Commelinaceae
Systematic significance of cell inclusions in Haemodoraceae and allied families: silica bodies and tapetal raphides. (1/6)
This paper presents the first record of silica deposits in tissues of Haemodoraceae and adds new records of tapetal raphides in this family. Within the order Commelinales, silica is present in leaves of three families (Hanguanacaeae, Haemodoraceae and Commelinaceae), but entirely absent from the other two (Pontederiaceae and Philydraceae). Presence or absence of characteristic cell inclusions may have systematic potential in commelinid monocotyledons, although the existing topology indicates de novo gains and losses in individual families. Silica sand was observed in leaves of five out of nine genera examined of Haemodoraceae, predominantly in vascular bundle sheath cells and epidermal cells. Within Haemodoraceae, silica is limited to subfamily Conostylidoideae. The occurrence of silica in Phlebocarya supports an earlier transfer of this genus from Haemodoroideae to Conostylidoideae. The presence of raphides (calcium oxalate crystals) in the anther tapetum represents a rare character, only reported in a few monocot families of the order Commelinales, and possibly representing a mechanism for regulation of cytoplasmic free calcium levels. Tapetal raphides were observed here in Anigozanthus and Conostylis (both Haemodoraceae), and Tradescantia (Commelinaceae), thus supplementing two earlier records in Haemodoraceae, Philydraceae and Commelinaceae. (+info)Foliar mycobiota of Coussapoa floccosa, a highly threatened tree of the Brazilian Atlantic forest. (2/6)
(+info)Does native bromeliads represent important breeding sites for Aedes aegypti (L.) (Diptera: Culicidae) in urbanized areas? (3/6)
(+info)Pollinator effectiveness varies with experimental shifts in flowering time. (4/6)
The earlier flowering times exhibited by many plant species are a conspicuous sign of climate change. Altered phenologies have caused concern that species could suffer population declines if they flower at times when effective pollinators are unavailable. For two perennial wildflowers, Tradescantia ohiensis and Asclepias incarnata, we used an experimental approach to explore how changing phenology affects the taxonomic composition of the pollinator assemblage and the effectiveness of individual pollinator taxa. After finding in the previous year that fruit set varied with flowering time, we manipulated flowering onset in greenhouses, placed plants in the field over the span of five weeks, and measured pollinator effectiveness as the number of seeds produced after a single visit to a flower. The average effectiveness of pollinators and the expected rates of pollination success were lower for plants of both species flowering earlier than for plants flowering at historical times, suggesting there could be reproductive costs to earlier flowering. Whereas for A. incarnata, differences in average seed set among weeks were due primarily to changes in the composition of the pollinator assemblage, the differences for T. ohiensis were driven by the combined effects of compositional changes and increases over time in the effectiveness of some pollinator taxa. Both species face the possibility of temporal mismatch between the availability of the most effective pollinators and the onset of flowering, and changes in the effectiveness of individual pollinator taxa through time may add an unexpected element to the reproductive consequences of such mismatches. (+info)Pointillist structural color in Pollia fruit. (5/6)
Biological communication by means of structural color has existed for at least 500 million years. Structural color is commonly observed in the animal kingdom, but has been little studied in plants. We present a striking example of multilayer-based strong iridescent coloration in plants, in the fruit of Pollia condensata. The color is caused by Bragg reflection of helicoidally stacked cellulose microfibrils that form multilayers in the cell walls of the epicarp. We demonstrate that animals and plants have convergently evolved multilayer-based photonic structures to generate colors using entirely distinct materials. The bright blue coloration of this fruit is more intense than that of any previously described biological material. Uniquely in nature, the reflected color differs from cell to cell, as the layer thicknesses in the multilayer stack vary, giving the fruit a striking pixelated or pointillist appearance. Because the multilayers form with both helicoidicities, optical characterization reveals that the reflected light from every epidermal cell is polarized circularly either to the left or to the right, a feature that has never previously been observed in a single tissue. (+info)Analysing photonic structures in plants. (6/6)
(+info)Commelinaceae is a family of monocotyledonous plants in the order Commelinales, characterized by distichous, sheathing leaves and trimerous flowers with 3 distinct sepals, 3 petals, 3 stamens, and 3 fused carpels.
Commelinaceae is a family of monocotyledonous plants, commonly known as dayflowers or spiderworts. This family includes around 650 species in approximately 43 genera. The plants in this family are typically herbaceous and can be found in a variety of habitats, including tropical and temperate regions. They are characterized by their distinctive flowers, which often have three distinct petals and six stamens. Some members of Commelinaceae are grown as ornamental plants due to the vibrant colors of their flowers.
Commelina3
- The misconstrued and rare species of Commelina (Commelinaceae) in the eastern United States. (bbg.org)
- 2009. Floral organogenesis and the developmental basis for pollinator deception in the asiatic dayflower, Commelina communis (Commelinaceae). (bbg.org)
- 2007. Colored floral organs influence pollinator behavior and pollen transfer in Commelina communis (Commelinaceae). (bbg.org)
Family4
- Commelinaceae is a family of flowering plants. (wikipedia.org)
- The Commelinaceae is a family of 40 genera and over 600 species of monocotyledonous flowering herbs, distributed from Northern temperate to tropical climates. (wikipedia.org)
- The genus Larnalles is in the family Commelinaceae in the major group Angiosperms (Flowering plants) . (theplantlist.org)
- This name is the accepted name of a species in the genus Palisota (family Commelinaceae ). (theplantlist.org)
Genera1
- The genera of Commelinaceae in the southeastern United States. (bbg.org)
Species2
- Plants in the Commelinaceae are usually perennials, but a smaller number of species are annuals. (wikipedia.org)
- Callisia section Cuthbertia ( Commelinaceae ) from the southeastern U.S.A. comprises a polyploid complex, with species of conservation concern, but the extent of polyploidy and the geographic distribution of cytotype diversity are unknown. (pensoft.net)
Flora1
- Plate 18 from The flora of South Africa (vol. 4) featuring Xyridaceae & Commelinaceae. (sun.ac.za)
Pollen1
- The flowers of Commelinaceae are ephemeral, lack nectar, and offer only pollen as a reward to their pollinators. (wikipedia.org)
Clarke1
- Clarke (1881) , in his monograph for Commelinaceae , accepted Pyrrheima , including only P. loddigesii Hassk. (pensoft.net)
Data1
- 2000. Phylogenetic relationships in the Commelinaceae: I. A cladistic analysis of morphological data. (bbg.org)
Flowers1
- Commelinaceae flowers tend to deceive pollinators by appearing to offer a larger reward than is actually present. (wikipedia.org)
Genus2
- This name is the accepted name of a species in the genus Palisota (family Commelinaceae ). (theplantlist.org)
- A plant genus of the family COMMELINACEAE of perennial herbs with blue flowers. (bvsalud.org)
Familia1
- GĂ©nero de plantas de la familia COMMELINACEAE de hierbas perennes con flores azules. (bvsalud.org)
Plant1
- Commelinaceae) is widely cultivated as an ornamental and medicinal plant in Southeast Asia, and its pharmacological properties are well known. (bvsalud.org)