“Onocleaceae”的意思、由来-开放百科全书

Members of the family have the following characteristics, being distinguished by having strongly dimorphic fronds, with the fertile fronds different from the sterile fronds. The rhizomes are long- to short-creeping to ascending, and sometimes stoloniferous (Matteuccia and Onocleopsis). The leaves are strongly dimorphic and the petioles have two vascular bundles uniting distally into a gutter-shape. The blades are pinnatifid or pinnate-pinnatifid. The veins are free or anastomosing, lacking included veinlets. The spores are reniform, brownish to green. The sori are enclosed (sometimes tightly) by reflexed laminar margins, also with membranous, often fugacious true indusia.

Formerly, the two species in the genus Pentarhizidium were considered to be members of Matteuccia, but genetic analysis has determined that they compose a basal sister clade to the rest of the family. This family has been determined by genetic analysis to be closely allied to the Blechnaceae, within the clade of families sometimes known as Blechnales (which includes the athyrioid ferns and asplenioid ferns as well) (this clade is often treated as part of the order Polypodiales however). Matteuccia struthiopteris was previously classified under the Dryopteridaceae, and still is by the USDA.

Species

Phylogenic relationships

The following phylogram shows a likely relationship between the Onocleaceae and the other families within eupolypods II, based on Lehtonen, 2011,^[6] and Rothfels & al., 2012.^[7]

Recent taxonomic treatment has suggested that the four Onocleacae genera are so closely related that they should be included under the single genus Onoclea.^[2] A possible phylogenic relationship between Onocleaceae species (line lengths are not significant):

References

1. ^US Department of Agriculture. Natural Resources Conservation Service. Matteuccia struthiopteris
2. ^{{citation | doi = 10.2307/2445820 | url = http://www.amjbot.org/cgi/content/abstract/84/6/840 | title = Molecular systematics and a revised taxonomy of the onocleoid ferns (Dryopteridaceae: Onocleeae) |author1=GJ Gastony |author2=MC Ungerer |lastauthoramp=yes | journal = American Journal of Botany | volume = 84 | issue = 6 | pages = 840–849 | year = 1997 | publisher = Botanical Society of America | jstor = 2445820 }}
3. ^¹{{cite journal|author=Samuli Lehtonen|year=2011 |title=Towards Resolving the Complete Fern Tree of Life |journal=PLoS ONE |volume=6 |issue=10 |pages=e24851 |url=http://www.sci.utu.fi/sivustot/amazon/publications/articles/pdf_pub/Lehtonen_2011_PLoS1.pdf |doi=10.1371/journal.pone.0024851 |pmid=22022365 |pmc=3192703}}
4. ^¹²{{cite journal |author=Maarten J. M. Christenhusz, Xian-Chun Zhang & Harald Schneider |year=2011 |title=A linear sequence of extant families and genera of lycophytes and ferns |journal=Phytotaxa|volume=19|pages=7–54 |url=http://www.mapress.com/phytotaxa/content/2011/f/pt00019p054.pdf}}
5. ^¹{{cite journal |author1=Carl J. Rothfels |author2=Anders Larsson |author3=Li-Yaung Kuo |author4=Petra Korall |author5=Wen- Liang Chiou |author6=Kathleen M. Pryer |year=2012|title=Overcoming Deep Roots, Fast Rates, and Short Internodes to Resolve the Ancient Rapid Radiation of Eupolypod II Ferns |journal=Systematic Biology |volume=61 |issue=1 |pages=70|url=http://sysbio.oxfordjournals.org/content/early/2012/01/04/sysbio.sys001.short?rss=1|doi=10.1093/sysbio/sys001 |pmid=22223449}}