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The Proteaceae form a family of predominantly distributed in the Southern Hemisphere. The family comprises 83 with about 1,660 known . and have the greatest concentrations of diversity. Together with the (plane trees), (the sacred lotus) and in the recent system the , they make up the order . Well-known Proteaceae genera include , , , , , and . Species such as the New South Wales waratah ( Telopea speciosissima), king protea ( Protea cynaroides), and various species of Banksia, Grevillea, and Leucadendron are popular . The nuts of Macadamia integrifolia are widely grown commercially and consumed, as are those of on a smaller scale.

Etymology
The name Proteaceae was adapted by Robert Brown from the name Proteae coined in 1789 for the family by Antoine Laurent de Jussieu, based on the genus Protea, which in 1767, derived from the name of the Greek god , a deity who was able to change between many forms.Brown, Robert. "On the Proteaceae of Jussieu". Transactions of the Linnean Society of London 10:15–226, 1811.Jussieu, Antoine Laurent de, Genera plantarum secundum ordines naturales disposita, juxta methodum in Horto Regio Parisiensi exaratum, anno M.DCC.LXXIV. Paris, 1789. pp. 78–80 .

Taxonomy
First described by French botanist Antoine Laurent de Jussieu, the family Proteaceae is a fairly large one, with around 80 genera, but less than 2,000 species. It is recognised by virtually all taxonomists. Firmly established under classical Linnaean taxonomy, it is also recognised by the -based and APG II systems. It is placed in the order , whose placement has itself varied.

A classification of the genera within Proteaceae was made by Lawrie Johnson and Barbara Briggs in their influential 1975 monograph "", until it was largely superseded by the molecular studies of Peter H. Weston and Nigel Barker in 2006. Proteaceae are now divided into five subfamilies: , , Symphionematoideae, and . In 2008 Mast and colleagues updated Macadamia and related genera in tribe Macadamieae. Furthermore, Orites megacarpus was found not to be within the genus Orites, nor in the tribe Roupaleae, instead in the tribe Macadamieae, hence given the new species name Nothorites megacarpus. The full arrangement, according to Weston and Barker (2006) with the updates to genera from Mast et al. (2008), is as follows:

Family Proteaceae
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Description
The genera of Proteaceae are highly varied, with in particular providing a striking example of adaptive radiation in plants. This variability makes it impossible to provide a simple, diagnostic identification key for the family, although individual genera may be easily identified.
  • Proteaceae range from prostrate shrubs to tall forest of in height, and are usually of medium height or low or perennial , except for some species that are . Some species are facultatively deciduous ( Embothrium coccineum), rarely acaulescent, the cauline portion of the collar is often thickened (). of three-celled hairs, sometimes glandular, rarely absent, the apical cell is usually elongated, acute, sometimes equally or unequally bifid.
  • rarely aromatic, usually alternate, and in a spiral, rarely opposed, or verticilate; coriaceous, rarely fleshy or spinescent, simple or compound (imparipinate, imparibipinate or rarely palmate or digitate with pinnatisect segments), entire edge to (3-)pinnatisect (giving a fern-like aspect); rarely divided dichotomously, often remotely toothed, crenate or serrated, seated or stalked; the petiole frequently with a swollen base but rarely sheathed (sometimes in ), without ; pinnate sometimes palmate or parallel venation, brochidodromous or reduced to a single prominent vane, normally conduplicate; often occurs during the different growth periods; leaf blade dorsiventral, isobilateral or centred; usually with sclerenchymatous , rare secretory cavities. Brachy-paracytic (laterocytic in ).
with two types of radii, wide and multi-serrated or narrow and uni-serrated, stratified or not, trilacunar nodes with three (rarely unilacunar with one trace), frequent; bark with frequently horizontally enlarged, present, usually superficial. lateral and short, often grouped in bundles ( proteoid roots) with very dense root hairs, rarely with .
  • usually hermaphroditic, more rarely monoecious, dioecious or andromonoecious.
  • very variable, simple or compound, axillary or terminal, lateral flowers solitary or in pairs, rarely with a terminal flower, , or condensed, usually with , sometimes converted into leaves or squamiform, forming a type of cone, or with bright colours, forming an involucre or pseudanthium, the peduncles and pedicels sometimes contracted, compacted with the , in some cases the congested inflorescences form super inflorescences (some ); very rarely the flowers are solitary and axillary near the end of branches; in species with lignotubers the flowers sometimes grow from these and pass through the soil (geophytes).
  • are usually perfect, actinomorphic, or zygomorphic, hypogynous, frequently large and showy. Flat or oblique, sometimes forming a gynophore. Hypogynous disk present and extrastaminal or absent. of (3-)4(−8) (sometimes interpreted as a dimerous and dichlamydeous perianth), in 1(−2) valvate whorls, sometimes elongated in a basal sack, free or fused in different ways (all fused or even one free and three basally to completely fused), or even connivent by marginally interdigitate papillae forming a tube or a bilabiate structure, zygomorphic, sometimes opening laterally in a variety of ways. Haplostemonous androecium, usually isostemonous, opposititepalous of (3-)4(−5) , all fertile or some converted into , usually filamentous, filaments partially or totally fused to the tepals, rarely free, basifixed adnate, ditheous, tetrasporangiate, sometimes and bisporagiate, introrse to latrorse (rarely), expanded connective, usually with apiculus, dehiscence along longitudinal tears. Hypogynous glands (0-)1–4, squamiform or elongated, fleshy, free or fused forming a lunate or annular over the receptacle. Superior gynoecium of 1(−2) apocarpous , sessile or stipitate (with a more or less elongated ), sometimes not completely closed, style usually developed, stigma small or in the shape of a terminal or sub terminal disk or even lateral and oblique, often indented, papilous, moist or dry, 1–100 or more per carpel, anatropous, hemianatropous, amphitropous or orthotropous, mostly hemitropous, bitegmic, crassinucellate, with a ring of vascular bundles, the funiculus is occasionally absent and the ovule is fused to the placenta, marginal with various dispositions or apical.
  • dehiscent or indehiscent, in or nucule, follicle, (with lignified endocarp) or falsely drupal (with lignified internal mesocarp), sometimes similar to a as it is fused to the wall of the ovary and the testa, often lignified and serotinous; the fruit from the same inflorescence are sometimes fused forming a syncarp.
  • 1-many, sometimes winged, flat to rounded, with absent, present in , endotesta with an unusual layer containing crystals of that is rarely absent, well differentiated , straight, dicotyledonous, but often with 3 or more (up to 9) large cotyledons, often auriculate.
  • in monads, triangular in polar view, (2-)3(−8)-aperturate, usually isopolar and triporate, biporate in and the tribe Banksieae, colpoidate in , spherical in and or strongly anisopolar in some species of ; the openings of the former's tetrads follow Garside's Law.
  • : n=5, 7, 10–14, 26, 28; sizes range from very small (average of 1,0 μm) to very big (average of 14,4 μm) according to species; x=7, 12.

Flowers
[[File:Pincushion hakea03.jpg|thumb|right| and leaves of the pin-cushion hakea ( Hakea laurina)]] Generally speaking, the diagnostic feature of Proteaceae is the compound . In many genera, the most obvious feature is the large and often very showy , consisting of many small densely packed into a compact head or spike. This character does not occur in all Proteaceae, however; species, for example, have solitary flowers. In most Proteaceae species, the pollination mechanism is highly specialised. It usually involves the use of a "pollen-presenter", an area on the -end that presents the to the pollinator.

Proteaceae flower parts occur in fours. The four are fused into a long, narrow tube with a closed cup at the top, and the filaments of the four are fused to the tepals in such a way that the anthers are enclosed within the cup. The pistil initially passes along the inside of the perianth tube, so the stigma, too, is enclosed within the cup. As the flower develops, the pistil grows rapidly. Since the stigma is trapped, the style must bend to elongate, and eventually it bends so far, the perianth is split along one seam. The style continues to grow until , when the begin to produce . At this time, the perianth splits into its component tepals, the cup splits apart, and the pistil is released to spring more or less upright.

Ecology
Many of the Proteaceae have specialised , masses of lateral roots and hairs forming a radial absorptive surface, produced in the leaf litter layer during seasonal growth, and usually shrivelling at the end of the growth season. They are an adaptation to growth in poor, phosphorus-deficient soils, greatly increasing the plants' access to scarce water and nutrients by exuding that mobilise previously unavailable phosphorus. They also increase the root's absorption surface, but this is a minor feature, as it also increases competition for nutrients against its own root clusters. However, this adaptation leaves them highly vulnerable to dieback caused by the Phytophthora cinnamomi , and generally intolerant of . Due to these specialized proteoid roots, the Proteaceae are one of few flowering plant families that do not form symbioses with arbuscular mycorrhizal fungi. They exude large amounts of organic acids ( and ) every 2–3 days in order to aid the mobilization and absorption of phosphate. Many species are fire-adapted (), meaning they have strategies for surviving fires that sweep through their habitat. Some are , and have a thick rootstock buried in the ground that shoots up new stems after a fire, and others are , meaning the adult plants are killed by the fire, but disperse their seeds, which are stimulated by the smoke to take root and grow. The heat was previously thought to have stimulated growth, but the chemicals in the smoke have now been shown to cause it.

There are four dioecious genera ( , , and ), 11 andromonoecious genera and some other genera have species that are cryptically andromonoecious: two species are sterile and only reproduce vegetatively ( Lomatia tasmanica, Hakea pulvinifera). The species vary between being autocompatible and autoincompatible, with intermediate situations; these situations sometimes occur in the same species. The flowers are usually protandrous. Just before anthesis, the anthers release their , depositing it onto the stigma, which in many cases has an enlarged fleshy area specifically for the deposition of its own pollen. Nectar-feeders are unlikely to come into contact with the anthers themselves, but can hardly avoid contacting the stigma; thus, the stigma functions as a , ensuring the nectar-feeders act as pollinators. The downside of this pollination strategy is that the probability of self-fertilisation is greatly increased; many Proteaceae counter this with strategies such as , self-incompatibility, or preferential abortion of selfed seed. The systems for presenting pollen are usually highly diverse, corresponding to the diversification of the pollinators. is carried out by , , , , birds (, , and ) and mammals (rodents, small , and ). The latter two means were evolutionarily derived from in different, independent events. The dispersion of some species exhibit , which is associated with their pyrophytic behaviour. These trees accumulate fruits on their branches whose outer layers or protective structures () are highly lignified and resistant to fire. The fruit only release their seeds when they have been burnt and when the ground has been fertilized with ashes from the fire and is free from competitors. Many species have seeds with that are dispersed by ; the seeds with wings or thistledown exhibit anemochory, while the drupes and other fleshy fruit exhibit endozoochory as mammals and birds ingest them. Some African and Australian rodents are known to accumulate fruit and seeds of these plants in their nests in order to feed on them, although some manage to germinate.

Distribution
Proteaceae are mainly a Southern Hemisphere family, with its main centres of diversity in Australia and South Africa. It also occurs in Central Africa, and , , eastern and south eastern , and . Only two species are known from New Zealand, although fossil pollen evidence suggests there were more previously.

It is a good example of a family, with taxa occurring on virtually every land mass considered a remnant of the ancient Gondwana, except . The family and subfamilies are thought to have diversified well before the fragmentation of Gondwana, implying all of them are well over 90 million years old. Evidence for this includes an abundance of proteaceous found in the deposits of the of . It is thought to have achieved its present distribution largely by continental drift rather than dispersal across ocean gaps.

(1996). 9789051031362, SPB Academic Publishing.

Phytochemistry
No conclusive studies have been carried out on the chemical substances present in this broad family. The genera and are unusual as they use as the main sugar in their nectar and as they have high concentrations of polygalactol, while is the main sugar present in . Cyanogenic glycosides, derived from , are often present, as are ( and ), (, and ) and . are usually absent. and are also absent. and can be either present or absent in different species. Many species accumulate .

Uses and cultivation
Many traditional cultures have used Proteaceae as sustenance, medicine, for curing animal hides, as a source of dyes, firewood and as wood for construction. Aboriginal Australians eat the fruit of , and the seeds of species from other genera, including and , form part of the diet of the indigenous peoples but are also sold throughout the world. The tender shoots of species are used in Java, and the nectar from the inflorescences of a number of species is drunk in Australia. Traditional medicines can be obtained from infusions of the roots, bark, leaves, or flowers of many species that are used as topical applications for skin conditions or internally as tonics, aphrodisiacs, and galactogens to treat headaches, cough, dysentery, diarrhea, indigestion, stomach ulcers, and kidney disease. The wood from the trees of this family is widely used in construction and for internal uses such as decoration; the wood from species of , and is especially popular. Many are used in gardening, particularly genera of , , , and Telopea. This use has resulted in the introduction of exotic species that have become invasive; examples include the hakea willow ( Hakea salicifolia) and the silky hakea ( ) in Portugal.

Two species of are cultivated commercially for their edible nuts. (Chilean hazel) is also cultivated for its edible nuts, in and , and they are also used in the pharmaceutical industry for their humectant properties and as an ingredient in . It is the most cold-resistant of the tree families that produce nuts. It is also planted in the and on the Pacific coast of the for its tropical appearance and its ability to grow in .

Many Proteaceae species are cultivated by the nursery industry as barrier plants and for their prominent and distinctive flowers and foliage. Some species are of importance to the , especially some and species.

Sugarbushes ( ), pincushions ( ) and conebushes ( ), as well as others like pagodas ( ), and blushing brides ( ), comprise one of the three main plant groups of , which forms part of the Cape Floral Kingdom, the smallest but richest plant kingdom for its size and the only kingdom contained within a single country. The other main groups of plants in fynbos are the and the . South African proteas are thus widely cultivated due to their many varied forms and unusual flowers. They are popular in South Africa for their beauty and their usefulness in for attracting birds and useful insects.

The species most valued as ornamentals are the trees that grow in southern latitudes as they give landscapes in temperate climates a tropical appearance; Lomatia ferruginea (Fuinque), (Radal) have been introduced in Western and to the western . Embothrium coccineum (Chilean Firetree or Notro) is highly valued in the British Isles for its dark red flowers and can be found as far north as the at a latitude of 62° north.

Among the , many of which grow in temperate and Mediterranean climates, the vast majority are shrubs; only a few are trees that are valued for their height. Among the tallest species are: B. integrifolia with its subspecies B. integrifolia subsp. monticola, which is noteworthy as the plants that form the subspecies are the tallest trees of the banksias and they are more frost-resistant than other banksias, , B. littoralis, ; among those that can be considered small trees or large shrubs: , B. prionotes, B. marginata, and ; all of these are planted in parks and gardens and even along roadsides because of their size. The rest of the species of this genus, around 170 species, are shrubs, although some of them are valued for their flowers.

Another species that is cultivated in some parts of the world, although it is smaller, is Telopea speciosissima (Waratah), from the mountains of New South Wales, .

Some temperate climate species are cultivated more locally in Australia for their attractive appearance: Persoonia pinifolia (pine-leaved ) is valued for its vivid yellow flowers and grape-like fruit. Adenanthos sericeus (woolly bush) is planted for its attractive soft leaves and its small red or orange flowers. Hicksbeachia pinnatifolia (beef nut, red bauple nut) is commonly planted for its foliage and edible nuts.

Parasites
The Proteaceae are particularly susceptible to certain parasites, in particular the Phytophthora cinnamomi, which causes severe root rot in the plants that grow in Mediterranean climates. Fusarium oxysporum causes a disease called fusariosis in roots that causes a yellowing and wilting, with serious ecological damages to woodland plants and economic losses in plants of commercial interest. Other common infections are caused by species of , , , , and other fungi.

Conservation status
The IUCN 2006. 2006 IUCN Red List of Threatened Species. . Downloaded on 22 February 2007 considers that 47 Proteaceae species are threatened, of which one species, Stenocarpus dumbeensis Guillaumin, 1935, from New Caledonia, is thought to be extinct. The species of this family are particularly susceptible to the destruction or fragmentation of their , fire, parasitic diseases, competition from introduced plants, soil degradation and other damage provoked by humans and their domesticated animals. The species are also affected by .

Fossils
The Proteaceae have a rich fossil record, despite the inherent difficulties in identifying remains that do not show diagnostic characteristics. Identification usually comes from using a combination of brachy-paracytic stomata and the unusual bases or, in other cases, the unusual structure of pollen tetrads. was identified as a member of the Proteaceae from the similarity of its fruit to the extant genus . Fossils attributable to this family have been found on the majority of areas that formed the supercontinent. A wide variety of pollen belonging to this family dating back to the Upper (-) from the south east of Australia and pollen from the Middle Cretaceous (-) from northern Africa and Peru described as Triorites africaensis. The first macrofossils appear twenty million years later in the of South America and the north east of Australia. The fossil record of some areas, such as New Zealand and Tasmania, show a greater biodiversity for Proteaceae than currently exists, which supports the fact that the distribution of many taxa has changed drastically with the passage of time and that the family has suffered a general decline, including high levels of extinction during the .

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