Podocarpus

Podocarpus
Podocarpus neriifolius
Scientific classification
Kingdom: Plantae
Division: Pinophyta
Class: Pinopsida
Order: Pinales
Family: Podocarpaceae
Genus: Podocarpus
L'Hér ex Pers. 1807[1]
Type species
Podocarpus elongatus
L'Hér ex Pers.[1]
Species

about 97–107 species, see list

Podocarpus (/ˌpdəˈkɑːrpəs/[2]) is a genus of conifers, the most numerous and widely distributed of the podocarp family, Podocarpaceae. Podocarpus are evergreen shrubs or trees, usually from 1 to 25 meters tall, known to reach 40 meters at times. The cones have two to five fused cone scales which form a fleshy, berry-like, brightly coloured receptacle at maturity. The fleshy cones attract birds which then eat the cones and disperse the seeds in their droppings. There are approximately 97 to 107 species in the genus depending on the circumscription of the species.[1][3][4][5]

Names and etymology

The name Podocarpus is derived from the Greek, podos, meaning "foot", and karpos, meaning "fruit".[1] Common names for various species include "yellowwood" as well as "pine",[3] as in the plum pine (Podocarpus elatus)[6] or the Buddhist pine (Podocarpus macrophyllus).[7]

Description

Podocarpus are evergreen woody plants. They are generally trees but may also be shrubs.[1] The trees can reach a height of 40 meters at their tallest.[3] Some shrubby species have a decumbent growth habit. The primary branches form pseudo-whorls around the trunk. The bark can be scaly or fibrous and peeling with vertical strips. Terminal buds are distinctive with bud scales that are often imbricate and can be spreading.[1]

The leaves are simple, flattened and may be sessile or short petiolate. The phyllotaxis or leaf arrangement is spiral and may be subopposite on some shoots.[1][8] The leaves are usually linear-lanceolate or linear-elliptic in shape, though they can be broader lanceolate, ovate or nearly elliptic in some species.[1][3][8] Juvenile leaves are often larger than adult leaves though similar in shape.[8] The leaves are coriaceous and have a distinct midrib. The stomata are usually restricted to the abaxial or underside of the leaf, forming two stomatal bands around the midrib.[1]

Podocarpus are generally dioecious, with the male pollen cones and female seed cones borne on separate individual plants but some species may be monoecious. The cones develop from axillary buds and may be solitary or form clusters.[1]

The pollen cones are long and catkin-like in shape. They may be sessile or short pedunculate. A pollen cone consists of a slender rachis with numerous spirally arranged microsporophylls around it. Each triangular microsporophyll has two basal pollen producing pollen sacs. The pollen is bisaccate.[1]

The seed cones are highly modified with the few cone scales swelling and fusing at maturity. The cones are pedunculate and often solitary. The seed cone consists of two to five cone scales of which only the uppermost one or rarely two nearest the apex of the cone are fertile. Each fertile scale usually has one apical ovule. The infertile basal scales fuse and swell to form a succulent, usually brightly colored receptacle. Each cone generally has only one seed but may have two or rarely more. The seed is attached to the apex of the receptacle. The seed is entirely covered by a fleshy modified scale known as an epimatium. The epimatium is usually green but may be bluish or reddish in some species.[1][8]

Distribution

The natural distribution of the genus consists of much of Africa, Asia, Australia, Central and South America and several South Pacific islands. The genus occurs from southern Chile north to Mexico in the Americas and from New Zealand north to Japan in the Asia-Pacific region.[1]

Podocarpus and the Podocarpaceae were endemic to the ancient supercontinent of Gondwana,[9] which broke up into Africa, South America, India, Australia-New Guinea, New Zealand, and New Caledonia between 105 and 45 million years ago. Podocarpus is a characteristic tree of the Antarctic flora, which originated in the cool, moist climate of southern Gondwana, and elements of the flora survive in the humid temperate regions of the former supercontinent. As the continents drifted north and became drier and hotter, Podocarps and other members of the Antarctic flora generally retreated to humid regions, especially in Australia, where sclerophyll genera like Acacia and Eucalyptus became predominant. The flora of Malesia, which includes the Malay peninsula, Indonesia, the Philippines, and New Guinea, is generally derived from Asia, but includes many elements of the old Gondwana flora, including several other genera in the Podocarpaceae (Dacrycarpus, Dacrydium, Falcatifolium, Nageia, Phyllocladus, and the Malesian endemic Sundacarpus), and also Agathis in the Araucariaceae.

Classification

Podocarpus macrophyllus with mature seed cones

There are two subgenera, subgenus Podocarpus and subgenus Foliolatus, distinguished by cone and seed morphology.

In Podocarpus, the cone is not subtended by lanceolate bracts, and the seed usually has an apical ridge. Species are distributed in the temperate forests of Tasmania, New Zealand, and southern Chile, with a few occurring in the tropical highlands of Africa and the Americas.

In Foliolatus, the cone is subtended by two lanceolate bracts ("foliola"), and the seed usually lacks an apical ridge. The species are tropical and subtropical, concentrated in eastern and southeastern Asia and Malesia, overlapping with subgenus Podocarpus in northeastern Australia and New Caledonia.

Species in family Podocarpaceae have been reshuffled a number of times based on genetic and physiological evidence, with many species formerly assigned to genus Podocarpus now assigned to other genera. A sequence of classification schemes have moved species between Nageia and Podocarpus, and in 1969 de Laubenfels divided the huge genus Podocarpus into Dacrycarpus, Decussocarpus (an invalid name he later revised to the valid Nageia), Prumnopitys, and Podocarpus.

Some species of genus Afrocarpus were formerly in Podocarpus, such as Afrocarpus gracilior.

Species

Allergenic potential

Male Podocarpus are extremely allergenic, and have an OPALS allergy scale rating of 10 out of 10. Conversely, completely female Podocarpus plants have an OPALS rating of 1, and are considered "allergy-fighting", as they capture pollen while producing none.[10]

Podocarpus are related to yews, and, as with yews, the stems, leaves, flowers, and pollen of Podocarpus are all poisonous. Additionally, the leaves, stems, bark, and pollen are cytotoxic. The male Podocarpus blooms and releases this cytotoxic pollen in the spring and early summer. Heavy exposure to the pollen, such as with a male Podocarpus planted near a bedroom window, can produce symptoms that mimic the cytotoxic side effects of chemotherapy.[10]

Uses

Several species of Podocarpus are grown as garden trees, or trained into hedges, espaliers, or screens. Common garden species used for their attractive deep green foliage and neat habits include P. macrophyllus, known commonly as Buddhist pine, fern pine, or kusamaki, P. salignus from Chile, and P. nivalis, a smaller, red-fruited shrub. Some members of the genera Nageia, Prumnopitys and Afrocarpus are marketed under the genus name Podocarpus.

The red, purple or bluish fleshy fruit of most species of Podocarpus are edible, raw or cooked into jams or pies. They have a mucilaginous texture with a slightly sweet flavor. However, they are slightly toxic and should be eaten only in small amounts, especially when raw. Tolerates drought, deer, disease, seaside[11]

Some species of Podocarpus are used in systems of traditional medicine for conditions such as fevers, coughs, arthritis, sexually transmitted diseases, and canine distemper.[12]

A chemotherapy drug used in treatment of leukemia is made from Podocarpus.[10]

References

  1. 1 2 3 4 5 6 7 8 9 10 11 12 13 Farjon, Aljos (2010). A Handbook of the World's Conifers. Leiden: Brill. pp. 795–796. ISBN 9789004177185.
  2. Sunset Western Garden Book, 1995:606–607
  3. 1 2 3 4 Earle, Chris J.: Podocarpus. The Gymnosperm Database. 2013.
  4. Ornelas, J. F., et al. (2010). Phylogeography of Podocarpus matudae (Podocarpaceae): pre-Quaternary relicts in northern Mesoamerican cloud forests. Journal of Biogeography 37, 2384-96.
  5. Barker, N. P., et al. (2004). A yellowwood by any other name: molecular systematics and the taxonomy of Podocarpus and the Podocarpaceae in southern Africa. South African Journal of Science 100(11 & 12), 629-32.
  6. Earle, Chris J.: Podocarpus elatus. The Gymnosperm Database. 2013.
  7. Earle, Chris J.: Podocarpus macrophyllus. The Gymnosperm Database. 2013.
  8. 1 2 3 4 "Podocarpus". eFloras: Flora of China. Missouri Botanical Garden, St. Louis, MO & Harvard University Herbaria, Cambridge, MA. 1999. Retrieved March 30, 2016.
  9. Specht, R.L.; Montenegro, G.; Dettmann, M.E. (2015), "Structure and Alpha Biodiversity of Major Plant Communities in Chile, a Distant Gondwanan Relation of Australia", Journal of Environment and Ecology, 6 (1): 21–47
  10. 1 2 3 Ogren, Thomas (2015). The Allergy-Fighting Garden. Berkeley, CA: Ten Speed Press. pp. 171–172. ISBN 978-1-60774-491-7.
  11. Data sheet - Podocarpus -budgetplants.com
  12. Abdillahi, H. S., et al. (2011). Anti-inflammatory, antioxidant, anti-tyrosinase and phenolic contents of four Podocarpus species used in traditional medicine in South Africa. Journal of Ethnopharmacology 136(3), 496-503.

Further reading

This article is issued from Wikipedia - version of the 12/1/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.