Interesting Facts
Description
Family Compositae
The largest family of flowering plants , the Compositae (Asteraceae), comprising about 1,100 genera and more than 20,000 species and characterized by many small flowers arranged in a head looking like a single flower and subtended by an involucre of bracts. A head may consist of both ray flowers and disk flowers, as in the sunflower, of disk flowers only, as in the burdock, or of ray flowers only, as in the dandelion.
Tribe Senecioneae
The Senecioneae are a tribe of closely related genera that can be recognized most readily by the nature of the pappus and the involucral bracts or phyllaries. The phyllaries are basically in one well developed, often partially or wholly connate series of equal length that closely envelope the head . Frequently there are a few, very much smaller and mostly randomly distributed, often necrotic-tipped bracts near the base of the main series. The pappus is of fine, soft, often pure white capillary hairs . Heads may be either discoid or radiate . -- Gerald Carr.
Genus Petasites
Perennials
, 10-25(-120) cm (plants
rhizomatous
, polygamodioecious). Stems erect
, not branched (± scapiform
; stems of "staminate" plants wither soon after flowering, stems of "pistillate" plants elongate after flowering). Leaves basal and cauline; alternate; petiolate
or sessile; basal (usually appearing after heads
) palmately or palmati-pinnately nerved, mostly deltate to ovate
or orbiculate, margins
entire, denticulate
, or toothed
to lobed
, abaxial
faces
± tomentose
, adaxial
tomentulose
and glabrescent
or glabrous
; cauline (sessile) bractlike (essentially expanded petioles
, proximal
sometimes bearing blades
). Heads radiate
, discoid
, or disciform
, usually in corymbiform
, paniculiform
, or racemiform
arrays, rarely borne singly {"staminate" heads usually radiate, peripheral 1-20(-70) florets
styliferous and sterile
or neuter
, inner 11-78 florets usually functionally staminate
, rarely bisexual
and fertile
; "pistillate" heads usually radiate, peripheral (1-) 30-130+ florets pistillate and fertile, inner 1-12 florets functionally staminate}. Calyculi 0 or of 1-5+ bractlets
. Involucres obconic to turbinate
, 6-15+ mm diam. (expanding in fruit). Phyllaries persistent
, mostly 12-15 in (1-) 2 series (often purplish-tinged), erect, distinct
or connate
, narrowly oblong
to linear
(1-5-nerved), subequal
, margins ± scarious
(apices not black). Receptacles flat to convex
, foveolate, epaleate. Ray florets 0 or (1-) 30-130+, usually fertile (in pistillate
heads), sometimes styliferous and sterile or neuter (in staminate heads) ; corollas whitish or pinkish to purplish [yellow] (tubes
filiform
, laminae
linear to oblong; styles filiform to clavate
, entire or shallowly 2-cleft, papillate
). Peripheral (pistillate) florets usually 30-125 and fertile, sometimes 0; corollas whitish or pinkish to purplish [yellow] (filiform, usually 5-lobed, sometimes minutely bilabiate; styles filiform to clavate, entire or shallowly 2-cleft, papillate). Inner (functionally staminate or bisexual) florets 1-78, usually functionally staminate, rarely bisexual and fertile; corollas whitish [yellow] (tubes longer
than ± campanulate
throats
, lobes
5, erect or recurved, lanceolate to linear; styles linear to clavate, branches usually 0 or short-conic and papillate, sometimes lanceolate to oblong and ± hispidulous
). Cypselae narrowly cylindric
to weakly fusiform
or ± prismatic
, 5- or 10-ribbed, faces glabrous [villous
]; pappi (pistillate florets) readily falling or fragile, of 60-100+, white, smooth
or barbellulate
bristles
(elongating in fruit). x = 30.
Species 15-18: boreal North America, southward in w Cordillera
, Eurasia
.
North American Petasites is taxonomically difficult as a result of low variability in reproductive morphology and a high degree
of leaf polymorphism
. The conservative reproductive structures across all taxa make identification almost impossible without foliage
and, unhappily, flowering usually occurs prior to emergence
of basal leaves
. Further compounding the taxonomic
confusion is the apparent intergradation of many of the different leaf forms as well as leaf morphologies being subject to environmental plasticity.
Using morphometric
, isozymic, and chromosomal data as well as crossing studies and observations of field
and herbarium
specimens, relationships
of the various entities have been interpreted by D. M.
Cherniawsky and R. J. Bayer (1998, 1998b). North American Petasites has been shown to be loosely comprised of four polymorphic
groups. Close relationships among the groups were evident in all analyses by Cherniawsky and Bayer and suggested rapid and recent morphologic and genetic divergence
in North America. They postulated that groups within North American Petasites have not yet reached a level of differentiation
characteristic of distinct species. On this basis, North American Petasites is treated here as one polymorphic species with four infraspecific
taxa, one a hybrid.
Characters used in this treatment are those found to be the most taxonomically discriminating by D. M. Cherniawsky and R. J. Bayer (1998c), although there is a high degree of overlap of ranges
across all taxa. Morphologic variation
is continuous for most reproductive characters. Values for reproductive characters are mostly continuous with only a few extreme ranges providing some taxonomic demarcation. Although leaf characters were shown to be the most reliable, it is recommended that a combination
of both flowers and leaves be used for accurate identifications.
In cooler regions of the northern hemisphere, Petasites glacialis and P. gmelinii, both with yellow corollas and 1[-3] heads per array, approach the Bering Strait
in northeastern Siberia; they apparently do not reach Alaska (E. Hultén 1968).
Two relatively large-leaved exotic species
of Petasites are sold as ornamentals
: the European P. hybridus (Linnaeus) Gaertner, Meyer, & Scherbius, with purplish florets and reniform
to orbiculate-cordate, shallowly angular-lobed, finely and unevenly toothed leaf blades 10-90(-100) cm wide; and the Asian P. japonicus (Siebold & Zuccarini) Maximowicz, with creamy white to whitish corollas and reniform-cordate, unlobed, finely toothed leaf blades 15-30(-150) cm wide. They occasionally escape
cultivation (e.g.
, P. hybridus established
in Michigan).
The rhizomes, petioles, leaf blades, and young flower stalks of some species of Petasites are (or have been) used for food in various ways and their ashes are used as a salt substitute. In folk medicine, some species of Petasites are used as antiasthmatics, antispasmodics
, and expectorants
and in salve or poultice
form.[1]
Taxonomy
- Domain:
Eukaryota
(
)
- Whittaker & Margulis,1978
- eukaryotes
- Kingdom:
Plantae
()
- Haeckel, 1866
- Plants
- Subkingdom:
Viridaeplantae
()
- Cavalier-Smith, 1981
- Phylum:
Tracheophyta
()
- Sinnott, 1935 ex Cavalier-Smith, 1998
- Vascular Plants
- Subphylum:
Euphyllophytina
()
- Class:
Spermatopsida
()
- Brongniart, 1843
- Subclass:
Asteridae
()
- Takhtajan, 1967
- Superorder:
Campanulanae
()
- Takhtajan Ex Reveal, 1992
- Order:
Asterales
()
- Lindley, 1833
- Family:
Compositae
()
- Giseke, 1792, nom. cons., nom. alt.
- Subfamily:
Asteroideae
()
- Tribe:
Senecioneae
()
- Subtribe:
Tussilagininae
()
- Genus:
Petasites
()
- P. Miller, 1754
- Butterbur, coltsfoot [Attributed to Dioscorides, Greek petasos, broad-brimmed hat, alluding to large basal leaves]
- Specific epithet:
petasites
- Karst.
- Butterbur, coltsfoot [Attributed to Dioscorides, Greek petasos, broad-brimmed hat, alluding to large basal leaves]
- Botanical name: - Petasites petasites Karst.
- Specific epithet:
petasites
- Karst.
- Butterbur, coltsfoot [Attributed to Dioscorides, Greek petasos, broad-brimmed hat, alluding to large basal leaves]
- Genus:
Petasites
(
- Subtribe:
Tussilagininae
(
- Tribe:
Senecioneae
(
- Subfamily:
Asteroideae
(
- Family:
Compositae
(
- Order:
Asterales
(
- Superorder:
Campanulanae
(
- Subclass:
Asteridae
(
- Class:
Spermatopsida
(
- Subphylum:
Euphyllophytina
(
- Phylum:
Tracheophyta
(
- Subkingdom:
Viridaeplantae
(
- Kingdom:
Plantae
(
Similar Species
Members of the genus Petasites
ZipcodeZoo has pages for 17 species, subspecies, varieties, forms, and cultivars in this genus:
P. albus (White Butterbur) · P. fragrans (Winter Heliotrope) · P. frigidus (Arctic Butter-Bur) · P. frigidus var. frigidus (Arctic Sweet Coltsfoot) · P. frigidus var. nivalis (Arctic Sweet Coltsfoot) · P. frigidus var. Palmata (Northern Sweet Coltsfoot) · P. frigidus var. palmatus (Arctic Sweet Coltsfoot) · P. hybridus (Pestilence Wort) · P. japonicus (Fuki) · P. japonicus f. purpureus (Japanese Butterbur) · P. japonicus var. giganteus (Fuki) · P. japonicus var. giganteus 'Nishiki-Buki' (Fuki) · P. palmatus 'Golden Palms' (Sweet Butterbur) · P. paradoxus (Sweet Coltsfoot) · P. sagittatus (Arrow Butterbur) · P. vitifolius (Sweet Coltsfoot) · P. x vitifolius (Sweet Coltsfoot)
More Info
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- Search using Specialized Databases: GenBank | Medline | Scirus | CISTI/CAL | Agricola Periodicals | Agricola Books
Further Reading
- Cherniawsky, D. M. and R. J. Bayer. 1998c. Systematics of North American Petasites (Asteraceae: Senecioneae). III. A taxonomic revision. Canad. J. Bot. 76: 20612075.
- Toman, J. 1972. A taxonomic survey of the genera Petasites and Endocellion. Folia Geobot. Phytotax. 7: 381406.
Notes
Contributors
Identifiers
- Biodiversity Heritage Library NamebankID: 10518702
- Global Biodiversity Information Facility Taxonkey: 15182833
- Globally Unique Identifier: urn:lsid:ipni.org:names:237394-1
- Zipcode Zoo Species Identifier: 3119838
Footnotes
- Randall J. Bayer, A. Linn Bogle, Donna M. Cherniawsky "Petasites". in Flora of North America Vol. 20 Page 541, 542, 543, 635, 636, 637. Oxford University Press. Online at EFloras.org. [back]
