FNA: Orthilia vs. Ericaceae subfam. monotropoideae

	Orthilia	Ericaceae subfam. monotropoideae
	one-side wintergreen, orthilia, pyrole unilatérale, side-bells wintergreen
Habit	Herbs or subshrubs, chlorophyllous, autotrophic.	Herbs (rarely subshrubs), chlorophyllous and autotrophic or achlorophyllous and heterotrophic, mycotrophic, multicellular hairs present or absent; bark absent.
Stems	decumbent or erect, glabrous or papillose, especially distally.	absent, or erect or decumbent.
Leaves	cauline, alternate or pseudoverticillate in (1–)2–4 whorls; petiole present; blade not maculate, ovate to broadly ovate or elliptic to orbiculate, subcoriaceous, margins entire or undulate to serrulate, rarely serrate, plane or, rarely, obscurely revolute, surfaces glabrous.	absent or persistent, sometimes scalelike, often much reduced, cauline and alternate or in basal rosettes or pseudoverticillate; petiole present or absent; blade plane or acicular, abaxial groove absent.
Inflorescences	racemes, often lax in bud or flower, usually erect in fruit, (secund); peduncular bracts usually present; inflorescence bracts free from pedicels.	terminal racemes, umbels, corymbs, cymes, or solitary flowers; perulae absent; bracts shorter than, as long as, or longer than sepals.
Pedicels	recurved to reflexed in fruit; bracteoles absent.
Flowers	radially symmetric, spreading or nodding; sepals 5, connate proximally, often obscurely so, calyx lobes broadly triangular to ovate; petals 5, distinct, greenish white, yellowish white, or white, with 2 inconspicuous basal tubercles, corolla suburceolate; intrastaminal nectary disc absent; stamens 10, included or barely exserted; filaments broad proximally, gradually narrowed medially, slender distally, glabrous; anthers oblong, without awns, without tubules, dehiscent by 2 round to elliptic pores; pistil 5-carpellate; ovary imperfectly 5-locular; placentation intruded-parietal; style (exserted), straight or nearly so, expanded distally or not; stigma 5-ridged, without subtending ring of hairs.	radially symmetric to slightly bilaterally symmetric, horizontal, nodding, or spreading to erect; sepals absent or 2-5(-6); petals (3-)4-5(-6), connate or distinct, corolla deciduous or persistent, rotate, crateriform, cylindric, urceolate, or campanulate, if petals connate, lobes shorter than tube; intrastaminal nectary disc present or absent; stamens 8-10(-14); anthers dehiscent by slits or pores; ovary 1- or (4-)5(-6)-locular; placentation axile or parietal; style straight or declinate.
Fruits	capsular, pendulous, dehiscence loculicidal, cobwebby tissue exposed by splitting valves at dehiscence.	capsular, dehiscence loculicidal or indehiscent to irregularly dehiscent, or baccate and indehiscent.
Seeds	ca. 1000, fusiform, winged.	25-1000+, distinct, fusiform or ovoid, winged or not.
x	= 19.

	Orthilia	Ericaceae subfam. monotropoideae
Distribution	North America; Mexico; Central America (Guatemala); Eurasia; circumboreal [BONAP county map]	North America; Mexico; Central America; West Indies (Hispaniola); n South America; Europe; Asia (including Sumatra)
Discussion	Species 1: North America, Mexico, Central America (Guatemala), Eurasia; circumboreal. The basal tubercles on the petals of Orthilia are unique among Monotropoideae. On fresh or rehydrated flowers they are about 0.2–0.3 mm in diameter and 0.1–0.2 mm tall. The tubercles appear as obscure thickenings on dried specimens. H. F. Copeland (1947) found no evidence of glandular activity associated with these tubercles and speculated that they may influence the opening of the flowers, as do the lodicules of grasses. Species 1 (Discussion copyrighted by Flora of North America; reprinted with permission.)	Genera 14, species ca. 50 (12 genera, 21 species in the flora). Two strictly Asiatic genera in the subfamily, Cheilotheca Hooker f. and Monotropastrum Andres, each contain two species. A persistent error, that heterotrophic members of the Monotropoideae are saprophytic, was disproved by E. Björkman (1960), supported by T. E. Furman and J. Trappe (1971). These plants are considered epiparasitic, deriving their nutrition from coniferous or fagaceous hosts through mutually shared fungal associates. This mode of nutrition also is called mycoheterotrophy. Mycorrhizal associates of several genera have been investigated by K. W. Cullings et al. (1996) and M. I. Bidartondo and T. D. Bruns (2001, 2002). Inflorescences, the only above-ground structures for these heterotrophic plants (excluding achlorophyllous forms of Pyrola), emerge from soil each year. One or more inflorescences develop from each perennial root system. Because the root systems may branch, it is generally not possible to determine whether any two inflorescences in proximity are derived from the same system. Thus, counting inflorescences as a measure of population sizes is essentially meaningless but may be an indication of the overall health of the plants and recent environmental conditions. Conclusive distinctions among bracts and similar-appearing appendages without flowers in their axils are generally lacking. The latter are here called sterile bracts. Bracts and sterile bracts are generally similar in their sizes and shapes, but in some taxa sterile bracts are more appressed to the inflorescence axes or are conspicuously more succulent. Because similar structures occur in inflorescences of other Ericaceae and are uniformly sessile, it is difficult to justify calling these structures leaves. Chlorophyllous members of the subfamily produce three types of similar, bractlike structures. Persistent bud scales, produced in winter buds at the end of each growing season, usually alternate with leaves at the base of the peduncle (H. F. Copeland 1947). Peduncles in all genera except Chimaphila bear up to five bracts, which sometimes subtend aborted flower buds. Individuals of nearly all species occasionally lack peduncular bracts. The pedicel of each flower (absent in Moneses) typically is subtended by a single bract. These inflorescence bracts are free from the pedicel in Orthilia and Pyrola; they are adnate proximally to the pedicel in Chimaphila, the bract thus appearing to arise from the pedicel. Bracteoles are absent. Pollination studies of some species indicate that chlorophyllous members are largely outcrossing and entomophilous (H. B. Lovell and J. H. Lovell 1936; L. C. W. Jensen 1961; J. T. Knudsen and J. M. Olesen 1993). Knudsen and Olesen found the floral morphology of Chimaphila to be optimized for pollination by large, nectar-gathering insects, especially bumblebees. Moneses, which produces no nectar, is buzz-pollinated by pollen-gathering insects. Orthilia produces nectar and is visited by both nectar- and pollen-gathering insects. Pyrola produces no nectar and is buzz-pollinated. (Discussion copyrighted by Flora of North America; reprinted with permission.)
Source	FNA vol. 8, p. 388. Author: Craig C. Freeman.	FNA vol. 8, p. 377. Authors: Gordon C. Tucker, Gary D. Wallace.
Parent taxa	Ericaceae > subfam. Monotropoideae	Ericaceae
Subordinate taxa	O. secunda
Synonyms		subfamily Pyroloideae, tribe Monotropaceae, tribe Pyrolaceae
Name authority	Rafinesque: Autik. Bot., 103. 1840 ,	Arnott: M. Napier, Encycl. Brit. ed. 7 5: 118. (1832)
Web links	Local floras: CA, OR, WA Local Web sites: CalFlora, CalPhotos, Flora NW, PNW Herbaria, Turner Photog. WildflowerSearch iNaturalist (observations) USDA Plants Database LBJ Wildflower Center SEINet Plants of the World Online Encyclopedia of Life Wikipedia Google Image Search	WildflowerSearch iNaturalist (observations) LBJ Wildflower Center SEINet Plants of the World Online Encyclopedia of Life Wikipedia Google Image Search

Ericaceae subfam. monotropoideae

one-side wintergreen, orthilia, pyrole unilatérale, side-bells wintergreen

Habit

Herbs or subshrubs, chlorophyllous, autotrophic.

Herbs (rarely subshrubs), chlorophyllous and autotrophic or achlorophyllous and heterotrophic, mycotrophic, multicellular hairs present or absent; bark absent.

Stems

decumbent or erect, glabrous or papillose, especially distally.

absent, or erect or decumbent.

Leaves

cauline, alternate or pseudoverticillate in (1–)2–4 whorls;

petiole present;

blade not maculate, ovate to broadly ovate or elliptic to orbiculate, subcoriaceous, margins entire or undulate to serrulate, rarely serrate, plane or, rarely, obscurely revolute, surfaces glabrous.

absent or persistent, sometimes scalelike, often much reduced, cauline and alternate or in basal rosettes or pseudoverticillate;

petiole present or absent;

blade plane or acicular, abaxial groove absent.

Inflorescences

racemes, often lax in bud or flower, usually erect in fruit, (secund);

peduncular bracts usually present;

inflorescence bracts free from pedicels.

terminal racemes, umbels, corymbs, cymes, or solitary flowers;

perulae absent;

bracts shorter than, as long as, or longer than sepals.

Pedicels

recurved to reflexed in fruit;

bracteoles absent.

Flowers

radially symmetric, spreading or nodding;

sepals 5, connate proximally, often obscurely so, calyx lobes broadly triangular to ovate;

petals 5, distinct, greenish white, yellowish white, or white, with 2 inconspicuous basal tubercles, corolla suburceolate;

intrastaminal nectary disc absent;

stamens 10, included or barely exserted;

filaments broad proximally, gradually narrowed medially, slender distally, glabrous;

anthers oblong, without awns, without tubules, dehiscent by 2 round to elliptic pores;

pistil 5-carpellate;

ovary imperfectly 5-locular;

placentation intruded-parietal;

style (exserted), straight or nearly so, expanded distally or not;

stigma 5-ridged, without subtending ring of hairs.

radially symmetric to slightly bilaterally symmetric, horizontal, nodding, or spreading to erect;

sepals absent or 2-5(-6);

petals (3-)4-5(-6), connate or distinct, corolla deciduous or persistent, rotate, crateriform, cylindric, urceolate, or campanulate, if petals connate, lobes shorter than tube;

intrastaminal nectary disc present or absent;

stamens 8-10(-14);

anthers dehiscent by slits or pores;

ovary 1- or (4-)5(-6)-locular;

placentation axile or parietal;

style straight or declinate.

Fruits

capsular, pendulous, dehiscence loculicidal, cobwebby tissue exposed by splitting valves at dehiscence.

capsular, dehiscence loculicidal or indehiscent to irregularly dehiscent, or baccate and indehiscent.

Seeds

ca. 1000, fusiform, winged.

25-1000+, distinct, fusiform or ovoid, winged or not.

= 19.

Ericaceae subfam. monotropoideae

Distribution

North America; Mexico; Central America (Guatemala); Eurasia; circumboreal

[BONAP county map]

North America; Mexico; Central America; West Indies (Hispaniola); n South America; Europe; Asia (including Sumatra)

Discussion

Species 1: North America, Mexico, Central America (Guatemala), Eurasia; circumboreal.

The basal tubercles on the petals of Orthilia are unique among Monotropoideae. On fresh or rehydrated flowers they are about 0.2–0.3 mm in diameter and 0.1–0.2 mm tall. The tubercles appear as obscure thickenings on dried specimens. H. F. Copeland (1947) found no evidence of glandular activity associated with these tubercles and speculated that they may influence the opening of the flowers, as do the lodicules of grasses.

Species 1

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

Genera 14, species ca. 50 (12 genera, 21 species in the flora).

Two strictly Asiatic genera in the subfamily, Cheilotheca Hooker f. and Monotropastrum Andres, each contain two species.

A persistent error, that heterotrophic members of the Monotropoideae are saprophytic, was disproved by E. Björkman (1960), supported by T. E. Furman and J. Trappe (1971). These plants are considered epiparasitic, deriving their nutrition from coniferous or fagaceous hosts through mutually shared fungal associates. This mode of nutrition also is called mycoheterotrophy. Mycorrhizal associates of several genera have been investigated by K. W. Cullings et al. (1996) and M. I. Bidartondo and T. D. Bruns (2001, 2002).

Inflorescences, the only above-ground structures for these heterotrophic plants (excluding achlorophyllous forms of Pyrola), emerge from soil each year. One or more inflorescences develop from each perennial root system. Because the root systems may branch, it is generally not possible to determine whether any two inflorescences in proximity are derived from the same system. Thus, counting inflorescences as a measure of population sizes is essentially meaningless but may be an indication of the overall health of the plants and recent environmental conditions.

Conclusive distinctions among bracts and similar-appearing appendages without flowers in their axils are generally lacking. The latter are here called sterile bracts. Bracts and sterile bracts are generally similar in their sizes and shapes, but in some taxa sterile bracts are more appressed to the inflorescence axes or are conspicuously more succulent. Because similar structures occur in inflorescences of other Ericaceae and are uniformly sessile, it is difficult to justify calling these structures leaves.

Chlorophyllous members of the subfamily produce three types of similar, bractlike structures. Persistent bud scales, produced in winter buds at the end of each growing season, usually alternate with leaves at the base of the peduncle (H. F. Copeland 1947). Peduncles in all genera except Chimaphila bear up to five bracts, which sometimes subtend aborted flower buds. Individuals of nearly all species occasionally lack peduncular bracts. The pedicel of each flower (absent in Moneses) typically is subtended by a single bract. These inflorescence bracts are free from the pedicel in Orthilia and Pyrola; they are adnate proximally to the pedicel in Chimaphila, the bract thus appearing to arise from the pedicel. Bracteoles are absent.

Pollination studies of some species indicate that chlorophyllous members are largely outcrossing and entomophilous (H. B. Lovell and J. H. Lovell 1936; L. C. W. Jensen 1961; J. T. Knudsen and J. M. Olesen 1993). Knudsen and Olesen found the floral morphology of Chimaphila to be optimized for pollination by large, nectar-gathering insects, especially bumblebees. Moneses, which produces no nectar, is buzz-pollinated by pollen-gathering insects. Orthilia produces nectar and is visited by both nectar- and pollen-gathering insects. Pyrola produces no nectar and is buzz-pollinated.

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

Source

FNA vol. 8, p. 388. Author: Craig C. Freeman.

FNA vol. 8, p. 377. Authors: Gordon C. Tucker, Gary D. Wallace.

Parent taxa

Ericaceae > subfam. Monotropoideae

Ericaceae

Subordinate taxa

O. secunda

Synonyms

subfamily Pyroloideae, tribe Monotropaceae, tribe Pyrolaceae

Name authority

Rafinesque: Autik. Bot., 103. 1840 ,

Arnott: M. Napier, Encycl. Brit. ed. 7 5: 118. (1832)

Web links

Local floras: CA, OR, WA
Local Web sites: CalFlora, CalPhotos, Flora NW, PNW Herbaria, Turner Photog.
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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Orthilia

Ericaceae subfam. monotropoideae

Orthilia

Ericaceae subfam. monotropoideae