Equisetopsida

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Equisetopsida
Equisetum telmateia

Equisetum telmateia

Systematics
without rank: Phragmoplastophyta
without rank: Streptophyta
Empire : Plants (Plantae)
Department : Vascular plants (tracheophyta)
Ferns
Class : Equisetopsida
Scientific name
Equisetopsida
C. Agardh

The Equisetopsida (also called Sphenopsida in paleobotanical literature ) are a class of vascular plants . The Equisetopsida have their origin in the Devonian , their greatest diversity in the hard coal forests of the Carboniferous and are recently only represented by the horsetail .

features

Members of the Equisetopsida are characterized by stems divided into nodes with internodes in between . The trunks of some fossil groups, such as the kalamites of the coal forests , were lignified and reached heights of up to 30 meters and a trunk diameter of up to 1 meter, while other groups were more herbaceous and remained significantly smaller. The trunks are usually hollow inside. The internodes are m. o. w. clearly ribbed, which reflects the course of vascular bundles . The trunks arise from a rhizome that forms adventitious roots at the nodes . The leaves are always arranged in a whorl . The leaves of the horsetail are subphrate (microphylls), while the wedge -shaped leaves usually widened like a wedge with branching leaf veins. The spores are formed in sporangia, which are in sporangia carriers and are usually arranged like cones as strobili . The sporangia are either in specially designed sprouts ( sporophylls ) and separate from the photosynthetically active trophophylls (e.g. horsetail ) or as a “flower” at the end of the trophophylls (e.g. bowmanites type). In some fossil species, the sporangia levels were either heterosporous or isosporous (including the more recent horsetail).

Systematics

External system

The Equisetopsida are part of the ferns in the narrower sense ("Monilophytes", excluding the club moss plants formerly included in the fern plants) and a sister group to a clade , the two relic groups of poor species, the Psilotopsida with the fork-leaf plants (Psilotaceae) and the adder tongue plants (Ophioglossaceae) Marattiopsida with the only family Marattiaceae, as well as the more species-rich real ferns. The position of the Equisetopsida was controversial for a long time, earlier studies saw them partly as a sister group of the Maratticeae or the real ("leptosporangiaten") ferns. The current placement is supported by morphological studies (also using fossil taxa) and genetic studies.

 Vascular plants (tracheophyta)  
  "Euphyllophyta"  

 Seed plants (Spermatophyta)


  Ferns ("Monilophyta")  


 Psilotopsida


   

 Marattiopsida


   

 True ferns (Polypodiopsida)




   

 Equisetopsida




   

 Bear moss plants (Lycopodiopsida)



Internal system

The internal systematics is inconsistent in the literature, as most of the groups are only available in fossil form. Taylor et al. In 2009 there are three subgroups:

Pseudoborneal

The pseudoborneales are monotypic (only Pseudobornia ursina ). Pseudobornia formed up to 30 m high articulated, lignified, hollow trunks. In the first branching order, only 1 to 2 branches per node were formed, which in the second branching order were cross-opposite (dekussed) and finally arranged in pseudo-two-lines. The leaves are formed only in the final branches and are arranged in whorls of four. Each leaf consists of a twofold forked petiole and correspondingly four heavily slashed leaf blades. The fertile sections sit at the end of the primary branches and form sporangia carriers. The sporangia are heterosporous. The systematic position of the pseudoborneales is unclear, but due to their age they can be regarded as representatives of the original Equisetopsida.

Wedge-leaf plants

The wedge-leaf family can be identified as early as the late Devonian, but they only become very common in the undergrowth of the hard coal forests in the Carboniferous and can be identified up to the Triassic. They are herbaceous plants whose growth is interpreted as creeping to climbing. The shoots branch out forked and carry 6-9 (-18) leaves per whorl through the triarchy vascular bundles . The leaves have forked branching veins and a mostly wedge-like shape (name!). The sporangia are loosely arranged in strobili or cone-like and always isospore.

Equisetales

Calamitaceae: stem section and leaves of the Asterophyllites type

Just like the wedge-leaf family, the first representatives of the Equisetales , the Kalamites, appear in the late Devonian, but only become dominant in the Carboniferous and are tree-like there. However, the kalamites disappeared as early as the Permian, while Tchernoviaceae and Gondwanastachyaceae can be found until the Cretaceous and Equisetaceae still exist today. The Calamitaceae are tree-like plants with hollow branched trunks. The leaves are lanceolate to needle-like in whorls. The sporangia are isosporous or heterosporous and are cone-like in sporangia carriers over bracts. Tchernoviaceae and Gondwanastachyaceae do not form isospore sporangia in strobili, but in fertile internodes, in which the sporangia are in table-shaped sporangia carriers. In the Equisetaceae, the leaves are sheath-like and sub-like with a maximum of one leaf vein per leaflet (microphyll). They form cone-like strobili without bracts, in which sporangia stand in table-shaped sporangia carriers. Fossil Equisetaceae are often classified as Equisetites , while the recent ones all belong to the genus Equisetum .

Receipts and further information

literature

Individual evidence

  1. Kathleen M. Pryer, Eric Schuettpelz, Paul G. Wolf, Harald Schneider, Alan R. Smith, Raymond Cranfill: Phylogeny and evolution of ferns (Monilophytes) with a focus on the early leptosporangiate divergences. In: American Journal of Botany. Volume 91, No. 10, 2004, pp. 1582-1598, DOI: 10.3732 / ajb.91.10.1582 .
  2. Andrés Elgorriaga, Ignacio H. Escapa, Gar W. Rothwell, Alexandru MF Tomescu, N. Rubén Cúneo (2018): Origin of Equisetum: Evolution of horsetails (Equisetales) within the major euphyllophyte clade Sphenopsida. American Journal of Botany 105 (8): 1-18. doi: 10.1002 / ajb2.1125
  3. Carl J. Rothfels, Fay-Wei Li, Erin M. Sigel, Layne Huiet, Anders Larsson, Dylan O. Burge, Markus Ruhsam, Michael Deyholos, Douglas E. Soltis, C. Neal Stewart, Jr., Shane W. Shaw , Lisa Pokorny, Tao Chen, Claude dePamphilis, Lisa DeGironimo, Li Chen, Xiaofeng Wei, Xiao Sun, Petra Korall, Dennis W. Stevenson, Sean W. Graham, Gane KS. Wong, Kathleen M. Pryer (2015): The evolutionary history of ferns inferred from 25 low-copy nuclear genes. American Journal of Botany 102 (7): 1089-1107. doi: 10.3732 / ajb.1500089
  4. Weston Testo & Michael Sundue (2016): A 4000-species dataset provides new insight into the evolution of ferns. Molecular Phylogenetics and Evolution 105: 200-211. doi: 10.1016 / j.ympev.2016.09.003

Web links

Commons : Equisetopsida  - collection of images, videos and audio files