FNA: Polypodium hesperium vs. Polypodium virginianum

	Polypodium hesperium	Polypodium virginianum
	western polypody, western polypody fern	common polypody, polypode de virginie, rock polypody, tripes-de-roches
Stems	occasionally whitish pruinose, slender to moderately stout, to 6 mm diam., acrid- to sweet-tasting: scales concolored, brown or slightly mottled, often darker near point of attachment, lanceolate, usually symmetric, margins entire to denticulate.	often whitish pruinose, slender, to 6 mm diam., acrid-tasting; scales weakly bicolored, lanceolate, contorted distally, base and margins light brown, sometimes with dark central stripe, margins denticulate.
Leaves	to 35 cm.	to 40 cm.
Petiole	slender, to 1.5 mm diam.	slender, to 2 mm diam.
Blade	oblong to lanceolate-ovate, occasionally deltate, pinnatifid, usually widest at or near middle, to 7 cm wide, herbaceous to somewhat leathery; rachis sparsely scaly to glabrescent abaxially, glabrous adaxially; scales linear-lanceolate, usually less than 6 cells wide.	oblong to narrowly lanceolate, pinnatifid, usually widest near middle, occasionally at or near base, to 7 cm wide, somewhat leathery; rachis sparsely scaly to glabrescent abaxially, glabrous adaxially; scales lanceolate-ovate, usually more than 6 cells wide.
Segments	oblong to linear-lanceolate, less than 12 mm wide; margins entire to crenulate or obscurely serrate; apex obtuse to acute; midrib glabrous adaxially.	oblong, less than 8 mm wide; margins entire to crenulate; apex rounded to broadly acute; midrib glabrous adaxially.
Sori	midway between margin and midrib, less than 3 mm diam., oval when immature.	midway between margin and midrib to nearly marginal, less than 3 mm diam., circular when immature.
Spores	more than 58 µm, rugose to verrucose or tuberculate, surface projections commonly less than 3 µm.	more than 52 µm, tuberculate, surface projections more than 3 µm tall.
Venation	free.	free.
Sporangiasters	absent.	present, usually less than 40 per sorus, heads covered with glandular hairs.
2n	= 148.	= 148.

	Polypodium hesperium	Polypodium virginianum
Phenology	Sporulating summer–fall.	Sporulating summer–fall.
Habitat	Cracks and ledges on cliffs, on a variety of noncalcareous substrates, rarely on limestone	Cliffs and rocky slopes, on a variety of substrates
Elevation	300–3500 m. (1000–11500 ft.)	0–1800 m (0–5900 ft)
Distribution	AZ; CA; CO; ID; MT; NM; NV; OR; UT; WA; BC; Mexico in Chihuahua; Baja California [WildflowerSearch map] [BONAP county map]	AL; AR; CT; DC; DE; GA; IA; IL; IN; KY; MA; MD; ME; MI; MN; MO; NC; NH; NJ; NY; OH; PA; RI; SC; SD; TN; VA; VT; WI; WV; AB; MB; NB; NF; NS; NT; ON; PE; QC; SK; SPM [WildflowerSearch map] [BONAP county map]
Discussion	Using morphologic and chromosomal data, F. A. Lang (1971) proposed that Polypodium hesperium originated through allotetraploidy involving P. glycyrrhiza and P. amorphum, a hypothesis recently supported by electrophoretic studies (C. H. Haufler, M. D. Windham, and E. W. Rabe, unpublished). Variations in spore surface morphology and banding patterns observed in isozyme studies indicate that P. hesperium may have originated more than once from different individuals of the same species. Some collections of P. hesperium can be mistaken for P. glycyrrhiza, but the latter species is easily distinguished by its pubescent rachises, linear blade scales, and smaller spores (less than 58 µm). Although P. amorphum has sporangiasters and P. hesperium lacks them, misshapen sporangia in P. hesperium can mimic these distinctive soral structures. Therefore, it is often necessary to use a combination of soral, stem scale, and blade scale features (discussed in the key) to separate P. hesperium from P. amorphum. Hybridization occurs between P. hesperium and each of its progenitor diploids to form triploid individuals with misshapen spores (F. A. Lang 1971). Rare, sterile, tetraploid hybrids with P. saximontanum have also been detected (M. D. Windham, unpublished). (Discussion copyrighted by Flora of North America; reprinted with permission.)	Traditionally, two cytotypes have been recognized within Polypodium virginianum (I. Manton and M. Shivas 1953). Recent research has demonstrated that the tetraploid cytotype, which properly bears the name P. virginianum (R. Cranfill and D. M. Britton 1983), is an allopolyploid produced by hybridization between the diploid cytotype (here called P. appalachianum) and P. sibiricum (C. H. Haufler and M. D. Windham 1991; C. H. Haufler and Wang Z. R. 1991). Although sometimes similar to its diploid parents in overall leaf morphology, P. virginianum has consistently larger spores, typically more than 52 µm (see additional comments under P. appalachianum and P. sibiricum). Frequent hybridizations between P. virginianum and P. appalachianum form morphologically intermediate, triploid individuals with misshapen spores. Sterile triploids also result from hybridization between P. virginianum and P. sibiricum. (Discussion copyrighted by Flora of North America; reprinted with permission.)
Source	FNA vol. 2.	FNA vol. 2.
Parent taxa	Polypodiaceae > Polypodium	Polypodiaceae > Polypodium
Sibling taxa	P. amorphum, P. appalachianum, P. californicum, P. calirhiza, P. glycyrrhiza, P. saximontanum, P. scouleri, P. sibiricum, P. triseriale, P. virginianum	P. amorphum, P. appalachianum, P. californicum, P. calirhiza, P. glycyrrhiza, P. hesperium, P. saximontanum, P. scouleri, P. sibiricum, P. triseriale
Synonyms	P. prolongilobum, P. vulgare subsp. columbianum, P. vulgare var. columbianum, P. vulgare var. hesperium	P. vinlandicum, P. vulgare var. americanum, P. vulgare var. virginianum
Name authority	Maxon: Proc. Biol. Soc. Wash. 13: 200. (1900)	Linnaeus: Sp. Pl. 2: 1085. (1753)
Web links	Local floras: BC, CA, OR, WA Local Web sites: CalFlora, CalPhotos, Flora NW, PNW Herbaria, SW CO Wildflowers WildflowerSearch iNaturalist (observations) USDA Plants Database LBJ Wildflower Center SEINet Plants of the World Online Encyclopedia of Life Wikipedia Google Image Search	Local Web sites: Go Botany, IL Wildflowers, MD Biodiversity, MI Flora, MN Wildflowers, MO Plants WildflowerSearch iNaturalist (observations) USDA Plants Database LBJ Wildflower Center SEINet Plants of the World Online Encyclopedia of Life Wikipedia Google Image Search

Polypodium virginianum

western polypody, western polypody fern

common polypody, polypode de virginie, rock polypody, tripes-de-roches

Stems

occasionally whitish pruinose, slender to moderately stout, to 6 mm diam., acrid- to sweet-tasting: scales concolored, brown or slightly mottled, often darker near point of attachment, lanceolate, usually symmetric, margins entire to denticulate.

often whitish pruinose, slender, to 6 mm diam., acrid-tasting;

scales weakly bicolored, lanceolate, contorted distally, base and margins light brown, sometimes with dark central stripe, margins denticulate.

Leaves

to 35 cm.

to 40 cm.

Petiole

slender, to 1.5 mm diam.

slender, to 2 mm diam.

Blade

oblong to lanceolate-ovate, occasionally deltate, pinnatifid, usually widest at or near middle, to 7 cm wide, herbaceous to somewhat leathery;

rachis sparsely scaly to glabrescent abaxially, glabrous adaxially;

scales linear-lanceolate, usually less than 6 cells wide.

oblong to narrowly lanceolate, pinnatifid, usually widest near middle, occasionally at or near base, to 7 cm wide, somewhat leathery;

rachis sparsely scaly to glabrescent abaxially, glabrous adaxially;

scales lanceolate-ovate, usually more than 6 cells wide.

Segments

oblong to linear-lanceolate, less than 12 mm wide;

margins entire to crenulate or obscurely serrate;

apex obtuse to acute;

midrib glabrous adaxially.

oblong, less than 8 mm wide;

margins entire to crenulate;

apex rounded to broadly acute;

midrib glabrous adaxially.

Sori

midway between margin and midrib, less than 3 mm diam., oval when immature.

midway between margin and midrib to nearly marginal, less than 3 mm diam., circular when immature.

Spores

more than 58 µm, rugose to verrucose or tuberculate, surface projections commonly less than 3 µm.

more than 52 µm, tuberculate, surface projections more than 3 µm tall.

Venation

free.

Sporangiasters

absent.

present, usually less than 40 per sorus, heads covered with glandular hairs.

= 148.

Polypodium hesperium

Polypodium virginianum

Phenology

Sporulating summer–fall.

Habitat

Cracks and ledges on cliffs, on a variety of noncalcareous substrates, rarely on limestone

Cliffs and rocky slopes, on a variety of substrates

Elevation

300–3500 m. (1000–11500 ft.)

0–1800 m (0–5900 ft)

Distribution

AZ; CA; CO; ID; MT; NM; NV; OR; UT; WA; BC; Mexico in Chihuahua; Baja California

[WildflowerSearch map]

[BONAP county map]

AL; AR; CT; DC; DE; GA; IA; IL; IN; KY; MA; MD; ME; MI; MN; MO; NC; NH; NJ; NY; OH; PA; RI; SC; SD; TN; VA; VT; WI; WV; AB; MB; NB; NF; NS; NT; ON; PE; QC; SK; SPM

[WildflowerSearch map]

[BONAP county map]

Discussion

Using morphologic and chromosomal data, F. A. Lang (1971) proposed that Polypodium hesperium originated through allotetraploidy involving P. glycyrrhiza and P. amorphum, a hypothesis recently supported by electrophoretic studies (C. H. Haufler, M. D. Windham, and E. W. Rabe, unpublished). Variations in spore surface morphology and banding patterns observed in isozyme studies indicate that P. hesperium may have originated more than once from different individuals of the same species. Some collections of P. hesperium can be mistaken for P. glycyrrhiza, but the latter species is easily distinguished by its pubescent rachises, linear blade scales, and smaller spores (less than 58 µm). Although P. amorphum has sporangiasters and P. hesperium lacks them, misshapen sporangia in P. hesperium can mimic these distinctive soral structures. Therefore, it is often necessary to use a combination of soral, stem scale, and blade scale features (discussed in the key) to separate P. hesperium from P. amorphum. Hybridization occurs between P. hesperium and each of its progenitor diploids to form triploid individuals with misshapen spores (F. A. Lang 1971). Rare, sterile, tetraploid hybrids with P. saximontanum have also been detected (M. D. Windham, unpublished).

(Discussion copyrighted by Flora of North America; reprinted with permission.)

Traditionally, two cytotypes have been recognized within Polypodium virginianum (I. Manton and M. Shivas 1953). Recent research has demonstrated that the tetraploid cytotype, which properly bears the name P. virginianum (R. Cranfill and D. M. Britton 1983), is an allopolyploid produced by hybridization between the diploid cytotype (here called P. appalachianum) and P. sibiricum (C. H. Haufler and M. D. Windham 1991; C. H. Haufler and Wang Z. R. 1991). Although sometimes similar to its diploid parents in overall leaf morphology, P. virginianum has consistently larger spores, typically more than 52 µm (see additional comments under P. appalachianum and P. sibiricum). Frequent hybridizations between P. virginianum and P. appalachianum form morphologically intermediate, triploid individuals with misshapen spores. Sterile triploids also result from hybridization between P. virginianum and P. sibiricum.

(Discussion copyrighted by Flora of North America; reprinted with permission.)

Source

FNA vol. 2.

Parent taxa

Polypodiaceae > Polypodium

Sibling taxa

P. amorphum, P. appalachianum, P. californicum, P. calirhiza, P. glycyrrhiza, P. saximontanum, P. scouleri, P. sibiricum, P. triseriale, P. virginianum

P. amorphum, P. appalachianum, P. californicum, P. calirhiza, P. glycyrrhiza, P. hesperium, P. saximontanum, P. scouleri, P. sibiricum, P. triseriale

Synonyms

P. prolongilobum, P. vulgare subsp. columbianum, P. vulgare var. columbianum, P. vulgare var. hesperium

P. vinlandicum, P. vulgare var. americanum, P. vulgare var. virginianum

Name authority

Maxon: Proc. Biol. Soc. Wash. 13: 200. (1900)

Linnaeus: Sp. Pl. 2: 1085. (1753)

Web links

Local floras: BC, CA, OR, WA
Local Web sites: CalFlora, CalPhotos, Flora NW, PNW Herbaria, SW CO Wildflowers
WildflowerSearch
iNaturalist (observations)
USDA Plants Database
LBJ Wildflower Center
SEINet
Plants of the World Online
Encyclopedia of Life
Wikipedia
Google Image Search

Local Web sites: Go Botany, IL Wildflowers, MD Biodiversity, MI Flora, MN Wildflowers, MO Plants
WildflowerSearch
iNaturalist (observations)
USDA Plants Database
LBJ Wildflower Center
SEINet
Plants of the World Online
Encyclopedia of Life
Wikipedia
Google Image Search

Unless otherwise noted, all data comes from the online version of the Flora of North America, who have made most of their content available via a Creative Commons license (CC BY 4.0).

Choose a data source: Flora of North America, OregonFlora, UW Burke Herbarium

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Flora of North America species comparison

Polypodium hesperium

Polypodium virginianum

Polypodium hesperium

Polypodium virginianum