Inflorescence Morphology and Flower Development in Pinguicula Alpina and P

Inflorescence Morphology and Flower Development in Pinguicula Alpina and P

Org Divers Evol (2012) 12:99–111 DOI 10.1007/s13127-012-0074-6 ORIGINAL ARTICLE Inflorescence morphology and flower development in Pinguicula alpina and P. vulgaris (Lentibulariaceae: Lamiales): monosymmetric flowers are always lateral and occurrence of early sympetaly Galina V. Degtjareva & Dmitry D. Sokoloff Received: 31 March 2011 /Accepted: 22 January 2012 /Published online: 20 February 2012 # Gesellschaft für Biologische Systematik 2012 Abstract Earlier interpretations of shoot morphology and Keywords Calyx aestivation . Congenital fusion . flower position in Pinguicula are controversial, and data on Development . Flower . Inflorescence . Lamiales . flower development in Lentibulariaceae are scarce. We pres- Lentibulariaceae . Morphology . Phyllotaxy. ent scanning electron microscopy about the vegetative Pinguicula . Sympetaly shoot, inflorescence and flower development in Pinguicula alpina and P. vulgaris. Analysis of original data and the available literature leads to the conclusion that the general pattern of shoot branching and inflorescence structure is uni- Introduction form in all the Pinguicula species studied so far. The inflores- cence is a sessile terminal umbel that is sometimes reduced to In the vast majority of angiosperms, shoot branching is a solitary pseudoterminal flower. Flower-subtending bracts axillary (gemmaxillary plants, Gatsuk 1974). As a conse- are either cryptic or present as tiny scales. A next order lateral quence, in angiosperm inflorescences, flowers are either shoot develops in the axil of the uppermost leaf, below the terminal or they develop axillary on axes of different order. umbel. It is usually though not always homodromous, i.e., the Flower-subtending bracts represent key architectural direction of the phyllotaxy spiral is the same as in the main markers in inflorescences (Prenner et al. 2009). When sub- shoot. Among Pinguicula species that overwinter as a tending bracts of lateral flowers are missing (ebracteate hibernaculum, the initiation of floral organs takes place in the inflorescences: Troll 1964; Weberling 1989), it is normally same year as flowering in P. vulgaris, and 1 year earlier in assumed that they were ancestrally present but then lost in P. alpina. Early congenital petal fusion (‘early’ sympetaly) is the course of evolution (e.g., Endress 2010). Sometimes, documented in Pinguicula, though most other members of rudiments of flower-subtending bracts can be found in early Lamiales exhibit ‘late’ sympetaly. Sporadic occurrence developmental stages. In ebracteate inflorescences of the of rudiments of two posterior stamens in Pinguicula is model plant Arabidopsis, the presence of cryptic flower- confirmed. A speculation is made that, in angiosperms, mono- subtending bracts is postulated on the basis of comparative symmetric flowers cannot be terminal on shoots bearing more morphology, investigations of gene expression patterns and than two (or three) phyllomes. the re-appearance of bracts in some mutants (Long and Barton 2000;BaumandDay2004; Choob and Penin 2004; Penin 2008). In some taxa, the absence of visible flower-subtending bracts could be due to their incorporation * G. V. Degtjareva ( ) into lateral flowers as a perianth member or by means of Botanical Garden, Biological Faculty, Moscow State University, ‘ ’ Moscow 119991, Russia formation of hybrid structures combining features of a e-mail: [email protected] flower-subtending bract and a perianth member (reviewed in Buzgo and Endress 2000; Buzgo et al. 2006; Remizowa D. D. Sokoloff et al., in press). Department of Higher Plants, Biological Faculty, Moscow State University, There are, however, some flowering plants for which less Moscow 119991, Russia orthodox patterns of flower arrangement have been reported. 100 G.V. Degtjareva, D.D. Sokoloff Among them, considerable attention has been paid to water Brunaud and Turlier 1971; see also Fischer et al. 2004: lilies, a group belonging to the basal grade of angiosperms. reported for P. lusitanica, P. villosa, and P. vulgaris); (3) Many authors interpret flowers of Nymphaea as being extra- each flower in Pinguicula occupies a morphologically ter- axillary and replacing some leaf sites along the genetic spiral on minal position; it is displaced in a lateral position by a new the rhizome (Raciborski 1894; Cutter 1961; Weidlich 1976; leaf rosette developing in the axil of the uppermost foliage Schneider et al. 2003;Grobetal.2006), while others suggest leaf (Grob et al., 2007: reported for P. moranensis). that the apparent position of flowers in the same spiral as the Apart from considerable discrepancies among views on leaves is due to a reduction of the subtending leaf component of the morphological nature of flower arrangement in Pingui- a primordium that would potentially give rise to both a sub- cula, the previously examined species do not cover all major tendingleafandanaxillarybud(Chassat1962;Endressand groups of the genus. Cieslak et al. (2005) recognized five Doyle 2009). Similar problems exist with the interpretation of major clades of Pinguicula based on analyses of plastid flower arrangement and shoot branching patterns in several markers, and their results are generally congruent with anal- other members of the order Nymphaeales (Sokoloff et al. 2009). yses of a nuclear marker (Degtjareva et al. 2006). The Another angiosperm lineage with unusual branching pat- species studied earlier in relation to flower position on the terns is the euasterid family Lentibulariaceae (the bladder- shoot belong to Clade I of Mexican/Central American/ wort family) that belongs to the order Lamiales (APG, III Caribbean species (P. moranensis), Clade III of mainly East The Angiosperm Phylogeny Group 2009). The members of Asian species (P. vil lo sa), Clade IV of Holarctic species the family are carnivorous, often aquatic plants. The struc- (P. vulgaris) and Clade V, which is characterized by a ture of vegetative organs is highly modified in the largest tropical growth type (P. lusitanica). In this article, we report genus of the family, Utricularia, and the precise recognition developmental data on P. alpina, which belongs to the of principal organ categories (roots, stems and leaves) is monospecific Clade II. Although P. alpina is an arctic- problematic (Rutishauser and Sattler 1989; Sattler and alpine Eurasian species (Casper 1966), molecular phyloge- Rutishauser 1990; Rutishauser and Isler 2001; Jeune et al. netic data show its sister-group relationships to Clade I of 2006). Nevertheless, inflorescence organization and devel- tropical American species (Cieslak et al. 2005,butsee opment appear to be normal in Utricularia, and flowers of Degtjareva et al. 2006). The molecular phylogenetic place- most species are arranged into bracteate racemes (Eichler ment of P. alpina contradicts earlier views (e.g., Casper 1875; Kamienski 1891; Taylor 1989; Kirchoff et al. 2008). 1966) and has no obvious morphological support (Cieslak The second-largest genus of the family Lentibulariaceae et al. 2005). Apart from P.alpina,wehavemadeobservations is Pinguicula, comprising about 100 species (Degtjareva et of shoot structure and flower arrangement in P. vulgaris, al. 2006; Casper and Stimper 2009) distributed in arctic, because two different morphological interpretations are temperate and tropical areas of Eurasia, Africa and America available in the literature for this species. (Casper 1966). Like other members of the family, species of Erbar (1991) and Erbar and Leins (2011) highlighted the Pinguicula are carnivorous plants that usually grow in phylogenetic significance of characters related to early flow- nutrient-poor habitats. Unlike Utricularia, Pinguicula is char- er development (especially the mode of the formation of the acterized by well-recognizable roots, stem and leaves, though corolla tube) in asterids. Despite extensive recent investiga- the roots are unusual in having no root cap (Rutishauser and tions of flower development and evolution in the members Isler 2001;Kirchoffetal.2008). The leaves of Pinguicula are of the order Lamiales (sensu APG, III The Angiosperm entire and form a basal rosette. Phylogeny Group 2009) (e.g., Endress 1994, 1998, 1999, Flower arrangement of Pinguicula is, however, a subject 2001; Donoghue et al. 1998; Reeves and Olmstead 1998;Bello of controversy. Among foliage leaves of the rosette, one can et al. 2004;Sehr2005; Mayr and Weber 2006;Borgetal.2008; see a number of flowers on long stalks. Most commonly, Borg and Schönenberger 2011; Erbar and Güldena 2011), one to three flowers are formed. Although flowers of detailed developmental data for several families, including Pinguicula are sometimes reported to be axillary (e.g., Lentibulariaceae, are still absent (Erbar and Leins 2011). Pub- Heslop-Harrison 2004), most authors admit that no individ- lished data on flower development in Pinguicula and other ual leaf can be recognized as a flower-subtending phyllome. Lentibulariaceae are fragmentary. So far, the most comprehen- Several hypotheses have been proposed to explain the posi- sive developmental study is the extensively illustrated work of tion of flowers on the shoot of Pinguicula: (1) like those of Dickson (1869)onflowersofP. vulgaris, which was based on Nymphaea,flowersofPinguicula are lateral and extra- observations made using light microscopy. Grob et al. (2007) axillary, substituting some leaf sites along the same genetic documented some stages of flower development in P. mora- spiral (Raju 1969: reported for P. vulgaris); (2) the flowers

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