Taxonomy of Liliaceae
Taxonomy of Liliaceae | |
---|---|
| |
Scientific classification | |
(unranked): | Angiosperms |
(unranked): | monocots |
Superorder: | Lilianae |
Order: | Liliales |
Family: | Liliaceae Juss.[1] |
Type genus | |
Lilium L. | |
Type species | |
Lilium candidum L. | |
Subfamilies and tribes[2] | |
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Diversity | |
about 600 species | |
Fossil range | |
68–0 Ma
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The taxonomy of Liliaceae has had a complex history since the first description of this flowering plant family in the mid-eighteenth century. Originally, the Liliaceae or Lily family were defined as having a "calix" (perianth) of six equal-coloured parts, six stamens, a single style, and a superior, three-chambered (trilocular) ovary turning into a capsule fruit at maturity. The taxonomic circumscription of the Liliaceae family progressively expanded until it became the largest plant family and also extremely diverse, being somewhat arbitrarily defined as all species of plants with six tepals and a superior ovary. It eventually came to encompass about 300 genera and 4,500 species, and was thus a "catch-all" and hence paraphyletic taxon. Only since the more modern taxonomic systems developed by the Angiosperm Phylogeny Group (APG) and based on phylogenetic principles, has it been possible to identify the many separate taxonomic groupings within the original family and redistribute them, leaving a relatively small core as the modern Liliaceae family, with fifteen genera and 600 species.
The Liliaceae emerged from the Liliales order, separating from its sister clade around 52 million years ago (mya), and diversifying around 34 mya. Of the major clades, the Lilieae arose in Eurasia while the Medeoleae arose in North America but was subsequently dispersed, as may have the Streptopoideae and Calochortoideae. Liliaceae fossils have been dated to the Paleogene and Cretaceous eras in the Antarctic.
The Liliaceae probably arose as shade plants, with subsequent evolution to open areas including deciduous forest in the more open autumnal period. This was accompanied by a shift from rhizomes to bulbs, to more showy flowers, the production of capsular fruit and narrower parallel-veined leaves.
While the suprageneric (above genus level) structure of the family has varied greatly with its ever-changing circumscription, as currently constituted the family consists of three subfamilies, Lilioideae, Calochortoideae and Streptopoideae. Lilioideae is further divided into two tribes, Medeoleae and Lilieae. The three subfamilies contain fifteen genera and approximately 600 species in all.
History
Pre-Darwinian
The type genus, Lilium, from which the name of the family was derived, was originally formally described by Carl Linnaeus in 1753, with seven species.[3] He placed Lilium within the Hexandria Monogynia (six stamens, one carpel) in his sexual classification in the Species Plantarum.[4] The Liliaceae family was first described by Michel Adanson in 1763,[5][6] but formally named by Antoine Laurent de Jussieu in 1789.[1][7] Adanson described eight subfamilies with 78 genera, however the subfamily he described as Lis (Lilies) had seven genera (Uvularia, Mithridatium, Mendoni, Lilium, Fritillaria, Imperialis — now part of Fritillaria — and Tulipa) of which four are in the modern genus.[8] Jussieu placed these into the Ordo, Lilia in the Classis, Stamina Perigyna of the Monocotyledones (monocots), with eight genera (Tulipa, Erythronioum, Methonica, Uvularia, Fritillaria, Imperialis, Lilium, Yucca) only four of which remain in the family. He defined Lilia as "calix" (perianth) of six equal coloured parts, six stamens, a superior ovary, single style, and trilocular capsule. The term Ordo at that time was closer to what we now understand as Family, rather than Order.[9][10] Although Jussieu used the Latin "Lilia" in his Genera Plantarum, elsewhere he used the French "Liliacées",[11] as had Adanson. The word "Liliaceae" was soon widely used by botanists such as Samuel Frederick Gray,[12] John Lindley,[13] and Pierre-Joseph Redouté[14] in the early nineteenth century.
Gray (1821) provided the first description of Jussieu's scheme in English, identifying two genera occurring in Britain (Tulipa, Fritillaria), distinguished by the absence or presence of basal nectaries. His key used the presence of six equal stamens, a single style, a simple petaloid (undifferentiated tepals resembling petals) perianth and a trilocular capsule with flat seeds to identify the family.[15] Although Augustin De Candolle (1813) had not explicitly described the Liliaceae, his overall classification scheme influenced many later writers including Gray.[16] In this scheme, [17] the Liliaceae were considered a family within those vascular plants (Vasculares) whose vascular bundles were thought to arise from within (Endogènes, endogenous), a term he preferred to Monocotylédonés. Jussieu's Monocotyledones became the Phanérogames (Phenogamae in Gray), meaning "visible seed", hence Endogenæ phanerogamæ.[18] Candolle also instituted the concept of ordered ranks, based on classes, subclasses, familles (Latin: ordines naturales) and tribus (tribes),[10] subdividing the Liliaceae.
Lindley was the first post-Linnaean English systematist, publishing his work in 1830,[19] and following the reasoning of Jussieu he used the term tribe to describe the Liliaceae as a division of the hexapetaloid monocots, characterised by a superior ovary, highly developed perianth, inward turning anthers, a trilocular polyspermous capsule and seeds with a soft spongy coat. He offered seven genera as examples (Erythronium, Lilium, Calochortus, Blandfordia, Polianthes, Hemerocallis and Funkia). By 1846, in his final work, he refined and greatly expanded his taxonomy, favouring the term Alliances of Endogens over monocots as a class, of which there were eleven. Of these "alliances", the Liliales consisted of four Orders (families) including Liliaceae, which he referred to as lilyworts in the vernacular, with 133 genera and 1200 species.[20] In this work he unhappily acknowledged the confusing array of different approaches to the classification of the Liliaceae, the lack of a clear definition, and the great diversity in the circumscription of the order, which had expanded vastly, with many subdivisions. As he saw it, the Liliaceae had already become a ("catch-all") grouping,[21] being "everything that does not belong to the other parts of the Lilial Alliance", but expressed hope that the future would reveal some characteristic that would group them better.[22] In other words, he foresaw that Liliaceae would come to be regarded as paraphyletic. By the time of the next major British classification, that of Bentham and Hooker in 1883 (published in Latin) several of Lindley's other families had been absorbed into the Liliaceae.[23] This was the last major classification using the "natural" or pre-evolutionary approach to classification, based on characteristics selected a posteriori in order to group together taxa that have the greatest number of shared characteristics. This approach, also referred to as polythetic was superseded by ones based on an understanding of the acquisition of characteristics through evolution, referred to as phyletic.[24][25][26]
Post-Darwinian
Although Charles Darwin's Origin of Species (1859) preceded Bentham and Hooker's publication, the latter project was commenced much earlier and George Bentham was initially sceptical of Darwinism.[24] The new phyletic approach changed the way that taxonomists considered plant classification, incorporating evolutionary information into their schemata, but this did little to further define the circumscription of Liliaceae.[27] The major works in the late nineteenth and early twentieth century employing this approach were in the German literature, the Eichler (1875–1886), Engler and Prantl (1886–1924) and Wettstein (1901–1935) systems. These placed the Liliaceae into one of the major subdivisions of the monocotyledons, the Liliiflorae.[28][29][30][31][32] In the English literature, Charles Bessey (1915) followed Adolf Engler in defining Liliaceae as "Pistil mostly 3-celled; stamens 6; perianth of two similar whorls, each of three similar leaves", although placing the Liliales in a novel subclass of monocots, the Strobiloideae,[33] while from John Hutchinson (1959) onwards the Liliaceae were treated as part of the Liliales (see Table 1).
Over time the Liliaceae became increasingly broadly, and somewhat arbitrarily, defined as all species of plants with six tepals and a superior ovary. They eventually came to encompass about 300 genera and 4,500 species, within the order Liliales in the scheme of Arthur Cronquist (1981).[34] Cronquist was a "lumper" preferring a small number of very large groupings and his classification of the Liliaceae represented the greatest expansion of the family to date. Cronquist placed most flowering petaloid monocots with six stamens in this very broad (and clearly polyphyletic) family, hence the alternative name lilioid monocots.[35] He rejected the importance of ovary position and thus included with the Liliaceae with their superior ovary (hypogynous), the Amaryllidaceae, some species of which had an inferior ovary (epigynous), and which others separated into a distinct family.[36][37][38] The Liliaceae were one of the major families in the Cronquist system which included 22 families in addition to Liliaceae in the more restricted sense (sensu stricto, s.s.) used by others.[39][40] Later more conventional schemes include the system of Robert F. Thorne[38] and that of Armen Takhtajan[41] which characterised the family as petaloid monocots, characterised by showy flowers with tepals and without starch in the endosperm.
Deconstructing Liliaceae
Other botanists in the twentieth century echoed Lindley's concerns about the lack of a clearly defined grouping for Liliaceae. The earliest of these was Johannes Paulus Lotsy (1911),[42] building on Wettstein's work. Lotsy suggested four separate families, Liliaceae, Alliaceae, Agapanthaceae and Gilliesiaceae, within the Liliifloren. This recognised the major groupings that would later be transferred to Amaryllidaceae as subfamilies Allioideae and Agapanthoideae, with Gilliesieae as a tribe within the Allioideae. This approach was later followed by Herbert Huber in 1969.[43] These various proposals to separate small groups of genera into more homogeneous families made little impact until Rolf Dahlgren (1985), following Huber's lead,[44] developed a system incorporating new information, including synapomorphic characters (i.e., shared characters believed to have evolved from a common ancestor).[35] While Cronquist was a "lumper", Dahlgren was a "splitter", preferring a larger number of more homogeneous groupings. Where Cronquist saw one family, Dahlgren saw forty distributed over three orders (predominantly Liliales and Asparagales), reducing Liliaceae to ten genera (see Table 3).[45][46] Over the 1980s, in the context of a more general review of the classification of angiosperms, the Liliaceae were subjected to more intense scrutiny. By the end of that decade, the Royal Botanic Gardens at Kew, the British Museum of Natural History and the Edinburgh Botanical Gardens formed a committee to examine the possibility of separating the family into smaller taxa, at least for the purpose of organizing their herbaria. That committee finally recommended that 24 new families be created in the place of the original broad Liliaceae, largely by elevating subfamilies to the rank of separate families.[40][47]
The 1990s saw considerable progress in plant phylogenetics and cladistic theory, enabling a phylogenetic tree to be constructed for the flowering plants.[48] The establishment of major new clades necessitated a departure from the older but widely used classifications such as Cronquist and Thorne, based largely on morphology rather than genetic data. These developments complicated discussions on plant evolution and necessitated a major taxonomic restructuring.[49][50] rbcL gene sequencing and cladistic analysis of monocots in 1995 had redefined the Liliales order[51] out of four original morphological orders sensu Dahlgren. The largest clade within this redefined Liliales, christened the "core Liliales" representing a now much reduced Liliaceae, had all previously been included in the Liliales, and included three taxonomic groups: (i) Liliaceae sensu Dahlgren,[52] but also both the (ii) Calochortaceae as defined by Minoro Tamura (sensu Tamura)[53] and (iii) Clintonia-Medeola which had been included in Liliaceae sensu Tamura[53] (see Table 3).[54]
This newly, more narrowly (sensu stricto, s.s.) circumscribed Liliaceae, corresponded to the emerging circumscription of the family in the Angiosperm Phylogeny Group system (1998).[54] While this also corresponded most closely with Dahlgren's circumscription relative to the older much broader (sensu lato, s.l.) constructions, it gave rise to some potentially confusing terminology. Compared to the very broad historical s.l. construction of Liliaceae, the Dahlgren, Tamura and APG constructions were much narrower. These have variously been referred to as "core Liliales" and sensu APG[54] for the broadest construction, while the intervening schemes of Tamura and Takhtajan (who was also a "splitter")[55] which are narrower have been referred to as Liliaceae s.s., sensu Dahlgren, and sensu Tamura. Of these the narrowest circumscription is that of Dahlgren, including only Lilieae s.l..[54] In modern terminology, while "core Liliales" represents Liliaceae sensu APG, Liliaceae sensu Tamura corresponds to Lilioideae s.l., and sensu Dahlgren with Lilieae s.l. or Lilioideae s.s.. Calochortoideae and Streptopoideae sensu APG represent and Calochortaceae sensu Tamura, and Clintonia plus Medeola (Medeoleae) Medeoloideae sensu Tamura (see Table 3).[2]
Modern classification of Liliaceae
To meet the need for a thorough revision of the taxonomy of the flowering plants (angiosperms), systematists formed the Angiosperm Phylogeny Group (APG), resulting in a new classification published in 1998.[55] The scheme was largely based on the work of Kåre Bremer and colleagues at Uppsala and Stockholm universities in the late 1970s,[56][57][58] and became universally accessible on the internet in 1996.[59] It was an ordinal system, concentrating on orders rather than families, prioritising monophyly, in which Liliales were recognised as one of ten monocot orders, containing nine families.[55] However progress was rapid and the modern era of the taxonomy of the Liliaceae family comes from Judd and colleagues[37] (2002), the APG II (2003[60]) and APG III (2009[50][61]), while the Linear APG III assigned it the family number 61.[62] The original APG did not specifically address the issues of the polyphyly within Liliaceae, but APG II did so within the two closely morphologically related orders, Liliales and Asparagales[63] recognising the continued common use of Liliaceae in the broad sense (sensu lato, s.l.).
These studies of DNA and morphological data (particularly reproductive morphology) together with phylogenetic analyses, allowed the conclusion that the "petaloid monocots" do not belong to one botanical family but rather are distributed across two separate orders, the Asparagales and Liliales. The monophyly of these newly defined orders is supported by cladistic analysis based on morphology, 18S rDNA, the plastid gene rbcL, and other DNA sequences.[64][65][66][67][68][69][70][71][72][73][74][75][76][77][78][79][80][81][82]
These studies, together with other analyses within each of these two orders, allowed the redistribution of the original genera of Liliaceae s.l. into a variety of families across the Liliales and Asparagales, as illustrated in Cladogram 1.[83] This redistribution resulted in considerable changes both in the suprafamilial positioning of Liliaceae within the overall APG classification (as shown in Table 1 below), as well as the subfamilial structure (see Suprageneric subdivisions).[84]
Rank | Bentham and Hooker (1883)[23] | Cronquist (1981)[34] | Takhtajan (1966, 1980, 2009)[86][41][87] | Dahlgren (1977, 1985)[88][35] | Thorne (1992–2007)[38][89] | APG (2003–9)[60][50] |
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Division | Magnoliophyta | Magnoliophyta | Magnoliophyta | |||
Class | Monocotyledons | Liliopsida | Liliopsida | (monocots) - unranked | Magnoliopsida (Angiospermae) | (monocots) - unranked |
Subclass | Liliidae | Liliidae | Liliidae | Liliidae | ||
Superorder (Series) | Coronarieæ | (Liliiflorae) Lilianae[90] | (Lilianae) Liliiflorae | Lilianae | Lilianae | |
Order | Liliales | Liliales | Liliales | Liliales | Liliales | |
For a comparison of the classifications of genera from 1959 (Hutchinson)[91] to 2000 (Wilson and Morrison),[92] see Table 1 in Fay et al. 2006,[93] Table 1 in Peruzzi et al. 2009[94] and Table 3. |
Phylogeny
The synthesis of molecular data with cladistic analysis suggests eleven orders of monocotyledons, one of fourteen clades of Angiosperms, and forming a grade with six other orders.[95] Sequencing of the rbcL and trnL-F plastid genes revealed four main Liliales lineages:[63]
- Liliaceae group: Liliaceae (including some former Uvulariaceae and Calochortaceae), Philesiaceae and Smilacaceae;
- Campynemataceae;
- Colchicaceae group (Colchicoid lilies): Colchicaceae (including Petermannia and Uvularia), Alstroemeriaceae and Luzuriaga;
- Melanthiaceae (including Trilliaceae).
The original Liliaceae family in the broad sense (sensu lato, s.l.), which encompassed a large number of differing groups of genera, was highly polyphyletic (see Cladogram 1). This led to botanists increasingly adopting a more narrow monophyletic concept, i.e. strict sense (sensu stricto, s.s.) of the family based on molecular phylogenetic relationships, as expressed in the 2009 APG III system, rather than the older sensu lato one. Former members of the Liliaceae are now principally classified in different families and subfamilies of the Liliales and Asparagales as shown in the phylogeny represented in Cladogram I. Other families and orders containing former Liliaceae taxa are the Nartheciaceae (Dioscoreales), Tofieldiaceae (Alismatales), Tecophilaeaceae (Asparagales) and the former Uvulariaceae. The achlorophyllous (non-photosynthesising) Corsiaceae were added to Liliales by APG III in 2009.[50][95]
Sequencing of the rbcL and matK chloroplast genes of Lilium and related genera[96] confirmed the circumscription of the family in the sensu stricto usage of Tamura (1998).[97] Chloroplast ndhF gene sequencing also supported Liliaceae monophyly, reuniting the Liliaceae sensu Tamura and Calochortaceae sensu Tamura (see Table 2 & Table 3 below).
Cladogram I: Phylogeny of Liliaceae and related families | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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Evolution and biogeography
The major diversification amongst the Angiosperms (flowering plants) can be dated to the end of the Early Cretaceous period which stretched from 146 to 100 million years ago (mya).[78][99][100] The development of a phylogenetic approach to taxonomy, starting with Charles Bessey's The phylogenetic taxonomy of flowering plants (1915) suggested the Liliales formed some of the earliest monocots,[33] with an estimated date of origin of 124 mya for the stem node (most recent common ancestor of the clade of interest and its sister clade) age[101] and between 117 mya[101] to 82 mya[78] for the crown node (most recent common ancestor of the sampled species of the clade of interest) age. Molecular analysis suggests that the Liliaceae sensu APG ("core Liliales") were part of one of four early clades of Liliales, namely Campynemataceae, Melanthiaceae, Alstroemeriaceae + Luzuriagaceae + Colchicaceae and Smilacaceae + Liliaceae, dated to 68–65 mya (stem node) with the separation of the Smilaceae and Liliaceae sister clades (crown node) occurring later at around 55–52 mya.[lower-alpha 2] divergence within the Liliaceae appeared at about 36–34 mya, within Liliaceae sensu Tamura (Lilioideae s.l.) at 27 mya, Liliaceae sensu Dahlgren (Lilieae s.s. and Tulipeae) at 20 mya (Miocene).
Within the Liliaceae sensu Dahlgren there developed two main evolutionary subclades (see Cladogram II and Table 3). The first of these, characterised as the Lilieae s.s. (Lilium, Fritillaria, Nomocharis), Cardiocrinum), Notholirion) diverged around 12 mya. The second subclade was the Tulipeae (Erythronium, Tulipa), (Gagea). Divergence within Calochortus is dated to 7 mya. This places the emergence of the Liliaceae at approximately the last (Maastrichtian period) of the Late Cretaceous periods (72 to 66 mya) to early (Paleocene) Paleogene periods (66 to 23 mya), formerly the Cretaceous–Tertiary boundary, 65 mya.[78][54][102]
The southern hemisphere intercontinental distributions of Liliales suggests a connection to Gondwana, whose breakup into western (Africa, South America) and eastern (Australia, Antarctica, Madagascar, India) portions occurred at 180–150 mya, and the final separation of the western portion into Africa and South America at 80 mya coinciding with the emergence of the Liliales. Thus the immediate ancestor of the Liliales is likely to have existed during the period of interconnection of the African and South American-Antarctic-Australian portions of Late Cretaceous Gondwana. While the ancestral clade appears to have been distributed in both northern and southern hemispheres, Liliaceae per se is holarctic, confined to the northern hemisphere with both Eurasian (including some North African representatives) and North American lineages. It is likely that they originated in North America but were able to expand to Eurasia ~30–40 mya via Beringia that connected the two during the Tertiary period. The presence of genera whIch are restricted to Eurasia suggests a vicariance (separation of populations by continental division) split between Medeoleae and Lilieae involving Eurasia and North America (Cladogram II).[78]
Cladogram II: Evolution of Liliaceae | |||||||||||||||||||||||||||||||||||||||||||||||||||
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Biogeographical origins and dates in mya[101][78][54][103] |
Liliaceae sensu Dahlgren arose in Eurasia,[54][78][102] while within Liliaceae sensu Dahlgren the Lilieae s.s. subclade arose in the Himalayas (Qinghai-Tibetan Plateau), with later radiation there in montane and alpine habitats. Species of Lilium and Fritillaria then dispersed into the rest of Eurasia and North America. The second subclade, the Tulipeae arose in East Asia with subsequent colonisation of North America by Erythronium and Lloydia. On the other hand, Clintonia-Medeola (Medeoleae) may have appeared in North America but subsequently underwent intercontintental dispersal (although some evidence points to a Eurasian origin). The Calochortaceae sensu Tamura (Streptopoideae and Calochortoideae) appears to have evolved in western North America, with subsequent colonisation of East Asia by Streptopus and the ancestral Tricyrtis.[54]
Liliaceae probably arose as shade plants in closed shaded habitats, with subsequent evolution of Liliaceae sensu Dahlgren and Calochortus to open areas including deciduous forest in the more open autumnal period, but then a return of some species (e.g. Cardiocrinum). This was accompanied by a shift from rhizomes to bulbs, to more showy flowers, the production of capsular fruit and narrower parallel-veined leaves. Again, some reversal to the broader reticulate-veined leaves occurred (e.g. Cardiocrinum).[54] In addition such molecular studies show that share characteristics do not necessarily indicate descent from a common ancestor but rather may arise from adaptive convergence in similar habitats. [54]
The fossil record of Liliales is relatively poor,[104] but Liliaceae fossils have been dated to the Paleogene[105] and Cretaceous periods in the Antarctic.[106][107][108]
Characteristics
Liliaceae
The diversity of characteristics complicates description of Liliaceae morphology, and confused taxonomic classification for centuries. The diversity is also of considerable evolutionary significance (see Evolution).[54] The Liliaceae family are characterised as monocotyledonous, perennial, herbaceous, bulbous (or rhizomatous in the case of Medeoleae)[97] flowering plants with simple trichomes (root hairs) and contractile roots.[109] The flowers may be arranged along the stem, developing from the base, or as a single flower at the tip of the stem, or as a cluster of flowers. They contain both male (androecium) and female (gynoecium) characteristics and are symmetric radially, but sometimes as a mirror image. Most flowers are large and colourful, except for Medeoleae. Both the petals and sepals are usually similar and appear as two concentric groups (whorls) of "petals", that are often striped or multi-coloured, and produce nectar at their bases. The stamens are usually in two groups of three (trimerous) and the pollen has a single groove (monosulcate). The ovary is superior, i.e. placed above the attachment of the other parts. There are three fused carpels (syncarpous) with one to three chambers (locules), a single style and a three-lobed stigma. The embryo sac is of the Fritillaria type. The fruit is generally a wind-dispersed capsule, but occasionally a berry (Medeoleae) which is dispersed by animals. The leaves are generally simple and elongated with veins parallel to the edges, arranged singly and alternating on the stem, but may form a rosette at the base of the stem.
Subclades
(See Table 3). The ten genera (two genera of Table 3 are subsumed into other genera) of the Lilioideae subfamily are characterised by contractile bulbs and roots and a megagametophyte (embryo-sac) of the Fritillaria-type with four megaspores. Within the Lilioideae, the eight genera considered as Liliaceae by Dahlgren (sensu Dahlgren), that is Lilieae s.l., are characterised by loculicidal capsules and a basic chromosome number x=12. Within this clade, Lilieae s.s. are characterised by papillose tepals (with the exception of Fritillaria) and numerous fleshy bulb-scales as well as a morphologically distinct karyotype with two long metacentric chromosomes and 10 telocentrics of medium length.[110] The two genera within Tulipeae are distinguished by pseudo-basifixed anthers and single bulb scales. The two genera of Medeoleae are distinguished by having rhizomes instead of bulbs and berries instead of capsules, and a very unusual form of vesicular-arbuscular mycorrhizae.[54]
The five genera constituting the Streptopoideae and Calochortoideae subfamilies form another distinct group, previously characterised under the Calochortoideae alone. These have creeping rhizomes, styles divided at their apices, and an embryo-sac of the Polygonum-type with a simple megaspore and triploid endosperm. At times, these genera were considered as a separate family (Calochortaceae; e.g. Tamura) or even placed in the more heterogeneous Uvulariaceae sensu Dahlgren. However most of the latter had low morphological similarity to the Liliaceae, and Uvularia and Disporum are now classified in the Colchicaceae. Disporum contained both Asian and North American species which had always been distinguishable. Following molecular analysis, the North American species were restored to the genus Prosartes and retained in Liliaceae, subfamily Streptopoideae, while the Asian species were moved to Colchicaceae.[54][111][112]
Liliaceae: Morphological characteristics | ||||||||||||
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Subdivisions
Suprageneric subdivisions
Due to the diversity of the originally broadly defined Liliaceae (s.l.), many attempts have been made to form supageneric classification systems, organizing the genera into subfamilies, tribes, or other suprageneric taxa (taxonomic groupings between genus and family).[94] By 1813, Candolle recognised five subdivisions which he called tribes (Asparagées, Trilliacées, Asphodelées, Bromeliées, Tulipacées),[17] all of which Jussieu had made separate families, with the exception of Tulipa, which was a genus within the Liliaceae. By 1845, John Lindley observed that the family had become extremely diverse, ill-defined and unstable, not only by its overall circumscription, but also by its subdivisions. For the 133 genera he included, he described eleven suborders.[20] By the 1870s, as Baker describes in his revision of the family, the taxonomy of Liliaceae had become vast and complicated. His approach was to divide the family into eight tribes.[113][114]
In 1879, a revision of the North American Liliaceae by Sereno Watson described sixteen tribes, of which the Lilieae correspond most closely to current concepts of the family,[115] Bentham and Hooker described twenty tribes in 1883, and Engler and Prantl in their extensive description of the Liliaceae in 1899 identified 31 tribes distributed over 11 subfamilies, with Tulipeae and Alieae representing the modern family.[116] In 1936, Franz Buxbaum undertook a major revision of the Liliaceae and among others described the subfamily Lilioideae with three tribes: Lloydieae (Gagea, Lloydia and Szechenya and Giradiella — both now included in Lloydia), Tulipeae (Erythronium, Tulipa and Eduardoregalia — now part of Tulipa) and Lilieae (Korolkowia, Fritillaria, Notholirion, Cardiocrinum, Nomocharis and Lilium).[117][118][119] Hutchinson included most of these genera within the Tulipeae tribe.[91] The complex rearrangements of the various genera, tribes and subfamilies over a 30-year period from 1985, discussed by Peruzzi and colleagues (2009),[94] are partly summarised in Table 2 below.
Classifications published since the use of molecular phylogenetics have taken a narrower view of the Liliaceae (s.s.). In 1998, Tamura considered Calochortus sufficiently distinct to elevate the subfamily Calochortoideae to family status as Calochortaceae,[97][53] resulting in the term Liliaceae sensu Tamura to indicate Liliaceae without the Calochortoideae. In 2009, Takhtajan used an even narrower definition (see Table 2 & Table 3 below).[87]
Despite now having established a taxonomic grouping for the Liliaceae family that is genetically monophyletic, compared to the prior longstanding polyphyletic assemblages under this name,[51][120] the morphology remains diverse,[97] and there exists within the Liliaceae clade a number of subclades. There appeared to be two major clades, the first and largest of these consisted of three subclades: Clintonia—Medeola—Gagea, Lilium Fritillaria—Notholirion, and Tulipa—Erythronium. The second smaller clade, Streptopus—Tricyrtis contained elements of Dahlgren's Uvulariaceae. The position of Calochortus remained problematic, being considered a sister clade to Liliaceae, as treated by Tamura, but further analysis suggested it was in fact sister to Tricyrtis, although it is now considered separate once again (see Table 3).[63][54][93][121][122]
Also enigmatic were Clintonia, Medeola, Scoliopus, and Tricyrtis. Clintonia, with a disjunct distribution involving East Asia and North America, and the closely related Medeola form a subclades and are now considered a separate tribe (Medeoleae) within the Lilioideae, although at different times they have been considered a separate subfamily (Medeoloideae) or family (Medeolaceae). Sequencing of the rbcL and matK chloroplast genes established monophyly for Clintonia, but with separate clades corresponding to the two areas of distribution.[123] The Angiosperm Phylogeny Website (APWeb)[2] includes four of Takhtajan's families in Liliaceae, recognizing three subfamilies, one of which is divided into two tribes and referred to as Liliaceae sensu APG III.[124]
Tamura[97] | Takhtajan[87] | Taxonomicon[125] | APWeb[124][2] | |||||||
---|---|---|---|---|---|---|---|---|---|---|
Family | Subfamily | Tribe | Family | Tribe | Family | Subfamily | Tribe | Family | Subfamily | Tribe |
Liliaceae | Lilioideae s.s. | Lilieae s.s. | Liliaceae | Lloydieae | Liliaceae | Lilioideae s.l. | Lloydieae | Liliaceae | Lilioideae s.l. | Lilieae s.l. |
Lilieae | Lilieae | |||||||||
Tulipeae | Tulipeae | Tulipeae | ||||||||
Medeoloideae | Medeolaceae | Medeola, Clintonia | Medeoleae | |||||||
Calochortaceae | Calochorteae | Scoliopaceae | Calochortoideae | Calochortoideae | ||||||
Tricyrtideae | Tricyrtidaceae | Streptopoideae | Streptopoideae |
Genera
Historical treatment
Historically, the inclusion of genera within Liliaceae has been extremely broad. Of the various published systems, one of the best known and also the broadest modern circumscription is the Cronquist system (1981),[34] which included nearly 300 genera in Liliaceae. Most of these have been reassigned to other families, as shown in the following collapsed list, following ITIS, together with their disposition as APG III transfers to other families and subfamilies, within Liliales and three other orders, Alismatales, Asparagales and Dioscoreales. Current members of Liliaceae are shown in bold.[126]
Genus | Authority | Family | Subfamily | Order |
---|---|---|---|---|
List of genera included in Liliaceae by Cronquist | ||||
Abama=Narthecium | Adans. | |||
Agapanthus | L'Her. | Amaryllidaceae | Agapanthoideae | Asparagales |
Aletris | L. | Nartheciaceae | Dioscoreales | |
Allium | L. | Amaryllidaceae | Allioideae | Asparagales |
Alstroemeria | L. | Alstroemeriaceae | Liliales | |
Amaryllis | L. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Amianthium | Gray | Melanthiaceae | Liliales | |
Androstephium | Torr. | Asparagaceae | Brodiaeoideae | Asparagales |
Anthericum | L. | Asparagaceae | Agavoideae | Asparagales |
Asparagus | L. | Asparagaceae | Asparagoideae | Asparagales |
Asphodelus | L. | Xanthorrhoeaceae | Asphodeloideae | Asparagales |
Astelia | Joseph Banks & Soland. ex R. Br. | Asteliaceae | Asparagales | |
Atamosco= Zephyranthes | Adans. | |||
Bloomeria | Kellogg | Asparagaceae | Brodiaeoideae | Asparagales |
Brodiaea | Sm. | Asparagaceae | Brodiaeoideae | Asparagales |
Calochortus | Pursh | Liliaceae | Liliales | |
Camassia | Lindl. | Asparagaceae | Agavoideae | Asparagales |
Cardiocrinum | (Endl.) Lindl. | Liliaceae | Liliales | |
Chamaelirium | Willd. | Melanthiaceae | Liliales | |
Chionodoxa | Boiss. | Asparagaceae | Scilloideae | Asparagales |
Chlorogalum | Kunth | Asparagaceae | Agavoideae | Asparagales |
Chlorophytum | Ker-Gawl. | Asparagaceae | Agavoideae | Asparagales |
Clintonia | Raf. | Liliaceae | Liliales | |
Colchicum | L. | Colchicaceae | Liliales | |
Convallaria | L. | Asparagaceae | Nolinoideae | Asparagales |
Cooperia | Herb. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Cordyline | Comm. ex R. Br. | Asparagaceae | Lomandroideae | Asparagales |
Crinum | L. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Curculigo | Gaertn. | Hypoxidaceae | Asparagales | |
Dasylirion | Zucc. | Asparagaceae | Nolinoideae | Asparagales |
Dianella | Lam. | Xanthorrhoeaceae | Hemerocallidoideae | Asparagales |
Dichelostemma | Kunth | Asparagaceae | Brodiaeoideae | Asparagales |
Disporum[lower-alpha 3] | Salisb. ex D. Don | Colchicaceae | Liliales | |
Dracaena | L. | Asparagaceae | Nolinoideae | Asparagales |
Echeandia | Ortega | Asparagaceae | Agavoideae | Asparagales |
Eremocrinum | M.E.Jones | Asparagaceae | Agavoideae | Asparagales |
Erythronium | L. | Liliaceae | Liliales | |
Eucharis | Planch. & Lind. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Fritillaria | L. | Liliaceae | Liliales | |
Gagea | Salisb. | Liliaceae | Liliales | |
Galanthus | L. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Gloriosa | L. | Colchicaceae | Liliales | |
Habranthus | Herb. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Harperocallis | McDaniel | Tofieldiaceae | Alismatales | |
Hastingsia | S. Wats. | Asparagaceae | Agavoideae | Asparagales |
Helonias | L. | Melanthiaceae | Asparagales | |
Hemerocallis | L. | Xanthorrhoeaceae | Hemerocallidoideae | Asparagales |
Hesperanthes= Echeandia | S. Wats. | |||
Hesperocallis | Gray | Tofieldiaceae | Alismatales | |
Hesperoscordum= Triteleia | Lindl. | |||
Hippeastrum | Herb. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Hosta | Tratt. | Asparagaceae | Agavoideae | Asparagales |
Hyacinthoides | Medik. | Asparagaceae | Scilloideae | Asparagales |
Hyacinthus | L. | Asparagaceae | Scilloideae | Asparagales |
Hymenocallis | Salisb. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Ipheion | Raf. | Amaryllidaceae | Allioideae | Asparagales |
Kniphofia | Moench | Xanthorrhoeaceae | Asphodeloideae | Asparagales |
Leucocrinum | Nutt. ex Gray | Asparagaceae | Lomandroideae | Asparagales |
Leucojum | L. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Lilium | L. | Liliaceae | Liliales | |
Liriope | Lour. | Asparagaceae | Nolinoideae | Asparagales |
Lloydia= Gagea | Salisb. ex Reichenb. | |||
Lophiola | Ker-Gawl. | Nartheciaceae | Dioscoreales | |
Lycoris | Herb. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Maianthemum | G.H. Weber ex Wiggers | Asparagaceae | Nolinoideae | Asparagales |
Medeola | L. | Liliaceae | Liliales | |
Melanthium | L. | Melanthiaceae | Asparagales | |
Milla | Cav. | Asparagaceae | Brodiaeoideae | Asparagales |
Muilla | S. Wats. ex Benth. | Asparagaceae | Brodiaeoideae | Asparagales |
Muscari | P. Mill. | Asparagaceae | Scilloideae | Asparagales |
Narcissus | L. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Narthecium | Huds. | Nartheciaceae | Dioscoreales | |
Nolina | Michx. | Asparagaceae | Nolinoideae | Asparagales |
Nomocharis | Franch. | Liliaceae | Liliales | |
Notholirion | Wall. ex Boiss. | Liliaceae | Liliales | |
Nothoscordum | Kunth | Amaryllidaceae | Allioideae | Asparagales |
Odontostomum | Torr. | Tecophilaeaceae | Asparagales | |
Ophiopogon | Ker-Gawl. | Asparagaceae | Nolinoideae | Asparagales |
Ornithogalum | L. | Asparagaceae | Scilloideae | Asparagales |
Pancratium | L. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Pleea | Michx. | Tofieldiaceae | Alismatales | |
Pleomele | Salisb. | Asparagaceae | Nolinoideae | Asparagales |
Polygonatum | P. Mill. | Asparagaceae | Nolinoideae | Asparagales |
Sansevieria | Thunb. | Asparagaceae | Nolinoideae | Asparagales |
Schoenocaulon | Gray | Melanthiaceae | Liliales | |
Schoenolirion | Torr. ex Dur. | Asparagaceae | Agavoideae | Asparagales |
Scilla | L. | Asparagaceae | Scilloideae | Asparagales |
Scoliopus | Torr. | Liliaceae | Liliales | |
Smilacina=Maianthemum | Desf. | |||
Stenanthium | (Gray) Kunth | Melanthiaceae | LIliales | |
Sternbergia | Waldst. & Kit. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Streptopus | Michx. | Liliaceae | Liliales | |
Tofieldia | Huds. | Tofieldiaceae | Alismatales | |
Tricyrtis | Wall. | Liliaceae | Liliales | |
Trillium | L. | Melanthiaceae | Liliales | |
Tristagma | Poepp. | Amaryllidaceae | Allioideae | Asparagales |
Triteleia | Dougl. ex Lindl. | Asparagaceae | Brodiaeoideae | Asparagales |
Triteleiopsis | Hoover | Asparagaceae | Brodiaeoideae | Asparagales |
Tulipa | L. | Liliaceae | Liliales | |
Urginea | Steinh. | Asparagaceae | Scilloideae | Asparagales |
Uvularia | L. | Colchicaceae | Liliales | |
Vagnera=Maianthemum | Adans. | |||
Veratrum | L. | Melanthiaceae | Liliales | |
Xerophyllum | Michx. | Melanthiaceae | Liliales | |
Zephyranthes | Herb. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Zigadenus | Michx. | Melanthiaceae | Liliales | |
List of other genera historically included in Liliaceae s.l. | ||||
Albuca | L. | Asparagaceae | Scilloideae | Asparagales |
Anticlea | Kunth | Melanthiaceae | Liliales | |
Arthropodium | R.Br. | Asparagaceae | Lomandroideae | Asparagales |
Bellevalia | Lapeyr. | Asparagaceae | Scilloideae | Asparagales |
Bomarea | Mirb. | Alstroemeriaceae | Liliales | |
Chionographis | Maxim. | Melanthiaceae | Liliales | |
Conanthera | Ruiz & Pav. | Tecophilaeaceae | Asparagales | |
Cyclobothra= Calochortus | D.Don | |||
Daiswa | Raf. | Melanthiaceae | Liliales | |
Drimia | Jacq. | Asparagaceae | Scilloideae | Asparagales |
Drimiopsis | Lindl. & Paxton | Asparagaceae | Scilloideae | Asparagales |
Eremurus | M.Bieb. | Xanthorrhoeaceae | Asphodeloideae | Asparagales |
Eriospermum | Jacq. | Asparagaceae | Nolinoideae | Asparagales |
Eucrosia | Ker Gawl. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Eustephia | Cav. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Griffinia | Ker Gawl. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Heloniopsis | A.Gray | Melanthiaceae | Liliales | |
Hemiphylacus | S.Wats. | Asparagaceae | Asparagoideae | Asparagales |
Herreria | Ruiz & Pav. | Asparagaceae | Agavoideae | Asparagales |
Hessea | Herb. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Hookera= Brodiaea | Salisb. | |||
Hypoxis | L. | Hypoxidaceae | Asparagales | |
Ismene | Salisb. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Jaimehintonia | B.L.Turner | Amaryllidaceae | Allioideae | Asparagales |
Johnsonia | Mill. | Asparagaceae | Lomandroideae | Asparagales |
Laxmannia | R.Br. | Asparagaceae | Lomandroideae | Asparagales |
Lepidopharynx= Hippeastrum | Rusby | |||
Metanarthecium | Maxim. | Nartheciaceae | Dioscoreales | |
Miersia | Lindl. | Amaryllidaceae | Allioideae | Asparagales |
Molineria | Colla | Hypoxidaceae | Asparagales | |
Nietneria | Klotzsch | Melanthiaceae | Liliales | |
Paradisea | Mazzuc. | Anthericaceae | Asparagales | |
Paris | L. | Melanthiaceae | Liliales | |
Peliosanthes | Andrews | Asparagaceae | Nolinoideae | Asparagales |
Phaedranassa | Herb. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Selonia= Eremurus | Regel | |||
Stropholirion= Dichelostemma | Torr. | |||
Theropogon | Maxim. | Amaryllidaceae | Allioideae | Asparagales |
Toxicoscordion | Rydb. | Melanthiaceae | Liliales | |
Tracyanthus= Stenanthium | Small | |||
Tulbaghia | Heist. | Amaryllidaceae | Allioideae | Asparagales |
Tupistra | Ker Gawl. | Asparagaceae | Nolinoideae | Asparagales |
Urceolina | Rchb. | Amaryllidaceae | Amaryllidoideae | Asparagales |
Wurmbea | Thunb. | Colchicaceae | Liliales |
The more modern phylogenetically based treatment of the genera, including the major systems of the 1980s of Dahlgren and Tamura, are shown in Table 3.
Genera | sensu Dahlgren (1985) (tribes)[35] | sensu Tamura (1998) subfamilies (tribes)[97][53] | sensu APG | Tribes | Subfamilies | ||
---|---|---|---|---|---|---|---|
Streptopus | Uvulariaceae (Uvularieae) | Calochortaceae (Tricyrtideae) | Liliaceae5 | Streptopoideae syn. Scoliopaceae Takht. | |||
Scoliopus | Trilliaceae1 | Calochortaceae (Tricyrtideae) | Liliaceae | ||||
Prosartes | Uvulariaceae (Uvularieae) | Calochortaceae (Tricyrtideae) | Liliaceae | ||||
Calochortus | Calochortaceae | Calochortaceae (Calochorteae) | Liliaceae | Calochortoideae syn. Calochortaceae Dumort., Compsoaceae Horan., nom. illeg., Tricyrtidaceae Takht., nom. cons. | |||
Tricyrtis6 | Uvulariaceae (Tricyrtideae) | Calochortaceae (Tricyrtideae) | Liliaceae | ||||
Medeola | Trilliaceae1 | Liliaceae Medeolioideae | Liliaceae | Medeoleae syn. Medeolioideae (Tamura), Medeolaceae Takht., Medeoloideae Benth. | Lilioideae s.l.3 | ||
Clintonia | Uvulariaceae (Uvularieae) | Liliaceae Medeolioideae | Liliaceae | ||||
Cardiocrinum | Liliaceae | Liliaceae Lilioideae (Lilieae) | Liliaceae | Lilieae s.s. (Tamura) | Lilieae s.l. syn. Lilioideae s.s. (Tamura),3 Erythroniaceae Martinov, Fritillariaceae Salisb., Liriaceae Borkh., Tulipaceae Borkh. | ||
Notholirion | Liliaceae | Liliaceae Lilioideae (Liliae) | Liliaceae | ||||
Nomocharis2 | Liliaceae | Liliaceae Lilioideae (Lilieae) | Liliaceae | ||||
Fritillaria | Liliaceae | Liliaceae Lilioideae (Lilieae) | Liliaceae | ||||
Lilium | Liliaceae | Liliaceae Lilioideae (Lilieae) | Liliaceae | ||||
Gagea | Liliaceae | Liliaceae Lilioideae (Tulipeae) | Liliaceae | Lloydieae | Tulipeae s.l. (Tamura)4 | ||
Lloydia2 | Liliaceae | Liliaceae Lilioideae (Tulipeae) | Liliaceae | ||||
Amana2 | Liliaceae | Liliaceae Lilioideae (Tulipeae) | Liliaceae | Tulipeae s.s. | |||
Tulipa | Liliaceae | Liliaceae Lilioideae (Tulipeae) | Liliaceae | ||||
Erythronium | Liliaceae | Liliaceae Lilioideae (Tulipeae) | Liliaceae | ||||
|
Modern subfamilial divisions within Liliaceae
The evolutionary and phylogenetic relationships between the genera currently included in Liliaceae are shown in Cladogram III.
Cladogram III: Phylogeny and biogeography of the genera of the Liliaceae | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Phylogenetic tree reflecting relationships based on molecular phylogenetic evidence.[54][78][94][102][95][131][121][122] *=Liliaceae sensu Tamura; EA=Eurasia NA=North America |
The largest genera are Gagea (200),[132] Fritillaria (130), Lilium (110), and Tulipa (75 species), all within the Lilieae tribe. Various authorities (e.g. ITIS 16,[133] GRIN 27,[134] WCSP,[135] NCBI,[136] DELTA[137]) differ on the exact number of genera included in Liliaceae s.s., but generally there are about fifteen to sixteen genera, depending on whether or not Amana is included in Tulipa and Lloydia in Gagea. For instance Amana is still listed separately in WCSP.
The exact subdivision of Liliaceae differs between authors. In 2002 Patterson and Givnish identified two major clades corresponding to Tamura's Calochortaceae and Liliaceae,[97] but preferred to retain his original division into two separate families rather than the overarching "core Liliales" (Liliaceae sensu APG). Within Liliaceae sensu Tamura they confirmed his decision to include Medeola-Clintonia as a separate subfamily, Medeolioideae, with the remaining genera as subfamily Lilioideae. Liliodeae was then divided into two tribes, Lilieae and Tulipeae (Tulipa, Erythronium, Gagea, Lloydia). Within Calochortaceae sensu Tamura, they proposed erecting a second subfamily, Streptopoideae (Prosartes, Scoliopus, Streptopus), with the remaining genera in subfamily Calochortoideae.[54] Subsequent work by Rønsted et al.(2005)[81] and by Fay et al. (2006) confirmed the overall phylogenetic relationships of Patterson and Givnish and their subdivisions, and further elucidated the position of Gagea within the tribe Tulipae, but the latter authors restored the broader circumscription of Liliaceae sensu APG .[93] In 2013, Kim et al. proposed further subdivision, placing the two genera of Calochortoideae (Calochortus and Tricyrtis) into subfamilies of their own and splitting off Gagea from the rest of Tulipeae by resurrecting the tribe Lloydieae.[121][122] (see Table 3)
The best known schema, the APWeb, lists fifteen genera, arranged as follows, and illustrated in Table 4, with three subfamilies, Lilioideae representing Liliaceae sensu Tamura and the two subfamilies of Calochortaceae sensu Tamura (Streptopoideae and Calochortoideae) as proposed by Patterson and Givnish now included within Lilaceae sensu APG.[2]
Subfamily | Tribe | Genus | |
---|---|---|---|
Lilioideae Eaton | Medeoleae Benth. | Clintonia Raf. - bead lilies | |
Medeola Gronov. ex L. - Indian cucumber-root | |||
Lilieae s.l. Ritgen | Cardiocrinum (Endl.) Lindl. - giant lilies | ||
Fritillaria Tourn. ex L. – fritillary or mission bells | |||
Gagea Salisb. (including Lloydia Salisb. ex Rchb.) – yellow star-of-Bethlehem1,2 | |||
Lilium Tourn. ex L. – lily | |||
Nomocharis Franch. | |||
Notholirion Wall. ex Boiss. | |||
Tulipa L. (including Amana Honda) – tulip1 | |||
Erythronium L. – trout lily1 | |||
Calochortoideae Dumort.3 | | Calochortus Pursh - mariposa, globe lilies | |
Tricyrtis Wall. – toad lily | |||
Streptopoideae | Prosartes D.Don – drops of gold | ||
Scoliopus Torr. – Fetid Adder's Tongue | |||
Streptopus Michx. – twistedstalk | |||
|
Etymology
The name Liliaceae was coined by Michel Adanson in 1763.[6] The name was derived from Lilium and the family suffix -aceae. Lilium is the type genus of the family, which is the Latin for Lily, which in turn came from the Greek name for it, λείριον (leírion).[138][139]
See also
Notes
References
- 1 2 Jussieu 1789, Lilia pp. 48–49.
- 1 2 3 4 5 6 7 8 Stevens 2015, Liliaceae.
- ↑ Linnaeus 1753, Lilium vol. i p. 302.
- ↑ Linnaeus 1753, Hexandria monogynia vol. i pp. 285–352.
- ↑ Lobstein 2013.
- 1 2 Adanson 1763, VIII Liliaceae p. 42–60.
- ↑ Stevens 2013.
- ↑ Adanson 1763, Liliaceae Section II Les Lis Lilia p. 48.
- ↑ ICN 2012, 18.2 Names of families and subfamilies, tribes and subtribes.
- 1 2 Candolle 1813, Des familles et des tribus pp. 192–195.
- ↑ de Jussieu 1778, p. 228.
- ↑ Gray 1821, Fam IX Liliaceae Jussieu. vol 2: p. 173.
- ↑ Lindley 1830, CCLI: Liliaceae. p. 279.
- ↑ Redouté & 1802–1816.
- ↑ Gray 1821, An Arrangement of the Families, and of the anomalous Genera of phenogamous Plants, according to their sexual Organs. vol 2: p. vi.
- ↑ Gray 1821, The genera of British plants, according to their mutual relations, with the number of species in each genus. 2. Plantae Endogenae: B Plantae Endogenae Phenogamae - 14. Liliaceae. vol 1: p. xx.
- 1 2 Candolle 1813, Esquisse. D'une Série linéaire et par conséquent artificielle, pour la disposition des familles naturelles du règne végetal p. 219.
- ↑ Marilaun & 1890–1891.
- ↑ Lindley 1830.
- 1 2 Lindley 1846, Order LXII: Liliaceae - Lilyworts. pp. 200–205.
- ↑ Kubitzki, Rudall & Chase 1998.
- ↑ Lindley 1846, p .201.
- 1 2 Bentham, Hooker & 1862–1883, Vol III Part II Liliaceae pp. 748–836.
- 1 2 Stuessy 2009, Natural classification p. 47.
- ↑ Datta 1988, Systems of classification p. 21.
- ↑ Stace 1989, The development of plant taxonomy p. 17.
- 1 2 Singh 2004, Historical background of plant classification. pp. 10–29.
- ↑ Eichler 1886, Liliiflorae p. 34.
- ↑ Engler & 1900–1968.
- ↑ Engler 1903, Liliiflorae p. 93.
- ↑ Carter 1913.
- ↑ Wettstein 1924, Liliiflorae p. 862.
- 1 2 Bessey 1915.
- 1 2 3 Cronquist 1981.
- 1 2 3 4 5 Rasmussen 1985.
- ↑ Lawrence 1951.
- 1 2 Judd et al. 2007.
- 1 2 3 Thorne 1992.
- ↑ Reveal 1997.
- 1 2 Datta 1988.
- 1 2 Takhtajan 1980.
- ↑ Lotsy & 1907–1911, 3: Cormophyta Siphonogamia. Liliifloren p. 715.
- ↑ Huber 1969.
- ↑ Meerow 2002.
- ↑ Walters & Keil 1996, Liliaceae p. 418.
- ↑ Kelch 2002.
- ↑ Mathew 1989.
- ↑ Chase et al 1993.
- ↑ Utech 2003.
- 1 2 3 4 5 APG III 2009.
- 1 2 Chase et al. 1995a.
- ↑ Rasmussen 1985, Liliaceae pp.233–238.
- 1 2 3 4 Tamura 1998b.
- 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 Patterson & Givnish 2002.
- 1 2 3 APG 1998.
- ↑ Bremer & Wanntorp 1978.
- ↑ Bremer, Bremer & Thulin 1997.
- ↑ Williams et al. 2010.
- ↑ Bremer & Bremer 2005.
- 1 2 APG II 2003.
- ↑ Chase & Reveal 2009.
- ↑ LAPGIII 2009.
- 1 2 3 4 Rudall et al. 2000.
- ↑ Chase et al. 2000.
- ↑ Chase et al. 2006.
- ↑ Davis et al. 2004.
- ↑ Graham et al. 2006.
- ↑ Hilu et al. 2003.
- ↑ Pires et al. 2006.
- ↑ Rudall et al. 1997a.
- ↑ Källersjö et al. 1998.
- ↑ Fay 2000.
- ↑ Soltis et al. 2000.
- ↑ Stevenson et al. 2000.
- ↑ McPherson & Graham 2001.
- ↑ Goldblatt 1995.
- ↑ Stevenson & Loconte 1995.
- 1 2 3 4 5 6 7 8 Vinnersten & Bremer 2001.
- ↑ Givnish et al. 2005.
- ↑ Givnish et al. 2006.
- 1 2 3 Rønsted et al. 2005.
- ↑ Zomlefer et al. 2001.
- ↑ Soltis et al. 2005.
- ↑ Reveal 2010.
- ↑ Jeffrey 1982, p. 123.
- ↑ Takhtajan 1966.
- 1 2 3 Takhtadzhi︠a︡n 2009, Liliaceae p. 634 .
- ↑ Dahlgren 1977.
- ↑ Thorne & Reveal 2007.
- ↑ Naikh 1984, Post-Darwinian systems of classification, p. 111, at Google Books.
- 1 2 Hutchinson 1959.
- ↑ Wilson & Morrison 2000.
- 1 2 3 Fay et al. 2006.
- 1 2 3 4 5 Peruzzi, Leitch & Caparelli 2009.
- 1 2 3 4 Meerow 2012.
- ↑ Hayashi & Kawano 2000.
- 1 2 3 4 5 6 7 Tamura 1998a.
- ↑ Leadlay & Jury 2006.
- ↑ Bremer 2000.
- ↑ Wikström, Savolainen & Chase 2001.
- 1 2 3 4 Janssen & Bremer 2004.
- 1 2 3 Leitch et al. 2007.
- ↑ Hong & Jury 2012.
- ↑ Wilkin & Mayo 2013, p. 43.
- ↑ Stilwell & Feldmann 2000, p. 162.
- ↑ Goin et al. 2012, West Antarctic Paleoflora p. 58.
- ↑ Sambamurty 2005, p. 172.
- ↑ Friis et al. 2011.
- ↑ Spichiger & Perret 2002.
- ↑ Gao et al. 2012.
- ↑ Shinwari et al. 1994.
- ↑ Simpson 2011.
- ↑ Baker 1871.
- ↑ Baker 1873.
- ↑ Watson 1879.
- ↑ Engler & Prantl 1888, Engler Liliaceae pp. 10–91 .
- ↑ Buxbaum 1936.
- ↑ Buxbaum 1937.
- ↑ Vinnersten & Reeves 2003.
- ↑ Chase et al. 1995b.
- 1 2 3 4 5 6 7 8 Kim et al. 2013a.
- 1 2 3 4 5 6 7 8 Kim et al. 2013b.
- ↑ Hayashi et al. 2001.
- 1 2 3 Mabberley 2013, Liliaceae p. 489.
- ↑ Brands 2015, Liliaceae.
- ↑ Chase et al. 2009.
- ↑ Gao et al. 2011.
- ↑ Peterson et al. 2008.
- ↑ Tan et al. 2005.
- ↑ Clennett et al. 2012.
- ↑ Stevens 2015, Liliales.
- ↑ Tison et al. 2012.
- ↑ ITIS 2015, Liliaceae.
- ↑ GRIN 2015, Liliaceae.
- ↑ WCLSPF 2015, Liliaceae.
- ↑ NCBI 2015, Liliaceae.
- ↑ Watson & Dallwitz 2015, Liliaceae Juss..
- ↑ Gledhill 2006, Family names p. 16.
- ↑ OED 2005.
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Chapters
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- Chase, M. W.; Stevenson, D. W.; Wilkin, P.; Rudall, P. J. Monocot systematics: A combined analysis. 2. pp. 685–730., In Rudall et al. (1995)
- Chase, M.W.; Soltis, D. E.; Soltis, P. S.; Rudall, P. J.; Fay, M. F.; Hahn, W. H.; Sullivan, S.; Joseph, J.; Molvray, M.; Kores, P. J.; Givnish, T. J.; Sytsma, K. J.; Pires, J. C. (2000). Higher-level systematics of the monocotyledons: An assessment of current knowledge and a new classification. pp. 3–16., in Wilson & Morrison (2000)
- Dahlgren, Rolf. A commentary on a diagrammatic presentation of the angiosperms in relation to the distribution of character states. pp. 253–284. in Kubitzki (1977)
- Davis, Jerrold I.; Mcneal, Joel R.; Barrett, Craig F.; Chase, Mark W.; Cohen, James I.; Duvall, Melvin R.; Givnish, Thomas J.; Graham, Sean W.; Petersen, Gitte; Pires, J. Chris; Seberg, Ole; Stevenson, Dennis W.; Leebens-Mack, Jim, Contrasting patterns of support among plastid genes and genomes for major clades of the monocotyledons, pp. 315–349, doi:10.1017/CBO9781139002950.015, in Wilkin & Mayo (2013)
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- Fay, M. F.; Chase, M. W.; Ronsted, N.; Devey, D. S.; Pillon, Y.; Pires, J. C.; Petersen, G.; Seberg, O.; Davis, J. I. Phylogenetics of Liliales: summarized evidence from combined analyses of five plastid and one mitochondrial loci. (PDF). pp. 559–565. Retrieved 18 January 2014. In Columbus et al. (2006)
- Givnish, T.J.; Pires, J.C.; Graham, S.W.; McPherson, M.A.; Prince, L.M.; Patterson, T.B.; Rai, H.S.; Roalson, E.R.; Evans, T.M.; Hahn, W.J; Millam, K.C.; Meerow, A.W.; Molvray, M.; Kores, P.; O'Brien, H.E.; Kress, W.J.; Hall, J.; Sytsma, K.J. Phylogeny of the monocotyledons based on the highly informative plastid gene ndhF: evidence for widespread concerted convergence (PDF). pp. 28–51. Retrieved 4 January 2014. In Columbus et al. (2006)
- Goldblatt, P. The status of R. Dahlgren's orders Liliales and Melanthiales. pp. 181–200. In Rudall et al. (1995)
- Kubitzki, K; Rudall, PJ; Chase, MC. Systematics and evolution: A brief history of monocot classification. p. 23. In Kubitzki & Huber (1998).
- Meerow, A.W. Taxonomy and Phylogeny: Liliaceae. pp. 17–55. In Kamenetsky & Okubo (2012)
- Rasmussen, F. N. Superorder Liliiflorae. pp. 107–274. ISBN 978-3-642-64903-5. doi:10.1007/978-3-642-61663-1_11. In Dahlgren, Clifford & Yeo (1985). See also Superorder Liliiflorae, p. 112, at Google Books for further excerpts
- Rudall, P. J.; Stobart, K. L.; Hong, W-P.; Conran, J. G.; Furness, C. A.; Kite, G. C.; Chase, M. W. Consider the lilies: systematics of Liliales. pp. 347–359. Retrieved 14 January 2014. In Wilson & Morrison (2000)
- Stevenson, D.W.; Loconte, H. Cladistic analysis of monocot families. pp. 543–578. in Rudall et al. (1995)
- Stevenson, D.W.; Davis, J.I.; Freudenstein, J.V.; Hardy, C.R.; Simmons, M.P.; Specht, C.D. A phylogenetic analysis of the monocotyledons based on morphological and molecular character sets, with comments on the placement of Acorus and Hydatellaceae (PDF). pp. 17–24. In Wilson & Morrison (2000)
- Tamura, M. N. Calochortaceae. pp. 164–172. doi:10.1007/978-3-662-03533-7_22. In Kubitzki & Huber (1998).
- Tamura, M. N. Liliaceae. pp. 343–353. doi:10.1007/978-3-662-03533-7_41. In Kubitzki & Huber (1998). Additional excerpts
- Williams, David M; Bremer, Kare; Knapp, Sandra. Chris Humphries, Cladistics and Connections. pp. 19–33. In Williams & Knapp (2010)
Articles
- Buxbaum, F. (1936). "Die Entwicklungslinien der Lilioideae. I. Die systematische Stellung der gattung Gagea". Botanisches Archiv (in German). 38: 213–293.
- Buxbaum, F. (1937). "Die Entwicklungslinien der Lilioideae. II. Die Wurmbaeoideae". Botanisches Archiv (in German). 38: 305–398.
- Chase, Mark W.; Reveal, James L.; Fay, Michael F. (2009). "A subfamilial classification for the expanded asparagalean families Amaryllidaceae, Asparagaceae and Xanthorrhoeaceae". Botanical Journal of the Linnean Society. 161 (2): 132–136. doi:10.1111/j.1095-8339.2009.00999.x.
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- Thorne, Robert F.; Reveal, James L. (April 2007). "An Updated Classification of the Class Magnoliopsida ("Angiospermae")". The Botanical Review. 73 (2): 67–181. doi:10.1663/0006-8101(2007)73[67:AUCOTC]2.0.CO;2.
- Watson, Sereno (1879). "Revision of the North American Liliaceae: Descriptions of Some New Species of North American Plants". Proceedings of the American Academy of Arts and Sciences. XIV: 213–312. JSTOR 25138538. doi:10.2307/25138538. Retrieved 6 January 2014.
Phylogenetics
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- Chase, Mark W.; Soltis, Douglas E.; Olmstead, Richard G.; Morgan, David; Les, Donald H.; Mishler, Brent D.; Duvall, Melvin R.; Price, Robert A.; Hills, Harold G.; Qiu, Yin-Long; Kron, Kathleen A.; Rettig, Jeffrey H.; Conti, Elena; Palmer, Jeffrey D.; Manhart, James R.; Sytsma, Kenneth J.; Michaels, Helen J.; Kress, W. John; Karol, Kenneth G.; Clark, W. Dennis; Hedren, Mikael; Gaut, Brandon S.; Jansen, Robert K.; Kim, Ki-Joong; Wimpee, Charles F.; Smith, James F.; Furnier, Glenn R.; Strauss, Steven H.; Xiang, Qui-Yun; Plunkett, Gregory M.; Soltis, Pamela S.; Swensen, Susan M.; Williams, Stephen E.; Gadek, Paul A.; Quinn, Christopher J.; Eguiarte, Luis E.; Golenberg, Edward; Learn, Gerald H.; Graham, Sean W.; Barrett, Spencer C. H.; Dayanandan, Selvadurai; Albert, Victor A. (1993). "Phylogenetics of Seed Plants: An Analysis of Nucleotide Sequences from the Plastid Gene rbcL". Annals of the Missouri Botanical Garden. 80 (3): 528. doi:10.2307/2399846.
- Källersjö, M.; Farris, J.S.; Chase, M.W.; Bremer, B.; Fay, M.F.; Humphries, C.J.; Petersen, G.; Seberg, O.; Bremer, K. (1998). "Simultaneous parsimony jacknife analysis of 2538rbcL DNA sequences reveals support for major clades of green plants, land plants, and flowering plants". Pl. Syst. Evol. 213 (3–4): 259–287. doi:10.1007/BF00985205.
- Pires, J.C.; Maureira, I.J.; Givnish, T.J.; Sytsma, K.J.; Seberg, O.; Petersen, G.; Davis, J.I.; Stevenson, D.W.; Rudall, P.J.; Fay, M.F.; Chase, M.W. (2006). "Phylogeny, genome size, and chromosome evolution of Asparagales". 22: 278–304. INIST:18269727.
- Rudall, P.; Furness, C.A.; Chase, M.W.; Fay, M.F. (1997). "Microsporogenesis and pollen sulcus type in Asparagales (Lilianae)". Canad. J. Bot. 75 (3): 408–430. ISSN 0008-4026. doi:10.1139/b97-044. INIST:10769694.
Phylogenetics: Angiosperms and monocots
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- Davis, J.I.; Stevenson, D.W.; Petersen, G.; Seberg, O.; Campbell, L.M.; Freudenstein, J.V.; Goldman, D.H.; Hardy, C.R.; Michelangeli, F.A.; Simmons, M.P.; Specht, C.D.; Vergara-Silva, F.; Gandolfo, M. (July–September 2004). "A phylogeny of the monocots, as inferred from rbcL and atpA sequence variation, and a comparison of methods for calculating jacknife and bootstrap values". Syst. Bot. 29 (3): 467–510. doi:10.1600/0363644041744365. Retrieved 4 January 2014.
- Chase, M. W.; Fay, M. F.; Devey, D. S.; Maurin, O; Rønsted, N; Davies, T. J; Pillon, Y; Petersen, G; Seberg, O; Tamura, M. N.; Asmussen, C. B.; Hilu, K; Borsch, T; Davis, J. I; Stevenson, D. W.; Pires, J. C.; Givnish, T. J.; Sytsma, K. J.; McPherson, M. A.; Graham, S. W.; Rai, H. S. "Multigene analyses of monocot relationships : a summary" (PDF): 63–75. ISSN 0065-6275. Retrieved 19 May 2015. In Columbus et al. (2006)
- Givnish, Thomas J.; Pires, J.Chris; Graham, Sean W.; McPherson, Marc A.; Prince, Linda M.; Patterson, Thomas B.; Rai, Hardeep S.; Roalson, Eric H.; Evans, Timothy M.; Hahn, William J; Millam, Kendra C.; Meerow, Alan W; Molvray, Mia; Kores, Paul J.; O'Brien, Heath E.; Hall, Jocelyn C.; Kress, W. John; Sytsma, Kenneth J. (2005). "Repeated evolution of net venation and fleshy fruits among monocots in shaded habitats confirms a priori predictions: evidence from an ndhF phylogeny". Proceedings of the Royal Society B: Biological Sciences. 272 (1571): 1481–1490. PMC 1559828 . PMID 16011923. doi:10.1098/rspb.2005.3067.
- Graham, S.W.; Zgurski, J.M.; McPherson, M.A.; Cherniawsky, D.M.; Saarela, J.M.; Horne, E.S.C.; Smith, S.Y.; Wong, W.A.; O'Brien, H.E.; Biron, V.L.; Pires, J.C.; Olmstead, R.G.; Chase, M.W.; Rai, H.S. "Robust inference of monocot deep phylogeny using an expanded multigene plastid data set" (PDF): 3–21. Retrieved 4 January 2014. In Columbus et al. (2006)
- Hilu, K.; Borsch, T.; Muller, K.; Soltis, D.E.; Soltis, P.S.; Savolainen, V.; Chase, M.W.; Powell, M.P.; Alice, L.A.; Evans, R.; Sauquet, H.; Neinhuis, C.; Slotta, T.A.B.; Rohwer, J.G.; Campbell, C.S.; Chatrou, L.W. (December 2003). "Angiosperm phylogeny based on <011> matK sequence information". American Journal of Botany. 90 (12): 1758–1766. doi:10.3732/ajb.90.12.1758. Retrieved 4 January 2014.
- Janssen, Thomas; Bremer, Kare (December 2004). "The age of major monocot groups inferred from 800+ rbcL sequences" (PDF). Botanical Journal of the Linnean Society. 146 (4): 385–398. doi:10.1111/j.1095-8339.2004.00345.x.
- Meerow, A.W. (February 2002). "The new phylogeny of the Lilioid Monocotyledons". Acta Horticulturae (570): 31–45. doi:10.17660/ActaHortic.2002.570.2.
- Soltis, D. E.; Soltis, P.S.; Chase, M.W.; Mort, M.E.; Albach, D.C.; Zanis, M.; Savolainen, V.; Hahn, W.H.; Hoot, S.B.; Fay, M.F.; Axtell, M.; Swensen, S.M.; Prince, L.M.; Kress, W.J.; Nixon, K.C.; Farris, J.S. (2000). "Angiosperm phylogeny inferred from 18S rDNA, rbcL, and atpB sequences". Bot. J. Linn. Soc. 133 (4): 381–461. doi:10.1006/bojl.2000.0380.
- Wikström, N.; Savolainen, V.; Chase, M. W. (7 November 2001). "Evolution of the angiosperms: calibrating the family tree.". Proc Biol Sci. 268 (1482): 2211–2220. PMC 1088868 . PMID 11674868. doi:10.1098/rspb.2001.1782.
Phylogenetics: Liliales
- Christenhusz, Maarten J.M.; Govaerts, Rafaël; David, John C.; Hall, Tony; Borland, Katherine; Roberts, Penelope S.; Tuomisto, Anne; Buerki, Sven; Chase, Mark W.; Fay, Michael F. (2013). "Tiptoe through the tulips – cultural history, molecular phylogenetics and classification of Tulipa (Liliaceae)". Botanical Journal of the Linnean Society. 172 (3): 280–328. doi:10.1111/boj.12061.
- Clennett, John C. B.; Chase, Mark W.; Forest, Félix; Maurin, Olivier; Wilkin, Paul (December 2012). "Phylogenetic systematics of Erythronium (Liliaceae): morphological and molecular analyses". Botanical Journal of the Linnean Society. 170 (4): 504–528. doi:10.1111/j.1095-8339.2012.01302.x.
- Gao, Yun-Dong; Zhou, Song-Dong; He, Xing-Jin; Wan, Juan (11 May 2011). "Chromosome diversity and evolution in tribe Lilieae (Liliaceae) with emphasis on Chinese species". Journal of Plant Research. 125 (1): 55–69. doi:10.1007/s10265-011-0422-1.
- Gao, Yun-Dong; Hohenegger, Markus; Harris, AJ; Zhou, Song-Dong; He, Xing-Jin; Wan, Juan (2012). "A new species in the genus Nomocharis Franchet (Liliaceae): evidence that brings the genus Nomocharis into Lilium". Plant Systematics and Evolution. 298 (1): 69–85. ISSN 0378-2697. doi:10.1007/s00606-011-0524-1.
- Hayashi, K.; Kawano, S. (2000). "Molecular systematics of Lilium and allied genera (Liliaceae): Phylogenetic relationships among Lilium and related genera based on the rbcL and matK gene sequence data.". Plant Species Biology. 15: 73–79. doi:10.1046/j.1442-1984.2000.00025.x. Retrieved 14 January 2013.
- Hayashi, Kazuhiko; Yoshida, Seiji; Utech, Frederick H.; Kawano, Shoichi (2001). "Molecular systematics in the genus Clintonia and related taxa based on rbcL and matK gene sequence data". Plant Species Biology. 16 (2): 119–137. doi:10.1046/j.1442-1984.2001.00057.x.
- Hong, Sophia Wan Pyo; Jury, Stephen L. (9 July 2012). "Phylogeny and Molecular Evolution of Tricyrtis (Liliaceae s.l.) Inferred from Plastid DNA matK Spacer Nucleotide Sequences". Journal of Plant Studies. 1 (2). doi:10.5539/jps.v1n2p1. Retrieved 19 September 2015.
- Hong, S. W.-P.; Jury, S. L. (7 September 2011). "Phylogeny and divergence times inferred from rps16 sequence data analyses for Tricyrtis (Liliaceae), an endemic genus of north-east Asia". AoB Plants. 2011: plr025. doi:10.1093/aobpla/plr025.
- Kim, Jung Sung; Hong, Jeong-Ki; Chase, Mark W.; Fay, Michael F.; Kim, Joo-Hwan (May 2013). "Familial relationships of the monocot order Liliales based on a molecular phylogenetic analysis using four plastid loci: matK, rbcL, atpB and atpF-H". Botanical Journal of the Linnean Society. 172 (1): 5–21. doi:10.1111/boj.12039.
- Kim, Jung Sung; Kim, Joo-Hwan; Robinson-Rechavi, Marc (14 June 2013). "Comparative Genome Analysis and Phylogenetic Relationship of Order Liliales Insight from the Complete Plastid Genome Sequences of Two Lilies (Lilium longiflorum and Alstroemeria aurea)". PLoS ONE. 8 (6): e68180. PMC 3688979 . PMID 23950788. doi:10.1371/journal.pone.0068180.
- Leitch, I. J.; Beaulieu, JM; Cheung, K; Hanson, L; Lysak, MA; Fay, MF (November 2007). "Punctuated genome size evolution in Liliaceae". Journal of evolutionary biology. 20 (6): 2296–308. PMID 17956392. doi:10.1111/j.1420-9101.2007.01416.x. Retrieved 26 January 2014.
- McPherson, M.A.; Graham, S.W. (2001). "Inference of Asparagales phylogeny using a large chloroplast data set". Proceedings of the Botanical Society of America: 126. Abstract No. 120.
- Patterson, T. B.; Givnish, T. J. (2002). "Phylogeny, concerted convergence, and phylogenetic niche conservatism in the core Liliales: insights from rbcL and ndhF sequence data" (PDF). Evolution. 56 (2): 233–252. PMID 11926492. doi:10.1111/j.0014-3820.2002.tb01334.x. Archived from the original (PDF) on April 21, 2004. Retrieved 14 January 2014.
- Peterson, Angela; Levichev, Igor G.; Peterson, Jens (February 2008). "Systematics of Gagea and Lloydia (Liliaceae) and infrageneric classification of Gagea based on molecular and morphological data". Molecular Phylogenetics and Evolution. 46 (2): 446–465. PMID 18180173. doi:10.1016/j.ympev.2007.11.016.
- Peruzzi, L.; Leitch, I.J.; Caparelli, K.F. (2009). "Chromosome diversity and evolution in Liliaceae". Annals of Botany. 103 (3): 459–475. doi:10.1093/aob/mcn230. Retrieved 8 January 2014.
- Rønsted, N.; Law, S.; Thornton, H.; Fay, M. F.; Chase, M. W. (2005). "Molecular phylogenetic evidence for the monophyly of Fritillaria and Lilium (Liliaceae; Liliales) and the infrageneric classification of Fritillaria". Molecular Phylogenetics and Evolution. 35 (3): 509–527. PMID 15878122. doi:10.1016/j.ympev.2004.12.023.
- Shinwari, Z. K.; Terauchi, R.; Hteck, F. H.; Kawano, S. (1994). "Recognition of the New World Disporum section Prosartes (Liliaceae) based on the sequence data of the rbcL gene.". Taxon. 43 (3): 353–366. JSTOR 1222713. doi:10.2307/1222713.
- Tan, Dun-Yan; Zhang, Zhen; Li, Xin-Rong; Hong De-Yuan, De-Yuan (2005). "Restoration of the genus Amana Honda (Liliaceae) based on a cladistic analysis of morphological characters" (PDF). Acta Phytotaxonomica Sinica (in Chinese). 43 (3): 262–270. doi:10.1360/aps040106. Retrieved 14 September 2015.
- Tison, Jean-Marc; Peterson, Angela; Harpke, Dörte; Peruzzi, Lorenzo (28 November 2012). "Reticulate evolution of the critical Mediterranean Gagea sect. Didymobulbos (Liliaceae) and its taxonomic implications". Plant Systematics and Evolution. 299 (2): 413–438. doi:10.1007/s00606-012-0731-4.
- Turktas, Mine; Metin, Özge Karakaş; Baştuğ, Berk; Ertuğrul, Fahriye; Saraç, Yasemin Izgi; Kaya, Erdal (July 2013). "Molecular phylogenetic analysis of Tulipa (Liliaceae) based on noncoding plastid and nuclear DNA sequences with an emphasis on Turkey". Botanical Journal of the Linnean Society. 172 (3): 270–279. doi:10.1111/boj.12040.
- Vinnersten, A.; Bremer, K. (September 2001). "Age and biogeography of major clades in Liliales". Amer. J. Bot. 88 (9): 1695–1703. PMID 21669704. doi:10.2307/3558415. Retrieved 5 January 2014.
- Vinnersten, Annika; Reeves, Gail (October 2003). "Phylogenetic relationships within Colchicaceae". American Journal of Botany. 90 (10): 1455–62. PMID 21659097. doi:10.3732/ajb.90.10.1455.
- Zarrei, M.; Wilkin, P.; Fay, M. F.; Ingrouille, M. J.; Zarre, S.; Chase, M. W. (17 May 2009). "Molecular systematics of Gagea and Lloydia (Liliaceae; Liliales): implications of analyses of nuclear ribosomal and plastid DNA sequences for infrageneric classification". Annals of Botany. 104 (1): 125–142. PMC 2706717 . PMID 19451146. doi:10.1093/aob/mcp103.
- Zomlefer, W.B.; Williams, N.H.; Whitten, W.M.; Judd, W.S. (2001). "Generic circumscription and relationships in the tribe Melanthieae (Liliales, Melanthiaceae), with emphasis on Zigadenus: evidence from ITS and trnL-F sequence data". American Journal of Botany. 88 (9): 1657–1669. PMID 21669700. doi:10.2307/3558411.
APG
- APG (1998). "An ordinal classification for the families of flowering plants". Annals of the Missouri Botanical Garden. 85 (4): 531–553. JSTOR 2992015. doi:10.2307/2992015.
- APG II (2003). "An Update of the Angiosperm Phylogeny Group Classification for the orders and families of flowering plants: APG II". Botanical Journal of the Linnean Society. 141 (4): 399–436. doi:10.1046/j.1095-8339.2003.t01-1-00158.x.
- APG III (2009). "An Update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG III.". Botanical Journal of the Linnean Society. 161 (2): 105–121. doi:10.1111/j.1095-8339.2009.00996.x. Retrieved 3 January 2014.
- Chase, Mark W; Reveal, James L (2009). "A phylogenetic classification of the land plants to accompany APG III" (PDF). Botanical Journal of the Linnean Society. 161: 122–127. doi:10.1111/j.1095-8339.2009.01002.x. Retrieved 21 April 2015.
- Haston, Elspeth; Richardson, James E.; Stevens, Peter F.; Chase, Mark W.; Harris, David J. (2009). "The Linear Angiosperm Phylogeny Group (LAPG) III: a linear sequence of the families in APG III". Botanical Journal of the Linnean Society. 161 (2): 128–131. doi:10.1111/j.1095-8339.2009.01000.x.
Symposia
- Rudall, P.J.; Cribb, P.J.; Cutler, D.F.; Humphries, C.J., eds. (1995). Monocotyledons: systematics and evolution (Proceedings of the International Symposium on Monocotyledons: Systematics and Evolution, Kew 1993). Kew: Royal Botanic Gardens. ISBN 978-0-947643-85-0. Retrieved 14 January 2014.
- Wilson, K. L.; Morrison, D. A., eds. (2000). Monocots: Systematics and evolution (Proceedings of the Second International Conference on the Comparative Biology of the Monocotyledons, Sydney, Australia 1998). Collingwood, Australia: CSIRO. ISBN 0-643-06437-0. Retrieved 14 January 2014., see also excerpts in Monocots: Systematics and evolution at Google Books
- Columbus, J. T.; Friar, E. A.; Porter, J. M.; Prince, L. M.; Simpson, M. G., eds. (2006). "Symposium issue: Monocots: comparative biology and evolution (excluding Poales). Proceedings of the Third International Conference on the Comparative Biology of the Monocotyledons, 31 Mar–4 Apr 2003". Aliso. Claremont, CA.: Rancho Santa Ana Botanic Garden. 22 (1). ISSN 0065-6275. Retrieved 18 January 2014. Contents
- Anders Barfod; Jerrold I. Davis; Gitte Petersen; Ole Seberg, eds. (2010). Diversity, Phylogeny, and Evolution in the Monocotyledons (Proceedings of the Fourth International Conference on the Comparative Biology of the Monocotyledons and the Fifth International Symposium on Grass Systematics and Evolution, Copenhagen 2008). Aarhus University Press. ISBN 978-87-7934-398-6. Retrieved 18 January 2014.
- Fay, M. F. (19 August 2011). "Diversity, phylogeny, and evolution in the monocotyledons". Annals of Botany (book review) . 108 (5): vi–vii. doi:10.1093/aob/mcr213.
- "MONOCOTS V: 5th International Conference on Comparative Biology of Monocotyledons. New York July 2013". Retrieved 18 January 2014.
Websites
- Lobstein, Marion Blois (May 2013). "Where Have All the Lillies Gone? Long-Time Changin' in the Liliaceous Families". Prince William Wildflower Society. Retrieved 19 April 2015.
- Reveal, James L. (25 November 1997). "Families Placed in Liliaceae by Cronquist". PBIO 250 Lecture Notes. Norton-Brown Herbarium, University of Maryland. Retrieved 19 May 2015.
- Utech, Frederick H. (2003). "Liliaceae". Flora of North America. Retrieved 14 January 2014.
- ICN (2012). "International Code of Nomenclature for algae, fungi, and plants". Bratislava: International Association for Plant Taxonomy. Retrieved 2 February 2014.
- "Lily". Oxford English Dictionary (3rd ed.). Oxford University Press. September 2005. (Subscription or UK public library membership required.)
Databases
- "Liliaceae". eMonocot. Retrieved 15 January 2014.
- Stevens, P.F. (2015) [2001], Angiosperm Phylogeny Website, Missouri Botanical Garden, retrieved 13 April 2015
- GRIN (2015). "GRIN Taxonomy for Plants". Germplasm Resources Information Network. Retrieved 8 August 2014.
- ITIS (2015). "Interagency Taxonomic Information System (ITIS)". Canadian Biodiversity Information Facility. Retrieved 7 August 2015.
- NCBI. "Taxonomy". National Center for Biotechnology Information. Retrieved 8 August 2015.
- Watson, L.; Dallwitz, M.J. (2015). "The families of flowering plants: descriptions, illustrations, identification, and information retrieval". DELTA – DEscription Language for TAxonomy. Retrieved 8 August 2015.
- "World Checklist of Selected Plant Families". Royal Botanic Gardens, Kew. Retrieved 8 August 2015.
- "Liliaceae de Jussieu". Global Biodiversity Information Facility Version [xx]. 2013. Université de Montréal Biodiversity Centre: Database of Vascular Plants of Canada (VASCAN). 2010. doi:10.3897/phytokeys.25.3100. Retrieved 4 February 2014.
- Brands, S.J. (2015). "The Taxonomicon". Universal Taxonomic Services, Zwaag, The Netherlands. Retrieved 11 February 2015.
- "Tropicos". Missouri Botanical Garden. 2015. Retrieved 30 December 2015.
- "The Plant List: a working list of all known plant species. Version: 1.1". Royal Botanic Gardens, Kew and Missouri Botanical Garden. September 2013.
- IPNI (2015). "The International Plant Names Index".
External links
- Media related to Liliaceae at Wikimedia Commons
External identifiers for Liliaceae | |
---|---|
Encyclopedia of Life | 4174 |
GBIF | 7699 |
ITIS | 42633 |
NCBI | 4677 |
Also found in: Wikispecies, Arctos, Paleobiology Database |
- The dictionary definition of Liliaceae at Wiktionary