Liliales is an order of monocotyledonous flowering plants in the Angiosperm Phylogeny Group and Angiosperm Phylogeny Web system, within the lilioid monocots. This order of necessity includes the family Liliaceae. The APG III system (2009) places this order in the monocot clade. In APG III, the family Luzuriagaceae is combined with the family Alstroemeriaceae and the family Petermanniaceae is recognized. Both the order Lililiales and the family Liliaceae have had a widely disputed history, with the circumscription varying greatly from one taxonomist to another. Previous members of this order, which at one stage included most monocots with conspicuous tepals and lacking starch in the endosperm are now distributed over three orders, Liliales, Dioscoreales and Asparagales, using predominantly molecular phylogenetics. The newly delimited Liliales is monophyletic, with ten families. Well known plants from the order include Lilium (lily), tulip, the North American wildflower Trillium, and greenbrier.

Liliales
Temporal range: 120–0 Ma Early Cretaceous- Recent
Lilium candidum
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Monocots
Order: Liliales
Perleb (1826)[1][2]
Type species
Lilium candidum
Families

Alstroemeriaceae
Campynemataceae
Colchicaceae
Corsiaceae
Liliaceae
Melanthiaceae
Petermanniaceae
Philesiaceae
Ripogonaceae
Smilacaceae

Synonyms[3]

Liliiflora

Thus circumscribed, this order consists mostly of herbaceous plants, but lianas and shrubs also occur. They are mostly perennial plants, with food storage organs such as corms or rhizomes. The family Corsiaceae is notable for being heterotrophic.

The order has worldwide distribution. The larger families (with more than 100 species) are roughly confined to the Northern Hemisphere, or are distributed worldwide, centering on the north. On the other hand, the smaller families (with up to 10 species) are confined to the Southern Hemisphere, or sometimes just to Australia or South America. The total number of species in the order is now about 1768.

As with any herbaceous group, the fossil record of the Liliales is rather scarce. There are several species from the Eocene, such as Petermanniopsis anglesaensis or Smilax, but their identification is not definite. Another known fossil is Ripogonum scandens from the Miocene. Due to the scarcity of data, it seems impossible to determine precisely the age and the initial distribution of the order. It is assumed that the Liliales originate from the Lower Cretaceous, over 100 million years ago. Fossil aquatic plants from the Cretaceous of northeastern Brazil and a new terrestrial species placed in the new genus Cratosmilax suggest that the first species have appeared around 120 million years ago when the continents formed Pangea, before dispersing as Asia, Africa and America.[4] The initial diversification to the current families took place between 82 and 48 million years ago.[5] The order consists of 10 families, 67 genera and about 1,768 species.

Description

edit

The Liliales are a diverse order of predominantly perennial erect or twining herbaceous and climbing plants. Climbers, such as the herbaceous Gloriosa (Colchicaceae) and Bomarea (Alstroemeriaceae), are common in the Americas in temperate and tropical zones, while most species of the subtropical and tropical genus Smilax (Smilacaceae) are herbaceous or woody climbers and comprise much of the vegetation within the Liliales range. They also include woody shrubs, which have fleshy stems and underground storage or perennating organs, mainly bulbous geophytes, sometimes rhizomatous or cormous.[6] Leaves are elliptical and straplike with parallel venation or ovate with palmate veins and reticulate minor venation (Smilacaceae). In Alstroemeria and Bomarea (Alstroemeriaceae) the leaves are resupinate (twisted).[7][8][9]

Liliales
Colchicum autumnale (Colchicaceae)
Tulipa humilis (Liliaceae):
Bulbs
Floral morphology
Tulipa clusiana (Liliaceae):
Six undifferentiated tepals
Lilium (Liliaceae):
Stigma, style, stamens (anthers, filaments) and tepals
Lilium:
Extrorse anthers

The flowers are highly variable, ranging in size from the small green actinomorphic (radially symmetric) blooms of Smilax to the large showy ones found in Lilium, Tulipa and Calochortus (Liliaceae) and Lapageria (Philesiaceae). Sepals and petals are undifferentiated from each other, and known as tepals, forming a perianth. They are usually large and pointed and may be variegated in Fritillaria (Liliaceae). Nectaries may be perigonal (at base of tepals) but not septal (on ovaries). Perigonal nectaries may be a simple secretory epidermal region at the tepal bases (Lapageria) or small, depressed regions fringed with hairs, often with glandular surface protuberances, at the bases of the inner tepals (Calochortus), while in Tricyrtis the tepals become bulbous or spur-like at the base, forming a nectar-containing sac. Ovaries may be inferior or superior, the style often long and stigma capitate (pin headed). In a number of taxa there are three separate styles, particularly some Melanthiaceae s.l. (e.g. Helonias, Trillium, Veratrum) and Chionographis. The outer integument epidermis of the seed coat is cellular, and the phytomelanin pigment is lacking. The inner integument is also cellular and these features are plesiomorphic.[7][8][9]

The Liliales are characterised by (synapomorphies) the presence of nectaries at the base of the tepals (perigonal nectaries) or stamen filaments (Colchicum, Androcymbium) most taxa but the absence of septal nectaries,[10] together with extrorse (outward opening) anthers. This distinguishes them from the septal nectaries and introrse anthers that are the features of most other monocots.[5][8] Exceptions are some Melanthiaceae in which nectaries are absent or septal and anthers that are introrse (dehiscence directed inwards) in Campynemataceae, Colchicaceae, and some Alstroemeriaceae, Melanthiaceae, Philesiaceae, Ripogonaceae and Smilacaceae. Tepals are largely three-traced in net-veined taxa of Liliales (e.g. Clintonia, Disporum), distinguishing them from the single-traced Asparagales, and is associated with the presence of tepal nectaries, presumably to supply them. The presence of separate styles is also a distinguishing feature from Asparagales, where it is rare. Phytomelan is completely absent in Liliales seed coats, unlike Asparagales, which nearly all contain it.[11][8]

Phytochemistry

edit

The stems contain fructans, the plants also contain chelidonic acid, saponins, while some species contain velamen. The epicuticular wax is of the Convallaria type, consisting of parallel orientated platelets.[12]

Genome

edit

The order includes taxa with some of the largest genomes among Angiosperms,[13] particularly Melanthiaceae, Alstroemeriaceae and Liliaceae.[14]

Taxonomy

edit

With 11 families, about 67 genera and about 1,558 species, Liliales is a relatively small angiosperm order, but a large group within the monocotyledons.[9][15]

History

edit

Origins

edit

The botanical authority for Liliales is given to Perleb (1826), who grouped eleven families (Asparageae, Pontederiaceae, Asphodeleae, Coronariae,[a] Colchicaceae, Dioscoreaceae, Hypoxideae, Amaryllideae, Haemodoraceae, Burmanniaceae, Irideae) into an order he called Liliaceae.[17] In Perleb's system, he divided the vascular plants into seven classes, of which the Phanerogamicae or seed plants he called his class IV, or Ternariae. The latter, he divided into five orders (ordo), including the Liliaceae.[17]

A number of later taxonomists, such as Endlicher (1836) substitituted the term Coronarieae for this higher order, including six subordinate taxa. Endlicher divided the Cormophyta into five sections, of which Amphibrya contained eleven classes, including Coronarieae.[18] The term Liliales was introduced by Lindley (1853),[19] referring to these higher orders as alliances. Lindley included four families in this alliance. Lindley called the monocots class Endogenae, with eleven alliances including Liliales.[19] Although Bentham (1877) restored Coronariae as one of seven Series making up the monocotyledons,[20] it was replaced by Liliiflorae and then Liliales in subsequent publications (see Table for history).[21]

Phyletic systems

edit

Subsequent authors, now adopting a phylogenetic (phyletic) or evolutionary approach over the natural method,[22] did not follow Bentham's nomenclature. Eichler (1886) used Liliiflorae for the higher order including Liliaceae, placing it as the first order (Reihe) in his class monocotyledons,[23] as did Engler (1903),[24] Lotsy (1911),[25] and Wettstein in 1924, in class Monocotyledones, subdivision Angiospermae.[26]

Hutchinson (1973)[27] restored Liliales for the higher rank, an approach that has been adopted by most major classification systems onwards, reserving Liliiflorae for higher ranks. These include Cronquist (1981),[28] Dahlgren (1985),[29] Takhtajan (1997)[30] as well as Thorne and Reveal (2007).[31]

Hutchinson (1973) derived a more elaborate hierarchy, placing order Liliales as one of 14 in division Corolliferae, one of three divisions of subphylum monocotyledons. Cronquist (1981) placed the order Liliales as one of two in subclass Liliidae, one of five in the class Liliopsida (monocotyledons) of division Magnoliophyta (angiosperms). Dahlgren (1985) made Liliales one of six orders in Superorder Liliiflorae, one of ten divisions of the monocots. Takhtajan (1997) had a more complex system of higher taxonomic ranks, placing Liliales as one of 15 orders within superorder Lilianae, one of four within subclass Liliidae. Liliidae in turn was one of four subclasses in class Liliopsida (monocots).[32] In contrast Thorne and Reveal (2007) abandoned the use of monocotyledons as a distinct taxon, replacing it with 3 separate subclasses of Magnoliopsida (angiosperms), of which Liliidae consists of 3 superorders, placing Liliales in superorder Lilianae.[31]

In all these systems, Liliales (or Liliiflorae) were visualised as either a direct division of the monocots (or equivalent) or were placed in an intermediate division of the monocots, such as superorder Lilianae.[33]

Molecular phylogenetic systems

edit

The development of molecular phylogenetic methods for determining taxonomic circumscription and phylogeny led to considerable revision of angiosperm classification,[34] and establishment of Liliales as a monophyletic group.[35][36][8] It was clear by 1996, that the most useful system to date, that of Dahlgren, required urgent revision.[34] The new classification was formalised with the creation of the Angiosperm Phylogeny Group (APG) system (1998–2016),[37][38] based on monophyletic clades, which continued the use of Liliales as the name for the taxon.[39]

The Angiosperm Phylogeny Group APG system (1998) established a structure of monocot classification with ten orders.[37] Notable was the separation of asparagids, as suggested by Dahlgren,[10] into Asparagales, with other taxa placed in Dioscoreales, resulting in a much reduced order.[9][8]

Phylogeny

edit

The position of Liliales within the monocots (Lilianae) is shown in the following cladogram. The monocot orders form three grades, the alismatid monocots, lilioid monocots and the commelinid monocots by order of branching, from early to late. These have alternatively been referred to as Alismatanae, Lilianae and Commelinanae.[10] The alismatid monocots form the basal group, while the remaining grades (lilioid and commelinid monocots) have been referred to as the "core monocots".[40] The relationship between the orders (with the exception of the two sister orders) is pectinate, that is diverging in succession from the line that leads to the commelinids.[41] The lilioid monocot orders constitute a paraphyletic assemblage, that is groups with a common ancestor that do not include all direct descendants (in this case commelinids which are a sister group to Asparagales); to form a clade, all the groups joined by thick lines would need to be included. In the cladogram the numbers indicate crown group (most recent common ancestor of the sampled species of the clade of interest) divergence times in mya (million years ago).[42]

Cladogram 1: The phylogenetic composition of the monocots[38][43]
Lilianae sensu Chase & Reveal (monocots) 131[44]
          

Acorales

Alismatales

122
          

Petrosaviales

120

Liliales 121

121

Asparagales 120

commelinids 118
          

Arecales

Poales

          

Commelinales

Zingiberales

Biogeography and evolution

edit

The crown group of Liliales has been dated to ca. 117 Myr (million years ago) in the Early Cretaceous period of the Mesozoic era.[45][40]

Subdivision

edit

The circumscription of Liliales has varied greatly since Perleb's original construction with 11 families in 1826.[8] Many of these families are now considered to be in Asparagales, with the remainder in commelinids and Dioscoreales, as shown in this table.

Liliales families in progressive taxonomic schemes
Perleb
(1826)[17]
Endlicher
(1836)[18]
Lindley
(1853)[19]
Bentham & Hooker
(1883)[20]
Eichler
(1886)[23]
Engler
(1903)[24]
Lotsy
(1911)[25]
Wettstein
(1924)[26]
Hutchinson
(1973)[27]
Cronquist
(1981)[28]
Dahlgren
(1985)[29]
Takhtajan (1997)[30] Thorne & Reveal (2007)[31] APG IV (2016)[38]
Liliaceae Coronarieae Liliales Coronariae Liliiflorae Liliiflorae Liliiflorae Liliiflorae Liliales Liliales Liliales Liliales Liliales Liliales
AsparageaeA Asparagaceae
AsphodeleaeA Asphodelaceae
Colchicaceae Colchicaceae Colchicaceae Colchicaceae
Coronariae Liliaceae Liliaceae Liliaceae Liliaceae Liliaceae Liliaceae Liliaceae Liliaceae Liliaceae Liliaceae Liliaceae Liliaceae Liliaceae
AmaryllideaeA Amaryllidaceae Amaryllidaceae Amaryllidaceae
Pontederiaceaec Pontederiaceae Pontederiaceae Pontederiaceae Pontederiaceae Pontederiaceae Pontederiaceae
DioscoreaceaeD Dioscoreaceae Dioscoreaceae Dioscoreaceae Dioscoreaceae Dioscoreaceae
HypoxideaeA Hypoxidaceae
Haemodoraceaec Haemodoraceae Haemodoraceae Haemodoraceae Haemodoraceae Haemodoraceae
BurmanniaceaeD Burmanniaceae Burmanniaceae
IrideaeA Iridaceae Iridaceae Iridaceae Iridaceae Iridaceae Iridaceae
Juncaceaec Juncaceae Juncaceae Juncaceae Juncaceae
Philydriaec Philydraceae Philydraceae Philydraceae
Melanthaceae Melanthaceae Melanthaceae Melanthiaceae Melanthiaceae Melanthiaceae
Smilaceae Smilaceae Smilacaceae Smilacaceae Smilacaceae Smilacaceae
GilliesiaceaeA Gilliesiaceae
RoxburghiaceaeP Stemonaceae Stemonaceae Stemonaceae Stemonaceae
Xyrideaec
Mayaceaec
Commelinaceaec
Rapateaceaec Rapateaceae
Bromeliaceaec Bromeliaceae| Bromeliaceae
VelloziaceaeP Vellosiaceae Velloziaceae Velloziaceae
TaccaceaeD Taccaceae Taccaceae Taccaceae
AloinaceaeA
EriospermaceaeA
JohnsoniaceaeA
AgapanthaceaeA
AlliaceaeA
Tulipaceae
ScillaceaeA
DracaenaceaeA
Luzuriagaceae Luzuriagaceae
OphiopogonaceaeA
LomandraceaeA
Dasypogonaceaec
Calectasiaceaec
Flagellariaceaec
Cyanastraceaec Cyanastraceae Cyanastraceae
AgavaceaeA Agavaceae
TecophilaeaceaeA
Trilliaceae Trilliaceae (in Melanthiaceae)
RuscaceaeA
XanthorrhoeaceaeA
Alstroemeriaceae Alstroemeriaceae Alstroemeriaceae
Uvulariaceae (in Colchicaceae
Liliaceae)
Calochortaceae (in Liliaceae)
GeosiridaceaeA
Medeolaceae (in Liliaceae)
Corsiaceae Corsiaceae
Campynemataceae Campynemataceae
Petermanniaceae Petermanniaceae
Rhipogonaceae Ripogonaceae
Philesiaceae Philesiaceae
Treatment of families in modern taxonomy (APG), remaining families included in Liliales:

The availability of molecular phylogenetic methods suggested four main lineages within Liliales, and seven families;[8]

  1. Liliaceae group: Liliaceae (including some former Uvulariaceae and Calochortaceae), and Smilacaceae (including Ripogonaceae and Philesiaceae)
  2. Campynemataceae
  3. Colchicaceae group: Colchicaceae (including Petermannia and Uvularia), Alstroemeriaceae and Luzuriaga
  4. Melanthiaceae (including Trilliaceae)

The first Angiosperm Phylogeny Group classification (APG I) in 1998 had the following circumscription, with 9 families, having separated Philesiaceae and Ripogonaceae from Smilacaceae:[37]

The APG II system (2003) added Corsiaceae to the Liliales,[46] while APG III (2009) added Petermanniaceae and merged Luzuriagaceae into Alstroemeriaceae.[2] The subsequent revision of APG IV (2016) left this unchanged, with 10 families.[38]

The exact phylogenetic relationship between the families of Liliales has been subject to revision. This cladogram shows that of the Angiosperm Phylogeny Website (2020):[47][11]

The bulk of the Liliales species are found in the very diverse family Liliaceae (16 genera, 610 species). Of the remaining nine families, three are referred to as the vine families (Ripogonaceae, Philesiaceae and Smilacaceae) and form a cluster.[11]

Families

edit
 
Corsia ornata

Corsiaceae

edit

The Corsiaceae (ghost-flower family) are a very small family of 3 mycoheterotrophic genera, lacking chlorophyll, with 27 species of perennial herbaceous plants. They are found in montane forests in South America (one genus) and from southern China to northern Australia in areas with high rainfall, and among dense leaf litter. The majority of species occur in the type genus Corsia. The name commemorates the Florentine plant collector Marquis Bardo Corsi Salviati (1844–1907).[48][49]

 
Campynema lineare

Campynemataceae

edit

The Campynemataceae (Green-mountainlily family) are a very small family of two genera and four species of rhizomatous herbaceous plants found in Tasmania and New Caledonia. The name is derived from the Greek words kampylos (curved) and nema (thread).[48][49]

 
Veratrum album

Melanthiaceae

edit

The Melanthiaceae (Wake Robin family) is a family of perennial herbaceous plants, whose storage organs include bulbs, rhizomes and corms (rarely, e.g. Schoenocaulon). Their distribution is temperate and boreal Northern hemisphere, in the Americas extending south to the Andes and in Asia to the Himalayas and Taiwan. Melanthiaceae consists of 17 genera and 173 species distributed in a number of subdivisions. The largest genus is Trillium (44 species) but many genera are monotypic. A number of genera, including Trillium are used as garden ornamentals, especially for woodland gardens. Paris japonica is noted for having the largest genome known to date. The family name is derived from the Greek words melas (black) and anthos (flower) in reference to the dark colour of the petals. [48][49]

 
Petermannia cirrosa

Petermanniaceae

edit

The Petermanniaceae (Petermann's vine family) consists of a single species, Petermannia cirrosa, a perennial woody vine with underground rhizomes. Petermannia is restricted to Queensland and New South Wales, in temperate rainforests between Brisbane and Sydney. The family was named for Wilhelm Ludwwig Petermann (1806–1855), director of the botanical garden at Leipzig.[48][49]

 
Colchicum autumnale

Colchicaceae

edit

The Colchicaceae (Naked-ladies or Colchicum family) are perennial erect and climbing plants with underground corms, tubers and rhizomes. They are herbaceous with the exception of Kuntheria which has a somewhat woody stem. Their distribution is widespread including in temperate zones in North America, Europe, North Africa and the Middle east and tropical zones in Africa, Asia and Australasia. They are absent from South America. The family is of medium size with 15 genera and about 285 species. The largest genus is the type genus, Colchicum, with 159spp. Although the alkaloids, which characterise them, they contain are toxic to animals and humans, Colchicine has usage medicinally and in botanical laboratories. They are also include popular garden and indoor ornamentals. These include Colchicum and Gloriosa. The family is named after Colchis on the eastern Black Sea.[48][49][9]

 
Alstroemeria pelegrina

Alstroemeriaceae

edit

The Alstroemeriaceae (Inca-lily family) are erect or creeping perennial (rarely annual) herbaceous plants with occasional shrubby vines, some of which have evergreen stems. They are occasionally epiphytic and form often swollen rhizomes. They are found in tropical and temperate Central and South America, as well as Australasia. There are two large genera (Alstroemerieae), the erect Alstroemeria (S America 125 spp.) and twining Bomarea (Central & S America 122 spp.) and two very small genera (Luzuriageae) with 2 and 4 species each, for a total of 253 species in the family. Two species are widely used for food in S America, Alstroemeria ligtu is used for a flour (Chuño) that is extracted from its roots, while the tubers of Bomarea edulis are directly consumed. Luzuriaga radicans, also from S America, produces fibre used in rope making. Alstroemeria cultivars are popular ornamentals and widely used as cut flowers (Peruvian lilies). The family is named for Baron Clas Alströmer (1736–1794), a student of Linnaeus.[48][49]

 
Ripogonum scandens

Ripogonaceae

edit

The Ripogonaceae (Supplejack family) is a very small family, with a single genus, Ripogonum and six species. They are woody evergreen shrubs and vines arising from a horizontal rhizome, swollen at its base to form a tuber. They are confined to Eastern Australasia, with the type species, Ripogonum scandens as the sole New Zealand species. The stems have a use in basketry and building and the young shoots are edible. The name is derived from two Greek words, ripos (wicker) and gony (node) in reference to their node bearing shoots.[48][49]

 
Philesia magellanica

Philesiaceae

edit

The Philesiaceae (Chilean-bellflower family) are a very small family consisting of two monotypic genera, the two species being Philesia magellanica and the similar Lapageria rosea. They grow from a short woody rhizome, forming shrubs and vines respectively. They are found in the cool temperate forest of central and southern Chile, Magellan straits and adjacent Argentina, among the southern beech (Nothofagus) trees. Lapageria is the national flower of Chile and a popular ornamental with edible fruit. The name is thought to be related to the Greek word phileo (love), because of the attractiveness of its flowers.[48]

 
Smilax aspera

Smilacaceae

edit

The Smilacaceae (Catbrier family) consist of a single large genus, Smilax, with about 210 species,[50] making it the second largest family of the order, after Liliaceae. They are perennial vines, shrubs or herbaceous, sometimes woody, plants with short fibrous woody (sometimes tuberous) rhizomes. Smilacaceae are pantropical with extension into temperate zones north (N America, Mediterranean, Russian Far East) and south (Eastern Australia). A number of species have been used in traditional medicine and as foodstuffs. Smilax china was used to treat gout. S. aristolochiifolia was used to treat syphilis (but later as sarsaparilla to flavor root beer and confectionary). The fruit of S. megacarpa is consumed in conserves. The young shoots of many species are also edible. The family is named after the Greek myth of the affair between the mortal Krokos (or Crocus) and the nymph Smilax, whose punishment was to be turned into the prickly vine Smilax aspera.[48]

 
Lilium candidum

Liliaceae

edit

The lily family, Liliaceae, are the largest Liliales family, with 15 genera and about 700 species, though much reduced from earlier circumscriptions, in four subfamilies. Of these genera, Gagea is the largest (204 spp.), but some are quite small, with Medeola being monotypic. They are perennial herbaceous plants, growing from bulbs or corms (rarely creeping rhizomes), with actinomorphic hypogynous flowers that are often coloured and patterned. They are predominantly northern temperate in distribution, with extension to subtropical areas of N Africa, India, China and Luzon, but are absent from the southern hemisphere. The bulbs have been used as foodstuffs or in traditional medicine. Cardiocrinum cordatum and Erythronium japonicum are sources of starch. Many Liliaceae are important in the floriculture and horticulture industries, particularly Tulipa and Lilium, but also Fritillaria. Many are also important ornamentals, such as Calochortus, Cardiocrinum, Clintonia, Erythronium and Tricyrtis. The name is derived from the Latin word for lily, lilium, which in turn is derived from the Greek leirion, a white lily.[48][49][40]

Distribution and habitat

edit

Widely distributed but most commonly found in subtropical and temperate regions, especially herbaceous taxa in temperate regions of the Northern Hemisphere, and subtropical regions of the Southern hemisphere, including vines.[8] Since many species are cultivated they have been introduced in many regions and consequently worldwide, and a number have subsequently escaped and naturalised.[9]

Uses

edit

Liliales form important sources of food and pharmaceuticals as well as playing a significant role in horticulture and floriculture as ornamental plants. Pharmaceutical products include colchicine from Colchicum and Gloriosa (Colchicaceae) and veratrine and related compounds from Veratrum (Melanthiaceae) and Zigadenus (Melanthiaceae).[9]

Notes

edit
  1. ^ Coronariae used sensu Agardh (1825),[16] that is corresponding to Linnaeus' Liliaceae

References

edit
  1. ^ WFO 2019.
  2. ^ a b APG III 2009.
  3. ^ Reveal 2012.
  4. ^ Flaviana et al 2014.
  5. ^ a b Vinnersten & Bremer 2001.
  6. ^ Byng 2014, p. 61.
  7. ^ a b Stevenson et al. 2000.
  8. ^ a b c d e f g h i Rudall et al 2000.
  9. ^ a b c d e f g Traub & Kress 2016.
  10. ^ a b c Kubitzki, Rudall & Chase 1998.
  11. ^ a b c Givnish et al 2016.
  12. ^ Kubitzki & Huber 1998, p. 20.
  13. ^ Soltis et al 2003.
  14. ^ Leitch et al 2005.
  15. ^ Simpson 2011.
  16. ^ Agardh 1825.
  17. ^ a b c Perleb 1826.
  18. ^ a b Endlicher 1836.
  19. ^ a b c Lindley 1853.
  20. ^ a b Bentham & Hooker 1883.
  21. ^ Singh 2010, p. 312ff..
  22. ^ Stuessy 2009, p. 43.
  23. ^ a b Eichler 1886, p. 34.
  24. ^ a b Engler 1903, p. 93.
  25. ^ a b Lotsy 1911.
  26. ^ a b Wettstein 1924.
  27. ^ a b Hutchinson 1973.
  28. ^ a b Cronquist 1981.
  29. ^ a b Dahlgren et al 1985.
  30. ^ a b Takhtajan 1997.
  31. ^ a b c Thorne & Reveal 2007.
  32. ^ Reveal 1997.
  33. ^ Singh 2019, pp. 239–273.
  34. ^ a b Chase et al 2000.
  35. ^ Fay et al 2005.
  36. ^ Petersen et al 2013.
  37. ^ a b c APG I 1998.
  38. ^ a b c d APG IV 2016.
  39. ^ Zomlefer, Wendy B.; Whitten, W. Mark; Williams, Norris H.; Judd, Walter S. (2006). "Infrageneric Phylogeny of Schoenocaulon (Liliales: Melanthiaceae) with Clarification of Cryptic Species Based on Its Sequence Data and Geographical Distribution". American Journal of Botany. 93 (8): 1178–1192. doi:10.3732/ajb.93.8.1178. ISSN 0002-9122. JSTOR 4122805. PMID 21642183.
  40. ^ a b c Anderson & Janssen 2009, p. 205.
  41. ^ Davis et al. 2013
  42. ^ Hertwick et al. 2015.
  43. ^ Stevens 2019a.
  44. ^ Chase & Reveal 2009
  45. ^ Janssen & Bremer 2004.
  46. ^ APG II 2003.
  47. ^ Stevens 2019.
  48. ^ a b c d e f g h i j Christenhusz et al 2017.
  49. ^ a b c d e f g h Byng 2014.
  50. ^ Qi et al 2013.

Bibliography

edit

Books and symposia

edit
Taxonomic systems

Historical sources

edit

Chapters

edit

Articles

edit
APG

Websites

edit

Further reading

edit

Books and symposia

edit

Historical sources

edit

Articles

edit

Websites

edit