Crataegus

Linnaeus
Sp. Pl. 1: 475. 1753.
,
Gen. Pl. ed. 5, 213. 1754.
Common names: Hawthorn aubépine
Etymology: Greek Krataigon, thorn, from Greek kratos, strength, and akis, sharp tip, alluding to thorns of some species
Treatment appears in FNA Volume 9. Treatment on page 491. Mentioned on page 19, 20, 428, 433, 445, 449, 469, 492, 493, 494, 508, 512, 525, 536, 550, 578, 581, 588, 591, 594, 611, 618, 644.

Shrubs or trees, usually main trunk dominant, 3–120 dm. Stems usually 1 in larger plants, more in smaller plants, outer spreading; bark usually checked into rough, exfoliating plates, when usually dark, but freshly exposed ± russet, sometimes deeply corrugated and dark gray-brown, or smooth, thin and exfoliating, when usually pale, rarely with prominent horizontal lenticels; extension (long) and short shoots present; compound thorns on trunk abundant or absent; twigs ± thorny, thorns 10–60(–100) mm, growth determinate (indeterminate in sect. Crataegus); glabrous or tomentose in first year. Leaves deciduous (sometimes winter-persistent in south), cauline, alternate, scattered on extension shoots, often crowded on short shoots, simple or deeply lobed; stipules deciduous with leaves or sometimes earlier, free, circinate or falcate, margins serrate to crenate, glandular; petiole present, often glandular; blade ± ovate to narrowly elliptic or obovate, (1.2–)2–8(–12) cm, wider leaves shallowly to deeply incised (rarely pinnately compound), the narrower less incised, margins flat, serrate, young teeth often gland-tipped, venation pinnate, usually craspedodromous, surfaces glabrous to tomentose. Inflorescences terminal on few-leaved annual short shoots that usually arise from a subterminal bud on a woody short shoot, rarely arise laterally direct from an extension shoot, 1–50-flowered, panicles domed, monopodial, corymbose, or flowers solitary; bracts sometimes present, leafy; bracteoles present, usually caducous. Pedicels present. Flowers: perianth and androecium epigynous, 8–25 mm diam.; hypanthium ± obconic, constricted at disc except for opening, 2–6 mm wide; sepals 5, spreading, triangular; petals 5, white, sometimes pale cream (ser. Montaninsulae) or pale pink (ser. Aestivales, ser. Molles), ± circular, sometimes elliptic (ser. Lacrimatae) or ± elliptic (ser. Apiifoliae, ser. Triflorae), base barely clawed, margins ± entire; stamens 5–20 (30–45 in C. triflora), usually shorter than petals; torus absent; carpels 1–5, distinct, laterally touching, partially adnate to hypanthium, styles 1–5, lateral, distinct, adnate most of length, exsert; ovules 2, superposed. Fruits pomes, yellow to red or purplish to black mature, suborbicular to ellipsoid or pyriform, 6–20(–25) mm diam. (larger in some cultivars), flesh soft, sometimes hard; hypanthium persistent; sepals often persistent, appressed to erect; carpels woody; styles usually persistent. Pyrenes 1–5, dorsally grooved, sides plane or eroded, excavated, or pitted. x = 17.

Distribution

North America, Mexico, Europe, Asia, n Africa, introduced in temperate South America (including equatorial Andes), s Africa, Pacific Islands (New Zealand), Australia.

Discussion

Species ca. 230 (169, including 17 hybrids, in the flora).

Species of Crataegus vary from heliophiles to moderately shade tolerant. Most hawthorns are mesophytes and soil moisture regime appears to be a more important habitat determinant than soil type. Hawthorns are mostly found on topland, mesic, fine-textured soils, usually reflective of a reasonable rainfall. None are strict calciphiles or acidophiles. In drier parts of the Great Plains and intermontane regions, suitable habitats are often restricted to the vicinity of watercourses, or marsh edges, seeps, ditches, etc. Relatively few taxa grow in a drier (for example, ser. Lacrimatae) or moister (ser. Aestivales) soils than the norm.

Often abundant, hawthorns can be important components of some ecosystems, acting as sources of shelter and protection for animal life, nesting habitat, source of food (pomes), mainly for medium-sized passerine birds, and source of nectar and pollen. Hawthorns may be nurse plants to deciduous trees and play an important role in succession. Gymnosporangium R. Hedwig rusts may be serious pests on hawthorns where junipers are common. Other, locally serious, threats to native hawthorns include aggressive introduced woody competitors such as Lonicera japonica Thunberg in the southeast and Rhamnus cathartica Linnaeus in the northeast (P. M. Catling and G. Mitrow 2012b).

Hawthorns flower in spring during (rarely before) leaf expansion. They are mass-flowerers such that the anthesis season for a single plant lasts seven to ten days, the timing principally dependent on accumulated heat. Phenological separation is an important evolutionary driver and makes knowledge of flowering sequence very helpful in identification. The length of local flowering season may be as long as six weeks in localities with multiple hawthorns. Pollination is primarily by Diptera and Hymenoptera (N. Power 1980).

Seven species, including Crataegus azarolus Linnaeus, C. mexicana Moçiño & Sessé ex de Candolle, C. pinnatifida Bunge, and C. scabrifolia (Franchet) Rehder as well as those of ser. Aestivales of the flora area, are minor commercial fruit crops. Hawthorn extracts are used to treat hypertension in alternative medicine. In addition to hawthorn, the names haw, thorn, and thorn apple are used colloquially (see J. B. Phipps et al. 2003).

Three ploidy levels (2x, 3x, and 4x) have been demonstrated in a wide range of North American hawthorns both cytologically (various authors) and by flow cytometry (N. Talent and T. A. Dickinson 2005). Diploids are usually sexual outbreeders; triploids are obligate apomicts; tetraploids are self-compatible facultative apomicts; and apomicts are pseudogamous. The polyploid groups are most difficult taxonomically.

Hybridization is routinely touted as a principal cause of taxonomic difficulty in Crataegus. Hybridization within series may be widespread but is hard to detect; the group led by T. A. Dickinson detailed work on it using the C. douglasii complex (for example, E. Y. Y. Lo et al. 2010) is groundbreaking. Putative hybrids between species in different series, often resulting in plants receiving hybrid species rank, are easier to suspect and have been proposed in numerous instances, but on investigation nearly all cases proved non-persistent and only rarely recreated (J. B. Phipps 2005). Series Anomalae, which has some widespread and not uncommon species, may be one exception. Hybrids between species in different sections are nearly unknown today in North America, except for hybrid swarms between the introduced sexual compilospecies C. monogyna and a couple of native diploids (R. Love and M. Feigen 1979; T. C. Wells and Phipps 1989). Ancient, wide hybridization is proposed for the origin of three common, taxonomically isolated, southeastern species (Lo et al. 2009). Hybridization, as contributing to taxonomic difficulty, appears to be restricted to situations involving closely related species or within particular species-complexes.

This treatment of Crataegus is the first attempted for the whole flora area since the work of J. Torrey and A. Gray (1838–1843). It is mainly conservatively based on E. J. Palmer (1950, 1952, 1960), except for series Apricae and Lacrimatae, and new species, mainly western, not known to Palmer.

The taxonomic complexity of North American Crataegus has resulted in extremely narrow species (C. S. Sargent, etc.), middling species (E. J. Palmer), and very broad ones (A. Cronquist). Here, a morphological species concept (MSC) is used. In general, middling positions are favored, and the number of species treated proves similar to what might be extrapolated from work by Palmer except for some southeastern series and western taxa unknown to Palmer. As used here, the MSC assumes that distinguishing suites of character states are adaptive.

A principal objective of this treatment has been to draw attention to the often great, but little discussed, infraspecific variation. This has been possible due to extensive fieldwork by the author and large quantities of available herbarium material. Because of evolutionary implications, infraspecific variation is given considerable attention. Levels of variation in some cases exceed those of woody sexual species of comparable abundance and range yet may not lead to clear dissection into several less variable species. Where high levels of variation occur, varieties are not necessarily recognized, either due to insufficient study or simply because the variation appears chaotic. For example, in the broadly treated Crataegus macrosperma, the infrataxa earlier recognized are not formally treated herein, but detailed discussion of variation is provided. When varieties are used, these themselves may also be variable, as with C. pruinosa and C. viridis. An interesting feature revealed for North American Crataegus is the frequency of occurrence of sympatry in infraspecific variation, this also shown by E. Y. Y. Lo et al. (2009b) in an in-depth study of the C. douglasii complex.

A frequent difficulty for North American Crataegus derives from the co-existence of sympatric, significantly atypical, named entities with otherwise well-defined taxa. They are often uncommon, might be hybrid or simply particularly divergent forms; usually, no one knows. Treatment could be as species (greatly inflating the text), as synonyms (which seems misleading), or dismissed from the flora altogether (which would cripple proper understanding of North American Crataegus variation). Here, they are diagnosed very briefly in the discussion of the most relevant taxon.

Higher level variation is arranged into six sections, these divided into 32 series, mostly following the circumscriptions of E. J. Palmer (1925). Treatment of series may run into similar problems to species delimitation, namely, the existence of atypical forms that obscure taxon limits. Also, some species, for example, Crataegus flabellata (ser. Tenuifoliae), may act as a connecting link to another series, here ser. Rotundifoliae. Both kinds of issue can necessitate repeated keying out of some series. However, rather than amalgamating the series recognized into larger, even more amorphous, ill-defined entities to mitigate these problems, it is preferred to maintain the series in a familiar Palmerian sense preserving the time-tested utility of their core elements.

Species that are similar in flower may often be readily distinguished in fruit and vice versa; users of this text are encouraged to verify identification from the same plant at both seasons.

Variation occurs in the thorns. Compound thorns, which are adventitious and indeterminate, occur on the trunks of many species. Thorns on twigs, which develop with the new growth, persist a few years and are of two kinds. Determinate thorns (aphyllous thorns of K. I. Christensen 1992) are lateral and are the only type found in North American native species. They have diagnostic value, varying in abundance, color in their second year, length, curvature, and stoutness. Indeterminate thorns, as found in Eurasian species of sect. Crataegus, commence as lateral or terminal growths and may develop into thorn-tipped shoot systems.

Leaves supply useful characters for Crataegus taxonomy, but variation within a plant may be confusing. Median leaves of short shoots are the normal standard for descriptions; they are relatively invariant in size and form. Size at anthesis varies according to species from 0% to 100% mature size. Lobing, here often expressed as Leaf Incision Index, or LII, varies from 0% (not incised) to 100% (incised to midvein). As LII typically diminishes towards the leaf apex, maximum LII is usually used. Leaves on extension shoots are often larger, more deeply incised, sometimes of a completely different shape from short-shoot leaves, and may be more variable on one plant. Although apparently diagnostic in some cases, they are insufficiently known and too difficult to describe to be generally useful for description.

Hawthorns may possess both leaflike bracts and bracteoles in the inflorescence, the former being either relatively few or absent. Bracteoles are often relatively numerous and can usually be found throughout young inflorescences; they are sparse in some species. Typical bracteoles of North American hawthorns are caducous, more or less linear-oblong to linear, bilaterally symmetric, and membranous with glandular margins. Some North American hawthorns have larger, harder, more or less herbaceous and more persistent bracteoles. A different bracteole type found in some North American hawthorns (for example, Crataegus brachyacantha) is smaller than any of the above and more or less lacking marginal glands.

Fruit color change during development is a valuable distinguishing character in some cases. In comparing two sympatric species, it is critical to compare them at the same time and a good example is found with Crataegus okennonii versus C. douglasii. Although pomes both finish black, pomes of C. douglasii are usually already black when those of C. okennonii are brownish or reddish, as illustrated in J. B. Phipps et al. (2003).

Crataegus is best treated as sister to Mespilus (E. Y. Y. Lo and M. Donoghue 2012; Li Q. Y. et al. 2012); other relationships in tribe Pyreae are less close. Molecular evidence (C. S. Campbell et al. 2007; D. Potter et al. 2007) shows that the Amelanchier clade is sister to Crataegus-Mespilus, but Amelanchier is different in many morphologic features.

The following names could not be accounted for in the current treatment: Crataegus ardua Sargent, C. brachyphylla Sargent, C. evansiana Sargent, C. faxonii Sargent var. praetermissa (Sargent) E. J. Palmer, C. glareosa Ashe, C. harryi Sargent, C. immanis Ashe, C. lecta Sargent, C. littoralis Sargent, C. menandiana Sargent, C. mercerensis Sargent, C. pilosa Sargent, C. pinguis Sargent, C. populifolia Walter, C. sublobulata Sargent, and C. whitakeri Sargent.

Key

1 Leaves: evidently lobed (except in some small-leaved specimens of C. spathulata, ser. Microcarpae), veins to both lobes and deeper sinuses > 2
1 Leaves: lobed or not, veins absent to sinuses > 3
2 Inflorescences: falcate bracteoles subtending lower branches absent, branches glabrous or pubescent; pomes vermillion to red or orange-red; leaf blades 1.4–6 cm; styles 1–3; pyrene sides usually plane (except grooved in ser. Crataegus). Crataegus sect. Crataegus
2 Inflorescences: falcate bracteoles subtending lower branches present, branches glabrous; pomes yellowish to tan; leaf blades 5–9 cm; styles 4 or 5; pyrene sides strongly pitted. Crataegus sect. Sanguineae
3 Inflorescences: falcate bracteoles subtending lower branches present, branches glabrous; mature pomes yellowish to tan; leaf blades 5–9 cm; pyrene sides strongly pitted. Crataegus sect. Sanguineae
3 Inflorescences: falcate bracteoles subtending lower branches absent, branches glabrous or pubescent to tomentose; mature pomes usually red to black, rarely yellow to orange; leaf blades 2–8(–12) cm; pyrene sides plane or concave, eroded, or pitted > 4
4 Pomes red or bright red at full maturity, or colors other than deep red to black > 5
4 Pomes deep red to purple or black at full maturity, sometimes bright red when immature > 6
5 Mature pomes orange to red; pyrene sides ± pitted or eroded. Crataegus sect. Macracanthae
5 Mature pomes usually red, sometimes orange, yellow, or pink-mauve (sometimes ± pruinose), sometimes remaining green until late, or green-blotched; pyrene sides plane to concave. Crataegus sect. Coccineae
6 Pyrene sides usually pitted, sometimes only shallowly. Crataegus sect. Douglasia
6 Pyrene sides ± plane, sometimes shallowly concave (C. ursopedensis, ser. Rotundifoliae) > 7
7 Leaves glossy; thorns on twigs 1–1.5 cm, recurved; post-mature petals ± orange; anthers cream to orange; Louisiana and adjacent states. Crataegus sect. Brevispinae
7 Leaves matte; thorns on twigs 2.5–4 cm, ± straight; post-mature petals turning pale brown; anthers pale pink to pink, pink-purple, or ivory; n Great Plains, ne United States, and adjacent Canada > 8
8 Leaf blades: lobes absent or very short, length (1.2–)1.6–2(–2.4) times width, veins 6–8 per side; stamens 20, anthers pink-purple or ivory; ne United States and adjacent Canada. Crataegus sect. Coccineae
8 Leaf blades: lobed, length 1.2–1.5 times width, veins (3–)5–8 per side; stamens 10, anthers pale pink to pink; Cypress Hills, w Canada only. Crataegus sect. unassigned (ser. Montaninsulae)
... more about "Crataegus"
James B. Phipps +
Linnaeus +
Hawthorn +  and aubépine +
North America +, Mexico +, Europe +, Asia +, n Africa +, introduced in temperate South America (including equatorial Andes) +, s Africa +, Pacific Islands (New Zealand) +  and Australia. +
Greek Krataigon, thorn, from Greek kratos, strength, and akis, sharp tip, alluding to thorns of some species +
Sp. Pl. +  and Gen. Pl. ed. +
1753 +  and 1754 +
lo2009a +, palmer1925a +, palmer1950b +, palmer1952a +, palmer1960a +, phipps1998a +, phipps2003b +  and phipps2005a +
Crataegus +
Rosaceae tribe Gillenieae +