Turnera subulata

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Turnera subulata
Turnera subulata (2).jpg
Scientific classification OOjs UI icon edit-ltr.svg
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Malpighiales
Family: Passifloraceae
Genus: Turnera
Species:
T. subulata
Binomial name
Turnera subulata
Sm.
Synonyms [1]
  • Turnera elegansOtto
  • Turnera mollisKunth
  • Turnera peruvianaWilld.
  • Turnera sericeaKunth

Turnera subulata is a species of flowering subshrub [2] in the passionflower family known by the common names white buttercup, sulphur alder, politician's flower, dark-eyed turnera, [3] and white alder. [3] [4] Despite its names, it is not related to the buttercups or the alders. It is native to Central and South America, from Panama south to Brazil. It is well known in many other places as an introduced species, such as Malaysia, Indonesia, several other Pacific Islands, the Caribbean, and Florida in the United States. [1] [5]

Contents

It is commonly cultivated as a garden flower, [5] but because of its high adaptability, it is also known as a garden weed. [6]

Growth

This plant is a perennial herb growing from a thick taproot and woody stem base. It reaches a maximum height around 80 cm (31 in). The leaves are roughly oval in shape with toothed edges. The undersides are glandular and coated in white hairs. The upper surfaces may be somewhat hairy, as well. The leaves are up to 9 cm (3.5 in) long. [4]

Flower

Parts of the flower and leaf of Turnera subulata Turnera subulata parts.jpg
Parts of the flower and leaf of Turnera subulata

Flowers occur in the leaf axils, borne in calyces of hairy, glandular sepals. The flowers are a disc- to funnel-shape, [7] and the petals are rounded to oval, the longest exceeding 3 cm (1.2 in). [4] They are white or yellowish with darker bases. [3] The dark patches at the bases are nectar guides. [7] The center of the flower is rough, feeling like a cat's tongue. [3] The flowers grow year round, and they tend to open in the early morning and close at about 11 a.m. [6]

The plant is pollinated by a variety of insects. A common pollinator is the bee species Protomeliturga turnerae which prefers only its nectar and depend completely on it for reproduction. The male bee builds his territory around the plant, for example. Other insects observed at the plant include many other bee species, such as Trigona spinipes , Frieseomelitta doederleinii , and Plebeia flavocinta , butterflies such as Nisoniades macarius and Urbanus dorantes , and the beetle Pristimerus calcaratus . [7]

Fruit and seeds

The fruit is a hairy capsule containing seeds with white arils. [4] The seeds are dispersed by ants, who are likely attracted to their high lipid content. [8]

Appearance

Like most other Turnera, [7] this species is heterostylous, with two morphs. The "pin" morph has long styles in its flowers, while the "thrum" morph has short styles. Both morphs produce the same amount of pollen. One study reported that during pollination, pin flowers receive more pollen from thrum flowers than from other pin flowers. [9] The genes that cause this dimorphism in style size are the subject of current research. So far, it has been established that short styles contain proteins, polygalacturonases, that are absent in long styles. [10]

Traditional medicine

This plant, like other plants of the Turnera genus, [11] is wildly used in traditional medicine [12] for centuries, [2] mainly in tropical and subtropical regions. [11] In South America, its leaf extract is used to treat many conditions, such as diabetes, hypertension, tumors, influenza, chronic pain and inflamation. [11] [13] It is mainly used in the northeastern region of Brazil, where it is also used to treat amenorrhea and dysmenrrhea, being consumed as tea or infusions. [11] [6]

While little is known about its medicinal proprieties, the species has shown antioxidant, antibacterial and anti-inflamatory effects in tests, [2] [13] as well as modulating the effects of some drugs. [14]

Related Research Articles

<span class="mw-page-title-main">Pollinator</span> Animal that moves pollen from the male anther of a flower to the female stigma

A pollinator is an animal that moves pollen from the male anther of a flower to the female stigma of a flower. This helps to bring about fertilization of the ovules in the flower by the male gametes from the pollen grains.

<span class="mw-page-title-main">Hoverfly</span> Family of insects

Hoverflies, also called flower flies or syrphids, make up the insect family Syrphidae. As their common name suggests, they are often seen hovering or nectaring at flowers; the adults of many species feed mainly on nectar and pollen, while the larvae (maggots) eat a wide range of foods. In some species, the larvae are saprotrophs, eating decaying plant and animal matter in the soil or in ponds and streams. In other species, the larvae are insectivores and prey on aphids, thrips, and other plant-sucking insects.

<span class="mw-page-title-main">Pollination</span> Biological process occurring in plants

Pollination is the transfer of pollen from an anther of a plant to the stigma of a plant, later enabling fertilisation and the production of seeds. Pollinating agents can be animals such as insects, for example beetles or butterflies; birds, and bats; water; wind; and even plants themselves. Pollinating animals travel from plant to plant carrying pollen on their bodies in a vital interaction that allows the transfer of genetic material critical to the reproductive system of most flowering plants. When self-pollination occurs within a closed flower. Pollination often occurs within a species. When pollination occurs between species, it can produce hybrid offspring in nature and in plant breeding work.

<span class="mw-page-title-main">Fruit tree pollination</span>

Pollination of fruit trees is required to produce seeds with surrounding fruit. It is the process of moving pollen from the anther to the stigma, either in the same flower or in another flower. Some tree species, including many fruit trees, do not produce fruit from self-pollination, so pollinizer trees are planted in orchards.

<span class="mw-page-title-main">Buzz pollination</span> Technique used by bees to release pollen

Buzz pollination or sonication is a technique used by some bees, such as solitary bees and bumblebees, to release pollen which is more or less firmly held by the anthers. The anthers of buzz-pollinated plant species are typically tubular, with an opening at only one end, and the pollen inside is smooth-grained and firmly attached. With self-fertile plants such as tomatoes, wind may be sufficient to shake loose the pollen through pores in the anther and accomplish pollination. Visits by bees may also shake loose some pollen, but more efficient pollination of those plants is accomplished by a few insect species who specialize in sonication or buzz pollination.

<span class="mw-page-title-main">Heterostyly</span> Two different types of flowers (style) on same plant

Heterostyly is a unique form of polymorphism and herkogamy in flowers. In a heterostylous species, two or three morphological types of flowers, termed "morphs", exist in the population. On each individual plant, all flowers share the same morph. The flower morphs differ in the lengths of the pistil and stamens, and these traits are not continuous. The morph phenotype is genetically linked to genes responsible for a unique system of self-incompatibility, termed heteromorphic self-incompatibility, that is, the pollen from a flower on one morph cannot fertilize another flower of the same morph.

<span class="mw-page-title-main">Anemophily</span> Wind pollination

Anemophily or wind pollination is a form of pollination whereby pollen is distributed by wind. Almost all gymnosperms are anemophilous, as are many plants in the order Poales, including grasses, sedges, and rushes. Other common anemophilous plants are oaks, pecans, pistachios, sweet chestnuts, alders and members of the family Juglandaceae. Approximately 12% of plants across the globe are pollinated by anemophily, including cereal crops like rice and corn and other prominent crop plants like wheat, rye, barley, and oats. In addition, many pines, spruces, and firs are wind-pollinated.

<span class="mw-page-title-main">Entomophily</span> Form of pollination by insects

Entomophily or insect pollination is a form of pollination whereby pollen of plants, especially but not only of flowering plants, is distributed by insects. Flowers pollinated by insects typically advertise themselves with bright colours, sometimes with conspicuous patterns leading to rewards of pollen and nectar; they may also have an attractive scent which in some cases mimics insect pheromones. Insect pollinators such as bees have adaptations for their role, such as lapping or sucking mouthparts to take in nectar, and in some species also pollen baskets on their hind legs. This required the coevolution of insects and flowering plants in the development of pollination behaviour by the insects and pollination mechanisms by the flowers, benefiting both groups. Both the size and the density of a population are known to affect pollination and subsequent reproductive performance.

<span class="mw-page-title-main">Zoophily</span> Pollination by animals

Zoophily, or zoogamy, is a form of pollination whereby pollen is transferred by animals, usually by invertebrates but in some cases vertebrates, particularly birds and bats, but also by other animals. Zoophilous species frequently have evolved mechanisms to make themselves more appealing to the particular type of pollinator, e.g. brightly colored or scented flowers, nectar, and appealing shapes and patterns. These plant-animal relationships are often mutually beneficial because of the food source provided in exchange for pollination.

<span class="mw-page-title-main">Stingless bee</span> Bee tribe, reduced stingers, strong bites

Stingless bees (SB), sometimes called stingless honey bees or simply meliponines, are a large group of bees (from about 462 to 552 described species), comprising the tribe Meliponini (or subtribe Meliponina according to other authors). They belong in the family Apidae (subfamily Apinae), and are closely related to common honey bees (HB, tribe Apini), orchid bees (tribe Euglossini), and bumblebees (tribe Bombini). These four bee tribes belong to the corbiculate bees monophyletic group. Meliponines have stingers, but they are highly reduced and cannot be used for defense, though these bees exhibit other defensive behaviors and mechanisms. Meliponines are not the only type of bee incapable of stinging: all male bees and many female bees of several other families, such as Andrenidae and Megachilidae (tribe Dioxyini), also cannot sting.

<span class="mw-page-title-main">Flower</span> Reproductive structure in flowering plants

A flower, also known as a bloom or blossom, is the reproductive structure found in flowering plants. Flowers consist of a combination of vegetative organs – sepals that enclose and protect the developing flower, petals that attract pollinators, and reproductive organs that produce gametophytes, which in flowering plants produce gametes. The male gametophytes, which produce sperm, are enclosed within pollen grains produced in the anthers. The female gametophytes are contained within the ovules produced in the carpels.

<span class="mw-page-title-main">Palynivore</span> Group of herbivorous animals

In zoology, a palynivore /pəˈlɪnəvɔːɹ/, meaning "pollen eater" is an herbivorous animal which selectively eats the nutrient-rich pollen produced by angiosperms and gymnosperms. Most true palynivores are insects or mites. The category in its strictest application includes most bees, and a few kinds of wasps, as pollen is often the only solid food consumed by all life stages in these insects. However, the category can be extended to include more diverse species. For example, palynivorous mites and thrips typically feed on the liquid content of the pollen grains without actually consuming the exine, or the solid portion of the grain. Additionally, the list is expanded greatly if one takes into consideration species where either the larval or adult stage feeds on pollen, but not both. There are other wasps which are in this category, as well as many beetles, flies, butterflies, and moths. One such example of a bee species that only consumes pollen in its larval stage is the Apis mellifera carnica. There is a vast array of insects that will feed opportunistically on pollen, as will various birds, orb-weaving spiders and other nectarivores.

<i>Turnera</i> Genus of flowering plants

Turnera is a genus of flowering plants in the passionflower family, Passifloraceae. It contains more than 100 species native to tropical and subtropical America. The name honours English naturalist William Turner (1508–1568). It was previously placed in the family Turneraceae.

<i>Erythrina velutina</i> Species of legume

Erythrina velutina is a species of leguminous tree. It is indigenous to Brazil, Peru, Ecuador, Colombia, Venezuela, and Hispaniola and has been introduced to much of the Caribbean, Uganda, and Sri Lanka. It also occurs on the Galápagos Islands, but whether it is indigenous or introduced there is unclear. In Brazil, it occurs on plains and near rivers in the arid parts of the northeast of the country and is commonly known as "mulungu". Erythrina velutina grows as a large tree to around 10 m (30 ft) high and has short spines on the stem. It is perennial.

<i>Arcytophyllum</i> Genus of flowering plants

Arcytophyllum is a genus of flowering plants in the family Rubiaceae. The genus contains 18 species, distributed from New Mexico to Bolivia.

Ranunculus allenii, commonly known as Allen's buttercup, is a flowering plant in the crowfoot or buttercup family, Ranunculaceae. Generally found in wetlands in northern latitudes, it bears yellow flowers in summer, which are pollinated by insects.

<span class="mw-page-title-main">Distyly</span>

Distyly is a type of heterostyly in which a plant demonstrates reciprocal herkogamy. This breeding system is characterized by two separate flower morphs, where individual plants produce flowers that either have long styles and short stamens, or that have short styles and long stamens. However, distyly can refer to any plant that shows some degree of self-incompatibility and has two morphs if at least one of the following characteristics is true; there is a difference in style length, filament length, pollen size or shape, or the surface of the stigma. Specifically these plants exhibit intra-morph self-incompatibility, flowers of the same style morph are incompatible. Distylous species that do not exhibit true self-incompatibility generally show a bias towards inter-morph crosses - meaning they exhibit higher success rates when reproducing with an individual of the opposite morph.

<i>Adenoa</i> Genus of flowering plants

Adenoa is a monotypic genus of flowering plants belonging to Turneroideae (Passifloraceae).

<i>Piriqueta</i> Genus of plants

Piriqueta is a genus of flowering plants belonging to Turneroideae (Passifloraceae).

<i>Oxossia</i> Genus of flowering plants

Oxossia is a genus of flowering plants in the subfamily Turneroideae (Passifloraceae) consisting of 15 species. This genus was recently defined in 2019 after a phylogenetic analysis of Turnera justified the creation of the genus.

References

  1. 1 2 "Turnera subulata Sm". Plants of the World Online. Royal Botanical Gardens, Kew. 2023. Retrieved 16 August 2023.
  2. 1 2 3 Saravanan, Mythili; Senthilkumar, Palanisamy; Kalimuthu, Kandasamy; Chinnadurai, Vajjiram; Vasantharaj, Seerangaraj; Pugazhendhi, Arivalagan (2018). "Phytochemical and pharmacological profiling of Turnera subulata Sm., a vital medicinal herb". Industrial Crops and Products. 124: 822–833. doi:10.1016/j.indcrop.2018.08.065.
  3. 1 2 3 4 Yim, Elaine (April 28, 2012). "What's up, buttercup?". New Straits Times . Archived from the original on 4 May 2012.
  4. 1 2 3 4 "Turnera subulata". Pacific Island Ecosystems at Risk. US Forest Service. 1999. Retrieved 21 May 2013.
  5. 1 2 "Turnera subulata". Germplasm Resources Information Network . Agricultural Research Service, United States Department of Agriculture . Retrieved 21 January 2018.
  6. 1 2 3 Costa, Maria Eduarda Moreira da (2023). "REVISÃO BIBLIOGRÁFICA DO PERFIL FITOQUÍMICO E ATIVIDADES BIOLÓGICAS DA Turnera subulata SM". Revista Biodiversidade. 22 (2): 141–148.
  7. 1 2 3 4 Schlindwein, Clemens; Medeiros, Petrúcio C.R. (2006). "Pollination in Turnera subulata (Turneraceae): Unilateral reproductive dependence of the narrowly oligolectic bee Protomeliturga turnerae (Hymenoptera, Andrenidae)". Flora - Morphology, Distribution, Functional Ecology of Plants. 201 (3): 178–188. Bibcode:2006FMDFE.201..178S. doi:10.1016/j.flora.2005.07.002.
  8. Simberloff, D.; Rejmanek, M., eds. (2010). Encyclopedia of Biological Invasions. Berkeley, California, USA: University of California Press. p. 589. ISBN   978-0-520-26421-2.
  9. Swamy, N. Rama; Bahadur, Bir (1984). "Pollen Flow in Dimorphic Turnera subulata (Turneraceae)". The New Phytologist. 98 (1): 205–209. doi:10.1111/j.1469-8137.1984.tb06109.x. JSTOR   2433990. PMID   29681115.
  10. Athanasiou, A.; Khosravi, D.; Tamari, F.; Shore, J. S. (2003). "Characterization and localization of short-specific polygalacturonase in distylous Turnera subulata (Turneraceae)". American Journal of Botany. 90 (5): 675–682. doi: 10.3732/ajb.90.5.675 . PMID   21659162.
  11. 1 2 3 4 Luz, Jefferson Romáryo Duarte da; Barbosa, Eder A.; Nascimento, Thayse Evellyn Silva do; Rezende, Adriana Augusto de; Ururahy, Marcela Abbott Galvão; Brito, Adriana da Silva; Araujo-Silva, Gabriel; López, Jorge A.; Almeida, Maria das Graças (2022-02-06). "Chemical Characterization of Flowers and Leaf Extracts Obtained from Turnera subulata and Their Immunomodulatory Effect on LPS-Activated RAW 264.7 Macrophages". Molecules. 27 (3): 1084. doi: 10.3390/molecules27031084 . ISSN   1420-3049. PMC   8839466 . PMID   35164352.
  12. Barbosa, Danila de Araújo; Silva, Kiriaki Nurit; Agra, Maria de Fátima (2007). "Estudo farmacobotânico comparativo de folhas de Turnera chamaedrifolia Cambess. E Turnera subulata Sm. (Turneraceae)". Revista Brasileira de Farmacognosia. 17 (3): 396–413. doi: 10.1590/S0102-695X2007000300016 .
  13. 1 2 Souza, Natália Cabral; de Oliveira, Juliana Medeiros; Morrone, Maurílio da Silva; Albanus, Ricardo D'Oliveira; Amarante, Maria do Socorro Medeiros; Camillo, Christina da Silva; Langassner, Silvana Maria Zucolotto; Gelain, Daniel Pens; Moreira, José Cláudio Fonseca; Dalmolin, Rodrigo Juliani Siqueira; de Bittencourt Pasquali, Matheus Augusto (October 2016). "Turnera subulata Anti-Inflammatory Properties in Lipopolysaccharide-Stimulated RAW 264.7 Macrophages". Journal of Medicinal Food. 19 (10): 922–930. doi:10.1089/jmf.2016.0047. hdl: 2027.42/140112 . ISSN   1096-620X.
  14. Andrade-Pinheiro, Jacqueline Cosmo; Sobral de Souza, Celestina Elba; Ribeiro, Daiany Alves; Silva, Andressa de Alencar; da Silva, Viviane Bezerra; dos Santos, Antonia Thassya Lucas; Juno Alencar Fonseca, Victor; de Macêdo, Delmacia Gonçalves; da Cruz, Rafael Pereira; Almeida-Bezerra, José Weverton; Machado, Antonio Júdson Targino; de Freitas, Thiago Sampaio; de Brito, Edy Sousa; Ribeiro, Paulo Riceli Vasconcelos; da Costa, José Galberto Martins (2023-01-16). "LC-MS Analysis and Antifungal Activity of Turnera subulata Sm". Plants. 12 (2): 415. doi: 10.3390/plants12020415 . ISSN   2223-7747. PMC   9862381 .
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