Philodendron bipinnatifidum

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Philodendron bipinnatifidum
Tree1.JPG
Scientific classification
Kingdom: Plantae
(unranked): Angiosperms
(unranked): Monocots
Order: Alismatales
Family: Araceae
Subfamily: Aroideae
Tribe: Philodendreae
Genus: Philodendron
Species: P. bipinnatifidum
Binomial name
Philodendron bipinnatifidum
Schott ex Endl.
Synonyms

Philodendron selloum K.Koch

Philodendron bipinnatifidum (common names: lacy tree philodendron, selloum) is a plant that belongs to the family Araceae. The commonly used name Philodendron selloum is a synonym (Mayo 1991). This plant is native to South America, namely to Brazil, Bolivia, Argentina, and Paraguay but is also cultivated as a landscape plant in the gulf coast and east coast of the United States, such as in Florida. This plant is also cultivated as a landscape plant in tropical Asian countries such as the Philippines.

History[edit]

Heinrich Wilhelm Schott (1794–1865), one of the earliest botanists who studied the Araceae family, did extensive studies of Philodendrons. The names Philodendron bipinnatifidum and Philodendron selloum were accepted as two separate species in the past. However, recent studies focused on the sexual characteristics suggest that they are multiform of the same species. Botanist Simon Mayo documented that these were names of the same plant species that exhibited slight anatomical differences. Since the name Philodendron bipinnatifidum was the first of the two to be published in the literatures, it was accepted as the scientific name.

Description[edit]

Growth Habitat[edit]

Philodendron bipinnatifidum is a tropical plant that is usually grown in full sun, but can tolerate and adapt to deep shade. It grows best in rich, moisture-retentive soil that can be slightly alkaline. However, it cannot tolerate high salt concentration in soil. It is capable of supporting itself at massive heights by producing tree-like bases. However, it will exhibit epiphytic characteristics if given the opportunity to attach itself to a nearby supporting tree and climb upon it. The trunk of this plant can send down many strong aerial roots that not only give support to the overall plant mass, but also serve to absorb water and nutrients from the soil. This plant is greatly known for its ease in covering a land mass, and typically spread out its tree-like trunk from anywhere between eight to ten feet. Alternatively, if grown in cooler climates with at least some freezing winter weather, its entire aboveground structures will die back completely at a hard frost and then sprout back from the roots the following spring. Leaves can grow up to 4–5 m tall and wide. This plant also contains a spadix and spathe that are usually white or inflorescent.

Distinguishing features[edit]

The leaves are simple, large, deeply lobed, and are usually drooping. These can grow up to 4–5 m wide, and are attached to long, smooth petioles. They are a deep green color, and since these plants are grown in the tropics, there is no apparent color change that correlates with the fall season. The trunk of P. bipinnatifidum is relatively thick and woody with characteristic “eye-drop” leaf scars. Approximately 15–20 years is required for P. bipinnatifidum to grow to an appropriate size and produce flowers in an indoor environment where space is limited. The small, petalless flowers are on a spadix that is enclosed within a spathe.

Reproduction[edit]

The reproductive organ consists of a spadix grown at the center of a reproductive layer called the spathe. The spathe is sometimes mistaken to be a flower, but it is really a modified leaf that serves to protect the spadix. The spadix is divided into three sections: fertile male flowers at the tip, sterile male flowers at the center, and fertile female flowers toward the end of the flower chamber. The sterile male flowers in the midsection serve to prevent self-fertilization and to produce heat. Pollination is done by a Cyclocephala beetle species. The sterile male flowers produce and maintain a constant temperature that is 30°C above that of the environment during the two days the entire flower structure is open. Interestingly, P. bipinnatifidum metabolizes fat, instead of carbohydrate, to fuel this process. This feature indicates a possible evolutionary convergence where this plant species and animal species derived similar mechanisms to utilize fat reserves for energy consumption. The main reason for raising and maintaining the flower’s temperature is for volatilizing and dispersing insect attracting odors. The constant high heat production increases the distance that the scent can be picked up by the beetle, and increases the probability of pollination. Additionally, the heat creates a hospitable climate that helps to activate the beetle once it is inside the flower. This will also increase the probability of pollination.

Cultivation[edit]

P. bipinnatifidum is grown as a houseplant in temperate regions. It has gained the Royal Horticultural Society's Award of Garden Merit.[1]

Toxicology[edit]

Species within the genus Philodendron are poisonous to vertebrates, but vary in their toxicity levels. They contain calcium oxalate crystals in raphid bundles, which are poisonous and irritating. P. bipinnatifidum sap may cause skin irritation. Chewing and/or ingesting parts of the plant may result in severe swelling and compromised respiratory functions.

Gallery[edit]

References[edit]

  • Brown, D. (1988). Aroids: Plants of the Arum Family. Portland, OR: Timber Press, 1988
  • Boyle, Jennifer; Holstege, Christopher (2008). “Toxicity Plants- Caladium, Dieffenbachia, and Philodendron”. eMedicine WebMD

http://emedicine.medscape.com/article/1009003-overview

  • Gilman, Edward F (1999). “Philodendron selloum”. University of Florida; The Institute of Food and Agricultural Sciences.
  • Mayo, S. J. (1990).History and Infrageneric Nomenclature of Philodendron (Araceae). Kew Bulletin. Vol. 45, No. 1, pp. 37–71
  • Mayo, S. J. (1991). A revision of Philodendron subgenus Meconostigma (Araceae). Kew Bulletin 46: 601-681.
  • Barabé D, Lacroix C, Jeune B (2002). Study of homeosis in the flower of Philodendron (araceae): a qualitative and quantitative approach. PubMed 90(5):579-92
  • Moodie. G. E. E. (1976). “Heat Production and Pollination in Araceae”. Canadian Journal of Botany. 54: 545-546
  • Ombrello, T. “A Hot Philodendron.” UCC Biology Department

http://faculty.ucc.edu/biology-ombrello/POW/Philodendron.htm

  • Otterspoor, Sean (1997). “Thermogenicity in the Ariods; Inflorescences hot under the collar” Accessed 3 May 2009

External links[edit]