Saxifragaceae |
Tiarella |
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saxifrage family |
and, coolwort, false mitrewort, foam-flower, laceflower, Latin tiara, sugar-scoop, tiarelle, turban |
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Habit | Herbs, perennial, rarely biennial (Saxifraga) or annual (Cascadia, Saxifraga), rhizomatous or not, stoloniferous or not, persistent stem ± erect as caudex, horizontal as rhizome, or intergrading, branched or unbranched, sometimes bearing bulbils (Bolandra, Lithophragma, Micranthes, Saxifraga, Suksdorfia). | Herbs (often evergreen), rhizomatous, sometimes stoloniferous; caudex creeping, scaly. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Flowering stems | appearing in spring, summer, or autumn with leaves usually present (usually appearing in autumn or winter after basal leaves have withered in Jepsonia), leafless, or leafy and bearing 1–5 cauline leaves proximally, glabrous or short to long stipitate-glandular or eglandular, hairs usually multicellular (unicellular in Astilbe, Saxifragopsis). |
erect, usually leafless, rarely with 1–2 leafy bracts, 10–70 cm, short to long glandular-stipitate. |
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Leaves | usually in basal rosettes, sometimes cauline, usually alternate, sometimes opposite (Chrysosplenium, Lithophragma, Mitella, Saxifraga), usually simple (compound in Astilbe, sometimes compound in Lithophragma, Tiarella); stipules absent or present; petiole absent or present, usually not jointed distally at attachment to blade (jointed distally in Saxifragopsis), usually not peltate (peltate in Darmera), not producing adventitious buds at apices of petioles of basal rosette and cauline leaves (usually producing adventitious buds at apices of petioles in Tolmiea); blade margins entire, crenate, serrate, or dentate, ciliate or glandular-ciliate. |
in basal rosette and, sometimes, cauline, simple or 3-foliolate; stipules present; petiole short to long stipitate-glandular (hairs usually denser distally, gland-tipped); blade cordate or broadly ovate, lobed, base cordate, margins crenate to dentate, apex acute, abaxial surface stipitate-glandular along veins, adaxial surface stipitate-glandular, sometimes appressed, hairs uniformly scattered; venation palmate. |
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Inflorescences | usually terminal racemes, panicles, cymes (simple or compound), thyrses (with lateral dichasial or monochasial cymose branches), or solitary flowers (Chrysosplenium, Lithophragma), sometimes axillary cymes (Chrysosplenium), usually arising from terminal or axillary buds in rosettes, 2–300(–1000+)-flowered, bracteate or ebracteate. |
racemes (sometimes with paniculate branches at base) or panicles, terminal from axillary buds in rosette, 15–70-flowered, bracteate. |
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Flowers | usually bisexual, sometimes unisexual (Astilbe, Saxifraga), homostylous (heterostylous in Jepsonia), usually radially symmetric, sometimes bilaterally symmetric (Bensoniella, Heuchera, Micranthes, [Saxifraga], Tiarella, Tolmiea); perianth and androecium hypogynous, perigynous, or epigynous; hypanthium free (Bolandra, Jepsonia) or ± adnate to ovary, usually not split to base (split to base in Tolmiea); sepals usually (4–)5(–6), distinct; petals usually (4–)5(–6) or absent, distinct, lobed or unlobed; nectary disc often encircling ovary distally at junction of ovary and free portion of hypanthium; stamens (2–)5(–9)10; anthers usually dehiscent longitudinally, rarely by broad terminal openings (Leptarrhena); staminodes absent; pistils 1, sometimes appearing 2–3+ (Micranthes), usually 2-carpellate, rarely 3-carpellate (Astilbe, Lithophragma, Micranthes), carpels connate for full length of ovary to barely connate proximally, equal, rarely unequal (Tiarella); ovary superior to inferior, 1–2(–3)-locular, ovaries fully connate when 1-locular, proximally connate to varying degrees when 2- and 3-locular (Astilbe, Micranthes); placentation axile, appearing marginal when ovaries are barely connate, or parietal; ovules anatropous, usually bitegmic, rarely unitegmic (most Micranthes), crassinucellate; styles 2–3(–4), distinct or connate (Saxifragopsis); stigmas 2–3(–4), capitate. |
radially symmetric or somewhat bilaterally symmetric; hypanthium barely adnate to ovary proximally, 0.2–0.9 mm free from ovary, white or pinkish, (campanulate); sepals 5, whitish or pinkish, (ovate to lanceolate, apex acute or obtuse, glandular-stipitate abaxially, glabrous adaxially); petals 5, white or pinkish to purplish; nectary disc absent or inconspicuous; stamens 10; filaments linear; ovary superior, 1-locular, carpels connate, unequal; placentation parietal; styles 2, (tapering); stigmas 2. |
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Fruits | capsular, sometimes folliclelike (Cascadia, Micranthes), 2–3(–4)-beaked, equally valvate (unequally valvate in Tiarella), dehiscence septicidal between beaks. |
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Capsules | 2-winged (beaked), unequally valvate, abaxial carpel 1.5–2 times longer than adaxial carpel, (papery, each wing 5–10-veined). |
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Seeds | 5–200, tan, brown, dark brown, black, yellowish brown, reddish brown, or red, rarely winged (Astilbe, Jepsonia, Sullivantia), ellipsoid, fusiform, ovoid, oblong, spheroid, oblong-cylindric, flat, or straight on 1 side, convex on other, rarely prismatic, smooth, wrinkled, ribbed, papillate, pitted, or ridged, tuberculate, warty, spiny, cellular-rugulose, or muricate; embryo straight; endosperm oily, copious. |
black, shiny, ellipsoid or ovoid, (base truncate), puncticulate; (funicular appendage absent). |
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x | = 7. |
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Saxifragaceae |
Tiarella |
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Distribution | Nearly worldwide; primarily of north-temperate; arctic; and alpine regions |
North America; Asia |
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Discussion | Genera ca. 38, species ca. 600 (23 genera, 158 species in the flora). Classification of Saxifragaceae has been varied and controversial (e.g., A. Cronquist 1981; H. G. A. Engler 1930; J. Hutchinson 1973; G. K. W. Schulze-Menz 1964b; A. L. Takhtajan 1997; R. F. Thorne 1992). Molecular phylogenetic data (D. R. Morgan and D. E. Soltis 1993; Soltis et al. 1993, 2001; Angiosperm Phylogeny Group 1998, 2003) reveal that genera of Saxifragaceae in the broad sense are allied with at least ten separate, often distantly related families of flowering plants. These data also suggest that Saxifragaceae in the narrow sense as treated here consists of about 38 genera worldwide, equivalent to subfamily Saxifragoideae, one of the 15 subfamilies recognized by Engler and one of the 17 recognized by Schulze-Menz of the broadly defined Saxifragaceae. Molecular phylogenetic data (Soltis et al. 2001) show that the narrowly defined Saxifragaceae fall into two major groups: Saxifraga, and the heucheroid clade encompassing all other genera. Molecular data further show that Saxifraga, as traditionally understood, is polyphyletic, comprising two distinct lineages (treated here as Saxifraga and Micranthes) and the monospecific North American Cascadia. The major split between Saxifraga and the heucheroid clade is supported not only by molecular data from six DNA regions but by differences in patterns of floral morphology. Saxifraga has a relatively uniform floral morphology (radially symmetric flowers, with bilateral symmetry restricted to one Asian group of species, which consistently have the same number of sepals, petals, stamens, and carpels). Almost all of the variation in the family in numbers of sepals, petals, stamens, and carpels occurs in the heucheroid clade. Radially symmetric flowers predominate there, but some bilateral flowers are found in Bensoniella, Micranthes, Tolmiea, and some species of Heuchera. Penthorum, the only genus in Penthoroideae of Saxifragaceae (H. G. A. Engler 1930), is morphologically anomalous in the Saxifragaceae and has often been included in Crassulaceae or, as treated here, its own family, Penthoraceae (Angiosperm Phylogeny Group 1998). Itea and Ribes, sole members of Iteoideae and Ribesoideae, respectively, are treated here as separate families, Iteaceae and Grossulariaceae. Crassulaceae, Grossulariaceae, Iteaceae, Paeoniaceae, Penthoraceae, and Saxifragaceae belong to the Saxifragales, as treated here, as well as Altingiaceae, Cercidiphyllaceae, Daphniphyllaceae, Haloragaceae (which includes Penthoraceae and Tetracarpaeaceae), Hamamelidaceae, Peridiscaceae, and Pterostemonaceae (Soltis et al. 2005). Carpenteria, Decumaria, Deutzia, Fendlera, Fendlerella, Hydrangea, Jamesia, Philadelphus, and Whipplea once belonged to Hydrangeoideae of Saxifragaceae (H. G. A. Engler 1930) and are treated in the flora as Hydrangeaceae. Escallonia, the sole genus of Escallonioideae (Engler), is treated in the flora as Escalloniaceae. Molecular, morphological, and chemical data (C. R. Bensel and B. F. Palser 1975, 1975b, 1975c, 1975d; B. A. Bohm et al. 1988; M. L. Haskins and W. J. Hayden 1987; L. Hufford and W. C. Dickison 1992; D. R. Morgan and D. E. Soltis 1993; Soltis and B. A. Bohm 1982; Soltis et al. 1993; Soltis and P. S. Soltis 1997; Angiosperm Phylogeny Group 1998, 2003) indicate that Hydrangeaceae and Escalloniaceae are more likely to be related to the asterids, within which Hydrangeaceae appears to be close to Cornales. Parnassia and Lepuropetalon have been included in Saxifragaceae as the subfamily Parnassioideae in the past (A. Cronquist 1981; H. G. A. Engler 1930; J. Hutchinson 1973; S. A. Spongberg 1972). Based on molecular, morphological, and chemical data, these genera appear to be only distantly related to other genera of Saxifragaceae and are here moved to Parnassiaceae (C. R. Bensel and B. F. Palser 1975, 1975b, 1975c, 1975d; B. A. Bohm et al. 1986; D. R. Morgan and D. E. Soltis 1993; Soltis et al. 2001; A. L. Takhtajan 1969; R. F. Thorne 1992). Molecular phylogenetic analyses (M. W. Chase et al. 1993; Zhang L. B. and M. P. Simmons 2006) have aligned Parnassiaceae with Celastraceae, either as a sister family or as a basal member of Celastraceae. Molecular systematic studies have revealed that the approximately 38 remaining genera form a strongly supported clade (D. E. Soltis et al. 1993, 2000; Soltis and P. S. Soltis 1997; S. B. Hoot et al. 1999; V. Savolainen et al. 2000) that corresponds to the Saxifragoideae of Engler and is identical to the family circumscriptions of A. L. Takhtajan (1969, 1997) and R. F. Thorne (1992). H. G. A. Engler’s (1930) subfamily Saxifragoideae contained one tribe, Saxifrageae, which consisted of four subtribes: Astilbinae, Leptarrheninae, Saxifraginae, and Vahliinae. Vahliinae is now known to be very distantly related to the Saxifragaceae. G. K. W. Schulze-Menz (1964b) elevated three of Engler’s subtribes to tribes: Astilbeae, Leptarrheneae, and Saxifrageae. K. Klopfer (1973) later recognized two large groups, one centered around Heuchera having parietal placentation, another centered around Saxifraga having axile placentation. Recent molecular phylogenetic and systematic studies indicate the presence of six well-marked clades, informally recognized as the Astilbe, Boykinia, Chrysosplenium, Darmera, Heuchera, and Leptarrhena groups (reviewed in Soltis et al. 2001). Relationships within some of these groups (e.g., the Boykinia and Heuchera groups) have also been studied in detail from a phylogenetic standpoint (e.g., Soltis and R. K. Kuzoff 1995; Soltis et al. 1997). During fruit development in some genera (especially Saxifraga and Lithophragma), partially to mostly inferior ovaries swell to become increasingly superior due to allometric shifts (R. K. Kuzoff et al. 2001). Ovary position in keys and descriptions here refers to flowers during or shortly after anthesis. Reports of variation in ovary position in some genera and species may be due to observations of flowers at different developmental stages. D. E. Soltis et al. (2005) reported that most genera of Saxifragaceae display appendicular epigyny in floral development, which begins with a minute convex floral apex. During or after perianth initiation, the floral apex becomes concave, giving rise to an inferior ovary. Ovaries in Saxifragaceae often appear to be nearly superior or one-half to three-fourths inferior, but with their appendicular epigynous ground plan, they are not truly superior or homologous to superior ovaries. Instead, they are “superior mimics” with “pseudosuperior” ovaries. Species in some North American genera (particularly Boykinia, Darmera, Heuchera, Micranthes, Saxifraga, Tellima, Tiarella, and Tolmiea) are popular horticultural subjects. (Discussion copyrighted by Flora of North America; reprinted with permission.) |
Species 3 (2 in the flora). Intergeneric hybrids between Tiarella cordifolia and species of Heuchera and Mitella have been documented. Tiarella is placed within the Heuchera group of the Saxifragaceae. Based on cpDNA and other cytological traits, this is one of the best-defined groups of the Saxifragaceae. Chloroplast DNA restriction site data for the Heuchera group suggest the group as being paraphyletic. Tiarella cordifolia is known from eastern North America and T. trifoliata is known from western North America. Tiarella polyphylla D. Don occurs in Asia in the Himalayas through western and central China to Japan and Taiwan. Tiarella is used as a diuretic as well as for suppression of urine production and in treating kidney stones. (Discussion copyrighted by Flora of North America; reprinted with permission.) |
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Source | FNA vol. 8, p. 43. | FNA vol. 8, p. 114. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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Name authority | Jussieu | Linnaeus: Sp. Pl. 1: 405. (1753): Gen. Pl. ed. 5, 190. 1754 , | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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