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Ericales

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Ericales
Rhododendron simsii
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Ericales
Bercht. & J.Presl[1]
Families

The Ericales are a large and diverse order of dicotyledons. Species in this order have considerable commercial importance including for tea, persimmon, blueberry, kiwifruit, Brazil nuts, argan, cranberry, sapote, and azalea. The order includes trees, bushes, lianas, and herbaceous plants. Together with ordinary autophytic plants, the Ericales include chlorophyll-deficient mycoheterotrophic plants (e.g., Sarcodes sanguinea) and carnivorous plants (e.g., genus Sarracenia).

Many species have five petals, often grown together. Fusion of the petals as a trait was traditionally used to place the order in the subclass Sympetalae.[2]

Mycorrhizal associations are quite common among the order representatives, and three kinds of mycorrhiza are found exclusively among Ericales (namely, ericoid, arbutoid and monotropoid mycorrhiza). In addition, some families among the order are notable for their exceptional ability to accumulate aluminum.[3]

Ericales are a cosmopolitan order. Areas of distribution of families vary largely – while some are restricted to tropics, others exist mainly in Arctic or temperate regions. The entire order contains over 8,000 species, of which the Ericaceae account for 2,000–4,000 species (by various estimates).

According to molecular studies, the lineage that led to Ericales diverged from other plants about 127 million years[4] or diversified 110 million years ago.[5]

Economic importance

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The most commercially used plant in the order is tea (Camellia sinensis) from the family Theaceae. The order also includes some edible fruits, including kiwifruit (esp. Actinidia deliciosa), persimmon (genus Diospyros), blueberry, huckleberry, cranberry, Brazil nut, and Mamey sapote. The order also includes shea (Vitellaria paradoxa), which is the major dietary lipid source for millions of sub-Saharan Africans. Many Ericales species are cultivated for their showy flowers: well-known examples are azalea, rhododendron, camellia, heather, polyanthus, cyclamen, phlox, and busy Lizzie.

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Classification

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Simplified phylogeny based on[5]

These families are recognized in the APG III system[1] as members of the Ericales:

Likely phylogenetic relationships between the families of the Ericales:[6]

Ericales

Previously included families

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These families are not recognized in the APG III system[1] but have been in common use in the recent past:

These make up an early diverging group of asterids.[7] Under the Cronquist system, the Ericales included a smaller group of plants, which were placed among the Dilleniidae:

See also

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  • Paradinandra, a fossil genus with uncertain placement within the order Ericales

References

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  1. ^ a b c Angiosperm Phylogeny Group (2009). "An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG III". Botanical Journal of the Linnean Society. 161 (2): 105–121. doi:10.1111/j.1095-8339.2009.00996.x. hdl:10654/18083.
  2. ^ Robyns, W. (31 December 1972). "Outline of a New System of Orders and Families of Sympetalae". Bulletin du Jardin Botanique National de Belgique. 42 (4): 363–372. doi:10.2307/3667661. JSTOR 3667661.
  3. ^ (Jansen et al., 2004).
  4. ^ Bremer, K.; Friis, E. M.; Bremer, B. (2004). "Molecular phylogenetic dating of asterid flowering plants shows early Cretaceous diversification". Systematic Biology. 53 (3): 496–505. doi:10.1080/10635150490445913. ISSN 1063-5157. PMID 15503676.
  5. ^ a b Rose, Jeffrey P.; Kleist, Thomas J.; Löfstrand, Stefan D.; Drew, Bryan T.; Schönenberger, Jürg; Sytsma, Kenneth J. (1 May 2018). "Phylogeny, historical biogeography, and diversification of angiosperm order Ericales suggest ancient Neotropical and East Asian connections". Molecular Phylogenetics and Evolution. 122: 59–79. doi:10.1016/j.ympev.2018.01.014. ISSN 1055-7903. PMID 29410353.
  6. ^ Soltis, Douglas; Soltis, Pamela; Endress, Peter; Chase, Mark W.; Manchester, Steven; Judd, Walter; Majure, Lucas; Mavrodiev, Evgeny (2018). Phylogeny and Evolution of the Angiosperms (p. 262). University of Chicago Press. Kindle Edition. LCCN 2016046547.
  7. ^ Bremer, Birgitta; Kåre Bremera; Nahid Heidaria; Per Erixona; Richard G. Olmsteadb; Arne A. Anderbergc; Mari Källersjöd; Edit Barkhordarian (August 2002). "Phylogenetics of asterids based on 3 coding and 3 non-coding chloroplast DNA markers and the utility of non-coding DNA at higher taxonomic levels". Molecular Phylogenetics and Evolution. 24 (2): 274–301. doi:10.1016/S1055-7903(02)00240-3. PMID 12144762.

Bibliography

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