Difference between revisions of "Chamaenerion angustifolium"
Fl. Carniol. ed. 2, 1: 271. 1771.
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− | |discussion=<p>Subspecies 2 (2 in the flora) | + | |distribution=North America;n Mexico;Europe;Asia. |
+ | |discussion=<p>Subspecies 2 (2 in the flora).</p><!-- | ||
--><p>Chamaenerion angustifolium, which in North America is known mostly as fireweed, is a widespread circumpolar, circumboreal species that can be locally dominant, often in disturbed habitats, particularly following fires (T. Mosquin 1966, 1967; G. Henderson et al. 1979). In addition to producing numerous, highly vagile, comose seeds, aggressive rhizomatous growth enables it to survive clonally and spread rapidly after fires (L. E. Vodolazskij 1979). As succession proceeds, production of the familiar spikes of magenta flowers is inhibited, but fireweed often persists in non-flowering condition even in relatively mature forests, where it is able to sprout and spread quickly following disturbance. The species is one of the few within the genus and tribe to form true rhizomes (R. C. Keating et al. 1982), enabling it to colonize large areas very rapidly.</p><!-- | --><p>Chamaenerion angustifolium, which in North America is known mostly as fireweed, is a widespread circumpolar, circumboreal species that can be locally dominant, often in disturbed habitats, particularly following fires (T. Mosquin 1966, 1967; G. Henderson et al. 1979). In addition to producing numerous, highly vagile, comose seeds, aggressive rhizomatous growth enables it to survive clonally and spread rapidly after fires (L. E. Vodolazskij 1979). As succession proceeds, production of the familiar spikes of magenta flowers is inhibited, but fireweed often persists in non-flowering condition even in relatively mature forests, where it is able to sprout and spread quickly following disturbance. The species is one of the few within the genus and tribe to form true rhizomes (R. C. Keating et al. 1982), enabling it to colonize large areas very rapidly.</p><!-- | ||
--><p>Polyploidy is well documented in Chamaenerion angustifolium, but unlike the similar situation in C. latifolium (T. Mosquin and E. Small 1971), diploid and tetraploid populations differ morphologically and have partially overlapping, but distinct, geographical ranges (Mosquin 1966; Chen C. J. et al. 1992). The diploid subsp. angustifolium occupies the northern part of its range, in North America across Canada and interior Alaska, and in Asia across Siberia and northern Europe, ranging southward at higher elevations. Farther south in Eurasia and North America, it is replaced by the tetraploid subsp. circumvagum (Mosquin 1966). Hexaploid (n = 54) populations have been detected only in Japan, and cannot be distinguished morphologically from tetraploids. B. C. Husband and D. W. Schemske (1998), Husband and H. A. Sabara (2004), and Sabara et al. (2013) have documented population segregation and mixing in contact areas between the two ploidy levels, including populations with a single cytotype, a high proportion of mixed populations, and presence of triploids (n = 27), but at low levels, indicating strong reproductive isolation between cytotypes.</p><!-- | --><p>Polyploidy is well documented in Chamaenerion angustifolium, but unlike the similar situation in C. latifolium (T. Mosquin and E. Small 1971), diploid and tetraploid populations differ morphologically and have partially overlapping, but distinct, geographical ranges (Mosquin 1966; Chen C. J. et al. 1992). The diploid subsp. angustifolium occupies the northern part of its range, in North America across Canada and interior Alaska, and in Asia across Siberia and northern Europe, ranging southward at higher elevations. Farther south in Eurasia and North America, it is replaced by the tetraploid subsp. circumvagum (Mosquin 1966). Hexaploid (n = 54) populations have been detected only in Japan, and cannot be distinguished morphologically from tetraploids. B. C. Husband and D. W. Schemske (1998), Husband and H. A. Sabara (2004), and Sabara et al. (2013) have documented population segregation and mixing in contact areas between the two ploidy levels, including populations with a single cytotype, a high proportion of mixed populations, and presence of triploids (n = 27), but at low levels, indicating strong reproductive isolation between cytotypes.</p><!-- | ||
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|basionyms=Epilobium angustifolium | |basionyms=Epilobium angustifolium | ||
|family=Onagraceae | |family=Onagraceae | ||
+ | |distribution=North America;n Mexico;Europe;Asia. | ||
|reference=None | |reference=None | ||
|publication title=Fl. Carniol. ed. | |publication title=Fl. Carniol. ed. | ||
|publication year=1771 | |publication year=1771 | ||
|special status= | |special status= | ||
− | |source xml=https://xjsachs2@bitbucket.org/aafc-mbb/fna-data-curation.git/src/ | + | |source xml=https://xjsachs2@bitbucket.org/aafc-mbb/fna-data-curation.git/src/e39f0e846f172941159b2045254d62d10d9823f6/coarse_grained_fna_xml/V10/V10_276.xml |
|subfamily=Onagraceae subfam. Onagroideae | |subfamily=Onagraceae subfam. Onagroideae | ||
|tribe=Onagraceae tribe Epilobieae | |tribe=Onagraceae tribe Epilobieae |
Latest revision as of 10:31, 9 May 2022
Herbs robust, caudex woody, often forming large clones by horizontal rhizomes 0.5–2 cmdiam., extending 0.5–5 m, forming shoots from caudex and along rhizomes. Stems erect, terete, usually unbranched, rarely branched distally, 20–200 cm, glabrous or sparsely to densely strigillose, often exfoliating proximally. Leaves: usually spirally arranged, very rarely subopposite proximally; petiole 0–7 mm; blade lanceolate to linear or proximally oblong to obovate, (3–)5–23 × 0.3–3.4 cm, proximal ones much reduced, base obtuse or cuneate to attenuate, margins entire or scarcely denticulate, apex attenuate-acute, lateral veins 10–25 on each side of midrib, diverging nearly at right angles, confluent into ± prominent submarginal vein, surfaces glabrous or strigillose on abaxial midrib; bracts much reduced and linear. Inflorescences erect racemes, 5–50 cm, glabrous or strigillose. Flowers nodding in bud, erect at anthesis, opening laterally; buds oblong to oblanceoloid, 7–14 × 3–35 mm; sepals purplish green, oblong-lanceolate or upper pair somewhat oblanceolate, 8–19 × 1.5–3 mm, base usually attenuate, rarely ± clawed, apex acuminate or attenuate, canescent abaxially, glabrous adaxially; petals usually rose purple to pale pink, very rarely white, obovate to narrowly obovate or nearly rotund, 9–25 × 3–15 mm, upper pair often ± longer and broader, base attenuate, apex entire or shallowly emarginate; filaments pink, 7–15 mm, subequal; anthers red to rose purple, oblong, 2–3 × 1–1.7 mm; ovary 6–25 mm, surface densely canescent; nectary disc raised 0.5–1 mm on ovary apex, 2–4 mm diam., smooth or slightly 4-lobed, glabrous; style sharply deflexed initially, later erect, white or flushed pink, 8–16 mm, proximally villous; stigma spreading to revolute, lobes 3–6 × 0.6–1 mm, surfaces white, densely dry-papillose. Capsules 4–9.5 cm, densely appressed-canescent; pedicel 0.5–3 cm. Seeds narrowly obovoid to oblong, 0.9–1.3 × 0.3–0.4 mm, chalazal end tapering abruptly to very short neck (to 0.1 mm), surface appearing smooth and often shiny, but irregularly reticulate; coma 10–17 mm, white or dingy, dense, not easily detached. 2n = 36, 72, 108.
Distribution
North America, n Mexico, Europe, Asia.
Discussion
Subspecies 2 (2 in the flora).
Chamaenerion angustifolium, which in North America is known mostly as fireweed, is a widespread circumpolar, circumboreal species that can be locally dominant, often in disturbed habitats, particularly following fires (T. Mosquin 1966, 1967; G. Henderson et al. 1979). In addition to producing numerous, highly vagile, comose seeds, aggressive rhizomatous growth enables it to survive clonally and spread rapidly after fires (L. E. Vodolazskij 1979). As succession proceeds, production of the familiar spikes of magenta flowers is inhibited, but fireweed often persists in non-flowering condition even in relatively mature forests, where it is able to sprout and spread quickly following disturbance. The species is one of the few within the genus and tribe to form true rhizomes (R. C. Keating et al. 1982), enabling it to colonize large areas very rapidly.
Polyploidy is well documented in Chamaenerion angustifolium, but unlike the similar situation in C. latifolium (T. Mosquin and E. Small 1971), diploid and tetraploid populations differ morphologically and have partially overlapping, but distinct, geographical ranges (Mosquin 1966; Chen C. J. et al. 1992). The diploid subsp. angustifolium occupies the northern part of its range, in North America across Canada and interior Alaska, and in Asia across Siberia and northern Europe, ranging southward at higher elevations. Farther south in Eurasia and North America, it is replaced by the tetraploid subsp. circumvagum (Mosquin 1966). Hexaploid (n = 54) populations have been detected only in Japan, and cannot be distinguished morphologically from tetraploids. B. C. Husband and D. W. Schemske (1998), Husband and H. A. Sabara (2004), and Sabara et al. (2013) have documented population segregation and mixing in contact areas between the two ploidy levels, including populations with a single cytotype, a high proportion of mixed populations, and presence of triploids (n = 27), but at low levels, indicating strong reproductive isolation between cytotypes.
The floral phenology of Chamaenerion angustifolium was described in 1793 by C. K. Sprengel (P. Knuth 1906–1909, vol. 2) as a classic example of protandry. The flowers are presented in tall spikes, opening from the base of the spike, initially with stamens erect and style sharply reflexed. By the second or third day after opening, the stamens reflex as the style straightens into the floral axis, the four lobes of the stigma spread open, and nectaries commence production. Bees start at the lowest flowers in search of nectar, moving up the spike until there is no more nectar, by which time they are well dusted with pollen, which they bring to the lower functionally (female) flowers of the next spike.
Selected References
None.
Lower Taxa
Key
1 | Leaves subsessile, leaf blades glabrous on abaxial midrib, (3–)7–14(–18.5) × (0.3–)0.7–1.3(–2.5) cm, base rounded to cuneate, margins usually entire, rarely low-denticulate; stems subglabrous; petals 9–15(–19) × 3–9(–11) mm; pollen usually 3-porate, to 75 µm diam. | Chamaenerion angustifolium subsp. angustifolium |
1 | Leaves with petioles 2–7 mm, leaf blades usually strigillose, rarely glabrous on abaxial midrib, (6–)9–23 × (0.7–)1.5–3.4 cm, base subcuneate to attenuate, margins ± denticulate; stems strigillose, usually glabrous proximally; petals 14–25 × 7–14 mm; pollen mixed 3- and 4-porate (rarely 5-porate), more than 75 µm diam. | Chamaenerion angustifolium subsp. circumvagum |