Pinus L.

Primary tabs

EOL Text

Pinus, the pines, is a genus of around 115-120 species of coniferous trees that grow widely around the northern hemisphere from cold boreal to tropical regions. They are abundant over large areas of the huge boreal taiga forests, but species diversity there is low, with only five species (Pinus sylvestris in Europe and Asia, Pinus sibirica and Pinus pumila in Asia, and Pinus banksiana and Pinus contorta in North America); species diversity is much greater in mountain forests at lower latitudes, being high between 20° to 45°N, and at a maximum in Mexico, California, and southern China. The northernmost and most widely distributed is Pinus sylvestris, reaching well north of the Arctic Circle at 71°N in Norway, and the southernmost is Pinus merkusii, which reaches just south of the Equator at 2°S in Sumatra. Several species are rare, and some critically endangered; the rarest is Pinus squamata, with under 40 individuals in Yunnan, SW China.

The genus is divided into two subgenera, subgenus Pinus (hard pines) with a double vascular bundle in the leaves, and subgenus Strobus (soft pines) with a single vascular bundle in the leaves. Subgenus Strobus has sometimes also been divided into two subgenera, subgenus Strobus in a strict sense (white pines) with cone scales with a terminal umbo, and subgenus Ducampopinus (lacebark, pinyon and bristlecone pines) with cone scales with a dorsal umbo (in which they resemble subgenus Pinus), but this morphological subdivision does not match genetic relationships, and the two are now combined. Each of the two subgenera are further divided into several sections. The most distinct pines both genetically and morphologically are Pinus nelsonii from NE Mexico, and Pinus krempfii from southern Vietnam, both are classified in monotypic sections and probably very early separated from other pines.

Pines are small to very large trees; the tallest are Pinus lambertiana and Pinus ponderosa, both from western North America, which both reach just over 80 metres tall and 2-3 metres trunk diameter. By contrast, Pinus culminicola from NE Mexico, Pinus pumila from NE Asia, and Pinus mugo subsp. mugo from central Europe, are all shrubby plants rarely exceeding 3-4 metres high.

Pines have three types of leaves. Firstly on seedlings 1-2 years (rarely to 5 years or more) old, spirally arranged green or glaucous-green needle-like juvenile leaves which range from 2-6 cm long on. Then on adult foliage, two types, brown scale-leaves a few millimetres long on the branches, and clusters (fascicles) of green needles in the axils of the scale leaves, with two, three or five (rarely one, four or six) needles per fascicle; it is these fascicles that are the familiar pine needles. The needles are evergreen, with persistence ranging from 2 to 45 years; they are semicircular or triangular in cross-section, often sharply pointed, and have lines of stomata (breathing pores) on all sides or just on the adaxial side (as also in spruces Picea, but unlike other Pinaceae genera where the stomata are concentrated on the abaxial side). Needle length varies from 2 cm (in Pinus banksiana) up to 45 cm (in Pinus palustris, Pinus devoniana and Pinus engelmannii) and thickness from 0.5-3 mm.

The pollen cones are 10-50 mm long, and shed soon after pollen release in spring. The seed cones are produced in spring and in most species mature over two growing seasons 18-24 months later (longer, over three growing seasons in a few, up to 36 months in Pinus pinea); they are erect at first when pollinated, then turn sideways to pendulous as they mature; length varies from 3 cm (in several species) to 65 cm (in Pinus lambertiana) and colour from yellow-green to red to dark purple. The cone scales have a distinct umbo (uniquely indistinct in Pinus nelsonii) which comprises the first season's growth and apophysis, which develops in the second season. Species with a three growing season development have an umbo with a concentric ring from the second season, and the apophysis in the third season. In several species, the cones have thick, armoured scales and spined umbos as a defence against seed predators (primarily squirrels Sciuridae); this development is most extreme in Pinus coulteri, where the ripe cones may weigh 3-4 kg.

There are two winged seeds under each cone scale; the seeds are blackish-brown to golden-brown, and range from 3 mm (in Pinus banksiana) to 28 mm (in Pinus maximartinezii) long. In species with small seeds, the seed wings are long, and effective for wind dispersal, while in species with large seeds, the wings are vestigial and the seeds are dispersed by birds, mainly various genera in the family Corvidae (notably Aphelocoma, Cyanopica, Gymnorhinus, and Nucifraga). Species with bird-dispersed seeds typically have many features of the cone such as soft scales which also aid bird access.

Pines are a major source of commercial wood throughout the world, with extensive plantations both throughout the native range of the genus, and also widely in the southern hemisphere. The wood is used for general construction, plywood, interior finishing, boxes, and also for pulp and paper. Pines are used to a small extent as Christmas trees, although they are not as popular as spruces or firs (Abies species). Pine resin is extensively used to produce turpentine. Several pines are widely planted as landscape and ornamental trees, and numerous cultivars have been developed, with variations in growth rates, needle colour, and form.

Licensehttp://creativecommons.org/licenses/by/3.0/
Rights holder/AuthorMichаel Frаnkis, Michаel Frаnkis
SourceNo source database.

Functional adaptation:

Cone scales are humidity-sensitive: pine
 

The scales of pine cones flex passively in response to changes in moisture levels via a two-layered structure.

 

 
  "Dr Jeronimidis is now taking this concept further by using adaptive materials that flex in response to the level of moisture in the air—an idea borrowed from the way pine-cones open and close. Using a cellulose-like fibre composite, he has created a vent that changes from one curved shape to another, depending on the relative levels of moisture inside and outside a building. When warm, moist air builds up inside the building, the vent opens to allow it to escape. But when the air inside is dry, the vent stays shut and moist air from outdoors is kept out. 'In principle it can be made to respond naturally, without any additional power,' says Dr Jeronimidis." (The Economist 2007)

"The mechanism of bending therefore seems to depend on the way that the orientation of cellulose microfibrils controls the hygroscopic expansion of the cells in the two layers. In sclerids, the microfibrils are wound around the cell (high winding angle) allowing it to elongate when damp. Fibres have the microfibrils orientated along the cell (low winding angle) which resists elongation. The ovuliferous scale therefore functions as a bilayer similar to a bimetallic strip, but responding to humidity instead of heat." (Dawson et al. 1997:668)
  Learn more about this functional adaptation.

  • Dawson, C.; Vincent, J. F. V.; Rocca, A. M. 1997. How pine cones open. NATURE-LONDON-. 668-668.
  • Reyssat E; Mahadevan L. 2009. Hygromorphs: from pine cones to biomimetic bilayers. Journal of the Royal Society Interface. 6: 951-957.
  • 2007. Borrowing from nature. The Economist [Internet], Accessed 9/12/2007.
Licensehttp://creativecommons.org/licenses/by-nc/3.0/
Rights holder/Author(c) 2008-2009 The Biomimicry Institute
Sourcehttp://www.asknature.org/strategy/1ebbd861249e5657c8c21b4fabe0d0f4

Known predators:

Pinus (rotting wood (Pinus spp.)) is prey of:
Peromyscus
Microtus
Sciurus aberti
Aphididae
Cicadellidae
Erethizontidae
Spermophilus
Tamias
Odocoileus
Cyanocitta stelleri
Dilachnus pini
Retinia buoliana
Panolis griseovariegata
Oenerostoma piniariella
Gelechia dodecella
Ischiodontus
Drapites
Buprestis lineata
Buprestis
Chalcophora
Chrysobothris
Asemum moestum
Rhagium lineatum
Xylotrechus sagittatus
Callidium antennatum
Acanthocinus obsoletus
Acanthocinus nodosus
Eupogonius tomentosus
Monochammus titillator
Pissodes memorensis
Pachylobins picivorus
Hylobius pales
Ips grandicollis
Ips calligraphus
Orthotomicus coelatus
Pithyophthorus annectens
Pithyophthorus pullus
Dendroctonus valens
Dendroctonus tenebrans
fungi
Entomobrya ligata
Entomobrya corticola
Entomobrya
Isotoma sensibilis
Orthostethus infuscatus
Melanotus
Elater verticinus
Uloma punctulata
Xylopinus rufipes
Scotobates calcaratus
Passalus cornutus
Pseudolucanus capreolus
Derobrachus brunneus
Leptura
Lumbricidae
Polygyra thyriodes
Zonitoides arboreus
Philomycus carolinensis
Cambala annulata
Fontaria coriacea
Polydesmus serratus

Based on studies in:
USA: Arizona (Forest, Montane)
England, Oxshott Heath (Heath, Plant substrate)
USA: North Carolina (Forest, Plant substrate)

This list may not be complete but is based on published studies.

  • D. I. Rasmussen, Biotic communities of Kaibab Plateau, Arizona, Ecol. Monogr. 11(3):228-275, from p. 261 (1941).
  • H. E. Savely, 1939. Ecological relations of certain animals in dead pine and oak logs. Ecol. Monogr. 9:321-385, from pp. 335, 353-56, 377-85.
  • O. W. Richards, 1926. Studies on the ecology of English heaths III. Animal communities of the felling and burn successions at Oxshott Heath, Surrey. J. Ecol. 14:244-281, from pp. 263-64.
Licensehttp://creativecommons.org/licenses/by/3.0/
Rights holder/AuthorCynthia Sims Parr, Joel Sachs, SPIRE
Sourcehttp://spire.umbc.edu/fwc/

Statistics of barcoding coverage: Pinus sp.:

Barcode of Life Data Systems (BOLDS) Stats
Public Records: 0
Specimens with Barcodes: 6
Species With Barcodes: 1

Licensehttp://creativecommons.org/licenses/by/3.0/
Rights holder/AuthorSujeevan Ratnasingham, Paul D.N. Hebert, Barcode of Life Data Systems (BOLD)
Sourcehttp://www.boldsystems.org/index.php/Taxbrowser_Taxonpage?taxid=260022

Pine:
This article is about the tree. For other uses of the term "pine", see Pine (disambiguation).

Pines are conifer trees in the genus Pinus /ˈpns/,[1] in the family Pinaceae. They are the only genus in the subfamily Pinoideae. Counting varieties and subspecies, the plant list of the Royal Botanic Gardens, Kew and Missouri Botanical Garden accepts 175 names of pines as current, together with some thirty or forty unresolved and many more synonyms or misapplied.[2]



Etymology[edit]

The modern English name pine derives from Latin pinus which some have traced to the Indo-European base *pīt- ‘resin’ (source of English pituitary.[3] In the past (pre-19th century) they were often known as fir, from Old Norse fyrre, by way of Middle English firre. The Old Norse name is still used for pines in some modern north European languages, in Danish fyr, in Norwegian fura/fure/furu, Swedish fura/furu, Dutch vuren, and Föhre in German, but in modern English, fir is now restricted to fir (Abies) and Douglas-fir (Pseudotsuga).

Taxonomy, nomenclature and codification[edit]

Main article: Pinus classification

Pines are gymnosperms. The genus is divided into three subgenera, based on cone, seed and leaf characters:

Distribution[edit]


A Khasi pine in Benguet, Philippines


Huangshan pine (Pinus hwangshanensis), Anhui, China

Most regions of the Northern Hemisphere (see List of pines by region) host some native species of pines. One species (Sumatran pine) crosses the equator in Sumatra to 2°S. In North America, various species occur in regions at latitudes from as far as 66°N to as far south as 12°N.

Various species have been introduced to temperate and subtropical regions of both hemispheres, where they are grown as timber or cultivated as ornamental plants in parks and gardens. A number of such introduced species have become invasive[5] and threaten native ecosystems.

Description[edit]


Ancient Pinus longaeva, Nevada, USA

Pines are evergreen, coniferous resinous trees (or rarely shrubs) growing 3–80 m tall, with the majority of species reaching 15–45 m tall. The smallest are Siberian dwarf pine and Potosi pinyon, and the tallest is a 268.35-foot (81.79-meter) tall ponderosa pine located in southern Oregon's Rogue River-Siskiyou National Forest.[6]


Bark chips

The bark of most pines is thick and scaly, but some species have thin, flaking bark. The branches are produced in regular "pseudo whorls", actually a very tight spiral but appearing like a ring of branches arising from the same point. Many pines are uninodal, producing just one such whorl of branches each year, from buds at the tip of the year's new shoot, but others are multinodal, producing two or more whorls of branches per year. The spiral growth of branches, needles, and cone scales are arranged in Fibonacci number ratios.[citation needed] The new spring shoots are sometimes called "candles"; they are covered in brown or whitish bud scales and point upward at first, then later turn green and spread outward. These "candles" offer foresters a means to evaluate fertility of the soil and vigour of the trees.

Pines are long-lived, typically reaching ages of 100–1,000 years, some even more. The longest-lived is the Great Basin bristlecone pine, Pinus longaeva. One individual of this species, dubbed "Methuselah", is one of the world's oldest living organisms at around 4,600 years old. This tree can be found in the White Mountains of California.[7] An older tree, now cut down, was dated at 4,900 years old. It was discovered in a grove beneath Wheeler Peak and it is now known as "Prometheus" after the Greek immortal.[citation needed]

Foliage[edit]


Illustration of needles, cones, and seeds of Scots pine (Pinus sylvestris)

Pines have four types of leaf:

  • Seed leaves (cotyledons) on seedlings, born in a whorl of 4–24.
  • Juvenile leaves, which follow immediately on seedlings and young plants, 2–6 cm long, single, green or often blue-green, and arranged spirally on the shoot. These are produced for six months to five years, rarely longer.
  • Scale leaves, similar to bud scales, small, brown and non-photosynthetic, and arranged spirally like the juvenile leaves.
  • Needles, the adult leaves, which are green (photosynthetic), bundled in clusters (fascicles) of 1–6, commonly 2–5, needles together, each fascicle produced from a small bud on a dwarf shoot in the axil of a scale leaf. These bud scales often remain on the fascicle as a basal sheath. The needles persist for 1.5–40 years, depending on species. If a shoot is damaged (e.g. eaten by an animal), the needle fascicles just below the damage will generate a bud which can then replace the lost leaves.

Cones[edit]

Pines are mostly monoecious, having the male and female cones on the same tree, though a few species are sub-dioecious with individuals predominantly, but not wholly, single-sex. The male cones are small, typically 1–5 cm long, and only present for a short period (usually in spring, though autumn in a few pines), falling as soon as they have shed their pollen. The female cones take 1.5–3 years (depending on species) to mature after pollination, with actual fertilization delayed one year. At maturity the female cones are 3–60 cm long. Each cone has numerous spirally arranged scales, with two seeds on each fertile scale; the scales at the base and tip of the cone are small and sterile, without seeds. The seeds are mostly small and winged, and are anemophilous (wind-dispersed), but some are larger and have only a vestigial wing, and are bird-dispersed (see below). At maturity, the cones usually open to release the seeds, but in some of the bird-dispersed species (e.g. whitebark pine), the seeds are only released by the bird breaking the cones open. In others, the seeds are stored in closed ("serotinous") cones for many years until an environmental cue triggers the cones to open, releasing the seeds. The most common form of serotiny is pyriscence, in which a resin binds the cones shut until melted by a forest fire.

Ecology[edit]


A prescribed fire in a European black pine (Pinus nigra) woodland, Portugal

Pines grow well in acid soils, some also on calcareous soils; most require good soil drainage, preferring sandy soils, but a few (e.g. lodgepole pine) will tolerate poorly drained wet soils. A few are able to sprout after forest fires (e.g. Canary Island pine). Some species of pines (e.g. bishop pine) need fire to regenerate, and their populations slowly decline under fire suppression regimes. Several species are adapted to extreme conditions imposed by elevation and latitude (e.g. Siberian dwarf pine, mountain pine, whitebark pine and the bristlecone pines). The pinyon pines and a number of others, notably Turkish pine and gray pine, are particularly well adapted to growth in hot, dry semi-desert climates.[citation needed]

The seeds are commonly eaten by birds and squirrels. Some birds, notably the spotted nutcracker, Clark's nutcracker and Pinyon jay, are of importance in distributing pine seeds to new areas. Pine needles are sometimes eaten by some Lepidoptera (butterfly and moth) species (see list of Lepidoptera that feed on pines), the Symphytan species pine sawfly, and goats.[citation needed]

Uses[edit]


Logging Pinus ponderosa, Arizona, USA


Pinus sylvestris prepared for transport, Hungary

Pines are among the most commercially important tree species valued for their timber and wood pulp throughout the world. In temperate and tropical regions, they are fast-growing softwoods that will grow in relatively dense stands, their acidic decaying needles inhibiting the sprouting of competing hardwoods. Commercial pines are grown in plantations for timber that is denser, more resinous, and therefore more durable than spruce (Picea). Pine wood is widely used in high-value carpentry items such as furniture, window frames, panelling, floors and roofing, and the resin of some species is an important source of turpentine.

Many pine species make attractive ornamental plantings for parks and larger gardens with a variety of dwarf cultivars being suitable for smaller spaces. Pines are also commercially grown and harvested for Christmas trees. Pine cones, the largest and most durable of all conifer cones, are craft favorites. Pine boughs, appreciated especially in wintertime for their pleasant smell and greenery, are popularly cut for decorations. A number of species are attacked by nematodes, causing pine wilt disease, which can kill some quickly. Pine needles are also used for making decorative articles like baskets, trays, pots, etc. This Native American skill is now being replicated across the world. Pine needle handicrafts are made in the US, Canada, Mexico, Nicaragua and India. Pine needles serve as food for various Lepidoptera. See List of Lepidoptera that feed on pines.

Because pines have no insect or decay resistant qualities after logging, they are generally recommended for construction purposes as indoor use only (ex. indoor drywall framing). This wood left outside can be expected to last no more than 12–18 months depending on the local climate. It is commonly referred to by several different names which include North American timber, SPF (spruce, pine, fir) and whitewood.

Food[edit]


Edible seeds of the Korean pine (Pinus koraiensis)

Some species have large seeds, called pine nuts, that are harvested and sold for cooking and baking. They are an essential ingredient of Pesto alla genovese.

The soft, moist, white inner bark (cambium) found clinging to the woody outer bark is edible and very high in vitamins A and C. It can be eaten raw in slices as a snack or dried and ground up into a powder for use as an ersatz flour or thickener in stews, soups, and other foods, such as bark bread. Adirondack Indians got their name from the Mohawk Indian word atirú:taks, meaning "tree eaters".

Biomedical[edit]

A tea made by steeping young, green pine needles in boiling water (known as "tallstrunt" in Sweden) is high in vitamins A and C.

Pine has been listed as one of the 38 substances used to prepare Bach flower remedies,[8] a kind of alternative medicine promoted for its effect on health. However according to Cancer Research UK, "there is no scientific evidence to prove that flower remedies can control, cure or prevent any type of disease, including cancer".[9]

See also[edit]

Notes[edit]

  1. ^ Sunset Western Garden Book, 1995:606–607
  2. ^ The Plant List (2013). Version 1.1. Published on the Internet; http://www.theplantlist.org/ (accessed June 2014)
  3. ^ pine. (2006). In Word Origins. Retrieved from http://www.credoreference.com/entry/acbwordorig/pine
  4. ^ a b Burton Verne Barnes; Warren Herbert Wagner (January 2004). Michigan Trees: A Guide to the Trees of the Great Lakes Region. University of Michigan Press. pp. 81–. ISBN 0-472-08921-8. 
  5. ^ "Pinus ssp. (tree), General Impact". Global Invasive Species Database. Invasive Species Specialist Group. 13 March 2006. Retrieved 2 March 2011. 
  6. ^ Fattig, Paul (2011-01-23). "Tallest of the tall". Mail Tribune (Medford, Oregon). Retrieved 2011-01-27. 
  7. ^ Ryan, Michael; David M. Richardson (December 1999). "The Complete Pine". BioScience 49 (12): 1023–1024. doi:10.2307/1313736.  |accessdate= requires |url= (help)
  8. ^ D. S. Vohra (1 June 2004). Bach Flower Remedies: A Comprehensive Study. B. Jain Publishers. p. 3. ISBN 978-81-7021-271-3. Retrieved 2 September 2013. 
  9. ^ "Flower remedies". Cancer Research UK. Retrieved September 2013. 

References[edit]

  • Farjon, A. 1984, 2nd edition 2005. Pines. E. J. Brill, Leiden. ISBN 90-04-13916-8
  • Little, E. L., Jr., and Critchfield, W. B. 1969. Subdivisions of the Genus Pinus (Pines). US Department of Agriculture Misc. Publ. 1144 (Superintendent of Documents Number: A 1.38:1144).
  • Richardson, D. M. (ed.). 1998. Ecology and Biogeography of Pinus. Cambridge University Press, Cambridge. 530 p. ISBN 0-521-55176-5
  • Sulavik, Stephen B. 2007. Adirondack; Of Indians and Mountains, 1535-1838. Purple Mountain Press, Fleischmanns, NY. 244 p. ISBN 1-930098-79-0 ISBN 978-1-930098-79-4
  • Mirov, N. T. 1967. The Genus Pinus. Ronald Press, New York (out of print).
  • Classification of pines
  • Gymnosperm Database - Pinus

Bibliography[edit]

Licensehttp://creativecommons.org/licenses/by-sa/3.0/
Rights holder/AuthorWikipedia
Sourcehttp://en.wikipedia.org/w/index.php?title=Pine&oldid=654559102

Pinyon pine:

The pinyon (or piñon) pine group grows in the southwestern United States and in Mexico. The trees yield edible pinyon nuts, which were a staple of the Native Americans, and are still widely eaten. The wood, especially when burned, has a distinctive fragrance. The pinyon pine trees are also known to influence the soil in which they grow.[1]

Some of the species are known to hybridise, the most notable ones being P. quadrifolia with P. monophylla, and P. edulis with P. monophylla.

The Pinyon Jay (Gymnorhinus cyanocephalus) takes its name from the tree, and pinyon nuts form an important part of its diet. It is very important for regeneration of pinyon woods, as it stores large numbers of the seeds in the ground for later use, and excess seeds not used are in an ideal position to grow into new trees. The Mexican Jay is also important for the dispersal of some pinyon species, as, less often, is the Clark's Nutcracker. Many other species of animal also eat pinyon nuts, without dispersing them.

The pinyon pine is very common in the Grand Canyon

Species [edit]

Genetic differentiation in the pinyon pine has been observed associated to insect herbivory and environmental stress.[2][3]

There are eight species of true pinyons (Pinus subsection Cembroides):[4]

These additional Mexican species are also related and mostly called pinyons:

as are also the three bristlecone pines of the high mountains of the SW USA, and the Lacebark Pines of Asia.

References [edit]

  1. ^ Barth, R.C. (January 1980). "Influence of Pinyon Pine Trees on Soil Chemical and Physical Properties". Soil Science Society of America Journal 44 (1): 112–114. Retrieved 6 August 2012. 
  2. ^ WHITHAM, THOMAS G.; SUSAN MOPPER (1985-05-31). "Chronic Herbivory: Impacts on Architecture and Sex Expression of Pinyon Pine". Science 228 (4703): 1089–1091. doi:10.1126/science.228.4703.1089. Retrieved 6 August 2012. 
  3. ^ Mopper, Susan; Jeffry B. Mitton, Thomas G. Whitham, Neil S. Cobb and Kerry M. Christensen (June 1991). "Genetic Differentiation and Heterozygosity in Pinyon Pine Associated with Resistance to Herbivory and Environmental Stress". Evolution 45 (4): 989–999. Retrieved 6 August 2012. 
  4. ^ Bentancourt, Julio L.; William S. Schuster, Jeffry B. Mitton and R. Scott Anderson (October 1991). "Fossil and Genetic History of a Pinyon Pine (Pinus Edulis) Isolate". Ecology 72 (5): 1685–1697. Retrieved 6 August 2012. 
Licensehttp://creativecommons.org/licenses/by-sa/3.0/
Rights holder/AuthorWikipedia
Sourcehttp://en.wikipedia.org/w/index.php?title=Pinyon_pine&oldid=557013420

Comments:

* 800-1400 m. Anhui (Miaodao Shan, Yuexi Xian). 

 Supposed hybrid. Name appeared after publication of the family treatment for the Flora of China.

Licensehttp://creativecommons.org/licenses/by-nc-sa/3.0/
Rights holder/AuthoreFloras.org Copyright © Missouri Botanical Garden
Sourcehttp://www.efloras.org/florataxon.aspx?flora_id=2&taxon_id=242414668

Statistics of barcoding coverage:

Barcode of Life Data Systems (BOLD) Stats
Specimen Records:1823
Specimens with Sequences:3133
Specimens with Barcodes:2556
Species:173
Species With Barcodes:170
Public Records:1339
Public Species:162
Public BINs:0

Licensehttp://creativecommons.org/licenses/by/3.0/
Rights holder/AuthorSujeevan Ratnasingham, Paul D.N. Hebert, Barcode of Life Data Systems (BOLD)
Sourcehttp://www.boldsystems.org/index.php/Taxbrowser_Taxonpage?taxid=100249

Barcode data:

Access Published & Released Data: Download FASTA File

Licensehttp://creativecommons.org/licenses/by/3.0/
Rights holder/AuthorSujeevan Ratnasingham, Paul D.N. Hebert, Barcode of Life Data Systems (BOLD)
Sourcehttp://www.boldsystems.org/index.php/Taxbrowser_Taxonpage?taxid=100249

Description:

Evergreen trees with branches ± whorled. Branches of 2 kinds: (a) main branches bearing only scale-like leaves lacking chlorophyll and (b) deciduous short shoots bearing a number (usually 2,3 or 5) of green needle-like leaves in a common sheath. Ripe cones with woody scales. Seeds winged (in ours), 2 per cone scale.

Licensehttp://creativecommons.org/licenses/by-nc/3.0/
Rights holder/AuthorMark Hyde, Bart Wursten, Petra Ballings, Flora of Zimbabwe
Sourcehttp://www.zimbabweflora.co.zw/speciesdata/genus.php?genus_id=92
Scratchpads developed and conceived by (alphabetical): Ed Baker, Katherine Bouton Alice Heaton Dimitris Koureas, Laurence Livermore, Dave Roberts, Simon Rycroft, Ben Scott, Vince Smith