Aspleniaceae
The Aspleniaceae (spleenworts) are a family of ferns, included in the order Polypodiales.[1] The composition and classification of the family have been subject to considerable changes. In particular, there is a narrow circumscription, Aspleniaceae s.s. (adopted here), in which the family contains only two genera, and a very broad one, Aspleniaceae s.l., in which the family includes 10 other families kept separate in the narrow circumscription, with the Aspleniaceae s.s. being reduced to the subfamily Asplenioideae. The family has a worldwide distribution, with many species in both temperate and tropical areas. Elongated unpaired sori are an important characteristic of most members of the family.
Aspleniaceae | |
---|---|
Scientific classification | |
Kingdom: | Plantae |
Clade: | Tracheophytes |
Class: | Polypodiopsida |
Order: | Polypodiales |
Suborder: | Aspleniineae |
Family: | Aspleniaceae Newm. |
Type genus | |
Asplenium L. | |
Genera | |
Description
Members of the family grow from rhizomes, that are either creeping or somewhat erect, and are usually but not always unbranched, and have scales that usually have a lattice-like (clathrate) structure. In some species, for example Asplenium nidus, the rhizomes form a kind of basket which collects detritus. The leaves may be undivided or be divided, with up to four-fold pinnation. The sori are characteristic of the family. They are elongated, and normally located on one side of a vein. More rarely, they may be in pairs on a single vein, but then they never curve over the vein. A flap-like indusium arises along one edge of a sorus. The leaf stalks (petioles) have two vascular bundles, uniting to form an X-shape in cross-section towards the tip of the leaf. The stalks of the sporangia are one cell wide in the middle.[2]
Taxonomy
The family Aspleniaceae was first described by Edward Newman in 1840.[3] Newman included three genera: Athyrium, Asplenium and Scolopendrium.[4] Athyrium is now placed in a different family, Athyriaceae, not considered very strongly related to the Aspleniaceae, and Scolopendrium is regarded as synonym of Asplenium.[1]
The narrow circumscription of the family adopted by the Pteridophyte Phylogeny Group classification of 2016 (PPG I) recognizes only two genera, Asplenium and Hymenasplenium. Asplenium has previously been split into a dozen or so genera, including Diella, found only in Hawaii. The consensus of molecular phylogenetic studies is that all are nested within Asplenium.[5][6] PPG I places Aspleniaceae in the suborder Aspleniineae of the order Polypodiales.
Earlier, Christenhusz and Chase had proposed a much broader circumscription of Aspleniaceae, in which it consisted of all the separate families that PPG I places in the suborder Aspleniineae (eight at the time), with the families reduced to subfamilies. Thus the Aspleniaceae of PPG I became the subfamily Asplenioideae.[7] As of July 2019, the broader circumscription of the Aspleniaceae is used by Plants of the World Online, which lists 24 genera.[8]
Phylogenic relationships
Aspleniaceae is placed in a clade known as eupolypods II, or more formally as suborder Aspleniineae. The following cladogram, based on Lehtonen (2011)[9] and Rothfels & al. (2012),[2] shows a likely phylogenic relationship between the Aspleniaceae and the other families in the clade.
Aspleniineae (eupolypods II) |
| ||||||||||||||||||||||||||||||||||||||||||||||||||||||
Genera
In the PPG I system, Aspleniaceae s.s. contains two genera:[1]
- Asplenium L. – about 700 species, worldwide[10]
- Hymenasplenium Hayata – about 40 species, tropical and subtropical[11]
Distribution and habitat
The Aspleniaceae have a worldwide distribution, with the large genus Asplenium being native to almost all parts of the world except Antarctica and some high Arctic areas.[10] The family is unusual in having high diversity in both temperate and tropical areas, and more-or-less equal numbers of terrestrial and epiphytic species. Plants are terrestrial, growing in the ground, lithophytic, growing on rocks, or epiphytic, growing on other plants; less often they are aquatic, growing in moving water.[2]
References
- PPG I (2016). "A community-derived classification for extant lycophytes and ferns". Journal of Systematics and Evolution. 54 (6): 563–603. doi:10.1111/jse.12229.
- Carl J. Rothfels; Anders Larsson; Li-Yaung Kuo; Petra Korall; Wen- Liang Chiou; Kathleen M. Pryer (2012). "Overcoming Deep Roots, Fast Rates, and Short Internodes to Resolve the Ancient Rapid Radiation of Eupolypod II Ferns". Systematic Biology. 61 (1): 490–509. doi:10.1093/sysbio/sys001. PMID 22223449.
- "Aspleniaceae Newman". The International Plant Names Index. Retrieved 2019-07-30.
- Newman, Edward (1840). "Aspleniaceae". A history of British ferns. London: J. Van Voorst. pp. 6–7. Retrieved 2019-07-30.
- Smith, Alan R.; Pryer, Kathleen M.; Schuettpelz, Eric; Korall, Petra; Schneider, Harald & Wolf, Paul G. (2006). "A classification for extant ferns" (PDF). Taxon. 55 (3): 705–731. doi:10.2307/25065646. JSTOR 25065646. Archived from the original (PDF) on 2008-02-26. Retrieved 2008-02-26.
- Schneider, Harald; Ranker, Tom A.; Russell, Stephen J.; Cranfill, Raymond; Geiger, Jennifer M. O.; Aguraiuja, Ruth; Wood, Ken R.; Grundmann, Michael; Kloberdanz, Keelie & Vogel, Johannes C. (2005). "Origin of the endemic fern genus Diellia coincides with the renewal of Hawaiian terrestrial life in the Miocene". Proceedings of the Royal Society B. 272 (1561): 455–460. doi:10.1098/rspb.2004.2965. PMC 1634989. PMID 15734701.
- Christenhusz, Maarten J.M. & Chase, Mark W. (2014). "Trends and concepts in fern classification". Annals of Botany. 113 (9): 571–594. doi:10.1093/aob/mct299. PMC 3936591. PMID 24532607.
- "Aspleniaceae Newman". Plants of the World Online. Royal Botanic Gardens, Kew. Retrieved 2019-07-31.
- Samuli Lehtonen (2011). "Towards Resolving the Complete Fern Tree of Life" (PDF). PLoS ONE. 6 (10): e24851. doi:10.1371/journal.pone.0024851. PMC 3192703. PMID 22022365.
- "Asplenium L.". Plants of the World Online. Royal Botanic Gardens, Kew. Retrieved 2019-07-31.
- "Hymenasplenium Hayata". Plants of the World Online. Royal Botanic Gardens, Kew. Retrieved 2019-07-31.
Bibliography
- Germplasm Resources Information Network: Aspleniaceae
- Murakami, N.; Nogami, S.; Watanabe, M.; Iwatsuki, K. (1999). "Phylogeny of Aspleniaceae inferred from rbcL nucleotide sequences". American Fern Journal. 89 (4): 232–243. doi:10.2307/1547233. JSTOR 1547233.
- See photos of Aspleniaceae