Sceptridium dissectum

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Sceptridium dissectum
Sceptridium dissectum-forms.jpg
Status TNC G5.svg
Secure  (NatureServe) [1]
Scientific classification OOjs UI icon edit-ltr.svg
Kingdom: Plantae
Clade: Tracheophytes
Division: Polypodiophyta
Class: Polypodiopsida
Order: Ophioglossales
Family: Ophioglossaceae
Genus: Sceptridium
Species:
S. dissectum
Binomial name
Sceptridium dissectum
(Spreng.) Lyon 1905
Synonyms
  • Botrychium dissectumSpreng. 1804
  • Botrychium obliquumMuhl. 1810
Grape fern, Sceptridium dissectum, in Harrison County, Ohio Botrychium dissectum-jak-04a.jpg
Grape fern, Sceptridium dissectum, in Harrison County, Ohio

Sceptridium dissectum is a common fern (or fern-ally) in the family Ophioglossaceae, [2] occurring in eastern North America. Like other plants in this group, it normally only sends up one frond per year. It has long been the subject of confusion because the frond presents in one of two forms, either the normal form (forma obliquum) that resembles other plants in the genus, or the skeletonized form (forma dissectum).

Contents

This is the most common grape fern throughout most of its range. It is a frequent denizen of disturbed lands, often growing with Diphasiastrum digitatum and Asplenium platyneuron . It has an unusual growing season, with the new frond emerging in July and dying back in May. The frond often turns from green to a bronze color during the winter.

Like other grape ferns, it depends on a mycorrhizal association in the soil.

Description

Sceptridium dissectum (Spreng.) Lyon has two separate fronds. The fertile frond looks superficially like a stalk of grapes while the other sterile frond is leafy. Sceptridium dissectum leaves are a light green during the spring and early summer, with the leaves becoming deciduous in late summer. The leaves usually turn a bronze color in late fall through winter. The grape like sporangia range from green to yellow. The petiole or stalk of the plant is green from top to bottom and glabrous as is the sterile frond. Sceptridium dissectum is a non-flowering plant. The sterile frond or leaf is mostly bipinnate. [3]

At first glance most think there are two separate fronds. [4] The fertile stalk is joined to the stalk of sterile leaf blade near the rhizome. [5] The sporangia resemble grapes which is why these types of ferns are known as grape ferns.  The leaves on a sterile frond have lacy edges. Sceptridium dissectum stands six to fifteen inches tall. Sceptridium dissectum can stay a greenish bronze color through winter.

Taxonomy

Sceptridium dissectum can be misidentified as Botrypus virginianus (L.) Sw. commonly known rattlesnake fern. [6]  Botrypus virginianus sporangia looks like a rattle from the tail of a rattlesnake. Sceptridium dissectum is also a close relative to the Southern Grapefern or Botrychium biternatum. [7] These ferns are part of the Ophioglossales order and Ophioglossaceae, known as the Adder’s tongue family. There are three ways to help distinguish the cut-leaf grape fern and the rattlesnake fern. The first is by size, the rattle snake fern can be found up to two feet tall compared to the cut-leaf fern that can be found up to a foot tall. Second the petiole or stalk for a cut-leaf fern is light green while the rattlesnake fern’s petiole is pink at the base.

Sceptridium dissectum (Spreng.) Lyon was known as Botrychium dissectum Spreng. [8] [9] Sceptridium dissectum became the name of the cutleaf grapefern in 1905. Botrychium dissectum held the name from 1804 until 1905. Sceptridium dissectum also goes by a few other names such as Botrychium dissectum Spreng. var. obliquum (Muhl. ex Willd.) Clute, Botrychium dissectum Spreng. var. oblongifolium (Graves) Broun, Botrychium obliquum Muhl. ex Willd., Botrychium obliquum Muhl. ex Willd. var. elongatum Gilbert & Haberer,  Osmunda obliqua (Muhl.) Poir., Botrychium ternatum var. obliquum (Muhl.) D.C. Eaton. [10]

Distribution and habitat

Sceptridium dissectum ranges from Minnesota, south to northeastern Texas and across the east coast of the US. [11] [12] The habitats of the cutleaf grapefern are woodlands, sandy grasslands, the edge of swamps or ravines. One of the favored habitats of these plants are woodlands of deciduous forests where the cutleaf grapefern received winter sun. [13]

Cultivation

Sceptridium dissectum is a homosporous fern which means it only produces one kind of spore. Sceptridium dissectum is also perennial. The cutleaf grapefern typically grows in partial sunlight to medium shade. [14] For soil conditions the cutleaf grapefern grows in soil containing loam or sandy loam. [15] The cutleaf grapefern also grows in moist to dry-mesic conditions. [16] The cutleaf grapefern takes a long time to develop from its spores the fern is dependent on mycorrhizal fungi for survival.

The spores have to be in darkness for 3-4 weeks before any spore germination can occurs. The longer the spores remain in darkness the greater percentage of germination may occur [17] Spore germination and early gametophyte growth were also directly effected by oxidation level of the supplied nitrogen source. [18] The fern remains dependent on the fungi even after sterile and fertile leaves emerge. [19] [20] Unlike some members of the Ophioglossacae, Sceptridum dissectum does not always develop spores. Sceptridum dissectum only creates one leaf per year. [21] The cutleaf grapefern is rumored to live for about 10 to 45 years. Because the cutleaf grapefern is so hard to cultivate it is rarely used horticulturally.

Uses

Wild turkey and ruffed grouse feed on the leaves, as do white-tailed deer. [22]

Related Research Articles

<span class="mw-page-title-main">Sporangium</span> Enclosure in which spores are formed

A sporangium ; pl.: sporangia) is an enclosure in which spores are formed. It can be composed of a single cell or can be multicellular. Virtually all plants, fungi, and many other groups form sporangia at some point in their life cycle. Sporangia can produce spores by mitosis, but in land plants and many fungi, sporangia produce genetically distinct haploid spores by meiosis.

<span class="mw-page-title-main">Fern</span> Class of vascular plants

The ferns are a group of vascular plants that reproduce via spores and have neither seeds nor flowers. They differ from mosses by being vascular, i.e., having specialized tissues that conduct water and nutrients, and in having life cycles in which the branched sporophyte is the dominant phase.

<span class="mw-page-title-main">Ophioglossaceae</span> Family of ferns

Ophioglossaceae, the adder's-tongue family, is a small family of ferns. In the Pteridophyte Phylogeny Group classification of 2016, it is the only family in the order Ophioglossales, which together with the Psilotales is placed in the subclass Ophioglossidae. The Ophioglossidae are one of the groups traditionally known as eusporangiate ferns. Members of the family differ from other ferns in a number of ways. Many have only a single fleshy leaf at a time. Their gametophytes are subterranean and rely on fungi for energy.

<span class="mw-page-title-main">Frond</span> Collection of leaflets on a plant

A frond is a large, divided leaf. In both common usage and botanical nomenclature, the leaves of ferns are referred to as fronds and some botanists restrict the term to this group. Other botanists allow the term frond to also apply to the large leaves of cycads, as well as palms (Arecaceae) and various other flowering plants, such as mimosa or sumac. "Frond" is commonly used to identify a large, compound leaf, but if the term is used botanically to refer to the leaves of ferns and algae it may be applied to smaller and undivided leaves.

<i>Botrychium</i> Genus of ferns in the family Ophioglossaceae

Botrychium is a genus of ferns, seedless vascular plants in the family Ophioglossaceae. Botrychium species are known as moonworts. They are small, with fleshy roots, and reproduce by spores shed into the air. One part of the leaf, the trophophore, is sterile and fernlike; the other, the sporophore, is fertile and carries the clusters of sporangia or spore cases. Some species only occasionally emerge above ground and gain most of their nourishment from an association with mycorrhizal fungi.

<i>Sceptridium</i> Genus of ferns

Sceptridium is a genus of seedless vascular plants in the family Ophioglossaceae, closely allied to the genus Botrychium. It is also closely related to the genus Botrypus. Sceptridium species are commonly called the grape-ferns.

<i>Platycerium</i> Genus of ferns

Platycerium is a genus of about 18 fern species in the polypod family, Polypodiaceae. Ferns in this genus are widely known as staghorn or elkhorn ferns due to their uniquely shaped fronds. This genus is epiphytic and is native to tropical and temperate areas of South America, Africa, Southeast Asia, Australia, and New Guinea.

<i>Onoclea sensibilis</i> Species of fern

Onoclea sensibilis, the sensitive fern, also known as the bead fern, is a coarse-textured, medium to large-sized deciduous perennial fern. The name comes from its sensitivity to frost, the fronds dying quickly when first touched by it. It is sometimes treated as the only species in Onoclea, but some authors do not consider the genus monotypic.

<i>Botrypus</i> North American species of fern

Botrypus virginianus, synonym Botrychium virginianum, sometimes called rattlesnake fern is a species of perennial fern in the adders-tongue family. It is monotypic within the genus Botrypus, meaning that it is the only species within the genus. It is called the rattlesnake fern in some parts of North America, due to its habit of growing in places where rattlesnakes are also found. Rattlesnake fern prefers to grow in rich, moist woods in dense shade and will not tolerate direct sunlight.

<i>Botrychium pumicola</i> Western North American species of moonwort

Botrychium pumicola, with the common name pumice moonwort, is a rare fern.

<i>Sceptridium multifidum</i> Species of fern

Sceptridium multifidum is a fern species in the Ophioglossaceae, known by the common names leathery grapefern and leathery moonwort.

<i>Botrychium lunaria</i> Worldwide temperate species of moonwort

Botrychium lunaria is a species of fern in the family Ophioglossaceae known by the common name moonwort or common moonwort. It is the most widely distributed moonwort, growing throughout the Northern Hemisphere across Eurasia and from Alaska to Greenland, as well as temperate parts of the Southern Hemisphere.

<i>Botrychium minganense</i> North American species of moonwort

Botrychium minganense is a species of fern in the family Ophioglossaceae known by the common name Mingan moonwort. It is native to North America from Alaska and northern Canada to Arizona, where it is uncommon throughout most of its range, appearing at scattered spots in coniferous forests and marshy areas such as swamps.

<i>Botrychium matricariifolium</i> Temperate Northern Hemisphere species of moonwort

Botrychium matricariifolium is a species of fern in the Ophioglossaceae family. It is referred to by the common names chamomile grape-fern, daisyleaf grape-fern, and matricary grape-fern. It is native to Europe and parts of eastern North America, including eastern Canada and parts of the United States.

<i>Sceptridium oneidense</i> Species of fern

Sceptridium oneidense, the blunt-lobed grapefern, is a fern species in the family Ophioglossaceae.

<i>Sceptridium biternatum</i> Species of plant

Sceptridium biternatum, the southern grapefern or sparse-lobe grape fern , is a perennial fern in the family Ophioglossaceae, occurring in eastern North America. It occurs in "low woods, in hardwood and pine forests, in fields, and on roadsides." Like other grape ferns, it depends on a mycorrhizal association in the soil to survive.

<i>Sceptridium jenmanii</i> Species of plant

Sceptridium jenmanii, the Alabama grapefern or Dixie grapefern, is a species of fern in the Ophioglossaceae native to the southeastern United States. It is a rare species, and is apparently in decline. Like other grape ferns, it depends on a mycorrhizal association in the soil to survive.

<i>Botrychium campestre</i> North American species of moonwort

Botrychium campestre is a fern species in Ophioglossaceae, commonly called prairiemoonwort, prairie dunewort, Iowa moonwort, or plains grapefern. It was first discovered in 1982 and described a few years later.

References

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  2. Christenhusz, Maarten J. M.; Zhang, Xian-Chun; Schneider, Harald (2011). "A linear sequence of extant families and genera of lycophytes and ferns" (PDF). Phytotaxa. 19: 7–54. doi:10.11646/phytotaxa.19.1.2.
  3. "Botrychium dissectum". www.ct-botanical-society.org. Retrieved 2018-12-07.
  4. "Botrychium dissectum". www.ct-botanical-society.org. Retrieved 2018-12-07.
  5. "Cutleaf Grapefern (Botrychium dissectum dissectum)". www.illinoiswildflowers.info. Retrieved 2018-12-07.
  6. "Botrychium virginianum". www.ct-botanical-society.org. Retrieved 2018-12-07.
  7. "Southern grape fern (Botrychium biternatum)". GNPS. Retrieved 2018-12-07.
  8. Botanical Gazette; Paper of Botanical Notes. Crawfordsville, IN, Chicago, IL. Vol. 40.
  9. "Sceptridium dissectum (Spreng.) Lyon — The Plant List". www.theplantlist.org. Retrieved 2018-12-07.
  10. "Sceptridium dissectum (Spreng.) Lyon — The Plant List". www.theplantlist.org. Retrieved 2018-12-07.
  11. "Plants Profile for Botrychium dissectum (cutleaf grapefern)". plants.usda.gov. Retrieved 2018-12-07.
  12. "Lady Bird Johnson Wildflower Center - The University of Texas at Austin". www.wildflower.org. Retrieved 2018-12-07.
  13. "Cutleaf Grapefern (Botrychium dissectum dissectum)". www.illinoiswildflowers.info. Retrieved 2018-12-07.
  14. "Canadian Science Publishing". 51. doi:10.1139/b73-230.{{cite journal}}: Cite journal requires |journal= (help)
  15. "Southern grape fern (Botrychium biternatum)". GNPS. Retrieved 2018-12-07.
  16. "Southern grape fern (Botrychium biternatum)". GNPS. Retrieved 2018-12-07.
  17. "Canadian Science Publishing". doi:10.1139/b73-230.{{cite journal}}: Cite journal requires |journal= (help)
  18. Melan, M. A.; Whittier, D. P. (1990-06-01). "Effects of inorganic nitrogen sources on spore germination and gametophyte growth in Botrychium dissectum". Plant, Cell & Environment. 13 (5): 477–482. doi:10.1111/j.1365-3040.1990.tb01325.x. ISSN   1365-3040.
  19. Whittier, P. (1981). "Spore Germination and Young Gametophyte Development of Botrychium and Ophioglossum in Axenic Culture". American Fern Journal. 71 (1): 13–19. doi:10.2307/1546671. JSTOR   1546671.
  20. McCauley, David E.; Whittier, Dean P.; Reilly, Linda M. (1985-12-01). "Inbreeding and the Rate of Self-Fertilization in a Grape Fern, Botrychium Dissectum". American Journal of Botany. 72 (12): 1978–1981. doi:10.1002/j.1537-2197.1985.tb08471.x. ISSN   1537-2197.
  21. "Cutleaf Grapefern (Botrychium dissectum dissectum)". www.illinoiswildflowers.info. Retrieved 2018-12-07.
  22. "Cutleaf Grapefern (Botrychium dissectum dissectum)". www.illinoiswildflowers.info. Retrieved 2018-12-07.