Silversword alliance

Silversword alliance
Dubautia-silversword hybrid in Haleakalā crater
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Asterales
Family: Asteraceae
Subtribe: Madiinae
Alliance: Silversword alliance
Genera

The silversword alliance refers to an adaptive radiation of around 30 species in the tarweed subtribe, Madiinae, of the sunflower family, Asteraceae. The group is endemic to Hawaii, and is derived from a single immigrant to the islands. For radiating from a common ancestor at an estimated 3.5±1.5 Ma, the clade is extremely diverse, composed of trees, shrubs, subshrubs, mat-plants, cushion plants, rosette plants, and lianas.[1][2] Consequently, the silversword alliance has been described as a model system for the study of plant evolution and adaptive radiations.[3][4]

The silversword alliance is named for its most famous and visually striking members, the silverswords. The species of the clade belong to three genera: Wilkesia, Argyroxiphium, and Dubautia.[5] There are five species, including two species known as greenswords, in the genus Argyroxiphium, confined to the islands of Maui and Hawaiʻi, and two species of Wilkesia (iliau) on Kauaʻi. The bulk of the species are placed in the genus Dubautia, which is widespread on all the main islands.

Similar species frequently occur in the same habitat and are often difficult to tell apart. Hybrids frequently occur between Dubautia species, and between Dubautia and Argyroxiphium. As a result, there is some disagreement over the number of species, with modern sources giving between 28 and 33 species.[6][7][8][9][10][11]

Characteristics

Dubautia linearis

All members of the silversword alliance are perennials, but otherwise occupy a wide range of ecological niches.[12] The genus Dubautia is the most morphologically diverse of the three genera, containing cushion plants, shrubs, trees, and lianas; all Argyroxiphium and Wilkesia species are rosette-forming shrubs.[13][14] Plants take several years to flower, and can be monocarpic, only flowering once before dying, or polycarpic, flowering several times.[15] Woody species, such as D. arborea, can live longer than 50 years. Some species also can reproduce vegetatively, meaning a single genotype can exist for many years.[15]

Almost all of the members of the clade have longitudinal leaf venation.[15] Meanwhile, leaf shapes are highly diverse. Argyroxiphium and Wilkesia species have long, narrowly ligulate to linear leaves. Dubautia species show a wider range of leaf morphologies, but Dubautia species with 2n = 14 chromosomes tend to have longer leaves than 2n = 13 members of the genus.[13] In almost all members of the alliance, the juvenile leaves of the plant are larger and less firm than mature leaves.[15]

Like other members of the Asteraceae, silverswords have composite inflorescences known as capitula, made up of numerous smaller flowers ("florets"). Dubautia and Wilkesia species lack ray florets, the outer flowers resembling petals present in many other Asteraceae species. Capitula can vary widely in size between silversword species, and can be made up of anywhere from two to 650 individual florets. In Argyroxiphium and Wilkesia, these capitula tend to be very large.[15] Almost all silversword species have sticky, glandular trichome-covered bracts surrounding the capitula, a trait shared with their Californian tarweed relatives.[15][16]

Evolution

Due to their isolated location and recent geologic origin, the Hawaiian Islands have high numbers of endemic plant and animal species, often originating through adaptive radiations.[4]

All Hawaiian tarweeds trace their lineage back to a species of Pacific coast tarweed, very similar to extant species like Carlquistia muirii,[12] which likely arrived on Kauaʻi first, around 5.1 Ma.[2] The last common ancestor of all extant members of the silversword alliance lived approximately 3.5±1.5 Ma.[2] Silverswords demonstrate significantly higher rates of diversification than many other plant groups, having evolved a wide diversity of forms in a comparatively short time period.[17]

Species of Argyroxiphium and Wilkesia, and most species of Dubautia, have 2n = 14 chromosomes; several species of Dubautia are instead 2n = 13.[13] All of the silverswords are tetraploid, differing from the diploidy of their closest North American relatives.[18] How the silverswords' chromosome number arose is a matter of some uncertainty, but two major scientific theories have been proposed. One is that two ancestor species, one with n = 6 and one with n = 8 chromosomes hybridized, resulting in a n = 7 hybrid. The hybrid then, by allopolyploidy doubled its chromosome number spontaneously, leading to the resultant and extant 2n = 14 species. Alternatively, the modern chromosome number could have arisen from an ancestor like Anisocarpus scabridus, with a chromosome complement of n = 7, and then arisen by autopolyploidy, instead of needing to first hybridize.[19]

Ecology

Silverswords occur in diverse habitats across the Hawaiian islands, though most species are single-island endemics.[15] Both Wilkesia species, and several Dubautia species, occur in dry scrub and woodland habitats with relatively low annual rainfall. Most Argyroxiphium species, and many Dubautia species, grow in either wet scrub and forest habitats or bog habitats, or both. Several Dubautia species and one Argyroxiphium occur on recent lava flows and cinder landscapes, exposed volcanic substrate with very little soil where few other plant species can grow.[13] Many species grow sympatrically, leading to frequent hybridization, especially between Dubautia species and between Dubautia and Argyroxiphium. Hybridization can occur between even very morphologically distinct species, such as between A. sandwicense and D. menziesii.[13][20]

Conservation

Two species of Argyroxiphium, 15 species of Dubautia, and both species of Wilkesia are listed as endangered or critically endangered according to the IUCN Red List, and one species of Argyroxiphium and two species of Dubautia are additionally considered threatened.[21] Two species, Argyroxiphium virescens and Dubautia kenwoodii, have likely gone extinct.[22][23]

References

  1. ^ Carlquist, S., B. G. Baldwin, and G. D. Carr, eds. 2003. Tarweeds & Silverswords: Evolution of the Madiinae (Asteraceae). Missouri Botanical Garden Press.
  2. ^ a b c Landis, Michael J.; Freyman, William A.; Baldwin, Bruce G. (November 2018). "Retracing the Hawaiian silversword radiation despite phylogenetic, biogeographic, and paleogeographic uncertainty". Evolution. 72 (11): 2343–2359. doi:10.1111/evo.13594. ISSN 0014-3820.
  3. ^ Crawford, Daniel J. (2003). Carlquist, S.; Baldwin, B. G.; Carr, G. D. (eds.). "Everything Known about Tarweeds and Silvers Words, Plus Much, Much More". American Journal of Botany. 90 (7): 1104–1106. ISSN 0002-9122.
  4. ^ a b Olson, Steve (2004). Evolution in Hawaii: A Supplement to Teaching about Evolution and the Nature of Science. Washington (DC): National Academies Press (US). ISBN 978-0-309-08991-3. PMID 24967482.
  5. ^ "Hawaiian silversword alliance, UH Botany". www.botany.hawaii.edu. Retrieved 2019-03-08.
  6. ^ Blonder, Benjamin; Baldwin, Bruce G.; Enquist, Brian J.; Robichaux, Robert H. (2016). "Variation and macroevolution in leaf functional traits in the Hawaiian silversword alliance (Asteraceae)" (PDF). Journal of Ecology. 104 (1): 219–228. doi:10.1111/1365-2745.12497. ISSN 1365-2745.
  7. ^ Lawton‐Rauh, A.; Robichaux, R. H.; Purugganan, M. D. (2007). "Diversity and divergence patterns in regulatory genes suggest differential gene flow in recently derived species of the Hawaiian silversword alliance adaptive radiation (Asteraceae)". Molecular Ecology. 16 (19): 3995–4013. doi:10.1111/j.1365-294X.2007.03445.x. ISSN 1365-294X. PMID 17784920. S2CID 18623958.
  8. ^ Friar, Elizabeth A.; McGlaughlin, Mitchell E. (2011-03-01). "Evolutionary diversification and geographical isolation in Dubautia laxa (Asteraceae), a widespread member of the Hawaiian silversword alliance". Annals of Botany. 107 (3): 357–370. doi:10.1093/aob/mcq252. ISSN 0305-7364. PMC 3043929. PMID 21193480.
  9. ^ Friar, Elizabeth A.; Prince, Linda M.; Cruse-Sanders, Jennifer M.; McGlaughlin, Mitchell E.; Butterworth, Charles A.; Baldwin, Bruce G. (2008). "Hybrid Origin and Genomic Mosaicism of Dubautia scabra (Hawaiian Silversword Alliance; Asteraceae, Madiinae)". Systematic Botany. 33 (3): 589–597. doi:10.1600/036364408785679815. ISSN 0363-6445. JSTOR 40211922. S2CID 86257628.
  10. ^ Sanderson, Michael J.; Baldwin, Bruce G. (1998-08-04). "Age and rate of diversification of the Hawaiian silversword alliance (Compositae)". Proceedings of the National Academy of Sciences. 95 (16): 9402–9406. Bibcode:1998PNAS...95.9402B. doi:10.1073/pnas.95.16.9402. ISSN 0027-8424. PMC 21350. PMID 9689092.
  11. ^ For instance, Blonder and Baldwin 2016 cite 33 species, Friar 2011 cites 33, Lawton‐Rauh 2007 cites 30, Sanderson and Baldwin cite 28.
  12. ^ a b "Hawaiian silversword alliance, UH Botany". www.botany.hawaii.edu. Retrieved 2019-03-08.
  13. ^ a b c d e Robichaux, Robert H.; Carr, Gerald D.; Liebman, Matt; Pearcy, Robert W. (1990). "Adaptive Radiation of the Hawaiian Silversword Alliance (Compositae- Madiinae): Ecological, Morphological, and Physiological Diversity". Annals of the Missouri Botanical Garden. 77 (1): 64–72. doi:10.2307/2399626. ISSN 0026-6493.
  14. ^ Caraway, Vickie; Carr, Gerald D.; Morden, Clifford W. (September 2001). "Assessment of hybridization and introgression in lava‐colonizing Hawaiian Dubautia (Asteraceae: Madiinae) using RAPD markers". American Journal of Botany. 88 (9): 1688–1694. doi:10.2307/3558414. ISSN 0002-9122.
  15. ^ a b c d e f g Carr, Gerald D. (1985). "Monograph of the Hawaiian Madiinae (asteraceae): Argyroxiphium, Dubautia, and Wilkesia". Allertonia. 4 (1): 1–123. ISSN 0735-8032.
  16. ^ Baldwin, Bruce G.; Wagner, Warren L. (June 2010). "Hawaiian angiosperm radiations of North American origin". Annals of Botany. 105 (6): 849–879. doi:10.1093/aob/mcq052. ISSN 1095-8290. PMC 2876002. PMID 20382966.
  17. ^ Ackerly, David (2009-11-17). "Conservatism and diversification of plant functional traits: Evolutionary rates versus phylogenetic signal". Proceedings of the National Academy of Sciences. 106 (supplement_2): 19699–19706. doi:10.1073/pnas.0901635106. PMC 2780941. PMID 19843698.
  18. ^ Barrier, M.; Baldwin, B. G.; Robichaux, R. H.; Purugganan, M. D. (1999-08-01). "Interspecific hybrid ancestry of a plant adaptive radiation: allopolyploidy of the Hawaiian silversword alliance (Asteraceae) inferred from floral homeotic gene duplications". Molecular Biology and Evolution. 16 (8): 1105–1113. doi:10.1093/oxfordjournals.molbev.a026200. ISSN 0737-4038.
  19. ^ "Hawaiian silversword alliance, UH Botany". www.botany.hawaii.edu. Retrieved 2019-03-08.
  20. ^ Carr, Gerald D. (December 1995). "A fully fertile intergeneric hybrid derivative from Argyroxiphium sandwicense SSP. macrocephalum DUBAUTIA MENZIESII (Asteraceae) and its relevance to plant evolution in the Hawaiian Islands". American Journal of Botany. 82 (12): 1574–1581. doi:10.1002/j.1537-2197.1995.tb13860.x. ISSN 0002-9122.
  21. ^ "The IUCN Red List of Threatened Species". IUCN Red List of Threatened Species. Archived from the original on 2026-02-04. Retrieved 2026-02-05.
  22. ^ Robichaux, Robert H.; Moriyasu, Patrice Y.; Enoka, Jaime H.; McDaniel, Sierra; Loh, Rhonda K.; Bio, Kealiʻi F.; Bakutis, Ane; Tunison, J. Timothy; Bergfeld, Steven T.; Perry, J. Lyman; Warshauer, Frederick R.; Wasser, Mark; Cole, T. Colleen; Agorastos, Nicholas R.; Cole, Ian W. (2017-09-01). "Silversword and lobeliad reintroduction linked to landscape restoration on Mauna Loa and Kīlauea, and its implications for plant adaptive radiation in Hawaiʻi". Biological Conservation. 213: 59–69. doi:10.1016/j.biocon.2017.07.001. ISSN 0006-3207.
  23. ^ Wood, Kenneth R. (2015), Survey Results for Eight Possibly Extinct Plant Species from Kaua`i, Hawai`i. Prepared for the U.S. Fish and Wildlife Service, FWS Agreement No. F12AC00737. 293 pp., National Tropical Botanical Garden, doi:10.13140/RG.2.1.1318.0969, retrieved 2026-02-05
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