Comments
provided by eFloras
The name Taxus baccata Hooker has been misapplied to this species.
The leaves of Taxus brevifolia are usually somewhat falcate.
The wood of Taxus brevifolia is hard and durable, yet easily worked, making it popular for construction of novelty items by local woodworkers. Because of this, large trees are unscrupulously poached; in some areas the species has been nearly extirpated. The bark of the tree is a promising natural source of taxol, a drug for treating various cancers; exploitation of the species for medicinal purposes is further threatening it.
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- Missouri Botanical Garden, 4344 Shaw Boulevard, St. Louis, MO, 63110 USA
Description
provided by eFloras
Shrubs or small trees to 15(--25) m, dioecious; trunk to 6(--12) dm diam., straight to contorted, fluted; crown open-conical. Bark scaly, outer scales purplish to purplish brown, inner ones reddish to reddish purple. Branches horizontal to drooping. Leaves 1--2.9 cm ´ 1--3 mm, pale green abaxially, cuticular papillae present along stomatal bands, shiny yellow-green adaxially, epidermal cells as viewed in cross section of leaf mostly taller than wide. Seed ovoid, 2--4-angled, 5--6.5 mm.
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- Missouri Botanical Garden, 4344 Shaw Boulevard, St. Louis, MO, 63110 USA
Distribution
provided by eFloras
Alta., B.C.; Alaska, Calif., Idaho, Mont., Oreg., Wash.
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- cc-by-nc-sa-3.0
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- Missouri Botanical Garden, 4344 Shaw Boulevard, St. Louis, MO, 63110 USA
Habitat
provided by eFloras
Seeds maturing late summer--fall. Open to dense forests, along streams, moist flats, slopes, deep ravines, and coves; 0--2200m.
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- cc-by-nc-sa-3.0
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- Missouri Botanical Garden, 4344 Shaw Boulevard, St. Louis, MO, 63110 USA
Synonym
provided by eFloras
Taxus baccata Linnaeus subsp. brevifolia (Nuttall) Pilger; T. baccata var. brevifolia (Nuttall) Koehne; T. baccata var. canadensis Bentham; T. bourcieri Carrière; T. lindleyana A. Murray bis
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- cc-by-nc-sa-3.0
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- Missouri Botanical Garden, 4344 Shaw Boulevard, St. Louis, MO, 63110 USA
Common Names
provided by Fire Effects Information System Plants
Pacific yew
western yew
yew brush
yew
mountain mahogany
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Cover Value
provided by Fire Effects Information System Plants
More info for the term:
coverPacific yew commonly forms a dense subcanopy which provides excellent
hiding and thermal cover for large ungulates and other wildlife species
[
34,
68]. On riparian sites, it provides shade which maintains cool
water temperatures for salmonids and other anadromous fish [
68].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Description
provided by Fire Effects Information System Plants
More info for the terms:
aril,
dioecious,
fruit,
seed,
shrub,
treePacific yew is a slow-growing evergreen shrub or tree which commonly
reaches 20 to 40 feet (6-12 m) at maturity [
65,
68]. On favorable
coastal lowland sites, scattered individuals can grow to 60 feet (18 m)
in height and have diameters of 2 to 3 feet or more (0l6-0.9 m) [
5]. On
poor sites, such as those at higher elevations, Pacific yew grows as a
large sprawling shrub [
62]. This large shrub or tree can reach maturity
at 250 to 350 years of age [
62] and often survives for several centuries
[
5].
Pacific yew is characterized by a conical crown and slender, drooping
horizontal branchlets [
32,
55]. The trunk is limby and often contorted
or malformed [
29,
32,
62]. Twigs are slender, hairless and green, but
become dark reddish brown in the second growing season [
32]. Bark is
very thin (approximately 0.25 inch [64 mm]), scaly, with purplish outer
scales covering newly formed reddish or purplish inner bark [
30,
32,
62].
The root system is fibrous [
68].
The sharp-pointed leaves are linear to lanceolate, 0.5 to 1 inch (1-3
cm) long, and spirally arranged [
32,
55,
62]. Leaves are dark
yellow-green above and paler beneath [
30,
55]. Leaves persist for at
least 5 to 6 years [
30,
62].
Pacific yew is dioecious [
30]. Globose, yellowish staminate cones
approximately 0.12 inch (3mm) in length are produced in abundance on
male plants [
11,
30]. Single, greenish, ovulate cones are borne on the
lower sides of branches [
30,
62]. Fruit is a red, fleshy, ovoid,
berrylike aril [
30,
55]. Each fruit is approximately 0.4 inch (1 cm) in
length and matures in one season [
62]. The cup-shaped fruit surrounds a
large single, naked seed [
30,
70]. The seed is reddish, obvoid-oblong,
with a hard bony shell exposed at the apex [
29,
62].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Distribution
provided by Fire Effects Information System Plants
Pacific yew grows along the Pacific Coast of southeastern Alaska
southward through western British Columbia to central California
[
46,
55]. In the Rocky Mountain region, it occurs from southeastern
British Columbia through northwestern Montana and northern Idaho into
eastern Washington and Oregon [
46].
Dense stands of shrubby Pacific yew dominate approximately 40,000 acres
(16,000 ha) in the South Fork of the Clearwater Drainage of
north-central Idaho [
14]. This plant has been essentially eliminated
from another 9,880 acres (4,000 ha) by timber harvest [
14].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Fire Ecology
provided by Fire Effects Information System Plants
More info for the terms:
association,
fire interval,
fire regime,
seedPacific yew is susceptible to heat damage and is most often associated
with forests characterized by long fire-free intervals. Fire is rare in
many old-growth forests of the Pacific Northwest [
68]. Fire intervals
in forests containing Pacific yew have been estimated as follows:
Location Fire interval Reference
Bitterroot Mtns. ID, MT 60 years [
50]
c Western Cascades, OR 100 years [
52]
Siskiyous, OR 20 years [
7]
nw CA - low elev. 500-600 years [
68]
nw CA - mid elev. 150-200 years [
68]
Mature moist-site stands in which Pacific yew grows as scattered
individuals are often considered relics from past fires [
34]. In parts
of the Northwest, stand age ranges from 80 to 250 years where fire
intervals average 70 to 120 years [
14]. Similarly, in parts of western
Montana, the age of Pacific yew averages approximately 210 years where
fire replacement cycles are estimated at 150 years [
14]. This suggests
that the association of Pacific yew with moist microsites conveys some
protection from fire.
After fire, Pacific yew slowly reestablishes by means of bird-dispersed
seed as the overstory canopy develops.
FIRE REGIMES : Find fire regime information for the plant communities in which this
species may occur by entering the species name in the
FEIS home page under
"Find FIRE REGIMES".
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Fire Management Considerations
provided by Fire Effects Information System Plants
More info for the terms:
duff,
prescribed fire,
underburnFire history: Because of its sensitivity to fire, the age of Pacific
yew can be used to estimate minimum stand age [
49]. However, because it
establishes after initial colonization, the oldest stem is often
significantly younger than the age of the stand itself [
49].
Prescribed fire: Johnson and Simon [
34] recommend against prescribed
fire in Pacific yew types. Although a light underburn will not damage
the duff layer, yew may be adversely affected. Scher and Jimerson [
68]
note that "although prescribed burning reduces the probability of
catastrophic wildfires, precautions must be exercised to maintain
biodiversity by protecting temperature-sensitive species" such as
Pacific yew. In some areas, prescribed and/or wildfires can contribute
to the depletion of yew populations [
68]. Broadcast burning after
clearcutting has virtually eliminated yew in some areas [
61,
68].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Growth Form (according to Raunkiær Life-form classification)
provided by Fire Effects Information System Plants
More info on this topic. More info for the term:
phanerophytePhanerophyte
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Habitat characteristics
provided by Fire Effects Information System Plants
More info for the terms:
shrubs,
tree,
vinePacific yew grows in a variety of cool and moist shaded habitats in
coastal lowlands and mountains [
5,
30,
32]. It occurs in canyon bottoms,
on moist forested flats near streams, and scattered at various upland
sites [
14,
30,
32]. At middle elevations in northern Idaho, it forms a
dense tangle of shrubs approximately 10 to 15 feet (3-5 m) in height.
Elsewhere, small groups or scattered individuals are more common [
5,
11].
Pacific yew grows on dry, rocky sites and in avalanche chutes west of
the Cascades [
5]. However, it is commonly found in warm, humid
concavities [
82]. Pacific yew is the most shade tolerant tree in the
Pacific Northwest [
62]. In less humid climates, it may actually require
shade [
41].
Plant communities: Pacific yew commonly grows beneath the dense shade
of western hemlock, Douglas-fir, and Pacific silver fir (Abies amabilis)
forests [
5,
68]. Although most often associated with relatively moist
plant associations dominated by western hemlock, Sitka spruce (Picea
sitchensis), and Pacific silver fir, it also occurs in relatively moist
microsites beneath species more typically associated with drier sites
such as ponderosa pine (Pinus ponderosa), incense cedar (Calocedrus
decurrens), Oregon white oak (Quercus garryana), Jeffrey pine (Pinus
jeffreyi), and knobcone pine (P. attenuata) [
11,
55,
68]. In parts of
eastern Oregon and California, Pacific yew is a prominent component of
white fir forests [
11,
54]. In northern California and southwestern
Oregon, it is common in mixed evergreen forests dominated by white fir,
Douglas-fir, canyon live oak (Quercus chrysolepis), chinkapin
(Chrysolepis chrysophylla), and Pacific madrone (Arbutus menziesii)
[
6,
7,
55,
82]. At the extreme southern edge of its range, Pacific yew
grows beneath sequoia (Sequoia sempervirens) [
11,
27]. In the northern
Rockies, it is associated with grand fir and western redcedar forests
[
11,
56]. Pacific yew also occasionally grows in warmer subalpine fir
(Abies lasiocarpa)-Engelmann spruce communities [
11].
Plant associates: Common plant associates in coniferous forests of the
northern Rocky Mountains include pachistima (Pachistima myrsinites),
northern twinflower (Linnaea borealis), menziesia (Menziesia
ferruginea), Rocky Mountain maple (Acer glabrum), blue huckleberry
(Vaccinium membranaceum), wild ginger, queencup beadlily, one-sided
wintergreen (Pyrola secunda), western rattlesnake plantain (Goodyera
oblongifolia), oneleaf foamflower (Tiarella unifoliata), and bunchberry
(Cornus canadensis) [
6,
13,
25,
81]. In southwestern Oregon and
California, vine maple (Acer circinatum), dwarf Oregon grape (Mahonia
nervosa), northern twinflower, salal (Gaultheria shallon), and hazel
(Corylus cornuta) grow with Pacific yew [
6,
67,
82]. Elsewhere in the
Northwest, Pacific rhododendron (Rhododendron macrophyllum), vine maple,
salal, western swordfern (Polystichum munitum), Oregon oxalis (Oxalis
oregana), Pacific dogwood (Cornus nuttallii), and oceanspray (Holodiscus
discolor) are common associates [
11].
Climate: Pacific yew grows in cool temperate and mesothermal climates
[
40,
41]. Abundance increases with increasing precipitation and
decreases with greater elevation and latitude [
40]. Average annual
precipitation ranges from 18 to 116 inches (47-294 cm) [
11]. Sites are
generally characterized by mild wet winters and warm dry summers [
14].
Pacific yew is moderately tolerant of frost, but the protection offered
by a layer of snow is necessary in continental climates [
41]. This
plant is resistant to flooding and survives temporary inundation [
41].
Soils: Western yew commonly grows on deep, moist, well-drained soils
[
62,
77] and is well adapted to acidic conditions [
41]. In British
Columbia, it tends to be most productive in alluvial habitats where
soils are nutrient-rich [
41]. A study conducted in the Bitterroot
Mountains of Montana and Idaho indicated that sites dominated by Pacific
yew have high levels of nitrogen [
51]. Pacific yew grows on soils
derived from a variety of parent materials including granite, diorite,
gabbro, serpentine, pre-Cambrian metasediments, schists, and gneiss
[
14,
42,
67,
79].
Elevation: Pacific yew grows at elevations ranging from 2,000 to 8,000
feet (610-2,438 m) [
62]. In Oregon, it occurs at low to middle
elevations [
74], and in British Columbia, it occurs from submontane to
subalpine habitats [
41]. Elevational ranges by geographic location have
been reported as follows:
Reference
from 3,200 to 7,000 feet (975-2,134 m) in MT [
17]
350 to 4,350 feet (104-1,329 m) in CA [
11]
< 7,000 feet (2,134 m) in CA [
55]
200 to 4,450 feet (60-1,350 m) in OR & WA [
11]
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Habitat: Cover Types
provided by Fire Effects Information System Plants
More info on this topic. This species is known to occur in association with the following cover types (as classified by the Society of American Foresters):
206 Engelmann spruce - subalpine fir
207 Red fir
211 White fir
212 Western larch
213 Grand fir
215 Western white pine
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Habitat: Ecosystem
provided by Fire Effects Information System Plants
More info on this topic. This species is known to occur in the following ecosystem types (as named by the U.S. Forest Service in their Forest and Range Ecosystem [FRES] Type classification):
FRES20 Douglas-fir
FRES21 Ponderosa pine
FRES22 Western white pine
FRES23 Fir - spruce
FRES24 Hemlock - Sitka spruce
FRES25 Larch
FRES27 Redwood
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Habitat: Plant Associations
provided by Fire Effects Information System Plants
More info on this topic. This species is known to occur in association with the following plant community types (as classified by Küchler 1964):
More info for the term:
forestK001 Spruce - cedar - hemlock forest
K002 Cedar - hemlock - Douglas-fir forest
K003 Silver fir - Douglas-fir forest
K005 Mixed conifer forest
K006 Redwood forest
K007 Red fir forest
K012 Douglas-fir forest
K013 Cedar - hemlock - pine forest
K014 Grand fir - Douglas-fir forest
K015 Western spruce - fir forest
K029 California mixed evergreen forest
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Immediate Effect of Fire
provided by Fire Effects Information System Plants
Pacific yew has thin bark and is sensitive to heat damage [
14,
68].
Plants are generally killed by even light ground fires [
49], and this
species is almost always eliminated from burned stands [
14,
50]. In
western Montana, Stickney [
73] observed that all plants were eliminated
from burned stands. An abundance of Pacific yew can be equated with an
absence of fire [
14].
Plants which occasionally survive fire do so because they occur in the
wettest concavities which are relatively unaffected by fire [
7].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Importance to Livestock and Wildlife
provided by Fire Effects Information System Plants
More info for the terms:
cover,
fruitPacific yew provides important food and cover for many wildlife species
[
34,
68]. Old-growth grand fir/Pacific yew forests are often considered
critical moose winter habitat [
61].
Browse: Many wild ungulates feed on Pacific yew including deer, elk,
and moose [
14,
21,
49]. In parts of northern Idaho, it is a preferred
winter moose browse [
14]. Although Pacific yew browse may be eaten
during all seasons, use is particularly heavy in fall, winter, and
spring [
14,
60,
61]. In winter, moose eat available forage and bark which
they strip from trees [
14]. Plants may be severely hedged in some areas
[
60]. Use is typically greatest when other forage is buried by snow
[
60]. Moose utilization by season has been documented as follows [
60]:
percent aggregate use
May - July 3
July- September 0
October - November 42
December - April 41
In a winter study at a Connecticut nursery, as much as 77.1 percent of
all Pacific yew shoots were browsed by white-tailed deer [
12]. Rabbits
and other small herbivores may also browse Pacific yew in many areas
[
21].
Pacific yew is reportedly toxic to domestic livestock [
65,
77], but
conclusive evidence of toxicity is lacking [
15,
37]. The closely related
English yew (Taxus baccata) is poisonous to cattle, horses, sheep,
rabbits, and man [
66]. Some researchers report that Pacific yew is
similarly toxic, particularly when cut, piled, and allowed to rot [
32].
However, in many areas livestock appear to browse branches "with
impunity" [
70]. Livestock use is generally limited to the winter months
or periods of food scarcity [
15].
Fruit: Fruit of Pacific yew is sweet but reportedly poisonous to some
species [
70]. It is readily eaten by many species of songbirds
including the Townsend's solitaire, varied thrush, and hermit thrush
[
34]. The ring-tailed cat also feeds on the fruit of Pacific yew [
77].
Foraging sites: Pacific yew snags may be used by foraging woodpeckers
[
48].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Key Plant Community Associations
provided by Fire Effects Information System Plants
More info for the terms:
association,
climax,
codominant,
forest,
habitat type,
vinePacific yew grows as an understory dominant or codominant in a number of
coniferous forests of the Pacific Northwest and northern Rocky
Mountains. Overstory dominants include grand fir (Abies grandis), white
fir (Abies concolor), and western hemlock (Tsuga heterophylla). Vine
maple (Acer circinatum), queencup beadlily (Clintonia uniflora), and
wild ginger (Asarum caudatum) are common codominants. In parts of
northern Idaho, Pacific yew grows as a climax dominant which forms a
nearly contiguous shrublike overstory. It is listed as an indicator or
dominant in the following habitat type (hts), community type (cts), and
plant association (pas) classification schemes:
Area Classification Authority
CA mixed evergreen cts Sawyer and others 1977
CA, OR: Siskiyou Mtn. forest pas Atzet and Wheeler 1984
Province
CA, OR: e Siskiyous forest cts Waring 1969
n ID forest cts, hts Cooper and others 1987
OR: Abott Creek RNA forest cts Mitchell and Moir 1976
s OR: Cascade Mtns. forest pas Atzet and McCrimmon 1990
OR, ID: Wallowa- general veg. pas Johnson and Simon 1987
Whitman NF
n Rocky Mountains Pacific yew cts Crawford and Johnson 1985
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Life Form
provided by Fire Effects Information System Plants
More info for the terms:
shrub,
treeTree, Shrub
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Management considerations
provided by Fire Effects Information System Plants
More info for the terms:
cover,
litter,
natural,
selection,
treeTimber harvest: Pacific yew is uncommon on most recently harvested
sites [
81]. It is sensitive to drastic changes in light and temperature
and can be severely harmed by increasing exposure to heat after tree
canopy removal [
34]. Sensitivity to frost may also cause decreases in
yew after overstory removal [
11]. Plants commonly turn orange or brown,
and the foliage dies back after clearcutting [
5,
11,
49]. However,
Pacific yew often adapts to unshaded conditions through changes in twig
distribution and leaf morphology [
11]. In a northern Idaho study,
approximately 78 percent of individual plants survived overstory removal
[
11].
Reductions in the cover of Pacific yew are often dramatic. Antos [
2]
reported 1.4 percent cover after grand fir types were clearcut in
western Montana. Prior to timber harvest, Pacific yew represented
nearly 20 percent cover. The effects of timber harvest have been
examined in a number of studies [
4,
18,
19]. Uneven-aged individual tree
removal or group selection is much less damaging to yew than
clearcutting [
34]. Broadcast burning also greatly reduces the cover of
Pacific yew [
61].
Wildlife: In parts of northern Idaho, moose browse Pacific yew heavily
during winter. Browse in clearcuts is generally covered by deep snow
and inaccessible to moose. However, plants within the understory of
old-growth forests are readily accessible and heavily utilized [
60].
Clearcutting in these areas does not favor moose. For best moose
habitat, timber harvest should be avoided in old-growth grand
fir/Pacific yew communities [
61]. To protect Pacific yew and maintain
adequate moose browse, whole tree removal should be used where possible
to lessen the need for slash disposal [
61]. Slash should be piled and
then burned rather than broadcast burned. Natural grand fir and
Engelmann spruce (Picea engelmannii) regeneration can be supplemented by
planting Douglas-fir (Pseudotsuga menziesii) in small clearings [
61].
Damage: Pacific yew may be severely damaged by rabbits and deer [
21].
Moose occasionally kill trees by girdling the trunk [
14]. In some
locations ungulates can hedge or even remove Pacific yew from springs
and seeps [
14]. In parts of northern Idaho, heavy moose browsing can
prevent Pacific yew dominance on ridges and south aspects [
14]. In some
areas, yew regeneration can be significantly impacted by moose [
14].
Pacific yew is resistant to damage from sulfur dioxide pollution [
11]
and is resistant to insects and disease [
50].
Allelopathy: Seedlings of other species are rarely found beneath yews
[
49]. Pacific yew has exhibited inhibition both in laboratory
experiments and in the field [
16,
64]. Allelopathic compounds may be
concentrated in senescent leaves and leached into the litter [
64].
Bark collection: Approximately 20,000 pounds (9,080 kg) of bark is
required to produce 2.2 pounds (1 kg) of taxol [
1]. In some locations,
populations of Pacific yew are threatened by collectors gathering bark
for its anticancer properties [
68]. If this demand continues, this
important species could become scarce in many areas [
11].
Old growth indicator: Scher and Jimerson [
68] noted that long-lived
temperature-sensitive species such as Pacific yew may serve as useful
indicators of old-growth forests.
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Occurrence in North America
provided by Fire Effects Information System Plants
AK CA ID MT OR WA BC
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Other uses and values
provided by Fire Effects Information System Plants
More info for the term:
serpentine soilsPacific yew is an attractive ornamental which is frequently used as a
hedge plant [
65]. It was first cultivated in 1854 [
65]. According to
Kruckeberg [
42], only the best foliage forms of Pacific yew can compare
with the much more widely planted English yew. A shrubby form of
Pacific yew, often associated with serpentine soils, is generally
considered the most desirable ornamental form [
42]. Once established in
the garden, Pacific yew grows well in partial shade or full sun [
42].
Some Native American peoples traditionally associated Pacific yew with
death and bereavement [
32,
75]. The fragrant foliage was used as a
deodorant and cleaning agent [
75]. Tonics made from Pacific yew were
used medicinally by many peoples of the Pacific Northwest [
75].
Although seeds are poisonous, the fleshy portions surrounding them were
sometimes eaten [
75]. The supple, stringy underbark was sometimes used
for braiding and weaving various items [
32].
Taxol, a substance obtained from the bark of Pacific yew [
33], has
inhibited the growth of various types of cancer cells in experimental
tests [
1,
44]. Clinical trials indicate that taxol produces a definite
but limited activity against metastatic melanoma and some types of
leukemia [
44]. It may also be useful in treating ovarian cancer and in
inhibiting the growth of carcinosarcoma cells [
11,
44,
38]. Taxol
inhibits the replication of Trypanosoma cruzi, a pathogenic protozoan
which causes Chagas disease [
11], as well as the disease-causing
flagellate Trichomonas vaginalis [
35].
Researchers are currently working on methods to synthesize taxol in the
laboratory, but efforts to date have been only partially successful
[
39]. Pacific yew yields more taxol than any other species of yew
(Taxus spp.) and remains the primary source of this substance [
11].
Recent experiments suggest that it may soon be possible to obtain taxol
from the leaves rather than from the bark [
39].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Palatability
provided by Fire Effects Information System Plants
More info for the term:
fruitFoliage of Pacific yew is at least somewhat palatable to many large
ungulates and is highly palatable to moose, particularly during the fall
and winter [
14,
60]. Fruit is highly palatable to many species of small
birds and mammals [
5,
77].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Phenology
provided by Fire Effects Information System Plants
More info on this topic. More info for the term:
fruitFruit of Pacific yew matures in a single season. Seeds ripen in
September and October [
30], and the fruit generally falls from the plant
in October [
77]. Flowering and fruiting has been documented as follows:
Location Flowering Fruit ripens Reference
CA April-May ---- [
55]
n ID ---- August-October [
58]
WA June August-October [
65]
Pacific Northwest April-June ---- [
30]
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Plant Response to Fire
provided by Fire Effects Information System Plants
More info for the term:
seedPacific yew reoccupies burned areas through bird-dispersed off-site
seed. Although vegetative regeneration is possible after mechanical
disturbance, Pacific yew's susceptibility to heat damage makes postfire
sprouting unlikely or impossible.
This plant may require shelter provided by other species for
reestablishment [
50] and typically recovers slowly. Hofman [
31]
observed that seedling germination was delayed for at least 6 years
after a hot slash burn in northern Idaho. Pacific yew is rare on
recently burned sites, even where it was a common component of preburn
communities [
18,
20,
71]. In a northern Idaho study, Pacific yew was
present on 80 percent of the preburn plots but was absent from all plots
during the first years after fire [
72,
73]. In parts of the northern
Rocky Mountains, it is described as the "only principal residual species
eliminated by fire" [
73].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Post-fire Regeneration
provided by Fire Effects Information System Plants
Secondary colonizer - offsite seed
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Regeneration Processes
provided by Fire Effects Information System Plants
More info for the terms:
forest,
layering,
natural,
seed,
series,
stratificationPacific yew can establish beneath a closed forest canopy by seed or by
vegetative means [
49]. In many areas, layering is the primary mode of
reproduction, but seedlings are also common on some sites [
2].
Seed: Most species of yew (Taxus spp.) produce at least some seed
annually [
65]. Seeds can remain viable for 5 or 6 years if properly
stored [
65]. Conclusive evidence is lacking, but some researchers have
suggested that seed may be stored in the soil [
31]. Seed is commonly
dispersed by birds, and some long-distance transport is possible [
50].
Passage through avian digestive tracts may affect seed dormancy [
11].
Germination: Seeds of Pacific yew have a "strong but variable" dormancy
[
65] and generally require stratification before germination can begin
[
53]. In laboratory experiments, seeds germinated well after prolonged
warm and cold stratification [
65]. Seed can be planted 0.4 to 0.5 inch
(10-13 mm) in depth and subjected to alternating day (86 degrees
Fahrenheit [30 deg C]) and night (68 degrees Fahrenheit [20 deg C])
temperatures for at least 28 days. However, even when properly treated,
some seed may not germinate until the second spring. Results of an
experimental test were as follows [
65]:
stratification temp. duration germ. capacity
warm cold day night (days) (avg. %) (range)
--- --- 86 F 68 F 60 55 50-99
In other laboratory tests, average germination ranged from 50 to 60
percent [
77]. Under natural conditions, germination may not take place
until the second year [
65].
Seedling establishment: Seedling establishment is generally more
favorable beneath a canopy than in canopy gaps [
14]. Means [
52]
observed seedling densities of 0.4 per acre (1/ha) in gaps but noted 47
per acre (115/ha) beneath a canopy in the western Cascades of Oregon.
Seedlings are reportedly uncommon in undisturbed situations but are
often abundant in partially cut areas where yew is present [
11].
Vegetative regeneration: Branches and stems of Pacific yew commonly
root when in contact with the soil [
14,
49]. Plants are generally
unharmed after being flattened by large conifers during canopy break-up
[
14,
49]. Crushed yews often form a series of layered branches that give
rise to numerous individual plants [
14,
49]. Regeneration of Pacific yew
is favored by falling debris [
49]. Layering enables Pacific yew to
quickly expand into gaps created as senescent conifers fall. Sprouts
generally develop from cut or broken stumps [
14]; epicormic branching is
also common [
11].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Regional Distribution in the Western United States
provided by Fire Effects Information System Plants
More info on this topic. This species can be found in the following regions of the western United States (according to the Bureau of Land Management classification of Physiographic Regions of the western United States):
1 Northern Pacific Border
2 Cascade Mountains
4 Sierra Mountains
8 Northern Rocky Mountains
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Successional Status
provided by Fire Effects Information System Plants
More info on this topic. More info for the terms:
climax,
competition,
cover,
fire-sensitive species,
mesic,
phase,
treePacific yew is present in many climax or near climax communities of the
Pacific Northwest and northern Rocky Mountains [
9,
51,
59,
81]. It is a
particularly common component of old-growth grand fir, western redcedar,
and Douglas-fir-western hemlock communities [
23,
49,
51,
68]. Pacific yew
increases in cover up to a stand age of at least 500 years in
northwestern old growth Douglas-fir forests which are characterized by
long fire-free intervals [
68]. This fire-sensitive species is absent
from areas characterized by high fire frequencies.
Pacific yew does occur on disturbed sites, including previously logged
stands [
11], but reaches greatest abundance in undisturbed areas
[
19,
68]. Plants often grow as suppressed individuals in undisturbed
stands [
26]. After timber harvest, this residual species expands as the
overstory develops [
5], but where residual plants have been removed,
such as by broadcast burning, plants do not generally develop until a
protective overstory canopy has formed [
50].
Pacific yew was common in mature stands 230 years or older but was
absent in second-growth communities (50- to 80-year-old stands) in
Washington [
57]. Similarly, it represented 15 to 20 percent cover in
various old-growth stands in the northern Rocky Mountains but was rare
(1.4 to 2 percent cover) in immature stands (7 to 16 years old and 30 to
90 years old) [
2,
3,
4]. Percent cover of Pacific yew in different aged
stands in western hemlock-Douglas-fir forests of the western Cascades
was documented as follows [
69]:
stand age
(years) 2 5 10 15 20 30 40 undist. old growth
% cover 0.05 0.18 0.16 1.51 0.66 2.26 0.49 9.56
Mesic old-growth forests in canyons of the Bitterroot Mountains in Idaho
and Montana are commonly dominated by Pacific yew, western redcedar,
and/or grand fir [
49]. Pacific yew typically establishes after the
initial colonization period, and is described as the only "relay"
species not colonizing these sites in early seral stages [
49]. The
ultimate composition of these forests (dominance by Pacific yew, grand
fir, or western redcedar) is largely attributable to random events which
occur during stand establishment rather than to a sequential replacement
process [
49,
50].
In parts of the northern Rocky Mountains, the short tree, Pacific yew,
"expresses climax sociological dominance over tall conifers" such as
grand fir [
14]. This situation differs from the classical pattern in
which progressively taller taxa gradually assume dominance over shorter
forms [
14]. The successional role of Pacific yew in these forests has
been subject to a number of interpretations. However, Pacific yew is
generally considered the climax dominant because, in the absence of
disturbance, it successfully replaces itself "to the near exclusion of
tall conifers" [
14]. Evidence suggests that grand fir may be slowly
eliminated where Pacific yew is replacing itself successfully [
14,
34].
"At climax, other tree species occur primarily as a result of gap-phase
replacement in the yew canopy and definitely do not have as great an
influence on the community as [Pacific yew]" [
14]. Gap phase
replacement or microsuccession prevents the development of an exclusive
canopy of Pacific yew because other conifer seedlings tend to outcompete
yew in the canopy openings. Elsewhere, grand fir and other conifer
seedlings may be eliminated by dense yew competition [
68]. However, on
sites where Pacific yew occurs only sporadically, grand fir often
reproduces more successfully.
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Synonyms
provided by Fire Effects Information System Plants
Taxus baccata var. brevifolia
Taxus baccata ssp. brevifolia
Taxus boursieri
Taxus lindleyana
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Taxonomy
provided by Fire Effects Information System Plants
The currently accepted scientific name of Pacific yew is Taxus
brevifolia Nutt. [
36]. Pacific yew is a member of the family Taxaceae
[
29].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Value for rehabilitation of disturbed sites
provided by Fire Effects Information System Plants
More info for the term:
seedPotential rehabilitation value of Pacific yew is unknown. However,
plants can be easily propagated from cuttings [
5,
42] or seed [
65].
Cleaned seed averages approximately 17,600 per pound (39/g) [
65].
Techniques for propagation from seed have been examined in detail
[
21,
28,
65].
The fibrous root system of Pacific yew can aid in stabilizing stream
channels [
68].
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Wood Products Value
provided by Fire Effects Information System Plants
The nonresinous wood of Pacific yew is fine grained, heavy, hard, and
very strong [
5,
32,
55,
62]. It is elastic but very durable, and resists
decay [
5,
32]. The sapwood is light yellow and thin, and the heartwood
is bright orange or rose red [
5]. The wood responds well to finishing
and turns well on lathes [
5,
30]. This attractive wood has been used to
make canoe paddles, tool handles, poles, and fence posts [
32,
62]. It is
sometimes used in carving, cabinet-making, and for turned articles
[
5,
65] but has little or no commercial importance [
30,
32].
Native Americans traditionally used Pacific yew for constructing
harpoons, spear handles, eating utensils, wedges, paddles, and clubs
used in battle and for hunting seals [
5]. Pacific yew is renowned for
its value in making bows and was formerly referred to as "bow plant" by
the Salish people [
75]. Bows made from Pacific yew tended to be broad,
short, and flat [
80]. Pacific yew is still used to craft some of the
finest archery bows. The best bows are made from wood which has been
cured for several decades [
5] and are, not surprisingly, quite costly.
- bibliographic citation
- Tirmenstein, D. A. 1990. Taxus brevifolia. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/
Associated Forest Cover
provided by Silvics of North America
Pacific yew commonly occurs as an understory species in several forest
cover types. It is a major component in some stands, but in most it is
minor to rare. In some types, it tends to be found mostly on microsites.
Some examples: In stands of ponderosa pine (Pinus ponderosa), grand
fir (Abies grandis), and western larch (Larix occidentalis)
in the drier interior forests, yew is found in moist areas near
streams and springs (but on well drained soil); on wet, hummocky sites
west of the Cascades, yew can be found in Oregon white oak (Quercus
garryana)-Oregon ash (Fraxinus latifolia) stands (ash occupies
the low, wet spots and yew grows with the oak on slightly raised
hummocks); scattered large yew trees grow along the Clackamas River in
northwest Oregon on berms and banks between first and second bottomlands
in stands of black cottonwood (Populus trichocarpa), red alder
(Alnus rubra), hawthorn (Crataegus spp.), crab
apple (Malus spp.), and willow (Salix spp.)
(3,47). By far, Pacific yew is most common in dense conifer forests.
Among the major Society of American Foresters (16) cover types in which
Pacific yew is found are: Engelmann Spruce-Subalpine Fir (206), Interior
Douglas-Fir (210), White Fir (211), Grand Fir (213), Black
Cottonwood-Willow (222), Western Hemlock (224), Western Redcedar-Western
Hemlock (227), Western Redcedar (228), Pacific Douglas-Fir (229),
Douglas-Fir-Western Hemlock (230), Port-Orford-Cedar (231), Redwood (232),
Oregon White Oak (233), Douglas-Fir-Tanoak-Pacific Madrone (234), Sierra
Nevada Mixed Conifer (243), and Pacific Ponderosa Pine-Douglas-Fir (244)
(4,8,11,17,24,25,35,45,47).
In western Oregon, Douglas-fir was present on 89 percent of the forest
inventory plots in which yew was tallied. A list of plants found most
frequently with Pacific yew on these plots (table 1) indicates the broad
range of conditions to which the species can adapt.
Table 1- Plants frequently found on plots with Pacific
yew present, western Oregon.
Species
Percentage
of plots
Indicator value¹
Pseudotsuga menziesii
89
Common
Berberis nervosa
75
Common
Polystichum munitum
75
Mesic, common
Acer circinatum
70
Common
Tsuga heterophylla
59
Cool, common
Gaultheria shallon
59
Warm, mesic to dry
Corylus cornuta var. californica
43
Warm, dry
Acer macrophyllum
39
Warm
Vaccinium parvifolium
39
Warm, common
Thuja plicata
36
Moist, common
Alnus rubra
36
Warm, moist
Rhododendron macrophyllum
34
Cool, mesic
Cornus nuttallii
32
Warm, dry
Holodiscus discolor
27
Hot, dry
Linnaea borealis
27
Mesic
Arbutus menziesii
25
Warm, dry
Abies grandis
23
Warm, dry
Xerophyllum tenax
23
Cool, dry
Rhus diversiloba
20
Hot, dry
Oxalis oregana
20
Warm, moist
¹Based on
information from 4,24, and 45.
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Climate
provided by Silvics of North America
Pacific yew is found over a wide range of moisture and temperature
conditions (8,11,19,35,40,44). In dry, subhumid areas with an average
annual precipitation as low as 470 mm (19 in), it is confined to
streamside areas and the lower third of north-facing slopes. Some large
specimens can be found in such environments; for example, the largest
known yew tree in Idaho- 84.8 cm (33.4 in) d.b.h. and 8.5 m (28 ft) tall-
is at the bottom of Hell's Canyon in an area that receives about 500 mm
(20 in) of precipitation annually (21). On the Queen Charlotte Islands,
Pacific yew is confined to the borders of inlets (44). Throughout
much of its range within humid and superhumid forests (precipitation of
1400 to 4000 mm [55 to 157 in]), it can be found on all slopes, benches,
and ridgetops. For example, a large yew tree in Oxbow County Park near
Troutdale, Oregon (precipitation about 1450 mm [57 in]), is on the highest
point in the park, a 210-m (690-ft) ridge overlooking the Sandy River 168
m (550 ft) below (3). Pacific yew is found from sea level in
coastal areas to 2440 m (8,000 ft) in the Sierra Nevada. Length of growing
season ranges from 60 to 300 days, with annual minimum temperatures from
-15° to -12° C (5° to 10° F) (4,8,11,24,25,35,45).
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Damaging Agents
provided by Silvics of North America
Pacific yew is sensitive to damage from fire,
and, where the overstory has been removed, it is sometimes damaged by
exposure to the sun, wind, and cold (10,11,26,35,44). It resists damage
from sulfur dioxide and was the least sensitive of 12 coniferous
species to smelter fumes at Trail, British Columbia (26). Diseases of
Pacific yew seedlings have not been studied, but Rhizoctonia solani,
Phytophthora cinnamoni, and Pythium sp.have caused
damping-off and seedling root rot in yews in the East. No serious leaf
diseases have been reported. Snow blights- Neopeckia coulteri and
Herpotrichia juniperi- have caused localized damage, and four
needle blights are caused by Macrophoma taxi, Mycosphaerella
taxi, Phoma hystrella, and Sphaerulina taxi. A stem canker is
caused by Diplodia taxi, and twig blights by P. hystrella
and Physalopspora gregaria. Two root diseases- Armillaria
ostoyae (obscura) and Phaeolus schweinitzii have been
reported on Pacific yew in Idaho (26).
Although seasoned heartwood of Pacific yew is extremely durable, large
living Pacific yew trees often have heartrot or hollow boles (11,23). Many
of the yew trees over 50 cm (20 in) d.b.h. tallied on
non-Federal land in California, Oregon, and Washington could not be bored
to determine age because of rotten or hollow trunks (47). Heartrot fungi
infecting Pacific yew include Phellinus nigrolimitatus, P. pini, P.
robustus, and Fomitopsis rosea (26).
Several insects cause damage to yews in the eastern United States,
including Lecanium fletcheri (called Fletcher scale or taxus
lecanium), Pseudococcus comstocki (Comstock mealybug), Dysmicoccus
wistariae, Pseudococcus maritimus (grape mealybug), and Maladera
castanea (Asiatic garden beetle) (2). No damage to Pacific yew in
forested settings has been confirmed. Reported damage to Pacific yew
foliage by budworms (Choristoneura spp.) in areas of heavy budworm
infestation is thought to be heat or frost damage resulting from the
defoliation of the overstory (5,41).
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Flowering and Fruiting
provided by Silvics of North America
Pacific yew is dioecious. Male strobili
are stalked, bud-like, pale yellow, and composed of 6 to 12 filamentous
stamens, each with 5 to 9 anthers. They are abundant on the underside of
branch sprays and usually appear in May or June. Female strobili are less
abundant, greenish, and composed of several scales. They also are borne on
the underside of branches. The fruit is an ovoid-oblong seed about 8 mm
(0.3 in) long, partially enveloped by a fleshy, berrylike, scarlet,
cup-shaped disk called an aril. Pollen is dispersed by wind in the spring
(6,11,19,22).
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Genetics
provided by Silvics of North America
Pacific yew occurs in nature as a shrub or a tree, but whether the two
forms are distinct subspecies, races, or varieties is not known. Three
cultivars have been reported: cv erecta, a columnar form; cv nana,
a dwarf form; and cv nutallii, a drooping form. A hybrid
between Taxus brevifolia and T. cuspidata (Japanese
yew) has been reported, but has no botanical standing. Pacific yew was
originally classified as a variety of T. baccata (European yew),
which it closely resembles; some botanists grouped all seven of the
currently recognized species of Taxus worldwide as varieties of T.
baccata. Where different species grow near each other, interspecific
hybrids frequently occur, lending support to the view that there is but
one species (13,22,23,34,44). Further evidence of the close similarity of
the species of Taxus is provided by bark analyses which show that most
species contain taxol (9), and by an analysis of heartwood constituents of
T. baccata, T. brevifolia, T. cuspidata, and T. floridana:
the four species were found to be "chemically almost
indistinguishable" (15)
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Growth and Yield
provided by Silvics of North America
Pacific yew, unlike most woody plants that
grow in heavily shaded forest understories, often has a straight bole.
Although yew trees are reported to have typically fluted, ridged, and
asymmetrical trunks, often with tightly spiraled grain (6,11,23,37,44),
yew cutters in southwest Oregon reported that many yew trunks were round
and unfluted above the base section, and straight-grained (7). Large limbs
are common in the mid and upper bole. The crown tends to be ragged and
lopsided. Pacific yew "reaches" for light by way of limbs that
may be as long as the tree is tall. Young trees often have an
umbrella-shaped crown of flat branches, and old trees have long drooping
spray-like branches. Pacific yew is sometimes shrub-like, forming dense
thickets. In western Montana, parts of Idaho, northeastern California, the
Blue Mountains of eastern Oregon and southeastern Washington, and at high
elevations throughout its range, the shrub form of yew often occurs in the
absence of tree-size specimens (3,8,10,11,20,27,30,31,35,44,49,50). In
other areas, large tree-size yews may occasionally be found in or near yew
shrub thickets (3). Whether the differences in size and form are genetic
traits or the results of environment and stand history is not known.
The needles of Pacific yew are dark green on the underside, two ranked,
and spirally arranged on twigs. The bark is purplish, papery thin, and
scalelike. New bark is rose red (6,19,22,40). The wood is fine grained,
hard, and heavy: at 712 kg/m³ (about 44 lb/ft³) (8 percent
moisture content), it is the heaviest of U.S. conifers, comparable in
weight to high-density hardwoods such as ash, oak, and hard maple (46).
Heartwood is red to brownish red, and sapwood is whitish yellow to bright
yellow.
Pacific yew grows slowly, taking about the same time to grow to 30 cm
(12 in) in d.b.h. as other conifers in the same stand take to grow to
several times that size. Height growth is correspondingly slow. Trees
larger than 50 cm (20 in) in d.b.h. and taller than 12 m (40 ft) are rare
within most of the species' range: they account for less than 2 percent of
the yew trees tallied on inventory plots on non-Federal land in
California, Oregon, and Washington. The following tabulation shows average
height by diameter class as determined from 55 Pacific yew trees randomly
selected in Oregon and Washington (47):
D.b.h
Total height
10 cm (4 in)
6 m (20 ft)
20 cm (8 in)
8 m (26 ft)
30 cm (12 in)
10 m (31 ft)
40 cm (16 in)
11 m (37 ft)
50 cm (20 in)
13 m (43 ft)
60 cm (24 in)
15 m (49 ft)
Because of the slow growth of individual trees and because the species
is typically found as an occasional tree in stands of other tree species,
volumes and yields of Pacific yew are low. Stands with 125 yew trees/ha
(50/acre) that are 20 cm (8 in) in d.b.h. and larger have been observed,
but always in association with other species (3). The theoretical volume
of yew wood in such stands could be as much as 140 m³/ha (2,000 ft³/acre),
including the volume in main stems from ground level to tip. The greatest
volume of Pacific yew found in randomly located plots on non-Federal land
in California, Oregon, and Washington was 28 m³/ha (400 ft³/acre)
(47). These are gross volume estimates. Because heart rot is prevalent in
large yew trees, net volume would be considerably less.
In Idaho, analyses of increment cores and stem sections of yew trees
from mature stands showed annual growth in diameter at 15 cm (6 in) above
ground to range from 0.05 cm (0.02 in) to 0.25 cm (0.10 in). The following
tabulation shows diameters by age class (1l):
Age in years
Diameter at 15 cm (6 in)
above ground
25
2.5 cm (1.0 in)
50
5.0 cm (2.0 in)
75
11.4 cm (4.5 in)
100
15.2 cm (6.0 in)
125
22.9 cm (9.0 in)
The largest known Pacific yew tree is found in a cool, moist valley in
western Washington (28). Large yew trees are, however, more prevalent on
somewhat drier sites with warm, moist winters. Forty-seven percent of all
the yew trees larger than 30 cm (12 in) tallied on inventory plots on
non-Federal land in California, Oregon, and Washington were in a 4-county
area in southwestern Oregon at mid to low elevations in the drier interior
valleys and slopes between the Cascade and Coast Ranges, and in the
Klamath Mountains (47).
Although Pacific yew is sometimes damaged by heat, frost, and wind,
especially after overstory trees have been removed (10 , 11,35,44), it can
sometimes respond to release. On permanent plots in western Oregon
measured 12 years apart, diameters of undamaged yew trees left after
removal of overstory trees grew an average of 0.18 cm/yr (0-07 in/yr) and
trees under dense overstories grew 0.06 cm (0.02 in) (47).
The adaptation of Pacific yew to overstory removal is made possible
through morphological changes in the needles-length, cuticle thickness,
and deflection from the horizontal-and development of epicormic twigs
(10,11).
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Reaction to Competition
provided by Silvics of North America
Pacific yew is very tolerant of shade
(1,11,44). It appears to require shade for establishment and can grow and
develop under heavy forest canopies. On many sites, it is able to adapt to
overstory removal (10,11), and large, old trees can be found that have
been in the open much of their lives (3).
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Rooting Habit
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The root system of Pacific yew is deep and
wide-spreading (22).
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Seed Production and Dissemination
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Fruits ripen from August to
October of the same year that flowering occurs. Fruits either drop to the
ground or are taken from trees by birds or rodents. Birds devour the
fleshy arils and void the seeds which remain viable. Chipmunks and
squirrels often take only the seeds. Rodents and some birds-nuthatches,
for example-cache yew seeds, thus creating the clusters of yew seedlings
observed in some areas (11). The seed is about 6 mm (0.24 in) long with a
depressed hilum, bony inner coat, and membranous outer seedcoat. Pacific
yew is a prolific seeder (19,43). Seeds average about 33,100/kg
(15,000/1b) after cleaning (39). The frequency of good seed crops is
unknown.
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Seedling Development
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Seeds of Pacific yew germinate slowly and
require stratification. Germination tests indicate that 30° C (86°
F) day and 20° C (68° F) night temperatures are desirable
(11,19,43). Germination is epigeal, and usually in heavy organic matter.
In a study in Idaho, wild yew seedlings were distributed in seedbeds as
follows (1l):
Type of seedbed
Percentage of seedlings
Forest litter
61
Decaying wood
20
Bird and rodent caches
16
Mineral soil
_3_
100
Yew seeds sown in nursery beds in late spring require mulching. Beds
require shading during the summer and again in December. Some seeds do not
germinate until the second spring after sowing (39).
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Soils and Topography
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Pacific yew grows best on deep, moist or rich, rocky or gravelly soils.
In dry interior forests, the species develops best along mountain streams,
and in shady canyons, ravines, and coves. Within the moist maritime
climate of the Pacific Northwest, it grows most abundantly in drier,
warmer environments. A partial list of soils on which Pacific yew grows
includes those in the orders Ultisols, Alfisols, and Inceptisols (4,11,20,24,25,27,30,37,45,50).
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Special Uses
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The wood of Pacific yew has been used for archery bows, canoe paddles,
tool handles, gunstocks, boat decking, furniture, musical instruments,
carved figurines, and miscellaneous novelty items. (In a recent western
State gubernatorial election, campaign buttons were made of yew wood.)
Japanese have used Pacific yew for ceremonial "Toko" poles,
which they place next to entrances of their homes (6,19,23,29,44). Pacific
yew's resistance to decay makes it useful for fenceposts. Of seven
northwest species tested for use as untreated fenceposts, Pacific yew was
the second most durable, with an average service life of 25 years
(33). In the mid-1980's Japanese purchasers paid $3,600 per thousand board
feet (Scribner scale) for Pacific yew logs, mostly for wood carvings. In
1989, Japanese buyers agreed to pay $4,150 per thousand for grade
1 yew logs, and a Taiwanese buyer paid $6,100 (7).
Among Native Americans, Saanich Tribal women used Pacific yew to remove
underarm hair; Okanagans made a red paint from ground yew wood mixed with
fish oil; several tribes smoked dried yew needles, which was said to cause
dizziness; Haidas believed that women who ate yew berries would not
conceive. Yew was valued as an item of trade and used in making
instruments for hunting, fishing, and warring; tools, such as mauls and
splitting wedges; household utensils, such as bowls and spoons; and
medicine for a broad range of ailments (23,29,44).
Pacific yew is again being used for medicinal purposes. In the late
1960's, taxol-a complex compound extracted from yew bark-was identified as
a possible anticancer agent (18,48). The National Cancer Institute (NCI)
has found taxol to be one of the most promising of more than 120,000
plant compounds tested for anticancer properties. Taxol appears to be
effective against a wide range of tumors, and good responses have been
obtained in the treatment of refractory ovarian cancer (9,38).
In 1988, the NCI acquired 27 700 kg (60,000 lb) of dried Pacific
yew bark, collected from trees cut down in southwestern Oregon. On
average, one yew tree yielded 18 kg (40 lb) of green bark, which
weighed about 9 kg (19 lb) dried (7). From the 27 700 kg of dried
bark, about 4 kg (9 lb) of dry, crystalline taxol was extracted.
Clinicians in several locations across the country have asked for
increased supplies of taxol to expand tests to a broader range of cancer
types. In January 1989, the NCI solicited another 27 700 kg of yew
bark (9).
The 27 700 kg of yew bark already collected and the second 27
700 kg ordered represent 6,000 to 7,000 trees. Most of these trees were
cut or will be cut on Federal forest land where yew has not been
inventoried. On non-Federal lands in California, Oregon, and Washington,
where inventories have been made, there are an estimated 700,000 Pacific
yew trees 28 cm (11 in) d.b.h. and larger, the size of most trees cut for
bark collection. Almost all the yew trees on non-Federal land are
survivors of logging operations that removed the old-growth overstory
(47). On Federal land where old-growth forests still exist, many more yew
trees are thought to be present, but trees of the size needed to produce
large quantities of bark are not abundant in most areas. An unknown but
unquestionably significant percentage of the original yew resource has
already been destroyed in logging. In the process of harvesting
Douglas-fir and other timber species, mostly by clearcutting, yew trees
were either cut or knocked over and broken up by machinery. Yew trees were
seldom taken in primary logging operations, but some yew wood was later
salvaged by firewood cutters and gleaners gathering wood for specialty
products. Most of the yew trees that existed in logged areas were burned
in slash-disposal fires. In many logged areas, the rootstocks have
survived and resprouted, so, although the wood and bark of many yew trees
were destroyed, there seems to have been little threat to the existence of
the yew germ plasm.
Continued or increased demand for yew bark for taxol production could
further decrease a resource that has already been greatly reduced.
Attempts to synthesize taxol in the laboratory have failed, and prospects
for success in the future are considered to be poor. The only known source
of taxol now is yew bark. Taxol has been found in most of the several
other species of Taxus that exist, but Pacific yew is the only one that is
considered to be a practical source of quantities sufficient for clinical
use (9,12). At least one private organization has begun to investigate
alternative ways of producing taxol, through tissue culture and by growing
vegetatively propagated seedlings in a controlled environment (7).
The several species of yew in both the western and eastern hemispheres
are thought to have poisonous seeds and foliage. Incidents of livestock
poisoning by yew have been reported in Europe and North America.
Conversely, in both Europe and North America, domestic and wild animals
are known to browse yew foliage without ill effects. If and under what
conditions yew foliage is poisonous are not known (13,14,22,32). Pacific
yew is browsed by moose in the South Fork of the Clearwater River basin in
Idaho, where the tree is considered critical to the animals' survival
(36). Pacific yew is also browsed heavily by elk and occasionally by deer
in Oregon and Washington (20,23,30).
Sprouts and epicormic branches that form in response to stand
disturbance are favored by browsing animals. Repeatedly browsed yews in
clearcut areas sometimes develop compact bushy crowns resembling the yew
topiary of English gardens. Some limited use of T. brevifolia as
an ornamental indicates it also has potential as a shade tree, for hedges,
and for topiary (23,44).
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Vegetative Reproduction
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Pacific yew is capable of layering and
often sprouts from stumps or rootstocks after the top has been killed or
the tree cut (3,11,23,44). Layering usually occurs after branches or tree
tops have been pressed to the ground for a prolonged period by large
fallen trees or limbs (11), although occasional old yew trees can be found
surrounded by a ring of well rooted branches that were apparently held
down only by their own weight and the weight of snow in the winter.
Although Pacific yew is sensitive to heat (11,26,44), sprouts that
originated from the bases of burned stumps were reported from the Rogue
River National Forest in southern Oregon (23). Young yew trees that
originated by layering and sprouting were observed in a sunny,
south-facing clearcut on the Mount Hood National Forest in northern
Oregon. From one cut yew tree with a stump diameter of 30 cm (12 in),
seven new trees had originated by layering before cutting, and a clump of
vigorous stump sprouts had originated after cutting. Sprouts emerged from
one side of the 36-cm-high (14 in) stump (the opposite side had been
debarked during logging) from ground level to the top. The layers were 1.0
m to 2.5 m (3 ft to 8 ft) from the stump. Most of the layers had been
damaged by logging and lacked the vigor of the stump sprouts (3).
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Brief Summary
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Taxaceae -- Yew family
Charles L. Bolsinger and Annabelle E. Jaramillo
Pacific yew (Taxus brevifolia), also called western yew, is a
coniferous tree associated with several conifer and hardwood tree species
on a variety of sites. Pacific yew tolerates shade, and in undisturbed
stands is usually found as an understory tree. Growth of such trees is
slow, but where the overstory has been removed or thinned, diameter growth
on undamaged yew trees may increase considerably. Pacific yew rarely
exceeds 60 cm (24 in) in d.b.h., and 15 m (49 ft) in height. The largest
on record is 142 cm (56 in) in d.b.h., and 18 m (60 ft) in height (28).
The wood is hard, heavy, and resistant to decay. Although not of great
interest to the forest products industry, it has many special uses. The
bark of Pacific yew contains a drug, taxol, that is being used in cancer
research, so demand for yew bark by the National Cancer Institute has
increased dramatically in recent years (9).
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Distribution
provided by Silvics of North America
Pacific yew grows in forests from the southern tip of southeast Alaska-
including Annette and Prince of Wales Island- south through the Pacific
Coast region of British Columbia, Vancouver and the Queen Charlotte
Islands, and the Olympic Peninsula of Washington. It is rare in the Coast
Range south of the Olympic Peninsula in Washington and north of the Umpqua
River in Oregon, but occurs with greater frequency in the Coast Range in
southern Oregon and northern California. Isolated occurrences are found as
far south as Marin and San Mateo Counties in California. Yew occurs in
scattered localities in the valleys between the Coast Range and Cascade
Ranges of Oregon and Washington. In the Cascade Range, it is fairly common
at low to moderate elevations, and on some sites in southern Oregon it is
abundant. Pacific yew extends south through the Klamath Mountains of
California, then southeasterly to the western slopes of the Sierra Nevada.
Its southern limit is in Calaveras County. Farther inland, it grows on the
western slopes of the Rocky Mountains in British Columbia, south into
northern Idaho and western Montana, the Lewis Range in Montana, and
isolated areas in eastern Washington and northeastern Oregon. In the South
Fork of the Clearwater River basin in Idaho, Pacific yew deviates from its
role as a minor forest component and becomes a dominant on about 16 000
hectares (40,000 acres) (8,19,20,27,30,31,35,40,42,43, 44,47,49).
- The native range of Pacific yew.
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Physical Description
provided by USDA PLANTS text
Tree, Shrub, Evergreen, Dioecious, Habit erect, Trees without or rarely having knees, Tree with bark rough or scaly, Young shoots in flat sprays, Young shoots 3-dimensional, Buds not resinous, Leaves needle-like, Leaves alternate, Needle-like leaf margins entire (use magnification), Leaf apex acute, Leaf apex mucronulate, Leaves < 5 cm long, Leaves < 10 cm long, Leaves yellow-green below, Leaves not blue-green, Scale leaves without raised glands, Needle-like leaves flat, Needle-like leaves not twisted, Needle-like leaf habit erect, Needle-like leaf habit drooping, Needle-like leaves per fascicle mostly 1, Twigs glabrous, Twigs not viscid, Twigs without peg-like projections or large fascicles after needles fall, Seeds within cone, Aril light green, Aril red to orange to purple, Berry-like cones reddish, Bracts of seed cone included, Seeds brown, Seeds wingless.
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Taxus brevifolia
provided by wikipedia EN
Taxus brevifolia, the Pacific yew or western yew, is a species of tree in the yew family Taxaceae native to the Pacific Northwest of North America. It is a small evergreen conifer, thriving in moisture and otherwise tending to take the form of a shrub.
Description
A small evergreen conifer (sometimes appearing as a shrub),[4] the Pacific yew grows to 10–15 m (33–49 ft) tall and with a trunk up to 50 centimetres (20 in) diameter, rarely more. In some instances, trees with heights in excess of 20 m (66 ft) occur in parks and other protected areas, quite often in gullies. The tree is extremely slow growing, and has a habit of rotting from the inside, creating hollow forms. This makes it difficult and sometimes impossible to make accurate ring counts to determine a specimen's true age. Often damaged by succession of the forest, it usually ends up in a squat, multiple-leader form, able to grow new sprouts from decapitated stumps.[4] In its shrub form, sometimes called "yew brush", it can reproduce vegetatively via layering.[4]
It has thin, scaly bark, red then purplish-brown,[4] covering a thin layer of off-white sap wood with a darker heartwood that varies in color from brown to a purplish hue to deep red, or even bright orange when freshly cut.[4] The leaves are lanceolate, flat, dark green, 1–3 cm (3⁄8–1+3⁄16 in) long[4] and 2–3 millimetres (3⁄32–1⁄8 in) broad, arranged spirally on the stem, but with the leaf bases twisted to align the leaves in two flat rows either side of the stem except on erect leading shoots where the spiral arrangement is more obvious.
The seed cones are highly modified, each cone containing a single seed 4–7 mm (3⁄16–1⁄4 in) long partly surrounded by a modified scale which develops into a soft, bright red berry-like structure called an aril,[4] 8–15 mm (5⁄16–9⁄16 in) long and wide and open at the end. The arils are mature 6–9 months after pollination. The seeds contained in the arils are eaten by thrushes and other birds, which disperse the hard seeds undamaged in their droppings; maturation of the arils is spread over 2–3 months, increasing the chances of successful seed dispersal. The male cones are globose, 3–6 mm (1⁄8–1⁄4 in) diameter, and shed their pollen in early spring. It is mostly dioecious, but occasional individuals can be variably monoecious, or change sex with time.
Varieties
Taxus brevifolia var. reptaneta is a shrub variety that generally occurs in the mid to upper elevation range of the typical variety, 1,000–1,220 m (3,280–4,000 ft) at its southernmost occurrence in the Klamath Mountains region, and at lower elevations further north.[5] It is distinguished from young trees of the typical variety (var. brevifolia) by its stems initially creeping along the ground for a short distance before ascending (curving) upwards and by the branches growing off to one side of the stem, usually the upper side.[6] The epithet reptaneta is from the Latin reptans which means "creeping, prostrate, and rooting,"[7] which is exactly what this variety does; in rooting it forms yew thickets; hence, the epithet reptaneta (etum means collective place of growth) and hence the common name, thicket yew. Unlike the typical variety, thicket yew grows in abundance on open sunny avalanche shoots or ravines as well as in the forest understory. It also occurs along forest margins. In northwestern Montana, a variant of the thicket yew does not ascend upwards; rather, it remains along the ground.[5] This is probably the ancestral form; the upright form with branches along the upper side would be the expected growth pattern that might evolve from one with stems that strictly creep along the ground since branches can only arise from the upper surface.
Taxus brevifolia var. reptaneta has been arbitrarily indicated synonymous with typical yew, T. brevifolia (var. brevifolia); there are no studies to support this view. Even though the two varieties may be genetically distinct, some botanists recognize species or varieties only if they have different geographical ranges. For example, T. mairei var. speciosa, which occurs with the typical variety in southern China in 10 of 13 provinces, was rejected for the lack of a "geographic reason" for recognizing it[8] even though it appears genetically distinct.[9]
Taxus brevifolia var. reptaneta has also been proposed to be elevated to subspecies status without justification or explanation. Such a change would likely cause considerable confusion in view of the subspecies rank having already been used in the genus Taxus for defining geographically separated subspecies of a single species (T. baccata).[10] Further, one recommendation strongly discourages taxonomists from "elevating a 'variety' to a 'subspecies' unless there is sufficient scientific evidence to warrant such an elevation," and that "it is crucial to provide continuity."[11]
Taxus brevifolia var. polychaeta. Typical Taxus brevifolia, like most species in the genus, usually produces a single ovule on a complex scaly shoot, composed of a primary shoot and a secondary short shoot. To the casual observer they appear as one funnelform shoot with an ovule at the apex.[12] However, Taxus brevifolia var. polychaeta differs from var. brevifolia in producing a relatively longer primary shoot[5] with as many five secondary shoots.[13] The epithet, polychaeta, is in reference to the primary shoot resembling a polychaete worm; hence, its common name 'worm cone yew'. Variety polychaeta appears to be relatively rare. It may have been extirpated from the type locality—around Mud Bay near Olympia, Washington—as a result of urban expansion. It is also known from Northern Idaho and Sonoma County, California.[5][14]
As in the case with thicket yew, worm yew has been indicated to be the same as the typical variety, but again there are no specific studies to support this conclusion. The authority of thicket yew and worm cone yew has been involved in the study of the genus Taxus for 25 years at the time the varieties were described.[5][15]
Similar species
Yew foliage is very similar to that of Sequoia sempervirens, the coastal redwood.[4]
Distribution and habitat
Pacific yew is native to the Pacific Northwest. It ranges from southernmost Alaska south to Northern California, mostly in the Pacific Coast Ranges, but with isolated disjunct populations in southeast British Columbia and in Northern Idaho.[16][17][18][19][20][21] It grows in varying types of environments; however, in drier environments it is mostly limited to stream-side habitats, whereas in moist environments it will grow up onto slopes and ridgetops,[16] at least as high in altitude as 1,400 metres (4,600 ft) above sea level.[4] Pacific yew is shade tolerant, but can also grow in sun.[22] The tree's shade tolerance allows it to form an understory, which means that it can grow along streams providing shade to maintain water temperature.[23]
Uses
Traditionally, the resilient and rot-resistant wood was used by Native Americans to make tools, bows (backed with sinew), arrows, and canoe paddles.[4] Other purposes for yew included making harpoons, fishhooks, wedges, clubs, spoons, drums, snowshoes, and arrowheads.[4] The foliage and bark was used for medicinal purposes.[4] Members of the Pit River Tribe would sell this plant to the Ukiah.[24] The Concow tribe calls the tree yōl’-kō (Konkow language).[25]
Modern-day longbow makers report that a very small percentage of yew trees are of a grain suitable for their craft.[4] The Japanese have used the wood for decorative purposes,[16] and the Taiwanese have valued it as well.[4]
While many parts of yews are poisonous and can be fatal if eaten, the juicy red cup around the seed seems to be edible as long as the seed within is not chewed or swallowed,[26] with a cherry jello-like taste.[4] Birds eat such cups and spread the seeds.[26] Moose feed on the tree in winter in forests of the Rocky Mountains.[4]
The chemotherapy drug paclitaxel (taxol), used in breast, ovarian, and lung cancer treatment, can be derived from Taxus brevifolia and other species of yew. As it was already becoming scarce when its chemotherapeutic potential was realized around the 1990s, the Pacific yew was never commercially harvested from its habitat at a large scale; the widespread use of the paclitaxel was enabled circa 2003 when a semi-synthetic pathway was developed from extracts of cultivated yews of other species.[4]
Gallery
Pacific Yew foliage underside
Color variations of bark on Pacific yew
References
-
^ Thomas, P. (2013). "Taxus brevifolia". IUCN Red List of Threatened Species. 2013: e.T34041A2841142. doi:10.2305/IUCN.UK.2013-1.RLTS.T34041A2841142.en. Retrieved 13 November 2021.
-
^ Tropicos
-
^ The Plant List
-
^ a b c d e f g h i j k l m n o p q Arno, Stephen F.; Hammerly, Ramona P. (2020) [1977]. Northwest Trees: Identifying & Understanding the Region's Native Trees (field guide ed.). Seattle: Mountaineers Books. pp. 181–186. ISBN 978-1-68051-329-5. OCLC 1141235469.
-
^ a b c d e Spjut, R. W. 2007. Taxonomy and nomenclature of Taxus. J. Bot. Res. Inst. Texas 1(1): 203–289.
-
^ Web page, World Botanical Associates, Taxus brevifolia var. reptaneta; http://www.worldbotanical.com/taxus_brevifolia_var_reptaneta.htm. Retrieved 9 Dec 2014
-
^ Stearn, W. T. 1983. Botanical Latin. 3rd ed. David & Charles, London
-
^ Möller M, Gao L-M, Mill RR, Liu J, Zhang D-Q, Poudel RC, Li D-Z, 2013. A multidisciplinary approach reveals hidden taxonomic diversity in the morphologically challenging Taxus wallichiana complex. Taxon 62: 1161–1177.
-
^ Gao L-M, Möller M, Zhang X-M, Hollingsworth ML, Liu J, Mill RR, Gibby M, Li D-Z, 2007. High variation and strong phylogeographic pattern among cpDNA haplotypes in Taxus wallichiana (Taxaceae) in China and North Vietnam. Molec. Ecol. 16: 4684–4698.
-
^ Pilger R, 1903. Taxaceae-Taxoideae—Taxeae. Taxus. In: Das Pflanzenreich IV (Engler A. ed.): 110–116.
-
^ Ellison AM, Davis CC, Calie PJ, Naczi RFC, 2014. Pitcher plants (Sarracenia) provide a 21st-century perspective on infraspecific ranks and interspecific hybrids: A modest proposal for appropriate recognition and usage. Syst. Bot. 39: 939–949.
-
^ Florin R, 1951. Evolution in cordaites and conifers. Acta Horti Berg. 16: 285–388, plate
-
^ Web page, World Botanical Associates, Overview of the genus Taxus, http://www.worldbotanical.com/TAXNA.HTM, retrieved 9 Dec 2014
-
^ Web page, World Botanical Associates, Taxus brevifolia var. polychaeta; http://www.worldbotanical.com/taxus_brevifolia_var_polychaeta.htm; retrieved 9 Dec 2014
-
^ Spjut, R. W. 1977. USDA, ARS Memorandum, July 14]. Taxus brevifolia (Taxaceae) reviewed by GMC (Gudrun M. Christensen). A review of literature on taxonomy, ecology, and geographical distribution of the species, including its description, summary of geographical distribution by state or province, and literature reviewed. Distributed periodically during 1981-1992 by the National Cancer Institute to prospective suppliers, without reference to the author, for solicitations of contract bids on up to 30 tons of bark.
-
^ a b c Bolsinger, Charles; Jaramillo, Annabelle (1990). Russell M Burns; Barbara H. Honkala (eds.). "Taxus brevifolia Nutt. - Pacific Yew". Silvics of North America (Agriculture Handbook #654). USDA, USFS. 1 - Conifers: 573–579. Retrieved April 26, 2018.
-
^ Hitchcock, C. H., A.J. Cronquist, F. M. Ownbey & J. W. Thompson. 1969. Vascular Cryptogams, Gymnosperms, and Monocotyledons. 1: 1–914. In C. L. Hitchcock Vascular Plants of the Pacific Northwest. University of Washington Press, Seattle.
-
^ Hultén, E. 1968. Flora Alaska i–xxi, 1–1008. Stanford University Press, Stanford.
-
^ Moss, E. H. 1983. Flora of Alberta (ed. 2) i–xii, 1–687. University of Toronto Press, Toronto.
-
^ Munz, P. A. & D. D. Keck. 1959. California Flora 1–1681. University of California Press, Berkeley.
-
^ Welsh, S. L. 1974. Anderson's Flora of Alaska and Adjacent Parts of Canada i–xvi, 1–724. Brigham Young University Press, Provo.
-
^ Mitchell, A. (1998). "Acclimation of Pacific yew (Taxus brevifolia) foliage to sun and shade". Tree Physiology. 18 (11): 749–757. doi:10.1093/treephys/18.11.749. PMID 12651409.
-
^ Scher, Stanley; Schwarzschild, Bert (1989). "Pacific Yew: a Faculative Riparian Conifer with an Uncertain Future" (PDF).
-
^ Chestnut, V. K. 1902 Plants Used by the Indians of Mendocino County, California. Contributions from the U.S. National Herbarium 7:295-408. (p. 305)
-
^ Chesnut, Victor King (1902). Plants used by the Indians of Mendocino County, California. Government Printing Office. p. 408. Retrieved 24 August 2012.
-
^ a b Whitney, Stephen (1985). Western Forests (The Audubon Society Nature Guides). New York: Knopf. p. 364. ISBN 0-394-73127-1.
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Taxus brevifolia: Brief Summary
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Taxus brevifolia, the Pacific yew or western yew, is a species of tree in the yew family Taxaceae native to the Pacific Northwest of North America. It is a small evergreen conifer, thriving in moisture and otherwise tending to take the form of a shrub.
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