideae Bienertia, Suaeda

References

  1. ^ "Tropics: Amaranthaceae Juss. – synonyms". 2018. Retrieved 2018-06-16.
  2. ^ Christenhusz, M. J. M.; Byng, J. W. (2016). "The number of known plants species in the world and its annual increase". Phytotaxa. 261 (3): 201–217. doi:10.11646/phytotaxa.261.3.1.
  3. ^ a b c d e f g The family Amaranthaceae at APWebsite.
  4. ^ a b c d e Kai Müller, Thomas Borsch (2005): Phylogenetics of Amaranthaceae using matK/trnK sequence data – evidence from parsimony, likelihood and Bayesian approaches. - Annals of the Missouri Botanical Garden, 92, p. 66-102.
  5. ^ a b c Gudrun Kadereit, Thomas Borsch, Kurt Weising, Helmut Freitag (2003): Phylogeny of Amaranthaceae and Chenopodiaceae and the evolution of C4 photosynthesis. - International Journal of Plant Sciences, Volume 164 (6), p.959–986.
  6. ^ List of allergic plants in family Chenopodiaceae at pollenlibrary.com
  7. ^ Angiosperm Phylogeny Group (2016). "An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG IV". Botanical Journal of the Linnean Society. 181 (1): 1–20. doi:10.1111/boj.12385.  
  8. ^ Judd et al. (2008). Plant Systematics: A Phylogenetic Approach, Third Edition. Sinauer Associates, Inc. Sunderland, MA
  9. ^ a b Hossein Akhani, Gerald Edwards, Eric H. Roalson (2007): Diversification Of The Old World Salsoleae s.l. (Chenopodiaceae): Molecular Phylogenetic Analysis Of Nuclear And Chloroplast Data Sets And A Revised Classification. - International Journal of Plant Sciences, 168(6), p.931–956.
  10. ^ a b G. Kadereit, S. Hohmann, J.W. Kadereit (2006): A synopsis of Chenopodiaceae subfam. Betoideae and notes on the taxonomy of Beta. - Willdenowia 36, p.9-19.
  11. ^ a b Gudrun Kadereit, Ladislav Mucina, Helmut Freitag (2006): Phylogeny of Salicornioideae (Chenopodiaceae): diversification, biogeography, and evolutionary trends in leaf and flower morphology. - Taxon 55(3), p. 617–642.
  12. ^ Maxim V. Kapralov, Hossein Akhani, Elena V. Voznesenskaya, Gerald Edwards, Vincent Franceschi, Eric H. Roalson (2006): Phylogenetic Relationships in the Salicornioideae / Suaedoideae / Salsoloideae s.l. (Chenopodiaceae) Clade and a Clarification of the Phylogenetic Position of Bienertia and Alexandra Using Multiple DNA Sequence Datasets. - Systematic Botany.
  13. ^ a b Gudrun Kadereit, Evgeny V. Mavrodiev, Elizabeth H. Zacharias, Alexander P. Sukhorukov (2010): Molecular phylogeny of Atripliceae (Chenopodioideae, Chenopodiaceae): Implications for systematics, biogeography, flower and fruit evolution, and the origin of C4 Photosynthesis. - American Journal of Botany 97(10), p. 1664-1687.
  14. ^ a b Gudrun Kadereit, Helmut Freitag (2011): Molecular phylogeny of Camphorosmeae (Camphorosmoideae, Chenopodiaceae): Implications for biogeography, evolution of C4-photosynthesis and taxonomy. - Taxon 60(1), p. 51-78
  15. ^ Ivonne Sánchez del-Pino, Thomas Borsch, Timothy J. Motle (2009): trnL-F and rpl16 Sequence Data and Dense Taxon Sampling Reveal Monophyly of Unilocular Anthered Gomphrenoideae (Amaranthaceae) and an Improved Picture of Their Internal Relationships. - Systematic Botany, Volume 34 (1), p. 57-67. doi:10.1600/036364409787602401
  16. ^ Rüdiger Masson & Gudrun Kadereit (2013): Phylogeny of Polycnemoideae (Amaranthaceae): Implications for biogeography, character evolution and taxonomy. Taxon 62 (1): 100-111. [1]
  17. ^ Alexander P. Sukhorukov (2007): Fruit anatomy and its taxonomic significance in Corispermum (Corispermoideae, Chenopodiaceae). – Willdenowia 37, ISSN 0511-9618, p.63-87, doi:10.3372/wi.37.37103
  18. ^ Peter Schütze, Helmut Freitag, Kurt Weising (2003): An integrated molecular and morphological study of the subfamily Suaedoideae Ulbr. (Chenopodiaceae). - Plant Systematics and Evolution, Volume 239, p. 257-286. abstract: doi:10.1007/s00606-003-0013-2
  19. ^ a b Piirainen, Mikko; Liebisch, Oskar & Kadereit, Gudrun (2017). "Phylogeny, biogeography, systematics and taxonomy of Salicornioideae (Amaranthaceae/Chenopodiaceae) – A cosmopolitan, highly specialized hygrohalophyte lineage dating back to the Oligocene". Taxon. 66 (1): 109–132. doi:10.12705/661.6.

External links

  •   Media related to Amaranthaceae at Wikimedia Commons
  •   Data related to Amaranthaceae at Wikispecies
  • The family Amaranthaceae at APWebsite.
  • at Germplasm Resources Information Network (USDA)
  • "Amaranthaceae". Integrated Taxonomic Information System.
  • "Amaranthaceae". National Center for Biotechnology Information (NCBI).
  • Amaranthaceae at Tropicos
  • Amaranthaceae in BoDD – Botanical Dermatology Database
  • IUCN link: Amaranthaceae threatened species
  • Stanley L. Welsh, Clifford W. Crompton & Steven E. Clemants (2003): Chenopodiaceae in Flora of North America
  • Kenneth R. Robertson & Steven E. Clemants (2003): Amaranthaceae in Flora of North America
  • Gelin Zhu, Sergei L. Mosyakin & Steven E. Clemants (2003): Chenopodiaceae in Flora of China
  • Bojian Bao, Thomas Borsch & Steven E. Clemants (2003): Amaranthaceae in Flora of China

January 24, 2023
amaranthaceae, family, flowering, plants, commonly, known, amaranth, family, reference, type, genus, amaranthus, includes, former, goosefoot, family, chenopodiaceae, contains, about, genera, species, making, most, species, rich, lineage, within, parent, order,. Amaranthaceae is a family of flowering plants commonly known as the amaranth family in reference to its type genus Amaranthus It includes the former goosefoot family Chenopodiaceae and contains about 165 genera and 2 040 species 2 3 making it the most species rich lineage within its parent order Caryophyllales AmaranthaceaeAmaranthus retroflexusScientific classificationKingdom PlantaeClade TracheophytesClade AngiospermsClade EudicotsOrder CaryophyllalesFamily AmaranthaceaeJuss Type genusAmaranthusL SubfamiliesAmaranthoideae Betoideae Camphorosmoideae Chenopodioideae Corispermoideae Gomphrenoideae Polycnemoideae Salicornioideae Salsoloideae SuaedoideaeSynonyms 1 Chenopodiaceae Vent Contents 1 Description 1 1 Vegetative characters 1 2 Inflorescence and flowers 1 3 Fruits and seeds 1 4 Chromosome number 1 5 Phytochemistry 1 6 Photosynthesis pathway 2 Distribution 3 Economic importance 4 Systematics 4 1 Genera 5 References 6 External linksDescription EditVegetative characters Edit Bassia laniflora illustration Camphorosmoideae Most species in the Amaranthaceae are annual or perennial herbs or subshrubs others are shrubs very few species are vines or trees Some species are succulent Many species have stems with thickened nodes The wood of the perennial stem has a typical anomalous secondary growth only in subfamily Polycnemoideae is secondary growth normal 3 The leaves are simple and mostly alternate sometimes opposite They never possess stipules They are flat or terete and their shape is extremely variable with entire or toothed margins In some species the leaves are reduced to minute scales In most cases neither basal nor terminal aggregations of leaves occur 3 Flower of Nitrophila occidentalis Polycnemoideae Pollen grains of Halothamnus glaucus Inflorescence and flowers Edit Flower of silver cockscomb Celosia argentea in Tirunelveli India The flowers are solitary or aggregated in cymes spikes or panicles and typically perfect bisexual and actinomorphic Some species have unisexual flowers Bracts and bracteoles are either herbaceous or scarious Flowers are regular with an herbaceous or scarious perianth of one to mostly five rarely to eight tepals often joined One to five stamens are opposite to tepals or alternating inserting from a hypogynous disc which may have appendages pseudostaminodes in some species The anthers have two or four pollen sacs locules In tribe Caroxyloneae anthers have vesicular appendages The pollen grains are spherical with many pores pantoporate with pore numbers from a few to 250 in Froelichia 4 One to three rarely six carpels are fused to a superior ovary with one rarely two basal ovule 3 Idioblasts are found in the tissues Fruits and seeds Edit The diaspores are seeds or fruits utricles more often the perianth persists and is modified in fruit for means of dispersal Sometimes even bracts and bracteoles may belong to the diaspore More rarely the fruit is a circumscissile capsule or a berry The horizontal or vertical seed often has a thickened or woody seed coat The green or white embryo is either spirally and without perisperm or annular rarely straight 3 Chromosome number Edit The basic chromosome number is rarely 6 mostly 8 9 rarely 17 3 Phytochemistry Edit Widespread in the Amaranthaceae is the occurrence of betalain pigments The former Chenopodiaceae often contain isoflavonoids 3 In phytochemical research several methylenedioxyflavonols saponins triterpenoids ecdysteroids and specific root located carbohydrates have been found in these plants 4 Photosynthesis pathway Edit Although most of the family use the more common C3 photosynthesis pathway around 800 species are C4 plants this makes the Amaranthaceae the largest group with this photosynthesis pathway among the eudicots which collectively includes about 1 600 C4 species 5 Within the family several types of C4 photosynthesis occur and about 17 different types of leaf anatomy are realized Therefore this photosynthesis pathway seems to have developed about 15 times independently during the evolution of the family About two thirds of the C4 species belong to the former Chenopodiaceae The first occurrence of C4 photosynthesis dates from the early Miocene about 24 million years ago but in some groups this pathway evolved much later about 6 or less million years ago 5 The multiple origin of C4 photosynthesis in the Amaranthaceae is regarded as an evolutionary response to inexorably decreasing atmospheric CO2 levels coupled with a more recent permanent shortage in water supply as well as high temperatures Species with higher water use efficiency had a selective advantage and were able to spread out into arid habitats 5 Distribution EditAmaranthaceae is a widespread and cosmopolitan family from the tropics to cool temperate regions The Amaranthaceae sensu stricto are predominantly tropical whereas the former Chenopodiaceae have their centers of diversity in dry temperate and warm temperate areas 4 Many of the species are halophytes tolerating salty soils or grow in dry steppes or semi deserts Economic importance EditSome species such as spinach Spinacia oleracea or forms of beet Beta vulgaris beetroot chard are used as vegetables Forms of Beta vulgaris include fodder beet Mangelwurzel and sugar beet The seeds of Amaranthus lamb s quarters Chenopodium berlandieri quinoa Chenopodium quinoa and kaniwa Chenopodium pallidicaule are edible and are used as pseudocereals Dysphania ambrosioides epazote and Dysphania anthelmintica are used as medicinal herbs Several amaranth species are also used indirectly as a source of soda ash such as members of the genus Salicornia see glasswort A number of species are popular garden ornamental plants especially species from the genera Alternanthera Amaranthus Celosia and Iresine Other species are considered weeds e g redroot pigweed Amaranthus retroflexus and alligatorweed Alternanthera philoxeroides and several are problematic invasive species particularly in North America including Kali tragus and Bassia scoparia Many species are known to cause pollen allergies 6 Systematics Edit Cladogram of Amaranthaceae s l modified and simplified based on phylogenetic research of Muller amp Borsch 2005 Kadereit et al 2006 Sanchez del Pinoet al 2009 Achyranthes splendens Amaranthoideae Gomphrena arborescens Gomphrenoideae Sugar beet Beta vulgaris subsp vulgaris altissima Betoideae Grayia spinosa Chenopodioideae Salicornia perennis Salicornioideae Kali turgidum Syn Salsola kali subsp kali Salsoloideae Suaeda nigra Suaedoideae In the APG IV system of 2016 as in the previous Angiosperm Phylogeny Group classifications the family is placed in the order Caryophyllales and includes the plants formerly treated as the family Chenopodiaceae 7 The monophyly of this broadly defined Amaranthaceae has been strongly supported by both morphological and phylogenetic analyses 8 The family Amaranthaceae was first published in 1789 by Antoine Laurent de Jussieu in Genera Plantarum p 87 88 The first publication of family Chenopodiaceae was in 1799 by Etienne Pierre Ventenat in Tableau du Regne Vegetal 2 p 253 The older name has priority and is now the valid scientific name of the extended Amaranthaceae s l sensu lato Some publications still continued to use the family name Chenopodiaceae 9 10 11 12 13 14 Phylogenetic research revealed the important impact of the subfamily Polycnemoideae on the classification see cladogram if Polycnemoideae are considered a part of Chenopodiaceae then Amaranthaceae s str sensu stricto have to be included too and the name of the extended family is Amaranthaceae If Polycnemoideae would be separated as its own family Chenopodiaceae and Amaranthaceae s str would form two distinct monophyletic groups and could be treated as two separate families Amaranthaceae Juss s l includes the former families Achyranthaceae Raf Atriplicaceae Durande Betaceae Burnett Blitaceae T Post amp Kuntze Celosiaceae Martynov Chenopodiaceae Vent nom cons Corispermaceae Link Deeringiaceae J Agardh Dysphaniaceae Pax Pax nom cons Gomphrenaceae Raf Polycnemaceae Menge Salicorniaceae Martynov Salsolaceae Menge and Spinaciaceae Menge The systematics of Amaranthaceae are the subject of intensive recent research Molecular genetic studies revealed the traditional classification based on morphological and anatomical characters often did not reflect the phylogenetic relationships The former Amaranthaceae in their narrow circumscription are classified into two subfamilies Amaranthoideae and Gomphrenoideae and contain about 65 genera and 900 species in tropical Africa and North America The Amaranthoideae and some genera of Gomphrenoideae were found to be polyphyletic so taxonomic changes are needed 15 Current studies classified the species of former Chenopodiaceae to eight distinct subfamilies the research is not yet completed Polycnemoideae 4 16 which are regarded as a basal lineage Betoideae 10 Camphorosmoideae 14 Chenopodioideae 13 Corispermoideae 17 Salicornioideae 11 Salsoloideae 9 and Suaedoideae 18 In this preliminary classification the Amaranthaceae s l are divided into 10 subfamilies with approximately 180 genera and 2 500 species 4 Genera Edit A short synoptic list of genera is given here For further and more detailed information see the subfamily pages Subfamily GeneraAmaranthoideae Achyranthes Achyropsis Aerva Allmania Allmaniopsis Amaranthus Arthraerua Bosea Calicorema Celosia Centema Centemopsis Centrostachys Chamissoa Charpentiera Chionothrix Cyathula Cyphocarpa Dasysphaera Deeringia Digera Eriostylos Henonia Herbstia Hermbstaedtia Indobanalia Kelita Lagrezia Lecosia Leucosphaera Lopriorea Marcelliopsis Mechowia Nelsia Neocentema Nothosaerva Nototrichium Nyssanthes Omegandra Pandiaka Pleuropetalum Pleuropterantha Polyrhabda Pseudosericocoma Psilotrichopsis Psilotrichum Ptilotus Pupalia Rosifax Saltia Sericocoma Sericocomopsis Sericorema Sericostachys Stilbanthus Trichuriella Volkensinia WadithamnusGomphrenoideae Alternanthera Blutaparon Froelichia Froelichiella Gomphrena Gossypianthus Guilleminea Hebanthe Hebanthodes Irenella Iresine Lithophila Pedersenia Pfaffia Pseudogomphrena Pseudoplantago Quaternella Tidestromia Woehleria XerosiphonBetoideae Acroglochin Aphanisma Beta Hablitzia Oreobliton PatellifoliaCamphorosmoideae Bassia Camphorosma Chenolea Didymanthus Dissocarpus Enchylaena Eokochia Eremophea Eriochiton Grubovia Maireana Malacocera Neobassia Neokochia Osteocarpum Roycea Sclerolaena Sedobassia Spirobassia ThrelkeldiaChenopodioideae Archiatriplex Atriplex Axyris Baolia Blitum Ceratocarpus Chenopodiastrum Chenopodium Cycloloma Dysphania Exomis Extriplex Grayia Halimione Holmbergia Krascheninnikovia Lipandra Manochlamys Microgynoecium Micromonolepis Oxybasis Proatriplex Spinacia Stutzia Suckleya TeloxysCorispermoideae Agriophyllum Anthochlamys CorispermumPolycnemoideae Hemichroa Nitrophila Polycnemum SurreyaSalicornioideae Allenrolfea Arthrocaulon split from Arthrocnemum 19 Arthroceras split from Arthrocnemum 19 Halocnemum Halopeplis Halostachys Heterostachys Kalidium Microcnemum Salicornia Sarcocornia TecticorniaSalsoloideae Anabasis Arthrophytum Caroxylon Climacoptera Cornulaca Cyathobasis Fredolia Girgensohnia Halarchon Halimocnemis Halocharis Halogeton Halothamnus Haloxylon Hammada Horaninovia Iljinia Kali Kaviria Lagenantha Nanophyton Noaea Nucularia Ofaiston Petrosimonia Piptoptera Physandra Pyankovia Rhaphidophyton Salsola Sympegma Traganum Traganopsis Turania XylosalsolaSuaedoideae Bienertia SuaedaReferences Edit Tropics Amaranthaceae Juss synonyms 2018 Retrieved 2018 06 16 Christenhusz M J M Byng J W 2016 The number of known plants species in the world and its annual increase Phytotaxa 261 3 201 217 doi 10 11646 phytotaxa 261 3 1 a b c d e f g The family Amaranthaceae at APWebsite a b c d e Kai Muller Thomas Borsch 2005 Phylogenetics of Amaranthaceae using matK trnK sequence data evidence from parsimony likelihood and Bayesian approaches Annals of the Missouri Botanical Garden 92 p 66 102 a b c Gudrun Kadereit Thomas Borsch Kurt Weising Helmut Freitag 2003 Phylogeny of Amaranthaceae and Chenopodiaceae and the evolution of C4 photosynthesis International Journal of Plant Sciences Volume 164 6 p 959 986 List of allergic plants in family Chenopodiaceae at pollenlibrary com Angiosperm Phylogeny Group 2016 An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants APG IV Botanical Journal of the Linnean Society 181 1 1 20 doi 10 1111 boj 12385 Judd et al 2008 Plant Systematics A Phylogenetic Approach Third Edition Sinauer Associates Inc Sunderland MA a b Hossein Akhani Gerald Edwards Eric H Roalson 2007 Diversification Of The Old World Salsoleae s l Chenopodiaceae Molecular Phylogenetic Analysis Of Nuclear And Chloroplast Data Sets And A Revised Classification International Journal of Plant Sciences 168 6 p 931 956 a b G Kadereit S Hohmann J W Kadereit 2006 A synopsis of Chenopodiaceae subfam Betoideae and notes on the taxonomy of Beta Willdenowia 36 p 9 19 a b Gudrun Kadereit Ladislav Mucina Helmut Freitag 2006 Phylogeny of Salicornioideae Chenopodiaceae diversification biogeography and evolutionary trends in leaf and flower morphology Taxon 55 3 p 617 642 Maxim V Kapralov Hossein Akhani Elena V Voznesenskaya Gerald Edwards Vincent Franceschi Eric H Roalson 2006 Phylogenetic Relationships in the Salicornioideae Suaedoideae Salsoloideae s l Chenopodiaceae Clade and a Clarification of the Phylogenetic Position of Bienertia and Alexandra Using Multiple DNA Sequence Datasets Systematic Botany a b Gudrun Kadereit Evgeny V Mavrodiev Elizabeth H Zacharias Alexander P Sukhorukov 2010 Molecular phylogeny of Atripliceae Chenopodioideae Chenopodiaceae Implications for systematics biogeography flower and fruit evolution and the origin of C4 Photosynthesis American Journal of Botany 97 10 p 1664 1687 a b Gudrun Kadereit Helmut Freitag 2011 Molecular phylogeny of Camphorosmeae Camphorosmoideae Chenopodiaceae Implications for biogeography evolution of C4 photosynthesis and taxonomy Taxon 60 1 p 51 78 Ivonne Sanchez del Pino Thomas Borsch Timothy J Motle 2009 trnL F and rpl16 Sequence Data and Dense Taxon Sampling Reveal Monophyly of Unilocular Anthered Gomphrenoideae Amaranthaceae and an Improved Picture of Their Internal Relationships Systematic Botany Volume 34 1 p 57 67 doi 10 1600 036364409787602401 Rudiger Masson amp Gudrun Kadereit 2013 Phylogeny of Polycnemoideae Amaranthaceae Implications for biogeography character evolution and taxonomy Taxon 62 1 100 111 1 Alexander P Sukhorukov 2007 Fruit anatomy and its taxonomic significance in Corispermum Corispermoideae Chenopodiaceae Willdenowia 37 ISSN 0511 9618 p 63 87 doi 10 3372 wi 37 37103 Peter Schutze Helmut Freitag Kurt Weising 2003 An integrated molecular and morphological study of the subfamily Suaedoideae Ulbr Chenopodiaceae Plant Systematics and Evolution Volume 239 p 257 286 abstract doi 10 1007 s00606 003 0013 2 a b Piirainen Mikko Liebisch Oskar amp Kadereit Gudrun 2017 Phylogeny biogeography systematics and taxonomy of Salicornioideae Amaranthaceae Chenopodiaceae A cosmopolitan highly specialized hygrohalophyte lineage dating back to the Oligocene Taxon 66 1 109 132 doi 10 12705 661 6 External links Edit Media related to Amaranthaceae at Wikimedia Commons Data related to Amaranthaceae at Wikispecies The family Amaranthaceae at APWebsite Genera of Amaranthaceae at Germplasm Resources Information Network USDA Amaranthaceae Integrated Taxonomic Information System Amaranthaceae National Center for Biotechnology Information NCBI Amaranthaceae at Tropicos Amaranthaceae in BoDD Botanical Dermatology Database IUCN link Amaranthaceae threatened species Stanley L Welsh Clifford W Crompton amp Steven E Clemants 2003 Chenopodiaceae in Flora of North America Kenneth R Robertson amp Steven E Clemants 2003 Amaranthaceae in Flora of North America Gelin Zhu Sergei L Mosyakin amp Steven E Clemants 2003 Chenopodiaceae in Flora of China Bojian Bao Thomas Borsch amp Steven E Clemants 2003 Amaranthaceae in Flora of China Retrieved from https en wikipedia org w index php title Amaranthaceae amp oldid 1094963504, wikipedia, wiki, book, books, library,

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