Acanthaceae

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Acanthaceae
Acanthus mollis
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Lamiales
Family: Acanthaceae
Juss.[1][2]
Type genus
Acanthus
Subfamilies[1]
Synonyms
  • Avicenniaceae Miq., nom. cons.
  • Justiciaceae Raf.
  • Mendonciaceae Bremek.
  • Meyeniaceae Sreem.
  • Nelsoniaceae Sreem.
  • Thunbergiaceae Lilja[1]

Acanthaceae (

scrublands, wet fields and valleys, sea coast and marine areas, swamps, and mangrove
forests.

Description

Plants in this family have simple, opposite,

decussated leaves with entire (or sometimes toothed, lobed, or spiny) margins, and without stipules. The leaves may contain cystoliths, calcium carbonate
concretions, seen as streaks on the surface.

The

ovary is superior and bicarpellated, with axile placentation
.

The fruit is a two-celled capsule, dehiscing somewhat explosively. In most species, the seeds are attached to a small, hooked stalk (a modified funiculus called a jaculator or a retinaculum) that ejects them from the capsule. This trait is shared by all members of the clade Acanthoideae. A 1995 study of seed expulsion in Acanthaceae used high speed video pictures to show that retinacula propel seeds away from the parent plant when the fruits dehisce, thereby helping the plant gain maximum seed dispersal range.[3]

A species well known to

perennial plant with big leaves and flower spikes up to 2 m tall. Tropical genera familiar to gardeners include Thunbergia and Justicia
.

Avicenniaceae, is included in Acanthaceae by the Angiosperm Phylogeny Group on the basis of molecular phylogenetic
studies that show it to be associated with this family.

Medicinal uses

Traditionally the most important part use in Acanthaceae is the leaves and they are used externally for wounds. Some research has indicated that Acanthaceae possess

immunomodulatory, anti-platelet aggregation and anti-viral potential.[4]

For instance,

diabetes, leprosy, hepatitis, snake bites, and rheumatoid arthritis.[6] The leaves of Acanthus ebracteatus, noted for their antioxidant properties, are used for making Thai herbal tea in Thailand and Indonesia.[7]

Phytochemistry

Phytochemical reports on family Acanthaceae are

triterpenoids.[4]

Overview of systematics

Since the first comprehensive classification of Acanthaceae in 1847 by Nees,[8] there have been a few major revisions presented since for the whole family.

Lindau, in 1895, divided the family into the subfamilies Mendoncioideae, Thunbergioideae, Nelsonioideae, and Acanthoideae.[9] Critically, Mendoncioideae, Thunbergioideae, and Nelsonioideae do not possess retinaculate fruits—and it is this distinction, between classifying Acanthaceae into a family that includes those clades with non-retinaculate fruits and one that excludes them, that still persists to the modern day.

Bremekamp, in 1965, presented a classification of Acanthaceae that differed from that of Lindau, for his Acanthaceae excluded genera that lack retinaculate fruits.[10] He placed Nelsonioideae within Scrophulariaceae, classified Thunbergiaceae and Mendonciaceae as distinct families and divided his Acanthaceae into two groups (Acanthoideae and Ruelloideae) based on the presence or absence of cystoliths, articulate stems, monothecate anthers, and colpate pollen.

In Scotland and Vollesen's 2000 study,[11] they accepted 221 genera and detailed five major groups within Acanthaceae s.s. (that is, those possessing retinaculate fruits), which is equivalent to Acanthoideae Link sensu Lindau 1895. Out of those 221 genera, they placed 201 of them into seven infrafamilial taxa of Acanthaceae, leaving only 20 unplaced.

In the current understanding of Acanthaceae, Acanthaceae s.s. includes only those clades with retinaculate fruits (that is, Acantheae, Barlerieae, Andrographideae, Whitfieldeae, Ruellieae, and Justiceae), while Acanthaceae s.l. includes those clades as well as Thunbergioideae, Nelsonioideae, and Avicennia.[12]

Dating the Acanthaceae lineage

Much research, using both molecular data and fossils, has been conducted in recent years regarding the dating and distribution of the Acanthaceae and Lamiales lineage, although there still remains some ambiguity.

In a 2004 study on the molecular phylogenetic dating of asterid flowering plants, researchers estimated 106 million years (MY) for the stem lineage of Lamiales, 67 MY for the stem lineage of Acanthaceae, and 54 MY for the crown node of Acanthaceae (that is, the age of extant lineages with the family).[13] These estimates are older than those based on fossils that can confidently be assigned to Lamiales, which are middle Eocene in age, ca. 48-37 MY.[14] Palynomorphs that definitively show the existence of Acanthaceae are known from the upper Miocene, with the oldest ca. 22 MY.[15]

Genera

Chinese violet (Asystasia gangetica)
Barleria sp.
Fittonia verschaffeltii
)
Polka dot plant (Hypoestes phyllostachya)
Justicia aurea
Louteridium panemensis
Strobilanthes hamiltoniana
Pseuderanthemum maculatum
Popping pod (Ruellia tuberosa )
Rostellularia sp.
Thunbergia laurifolia

As of 2 December 2021, the Germplasm Resources Information Network accepts 217 genera.[16] As of January 2024, Plants of the World Online accepts 207 genera.[17]

Excluded genera

References

  1. ^ a b c "Family: Acanthaceae Juss., nom. cons". Germplasm Resources Information Network. United States Department of Agriculture. 2003-01-17. Retrieved 2011-07-29.
  2. hdl:10654/18083
    .
  3. doi:10.1006/jtbi.1995.0219
    .
  4. ^ a b Awan, A.J., Aslam, M.S. (2014). "FAMILY ACANTHACEAE AND GENUS APHELANDRA: ETHNOPHARMACOLOGICAL AND PHYTOCHEMICAL REVIEW". International Journal of Pharmacy and Pharmaceutical Sciences. 6 (10): 44–55.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  5. S2CID 38592501
    .
  6. S2CID 129317332
    .
  7. ^ Chan, E. W. C.; Eng, S. Y.; Tan, Y. P.; Wong, Z. C.; Lye, P. Y.; Tan, L. N. (2012). "Antioxidant and Sensory Properties of Thai Herbal Teas with Emphasis on Thunbergia laurifolia Lindl". Chiang Mai J. Sci. 39 (4): 599–609.
  8. ^ Nees, C. G. (1847). de Candolle, A. P. (ed.). "Acanthaceae". Prodromus Systematis Naturalis Regni Vegetabilis. 11: 46–519.
  9. ^ Lindau, G. (1895). Engler, A.; Prantl, K. (eds.). "Acanthaceae". Die Natuirlichen Pflanzenfamilien. 4 (3b): 274–353.
  10. ^ Bremekamp, C. E. B. (1965). "Delimitation and subdivision of the Acanthaceae". Bull. Bot. Surv. India. 7: 21–30.
  11. JSTOR 4118776
    .
  12. S2CID 84423889
    .
  13. PMID 15503676
    .
  14. ^ Pigg, K. B.; Wehr, W. C. (2002). "Tertiary flowers, fruits, and seeds of Washington state and adjacent areas—Part III" (PDF). Washington Geology. 30: 3–16.
  15. ^ Medus, J. (1975). "Palynologie de sediments tertiaires de Sénégal mé ridional". Pollen et Spores. 17: 545–608.
  16. ^ "Acanthaceae GRIN-Global". npgsweb.ars-grin.gov. Retrieved 2 December 2021.
  17. ^ "Acanthaceae Juss. | Plants of the World Online | Kew Science". Plants of the World Online. Retrieved 18 November 2023.
  18. ^ "Acanthaceae". Integrated Taxonomic Information System. Retrieved 2011-07-29.
  19. S2CID 85726050.{{cite journal}}: CS1 maint: multiple names: authors list (link
    )
  20. ^ "GRIN genera sometimes placed in Acanthaceae". Germplasm Resources Information Network. United States Department of Agriculture. Archived from the original on 2004-11-18. Retrieved 2011-07-29.
  • Schwarzbach, Andrea E.; McDade, Lucinda A. (2002). "Phylogenetic relationships of the mangrove family Avicenniaceae based on chloroplast and nuclear ribosomal DNA sequences". Systematic Botany. 27 (1): 84–98.
    JSTOR 3093897.{{cite journal}}: CS1 maint: DOI inactive as of January 2024 (link
    )

External links

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