familyPinaceae

Difference between revisions of "Pinaceae"

Lindley
Common names: Pine Family
Treatment appears in FNA Volume 2. Treatment on page 352.
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--><span class="statement" id="st-d0_s0" data-properties="tree duration;tree coating;tree odor;tree reproduction"><b>Trees </b>(occasionally shrubs), evergreen (annually deciduous in Larix), resinous and aromatic, monoecious.</span> <span class="statement" id="st-d0_s1" data-properties="bark architecture;bark architecture;bark architecture;bark architecture"><b>Bark </b>smooth to scaly or furrowed.</span> <span class="statement" id="st-d0_s2" data-properties="lateral branch development;shoot size;shoot size;shoot size;shoot size"><b>Lateral </b>branches well developed and similar to leading (long) shoots or reduced to well-defined short (spur) shoots (Pinus, Larix);</span> <span class="statement" id="st-d0_s3" data-properties="twig shape;primary leaf duration;primary leaf-base duration">twigs terete, sometimes clothed by persistent primary leaves or leaf-bases;</span> <span class="statement" id="st-d0_s4" data-properties="longest internode some measurement">longest internodes less than 1cm;</span> <span class="statement" id="st-d0_s5" data-properties="bud prominence">buds conspicuous.</span> <span class="statement" id="st-d0_s6" data-properties="root texture;root texture;root texture;root structure subtype"><b>Roots </b>fibrous to woody, unspecialized.</span> <span class="statement" id="st-d0_s7" data-properties="leaf architecture;leaf arrangement;leaf arrangement;leaf arrangement;leaf architecture;leaf arrangement;leaf arrangement;leaf arrangement;leaf arrangement;leaf arrangement;leaf arrangement;leaf arrangement or course or shape;leaf architecture;leaf architecture;leaf architecture;leaf architecture"><b>Leaves </b>(needles) simple, shed singly (except whole fascicles shed in Pinus), alternate and spirally arranged but sometimes proximally twisted so as to appear 1-ranked or 2-ranked, or fascicled, linear to needlelike, sessile to short-petiolate;</span> <span class="statement" id="st-d0_s8" data-properties="tuft arrangement">foliage leaves either borne singly (spirally) on long-shoots or in tufts (fascicles) on short-shoots;</span> <span class="statement" id="st-d0_s9" data-properties="leaf life cycle;leaf shape">juvenile leaves (when present) borne on long-shoots, scalelike;</span> <span class="statement" id="st-d0_s10" data-properties="resin canal count">resin canals present.</span> <span class="statement" id="st-d0_s11" data-properties="pollen cone life cycle;pollen cone architecture or arrangement or growth form;pollen cone arrangement or growth form;pollen cone position;pollen cone shape;pollen cone shape;pollen cone shape;pollen cone shape"><b>Pollen </b>cones maturing and shed annually, solitary or clustered, axillary, ovoid to ellipsoid or cylindric;</span> <span class="statement" id="st-d0_s12" data-properties="sporophyll arrangement;abaxial microsporangium count">sporophylls overlapping, bearing 2 abaxial microsporangia (pollen-sacs);</span> <span class="statement" id="st-d0_s13" data-properties="pollen shape;pollen architecture;pollen architecture;wing size">pollen spheric, 2-winged, less commonly with wings reduced to frill (in Tsuga sect. <b>Tsuga</b>), or not winged (in Larix and Pseudotsuga).</span> <span class="statement" id="st-d0_s14" data-properties="seed-cone life cycle;seed-cone duration;seed-cone maturation;seed-cone architecture;seed-cone position;seed-cone arrangement;seed-cone arrangement;season count"><b>Seed-</b>cones maturing and shed in 1–3 seasons or long-persistent, sometimes serotinous (not opening upon maturity but much later: Pinus), compound, axillary, solitary or grouped;</span> <span class="statement" id="st-d0_s15" data-properties="scale arrangement;scale fusion;scale arrangement;scale shape;scale width;scale width;scale width;scale texture;adaxial ovule count;adaxial ovule orientation">scales overlapping, free from subtending included or exserted bracts for most of length, spirally arranged, strongly flattened, at maturity relatively thin to strongly thickened and woody (in Pinus), with 2 inverted, adaxial ovules.</span> <span class="statement" id="st-d0_s16" data-properties="seed count;terminal wing shape;terminal wing shape"><b>Seeds </b>2 per scale, elongate terminal wing partially decurrent on seed body (wing short or absent in some species of Pinus);</span> <span class="statement" id="st-d0_s17" data-properties="aril count">aril lacking;</span> <span class="statement" id="st-d0_s18" data-properties="cotyledon atypical count;cotyledon count">cotyledons 2–12 [–18].</span><!--
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--><span class="statement" id="st-undefined" data-properties=""><b>Trees </b>(occasionally shrubs), evergreen (annually deciduous in <i>Larix</i>), resinous and aromatic, monoecious. <b>Bark</b> smooth to scaly or furrowed. <b>Lateral</b> branches well developed and similar to leading (long) shoots or reduced to well-defined short (spur) shoots (<i>Pinus</i>, <i>Larix</i>); twigs terete, sometimes clothed by persistent primary leaves or leaf bases; longest internodes less than 1cm; buds conspicuous. <b>Roots</b> fibrous to woody, unspecialized. <b>Leaves</b> (needles) simple, shed singly (except whole fascicles shed in <i>Pinus</i>), alternate and spirally arranged but sometimes proximally twisted so as to appear 1- or 2-ranked, or fascicled, linear to needlelike, sessile to short-petiolate; foliage leaves either borne singly (spirally) on long shoots or in tufts (fascicles) on short shoots; juvenile leaves (when present) borne on long shoots, scalelike; resin canals present. <b>Pollen</b> cones maturing and shed annually, solitary or clustered, axillary, ovoid to ellipsoid or cylindric; sporophylls overlapping, bearing 2 abaxial microsporangia (pollen sacs); pollen spheric, 2-winged, less commonly with wings reduced to frill (in <i>Tsuga</i> sect. <i>Tsuga</i>), or not winged (in <i>Larix</i> and <i>Pseudotsuga</i>). <b>Seed</b> cones maturing and shed in 1–3 seasons or long-persistent, sometimes serotinous (not opening upon maturity but much later: <i>Pinus</i>), compound, axillary, solitary or grouped; scales overlapping, free from subtending included or exserted bracts for most of length, spirally arranged, strongly flattened, at maturity relatively thin to strongly thickened and woody (in <i>Pinus</i>), with 2 inverted, adaxial ovules. <b>Seeds</b> 2 per scale, elongate terminal wing partially decurrent on seed body (wing short or absent in some species of <i>Pinus</i>); aril lacking; cotyledons 2–12[–18].</span><!--
  
 
-->{{Treatment/Body
 
-->{{Treatment/Body
 
|distribution=Almost entirely in the Northern Hemisphere.
 
|distribution=Almost entirely in the Northern Hemisphere.
 
|discussion=<p>The Pinaceae, with a fossil record extending back to the Cretaceous (C.N. Miller Jr. 1988), constitute a clearly defined natural taxon, the basic delimiting features of which are seen in the mature seed cones: bract-scale complexes consisting of well-developed scales that are free for most of their length from the subtending bracts, two inverted ovules on the adaxial face of each scale, and usually an obvious seed wing that develops from the cone scale. The 10 genera, too, are clearly defined.</p><!--
 
|discussion=<p>The Pinaceae, with a fossil record extending back to the Cretaceous (C.N. Miller Jr. 1988), constitute a clearly defined natural taxon, the basic delimiting features of which are seen in the mature seed cones: bract-scale complexes consisting of well-developed scales that are free for most of their length from the subtending bracts, two inverted ovules on the adaxial face of each scale, and usually an obvious seed wing that develops from the cone scale. The 10 genera, too, are clearly defined.</p><!--
--><p>The cones of certain members of the Pinaceae remain on the tree and closed for several to many years until a stimulus (often fire) causes them to open and shed their seeds. This condition, known as serotiny (adjective, serotinous), is seen in various pines (e.g., Pinus attenuata, P. banksiana, P. contorta).</p><!--
+
--><p>The cones of certain members of the Pinaceae remain on the tree and closed for several to many years until a stimulus (often fire) causes them to open and shed their seeds. This condition, known as serotiny (adjective, serotinous), is seen in various pines (e.g., <i>Pinus attenuata</i>, <i>P. banksiana</i>, <i>P. contorta</i>).</p><!--
--><p>This primarily Northern Hemisphere family extends south to the West Indies, Central America, Japan, China, Indonesia, the Himalayas, and North Africa. The family is dominant in the vegetation of large regions including, in the flora area, forests of the boreal and Pacific regions, of the western mountains, and of the southeastern coastal plain. Only one species of the family, Pinus merkusii, crosses the equator (in Sumatra).</p><!--
+
--><p>This primarily Northern Hemisphere family extends south to the West Indies, Central America, Japan, China, Indonesia, the Himalayas, and North Africa. The family is dominant in the vegetation of large regions including, in the flora area, forests of the boreal and Pacific regions, of the western mountains, and of the southeastern coastal plain. Only one species of the family, <i>Pinus</i> merkusii, crosses the equator (in Sumatra).</p><!--
--><p>Members of the Pinaceae are of major economic importance as producers of most of the world's softwood timber. Additionally, they are sources of pulpwood, naval stores (e.g., tar, pitch, turpentine, etc.), essential oils, and other forest products. All members of the family present in the flora, especially pines, are of varying importance to wildlife for food and cover. Many species, including most of the genera, are grown as ornamentals and shelter-belt trees and for revegetation. Most commonly seen in cultivation in the flora area are species of Abies, Cedrus, Larix, Picea, Pinus, Pseudotsuga, and Tsuga, each of these genera being represented by numerous cultivars. Keteleeria and Pseudolarix are mainly botanical garden subjects. Cathaya, the most recently described genus (1958), is apparently not yet in cultivation in North America.</p><!--
+
--><p>Members of the Pinaceae are of major economic importance as producers of most of the world's softwood timber. Additionally, they are sources of pulpwood, naval stores (e.g., tar, pitch, turpentine, etc.), essential oils, and other forest products. All members of the family present in the flora, especially pines, are of varying importance to wildlife for food and cover. Many species, including most of the genera, are grown as ornamentals and shelter-belt trees and for revegetation. Most commonly seen in cultivation in the flora area are species of <i>Abies</i>, Cedrus, <i>Larix</i>, <i>Picea</i>, <i>Pinus</i>, <i>Pseudotsuga</i>, and <i>Tsuga</i>, each of these genera being represented by numerous cultivars. Keteleeria and Pseudolarix are mainly botanical garden subjects. Cathaya, the most recently described genus (1958), is apparently not yet in cultivation in North America.</p><!--
 
--><p>Among the vegetative features useful for identification of some genera of Pinaceae are the leaf scars. These are best observed on those portions of living branchlets from which leaves have fallen.</p><!--
 
--><p>Among the vegetative features useful for identification of some genera of Pinaceae are the leaf scars. These are best observed on those portions of living branchlets from which leaves have fallen.</p><!--
 
--><p>Genera 10, species ca. 200 (6 genera, 66 species in the flora with 64 natives and 2 naturalized).</p>
 
--><p>Genera 10, species ca. 200 (6 genera, 66 species in the flora with 64 natives and 2 naturalized).</p>
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|family=Pinaceae
 
|family=Pinaceae
 
|illustrator=John Myers
 
|illustrator=John Myers
 +
|illustration copyright=Flora of North America Association
 
|distribution=Almost entirely in the Northern Hemisphere.
 
|distribution=Almost entirely in the Northern Hemisphere.
 
|reference=burns1990a;farjon1990a;hosie1969a;little1979a;silba1986a
 
|reference=burns1990a;farjon1990a;hosie1969a;little1979a;silba1986a
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|publication year=
 
|publication year=
 
|special status=
 
|special status=
|source xml=https://jpend@bitbucket.org/aafc-mbb/fna-fine-grained-xml.git/src/287ef3db526bd807d435a3c7423ef2df1e951227/V2/V2_157.xml
+
|source xml=https://bitbucket.org/aafc-mbb/fna-data-curation/src/2e0870ddd59836b60bcf96646a41e87ea5a5943a/coarse_grained_fna_xml/V2/V2_157.xml
|abaxial microsporangium count=2
 
|adaxial ovule count=2
 
|adaxial ovule orientation=inverted
 
|aril count=lacking
 
|bark architecture=smooth;scaly or furrowed
 
|bud prominence=conspicuous
 
|cotyledon atypical count=12;18
 
|cotyledon count=2;12
 
|lateral branch development=developed
 
|leaf architecture=sessile;short-petiolate
 
|leaf arrangement=fascicled;2-ranked;1-ranked;fascicled;2-ranked;1-ranked;arranged;alternate;singly
 
|leaf arrangement or course or shape=linear
 
|leaf life cycle=juvenile
 
|leaf shape=scalelike
 
|longest internode some measurement=0cm;1cm
 
|pollen architecture=not winged;2-winged
 
|pollen cone architecture or arrangement or growth form=solitary
 
|pollen cone arrangement or growth form=clustered
 
|pollen cone life cycle=maturing
 
|pollen cone position=axillary
 
|pollen cone shape=ovoid;ellipsoid or cylindric
 
|pollen shape=spheric
 
|primary leaf duration=persistent
 
|primary leaf-base duration=persistent
 
|resin canal count=present
 
|root structure subtype=unspecialized
 
|root texture=fibrous;woody
 
|scale arrangement=arranged;overlapping
 
|scale fusion=free
 
|scale shape=flattened
 
|scale texture=woody
 
|scale width=relatively thin;strongly thickened
 
|season count=1;3
 
|seed count=2
 
|seed-cone architecture=compound
 
|seed-cone arrangement=grouped;solitary
 
|seed-cone duration=long-persistent
 
|seed-cone life cycle=maturing
 
|seed-cone maturation=serotinous
 
|seed-cone position=axillary
 
|shoot size=reduced;well-defined short
 
|sporophyll arrangement=overlapping
 
|terminal wing shape=decurrent;elongate
 
|tree coating=resinous
 
|tree duration=evergreen
 
|tree odor=aromatic
 
|tree reproduction=monoecious
 
|tuft arrangement=singly
 
|twig shape=terete
 
|wing size=reduced
 
 
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Latest revision as of 20:21, 5 November 2020

Trees (occasionally shrubs), evergreen (annually deciduous in Larix), resinous and aromatic, monoecious. Bark smooth to scaly or furrowed. Lateral branches well developed and similar to leading (long) shoots or reduced to well-defined short (spur) shoots (Pinus, Larix); twigs terete, sometimes clothed by persistent primary leaves or leaf bases; longest internodes less than 1cm; buds conspicuous. Roots fibrous to woody, unspecialized. Leaves (needles) simple, shed singly (except whole fascicles shed in Pinus), alternate and spirally arranged but sometimes proximally twisted so as to appear 1- or 2-ranked, or fascicled, linear to needlelike, sessile to short-petiolate; foliage leaves either borne singly (spirally) on long shoots or in tufts (fascicles) on short shoots; juvenile leaves (when present) borne on long shoots, scalelike; resin canals present. Pollen cones maturing and shed annually, solitary or clustered, axillary, ovoid to ellipsoid or cylindric; sporophylls overlapping, bearing 2 abaxial microsporangia (pollen sacs); pollen spheric, 2-winged, less commonly with wings reduced to frill (in Tsuga sect. Tsuga), or not winged (in Larix and Pseudotsuga). Seed cones maturing and shed in 1–3 seasons or long-persistent, sometimes serotinous (not opening upon maturity but much later: Pinus), compound, axillary, solitary or grouped; scales overlapping, free from subtending included or exserted bracts for most of length, spirally arranged, strongly flattened, at maturity relatively thin to strongly thickened and woody (in Pinus), with 2 inverted, adaxial ovules. Seeds 2 per scale, elongate terminal wing partially decurrent on seed body (wing short or absent in some species of Pinus); aril lacking; cotyledons 2–12[–18].

Distribution

Almost entirely in the Northern Hemisphere.

Discussion

The Pinaceae, with a fossil record extending back to the Cretaceous (C.N. Miller Jr. 1988), constitute a clearly defined natural taxon, the basic delimiting features of which are seen in the mature seed cones: bract-scale complexes consisting of well-developed scales that are free for most of their length from the subtending bracts, two inverted ovules on the adaxial face of each scale, and usually an obvious seed wing that develops from the cone scale. The 10 genera, too, are clearly defined.

The cones of certain members of the Pinaceae remain on the tree and closed for several to many years until a stimulus (often fire) causes them to open and shed their seeds. This condition, known as serotiny (adjective, serotinous), is seen in various pines (e.g., Pinus attenuata, P. banksiana, P. contorta).

This primarily Northern Hemisphere family extends south to the West Indies, Central America, Japan, China, Indonesia, the Himalayas, and North Africa. The family is dominant in the vegetation of large regions including, in the flora area, forests of the boreal and Pacific regions, of the western mountains, and of the southeastern coastal plain. Only one species of the family, Pinus merkusii, crosses the equator (in Sumatra).

Members of the Pinaceae are of major economic importance as producers of most of the world's softwood timber. Additionally, they are sources of pulpwood, naval stores (e.g., tar, pitch, turpentine, etc.), essential oils, and other forest products. All members of the family present in the flora, especially pines, are of varying importance to wildlife for food and cover. Many species, including most of the genera, are grown as ornamentals and shelter-belt trees and for revegetation. Most commonly seen in cultivation in the flora area are species of Abies, Cedrus, Larix, Picea, Pinus, Pseudotsuga, and Tsuga, each of these genera being represented by numerous cultivars. Keteleeria and Pseudolarix are mainly botanical garden subjects. Cathaya, the most recently described genus (1958), is apparently not yet in cultivation in North America.

Among the vegetative features useful for identification of some genera of Pinaceae are the leaf scars. These are best observed on those portions of living branchlets from which leaves have fallen.

Genera 10, species ca. 200 (6 genera, 66 species in the flora with 64 natives and 2 naturalized).

Key

1 Leaves on year-old and older branches borne either in clusters (fascicles) of 2-5(-6), each cluster scaly-sheathed at base at least when young, or in clusters of 10-60 on short (spur) shoots, clusters not scaly-sheathed. > 2
1 Leaves borne singly along branches, not scaly-sheathed at base or, if so when young, then terete. > 3
2 Leaves in clusters of (1-)2-5; scales of seed cones with thickened apical portion (apophysis) bearing terminal or central, scarlike to raised umbo and, often, prickle or claw. Pinus
2 Leaves in clusters of 10-60 on short (spur) shoots; scales of seed cones without apophyses, umbos, and prickles. Larix
3 Leaves terete, scaly-sheathed at base when young; scales of seed cones with thickened apical portion (apophysis) bearing central, scarlike umbo; mature trees mostly round topped, usually less than 15 m; arid areas in w North America. Pinus
3 Leaves neither terete nor scaly-sheathed; scales of seed cones lacking apophyses and umbos; mature trees of various habit, often conic, often more than 15 m; habitat various, but mostly not of arid areas in w North America. > 4
4 Twigs conspicuously roughened by decurrent, spreading or appressed, peglike projections that persist after leaves fall. > 5
4 Twigs not roughened by decurrent peglike projections, but, if roughened at all, by more or less circular to elliptic leaf scars, these flush with twig surface, slightly depressed, slightly raised evenly all around, or slightly raised on proximal side only. > 6
5 Leaves sharp-pointed or less often bluntly acute, somewhat flattened or more or less square in cross section, sessile; leading shoot erect. Picea
5 Leaves rounded or notched, flattened, abruptly narrowed to petiolelike base; leading shoot typically drooping. Tsuga
6 Leaf scars circular to elliptic, flush with twig surface, slightly depressed, or slightly raised evenly all around; seed cones erect, at least before full maturity, not falling whole but scale by scale, each cone axis persisting as an erect "spike" on branch, the fan-shaped scales often littering ground under tree, bracts protruding beyond scales or not. Abies
6 Leaf scars transversely elliptic, slightly raised on proximal side only, thus tilted; seed cones pendent, falling whole, bracts protruding beyond scales. Pseudotsuga