Pinus aristata Engelm.

Foodplant / parasite
erumpent aecium of Cronartium ribicola parasitises stem of Pinus aristata
Remarks: season: 3-6

Pinus aristata has leaves usually narrower and sharper than in P . longaeva and P . balfouriana , and the leaves almost always have a narrow, median groove on the abaxial surface.

Trees to 15m; trunk to 1m diam., strongly tapering, twisted; crown rounded, flattened (sheared), or irregular. Bark gray to red-brown, shallowly fissured, with long, flat, irregular ridges. Branches contorted; twigs pale red-brown, aging gray, puberulent, young branches resembling long bottlebrushes because of persistent leaves. Buds ovoid-acuminate, pale red-brown, ca. 1cm, resinous. Leaves 5 per fascicle, upcurved, persisting 10--17 years, (2--)3--4cm ´ 0.8--1mm, mostly connivent, deep blue-green, with drops and scales of resin, abaxial surface with strong, narrow median groove, adaxial surfaces conspicuously whitened by stomates, margins entire or distantly serrulate, apex conic-acute to conic-subulate; sheath 0.5--1.5cm, scales soon recurving, shed early. Pollen cones ellipsoid, ca. 10mm, bluish to red. Seed cones maturing in 2 years, shedding seeds and falling soon thereafter, spreading, symmetric, lance-cylindric before opening, lance-ovoid to ovoid or cylindric when open, 6--11cm, purple to brown, nearly sessile; apophyses much thickened; umbo central, with triangular base, extended into slender, brittle prickle 4--10mm. Seeds obliquely obovoid; body 5--6mm, gray-brown to near black; wing ca. 10--13mm. 2 n =24.

Subalpine and alpine; 2500--3400m; Ariz., Colo., N.Mex.

Pinus balfouriana Greville & Balfour var. aristata (Engelmann) Engelmann

More info for the term: stand-replacement fire

Grazing and aspect may affect postfire successional trajectories. Postfire
grazing in Engelmann spruce communities can favor Rocky Mountain bristlecone
pine. A stand-replacement fire
occurred around 1867 in an Engelmann spruce-dominated watershed near Pike's Peak,
Colorado. Range managers built a fence running down the middle of the burned
watershed between 1980 and 1902, so cattle were excluded from half of
the burn. Grazing was heavy until the mid-1930s; after that, grazing intensity
was reduced to less than 20% of previous levels. A fire history study was
conducted in 1990. Aspects on study plots were east and west; elevation was
11,055 feet (3,350 m). Few Rocky Mountain bristlecone pines were present on study plots
prior to the fire. The prefire stand was dominated by Engelmann spruce that were
6 to 10 inches (15-25 cm) in diameter. Engelmann spruce establishment began at postfire year 1
and continued steadily until 1920. There was a pulse of Engelmann spruce establishment in 1940,
when grazing intensity decreased on the fenced side of the burn [10].

Rocky Mountain bristlecone pine 1st established on the study plots in 1910. It showed another pulse of
establishment in 1928, and another strong pulse from 1935 to the early 1950s.
Rocky Mountain bristlecone pine
establishment from 1935 to 1953 was significantly greater (p=0.05) on grazed
plots compared to ungrazed plots, and was more common on dry, west-facing
aspects compared to east-facing aspects. Baker [10] stated that after fire,
Rocky Mountain bristlecone pine
can become dominant on dry aspects with or without grazing, and that postfire
grazing favors Rocky Mountain bristlecone pine over Engelmann spruce.

Rocky Mountain bristlecone pine

Colorado bristlecone pine

The World Conservation Union's Species Survival Commission (IUCB-SSC) lists Rocky Mountain bristlecone pine as a lower risk, near-threatened species: close to qualifying for "Vulnerable" status, with this classification needing updating [66]. Rocky Mountain bristlecone pine is protected from salvage in Arizona [4].

More info for the terms: cone, cover, density, forest, mesic, seed, succession, tree

The following description of Rocky Mountain bristlecone pine provides characteristics that may be relevant to fire ecology, and is not meant for identification. Identification keys are available [8,46,67,69,92,149].

Morphology: Rocky Mountain bristlecone pine is a native conifer. Growth habit is varied and mostly dependent upon elevation. Rocky Mountain bristlecone pine forms krummholz at treeline, and grows as a small tree at upper subalpine elevations. On favorable low-elevation sites it often reaches 40 feet (12 m) in height and 30 inches (75 cm) in circumference [46,69,92]. The 2 champion trees are in New Mexico. They are 72 feet (22 m) tall and 11.5 feet (3.5 m) in diameter, and 76 feet (23 m) tall and 11 feet (3.4 m) in diameter, respectively [3]. The type specimen is from Pike's Peak, Colorado.

Trunks are usually single, but some Rocky Mountain bristlecone pines have multiple trunks [73]. Bark of Rocky Mountain bristlecone pine is thin, about 0.2 to 0.75 inch (0.5-1.9 cm) thick at maturity [31,96]. Branches of younger trees are low and ascending, forming a densely spreading, conical crown. Old trees form an irregular crown with upper limbs ascending and lower limbs deflexed [46,69,92]. Old trees show vertical strips of dead ribbonwood, many dead branches, and crown die-back [73,119].

The Balfourianae complex is unique among pines in that about half of their branches originate from within the needle fascicles [28,62]. Needles are 1 to 2 inches (2.5-5 cm) long, with 5 to a fascicle. They tend to be crowded and thick towards the ends of the branches [46,69,92]. Needles are usually retained for 10 to 15 years; rarely, they may stay on the tree for 20 or more years [8,40]. The needles and cones are sticky and resinous [8,101]. Pollen cones are about 0.4 inch (10 mm) long; female cones are 2 to 4.3 inches (6-11 cm) long. Cone scales are armed with a small bristle. Seeds are 5 to 6 mm long; the seed wing is 10 to18 mm long [46,69,92,95]. Seed weight averages 50 mg [95].

Root architecture of Rocky Mountain bristlecone pine is not described in the literature (as of 2004). Oswald and Ferchau [105] provide a list of some of Rocky Mountain bristlecone pine's associated mycorrhizae.

Age class structure: Rocky Mountain bristlecone pine stands are generally mixed-aged; however, old-growth stands may contain few or no young Rocky Mountain bristlecone pines [25].

Rocky Mountain bristlecone pines are long lived. They do not attain the extreme old ages that some Great Basin bristlecone pines do, but some Rocky Mountain bristlecone pines reach 1 or 2 millennia in age. The oldest Rocky Mountain bristlecone pines occur on high-elevation, dry sites that promote slow rates of  tree growth and heart rot decay [25,73,74]. A dozen Rocky Mountain bristlecone pines in the South Park area of Colorado are documented as over 1,600 years of age. The oldest known Rocky Mountain bristlecone pine grows in the southern Front Range. It had 2,435 countable annual rings in 1992; its actual age was estimated at 2,500 years [22,25]. The oldest known Rocky Mountain bristlecone pines in Arizona are on the San Francisco Peaks near Flagstaff. One Rocky Mountain bristlecone pine in the area was documented at 1,438 years of age in 1984 [137].

Rocky Mountain bristlecone pines in lower subalpine habitats are more susceptible to heart-rot fungi and other mortality agents than trees at high elevations. Rocky Mountain bristlecone pines in montane Rocky Mountain bristlecone pine/Thurber fescue habitats, for example, do not live much over 300 years [34].

Stand structure of Rocky Mountain bristlecone pine communities is varied. Rocky Mountain bristlecone pine/alpine clover habitat types on the Arapaho National Forest of Colorado have a moderately closed canopy [59]. The Sawatch and Front ranges support moderate to dense, nearly pure Rocky Mountain bristlecone pine forests on lower subalpine, dry sites [22]. Engelmann spruce, subalpine fir, Rocky Mountain lodgepole pine, and/or limber pine are also present on mesic sites, and mixed stands are generally less dense than pure Rocky Mountain bristlecone pine stands. At other locations in the southern Rocky Mountains, Rocky Mountain bristlecone pine occurs in pure or mostly pure, open groves of varied extent. Some groves are large enough to cover entire upper subalpine watersheds; others are small and isolated. On some sites, tree-sized Rocky Mountain bristlecone pine may overtop krummholz Engelmann spruce and corkbark (or subalpine) fir, which are less tolerant of desiccation [61].

Nearly pure stand of bristlecone pine on the Pike National Forest, CO.

Baker [11] measured density of Rocky Mountain bristlecone pines in various stages of postfire succession in Colorado. In early seres, mean density of Rocky Mountain bristlecone pine seedlings was 350/ha. Sapling density averaged 13/ha. There were a few pole-sized trees ranged from 2 to 5.9 inches (5-15 cm) in diameter. As stand age increased, size classes attained a normal distribution. Most Rocky Mountain bristlecone pines were in the 9.8- to 18-inch (25- to 45-cm) diameter classes, but ranged from seedling to 28-inch (70-cm) diameter classes.

In Pike National Forest, Colorado, some montane Rocky Mountain bristlecone pine communities structurally resemble open ponderosa pine savannas, with widely spaced trees and grassy understories [35].

Rocky Mountain bristlecone pine occurs in the southern Rocky Mountains of Colorado, New Mexico, and Arizona. Its northernmost occurrence is in Gilpin County, Colorado, on the Front Range just south of Rocky Mountain National Park. Distribution continues south through the San Juan and Sangre de Cristo mountains to Mineral County, Colorado, and northern Santa Fe and San Miguel counties, New Mexico [11,90]. An outlier population occurs in Coconino County, northern Arizona, on the San Francisco Peaks [69,90].

The ranges of Great Basin and Rocky Mountain bristlecone pines do not overlap. The Colorado-Green River drainage has separated the 2 bristlecone pine species for millennia, and there is a 160-mile (260-km) gap between the 2 bristlecone species at their closest point in Utah and Colorado [57,101].The U.S. Geological Survey provides distributional maps of Rocky Mountain bristlecone and Great Basin bristlecone pines.

More info for the terms: cover, fire exclusion, fire frequency, fire occurrence, fire regime, fire-return interval, forest, frequency, fuel, herbaceous, litter, low-severity fire, mesic, seed, severity, stand-replacing fire, succession, surface fire

Fire adaptations: Rocky Mountain bristlecone pine can survive low-severity surface fire [73]. It has thin bark and a low branching habit [31], so it is poorly adapted to survive more severe fire.

As a shade-intolerant, seral species, Rocky Mountain bristlecone pine is favored in early postfire succession [11,123]. Fire may be the primary disturbance in montane and lower subalpine Rocky Mountain bristlecone pine forests. In a study across Rocky Mountain bristlecone pine's range in Colorado, Baker [11] found most Rocky Mountain bristlecone pine establishment occurred 20 to 75 years after stand-replacing fire. Fire creates a favorable seedbed of bare mineral soil, and Rocky Mountain bristlecone pine establishes on burns from wind-blown seed [23,81,113]. Since some Rocky Mountain bristlecone pine seed is dispersed by Clark's nutcrackers [80,148], establishment from Clark's nutcracker seed caches is also possible.

Fuels: Few descriptions of fuels loads in Rocky Mountain bristlecone pine communities are available. One study showed that across the species' range in Colorado, Rocky Mountain bristlecone pine communities typically had litter layers less than 0.8 inch (2 cm) thick. Area beneath most stands was 25% or less bare rock, although 100% rock cover occurred beneath a few stands [11]. Because of open structure and sparse fuels, fires seldom crown in Rocky Mountain bristlecone pine/fescue types [33]. Denser Rocky Mountain bristlecone pine communities probably have heavier fuel loads, and more studies are needed to better describe fuel loadings in various Rocky Mountain bristlecone pine types.

FIRE REGIMES: Rocky Mountain bristlecone pine was historically subject to the full range of FIRE REGIMES: understory surface fires, mixed-severity fires, and stand-replacement, severe surface and crown fires [49,102,120,134]. Fire does not appear to be a major disturbance factor in treeline and upper subalpine Rocky Mountain bristlecone pine communities. Lightning-ignited fires are common, but they are usually of low severity and small extent because patchy stand structure and low fuel loadings limit fire spread [31].  Biomass production is limited by the short, cool growing seasons and poorly developed soils [70], so there is generally not enough fuel to carry fire [31,70].  Fire is infrequent and has unpredictably long fire return intervals on high-elevation bristlecone pine sites [70].

Pure Rocky Mountain bristlecone pine subalpine forests  historically experienced long interval (300+ years), stand-replacement fires and more frequent, low-severity surface fires [102,134]. On 8 sites on Colorado's Front Range, fire return intervals in subalpine Engelmann spruce-Rocky Mountain bristlecone pine forests ranged from 200-600 years [113]. In a study across Rocky Mountain bristlecone pine's range in Colorado, Baker [11] similarly found a fire return interval of 200-500+ years in Rocky Mountain bristlecone pine subalpine forests. Both fire occurrence and Rocky Mountain bristlecone pine establishment were common between 1625-1700, a period of above-average temperatures. Fires were also widespread in Colorado in the exceptionally dry summer of 1900. Heavy postfire Rocky Mountain bristlecone pine seedling establishment occurred from 1900-1925.

Engelmann spruce-corkbark fir forests of the middle and southern Rocky Mountains, where Rocky Mountain bristlecone pine is seral, are subject to long fire-return interval, stand-replacement fires and mix-severity fires in middle subalpine zones. FIRE REGIMES where Rocky Mountain bristlecone pine predominates at those elevations are difficult to determine. Bristlecone pines often do not show fire-scar injuries typical of other pines (Harlin [53], personal communication), [125]. Instead of growing new cambial tissue over fire-killed tissue, bristlecone pines more typically form horizontal ribbonwood scars (Harlin [53], personal communication). A common response to wind and weather damage at timberline, where fires are rare, ribbonwood scarring may also be a common response to fire injury by Rocky Mountain bristlecone pines in lower subalpine forests. Because of the difficulty in finding chronological fire scars in Rocky Mountain bristlecone pine, fire histories of subalpine forests are often documented using fire-scarred Engelmann spruce and limber pine. Although valuable, such studies do not directly document fire history in stands dominated by Rocky Mountain bristlecone pine. In structure, Rocky Mountain bristlecone pine-dominated stands tend to be more open, and patchy in extent, than surrounding Engelmann spruce-dominated forest; therefore, fire return intervals in Rocky Mountain bristlecone pine-dominated stands may differ from the adjacent subalpine forest. For example, a study on the Mt. Evans Wilderness, Colorado, Rocky Mountain bristlecone pine stands tended to have shorter fire return intervals compared to the surrounding forest. Mean fire return interval was 13.1 years, ranging from 3 to 50 years. In contrast, mean fire return interval on nearby Engelmann spruce-dominated forest in the Arapaho National Forest was 16.4 years, ranging from 1 to 73 years [125].

Low-severity surface fires predominate on lower subalpine sites where Rocky Mountain bristlecone pine occurs in open, pure stands or with Engelmann spruce. In a study on Pike National Forest, central Colorado, fire return intervals in Rocky Mountain bristlecone pine-Engelmann spruce forests ranged from 9 to 55  years. Stand structure was similar to open, lower-elevation interior ponderosa pine forest  [35,36].

In mixed-conifer montane forests with a Rocky Mountain bristlecone pine component, fires may be surface, mixed-severity, or long-interval, stand-replacement. Stand-replacement fires are most common during drought, and usually spread from lower-elevation interior ponderosa pine or pinyon-juniper (Pinus-Juniperus spp.) forests [45]. Rocky Mountain Douglas-fir-limber pine-Rocky Mountain bristlecone pine montane forests historically experienced frequent return-interval surface and mixed-severity fires [49,102]. Some old-growth trees in the Rocky Mountain Douglas-fir-limber pine-Rocky Mountain bristlecone pine bear old fire scars, evidence of past low-severity fire [34]. On very harsh sites in the montane zone, Rocky Mountain bristlecone pine may form self-replacing stands that accumulate litter more slowly than more mesic montane sites [103,107,113]. Such sites burn infrequently, allowing enough time for Rocky Mountain bristlecone pines to develop insulating bark that provides protection from low-severity surface fires.

The following table provides fire return intervals for plant communities and ecosystems where Rocky Mountain bristlecone pine is important. Find further 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".

Community or Ecosystem Dominant Species Fire Return Interval Range (years) Engelmann spruce-subalpine fir Picea engelmannii-Abies lasiocarpa 35 to > 200 [5] Rocky Mountain bristlecone pine Pinus aristata 9-55 [35,36] Rocky Mountain lodgepole pine* P. contorta var. latifolia 25-340 [13,14,138] Rocky Mountain Douglas-fir* Pseudotsuga menziesii var. glauca 25-100 [5,6,7] *fire return interval varies widely; trends in variation are noted in the species review

Climatic influences: El Niño-La Niña cycles greatly influence fire frequency and severity, especially in the southern Rocky Mountains. Low snowpacks during La Niñas increase the likelihood of summer fires ([12], and references therein). Both alone and synergistically, El Niño-La Niña cycles and human management practices have increased fire activity in many Rocky Mountain bristlecone pine communities. A study on Pike National Forest showed the long-term relationship between El Niño-La Niña events and fire frequency and severity. Fires in Rocky Mountain bristlecone pine-Engelmann spruce communities were often preceded by 2 to 4 years of increased moisture availability (El Niño years). Trees showed increased growth during El Niño events; presumably, fuels increased as a result of increased herbaceous and woody plant growth. Fires were associated with reduced moisture availability in subsequent La Niña years. Fire occurrence from 1550-1792 was "moderate." Coincident with the "Little Ice Age," there were few fires from 1792-1842. Fire activity was high from 1850 until 1920. Several years (1748, 1851, and 1871) were marked by widespread fires that burned entire landscapes. The period of high fire activity occurred during both a long-term drought and a sharp increase in European-American settlement in the area. The number of fires declined sharply in 1920, when effective fire exclusion began [35,36].

Some Rocky Mountain bristlecone pine communities may still be functioning within historic fire regime parameters. In a study in the Mt. Evans Wilderness, Sherriff and others [125] found fire return intervals in upper-subalpine Rocky Mountain bristlecone pine forests were within the historic range of variability. The authors determined that fire occurrence in upper subalpine Rocky Mountain bristlecone pine and Engelmann spruce forests was largely determined by climate. They stated that unlike lower-elevation forests, human management practices over the past 200 years had little influence over upper-subalpine FIRE REGIMES in Mt. Evans Wilderness. Fire cycles were largely tied to drought associated with La Niña events.

Other, less well-known climate cycles that may influence FIRE REGIMES in Rocky Mountain bristlecone pine communities include sunspots, long-term lunar effects on tides, and long-term ocean oscillations. Baker [11] found the age of several Rocky Mountain bristlecone pine stands in the southern Rocky Mountains coincided with a period of increased fire frequency during the Maunder sunspot minimum.

More info for the terms: fire management, natural, restoration, selection

Fire is used as a management tool to promote whitebark pine (Pinus albicaulis), a related 5-needle white pine (Strobus), in blister rust-infected areas. Fire management strategies used on whitebark pine can be applied to Rocky Mountain bristlecone pine. Fire-created openings provide establishment sites for natural regeneration of early successional white pines including Rocky Mountain bristlecone pine. Most importantly, fire-created openings can provide opportunities for natural and artificial regeneration of genetically blister rust-resistant Rocky Mountain bristlecone pine. Protecting blister rust-resistant parent trees from fire, while encouraging natural selection of blister rust-resistant seedlings by providing a suitable open, mineral soil seedbed, is the best hope for restoring Rocky Mountain bristlecone pine communities in the long term [121,123].

Incomplete understanding of the fire and basic ecology of Rocky Mountain bristlecone pine constrain ability to implement management and conservation programs for Rocky Mountain bristlecone pine [121]. Fire restoration research is needed in Rocky Mountain bristlecone pine communities.

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More info for the term: phanerophyte

RAUNKIAER [111] LIFE FORM:
Phanerophyte

Rocky Mountain bristlecone pine is most common on dry slopes. Slopes are typically steep (20-35°) and aspects are usually south- or west-facing, although Rocky Mountain bristlecone pine may occur on any aspect with well-drained soil [11,43]. Where limber and Rocky Mountain bristlecone pines co-occur, limber pine may dominate the rockier, drier ridges [31].

Climate: Climate is continental and cold on Rocky Mountain bristlecone pine sites. Mean annual temperature in Rocky Mountain bristlecone pine forests of New Mexico is 35 °F (1.5 °C), and the growing season is less than 110 days [102]. Rocky Mountain bristlecone pine groves are interspersed with permanent snowfields on upper subalpine sites in the southern Front Range [23,24]. Mean annual precipitation is 34 to 45 inches/year (860-1,100 mm/year) [101,102].

Precipitation patterns are influenced by summer monsoons, which bring regular afternoon thundershowers and lightning. Precipitation increases from its minimum during December and January to its maximum in July and August. New Mexico receives the most monsoonal rainfall within Rocky Mountain bristlecone pine's distribution, while northern Colorado receives the least monsoonal rainfall [12,35]. Heavy snowfalls are common in El Niño years, while drought is common in La Niña years [12].

Annual precipitation received varies greatly on Rocky Mountain bristlecone pine sites in the central Rocky Mountains. For example, Rocky Mountain bristlecone pine stands near Pike's Peak on the Front Range receive as little as 16 inches (410 mm) of annual precipitation, while stands further west in the Sawatch and San Juan ranges receive 40.2 and 59.8 inches (1,020 and 1,520 mm) of mean annual precipitation, respectively [25,73].

Soils supporting Rocky Mountain bristlecone pine are cold, and generally nutrient-poor and acidic. They are classified near the extreme end of cryllic, with mean temperatures around 33 °F (1 °C) [102]. Soils are typically skeletal and shallow, ranging from 2 to 4 inches (5-10 cm) deep [11]. Some montane Rocky Mountain bristlecone pine communities adjoining mountain meadows occur on deep soils [102].

Unlike Great Basin bristlecone pine, which is largely restricted to basic soils, soils supporting Rocky Mountain bristlecone pine range from less than 5.1 to 7.7 in pH [101,110]. Rocky Mountain bristlecone pine is common on granitic soils, which are usually acidic. Parent materials for Rocky Mountain bristlecone pine soils vary. In Colorado, granite and extrusive igneous-derived soils are most common; gneiss- and schist-derived soils are least common [11,24]. In New Mexico, Rocky Mountain bristlecone pine grows on loamy cherts [101].

Nutrients— Nitrogen is usually limiting on Rocky Mountain bristlecone pine soils [150]. On Goliath Peak, Colorado, soils beneath Rocky Mountain bristlecone pines were low in nitrogen and phosphorus, while soils supporting Engelmann spruce were also low in nitrogen but higher in phosphorus than Rocky Mountain bristlecone pine soils. The authors suggested that Rocky Mountain bristlecone pines may be long-term phosphorus sinks [126].

Because of atmospheric deposition of nitrogen on high-elevation sites, phosphorus may be replacing nitrogen as the limiting nutrient on upper subalpine and treeline Rocky Mountain bristlecone pine communities on the Front Range. In 1 study, phosphorus was limiting on high-elevation study sites in the Front Range. Nitrogen was still the limiting nutrient on lower-elevation study sites in the Front Range, and on all subalpine and montane study sites in New Mexico and Arizona [150].

Elevation: Rocky Mountain bristlecone pine generally occurs from 8,200 to 11,000 feet (2,500-3,400 m) [46]. Elevational range by state is:

State   Arizona 9,500-12,000 feet (2,900-3,700 m) [69] Colorado 7,000-13,000 feet (2,100-4,000 m) [54,73] New Mexico 10,000-12,000 feet (3,000-3,700 m) [92]

Rocky Mountain bristlecone pine distribution migrates upslope in response to climate warming. A dendrochronological study on Mt Evans, Colorado, showed Rocky Mountain bristlecone pines grew as much as 130 feet (40 m) above present treeline from 1800 to 1500 BP [151].

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This species is known to occur in association with the following cover types (as classified by the Society of American Foresters):

More info for the term: cover

SAF COVER TYPES [41]:





206 Engelmann spruce-subalpine fir

209 Bristlecone pine

210 Interior Douglas-fir

218 Lodgepole pine

219 Limber pine

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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):

ECOSYSTEMS [47]:





FRES20 Douglas-fir

FRES23 Fir-spruce

FRES26 Lodgepole pine

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This species is known to occur in association with the following plant community types (as classified by Küchler 1964):

More info for the term: forest

KUCHLER [76] PLANT ASSOCIATIONS:





K008 Lodgepole pine-subalpine forest

K018 Pine-Douglas-fir forest

K021 Southwestern spruce-fir forest

K022 Great Basin pine forest

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This species is known to occur in association with the following Rangeland Cover Types (as classified by the Society for Range Management, SRM):

More info for the term: cover

SRM (RANGELAND) COVER TYPES [127]:




None

More info for the term: surface fire

Low-severity surface fire may cause basal wounds and scorch or kill lower Rocky Mountain bristlecone pine branches [73]. More severe fires kill Rocky Mountain bristlecone pine [20,73]. On the east slope of the Sawatch and Front ranges, Brunstein [23] noted various fire effects on Rocky Mountain bristlecone pines. Some living Rocky Mountain bristlecone pines showed charred branches and basal fire scars on low-severity burns. All trees were dead on severe burns, leaving charred, "ghost forest" snags. Fire did not carry to Rocky Mountain bristlecone pine stands surrounded by rock, although lightning strikes within isolated stands caused small fires that damaged or killed some trees.

Mostly low-severity fires with patches of more severe fire are common in Rocky Mountain bristlecone pine stands, and fire survival is also mixed on such sites. In a study of 4 Rocky Mountain bristlecone pine stands in Colorado, some live trees from each stand showed fire scarring, and each stand contained a few dead trees that were either fire-girdled or had torched [73].

Surface fire kills Rocky Mountain bristlecone pine seeds exposed on the soil surface [51]. Seeds stored below ground in Clark's nutcracker caches are insulated from fire damage [140].

More info for the terms: cover, seed

Little is known regarding wildlife use of many Rocky Mountain bristlecone pine habitats. Rocky Mountain bristlecone pine/grassland communities provide important, nutritional forage for big game animals. Rocky Mountain bristlecone pine/Thurber fescue communities are important summer ranges for elk [33]. Red squirrels and Clark's nutcrackers eat and cache Rocky Mountain bristlecone pine seeds [44,80]. The seed probably provides valuable food for other animals as well. Further research is needed on wildlife use of  Rocky Mountain bristlecone pine habitats.

Palatability/nutritional value: No information is available on this topic.

Cover value: No information is available on this topic.

More info for the terms: bog, forbs, forest, mesic, series, shrubs, xeric

Rocky Mountain bristlecone pine occurs in upper montane and subalpine communities [149].

Engelmann spruce (Picea engelmannii) and
limber pine (Pinus flexilis) associate with Rocky Mountain bristlecone
pine throughout most of Rocky Mountain bristlecone pine's range. Rocky Mountain
bristlecone pine tends to exclude Engelmann spruce and limber pine on upper subalpine and timberline
sites. Even in lower subalpine sites, Rocky Mountain bristlecone pine is more
common in mesic areas than limber pine [107].  Brunstein [23] noted limber pine was absent from
Rocky Mountain bristlecone pine
communities on the east slope of the Park Range of Colorado. Quaking aspen (Populus tremuloides)
may co-occur throughout Rocky Mountain bristlecone pine's range on seral sites
including burns. Rocky Mountain lodgepole pine (Pinus contorta var.
latifolia) also occurs on new burns and other disturbed sites in Rocky
Mountain bristlecone pine communities [73,107].

Rocky Mountain bristlecone pines often form monospecific krummholz
woodlands at treeline. In mixed treeline stands, Rocky Mountain bristlecone pine may associate with
common juniper (Juniperus communis),
krummholz Engelmann spruce and more rarely, krummholz limber pine [21,107]. More detailed descriptions
of plant composition in Rocky Mountain
bristlecone pine communities are given below.

Colorado:
Most Rocky Mountain bristlecone pine communities occur
east of the Continental Divide in Colorado, although Rocky Mountain bristlecone pine
forests occur on the west slope of the San Juan Mountains. Engelmann spruce, corkbark
fir (Abies lasiocarpa var. arizonica), quaking aspen, and Rocky
Mountain Douglas-fir (Pseudotsuga menziesii var. glauca) are
common associates. Subalpine fir (A. l. var. lasiocarpa)
replaces corkbark fir in the northern limits of Rocky Mountain bristlecone
pine's distribution [11].

Subalpine forests—
Pure Rocky Mountain bristlecone pine and Rocky Mountain bristlecone
pine-limber pine forests generally occur above Engelmann spruce-corkbark fir
forests. Engelmann spruce is a nearly constant associate of Rocky Mountain
bristlecone pine except near treeline, while corkbark fir is sparse to absent in
some Rocky Mountain bristlecone pine communities [29]. Rocky Mountain
bristlecone pine fingers into Engelmann spruce-corkbark (or subalpine) fir
communities, usually occurring on xeric sites or at the highest elevations
(~11,700 ft (3,580 m)) within the Engelmann spruce-fir types. It becomes

less important with decreasing elevation [2,11,20,35,116].

Montane forests—
On the Front Range, Rocky Mountain bristlecone pine,
Rocky Mountain lodgepole
pine, or quaking aspen may dominate upper montane forests. In structure and
composition, montane Rocky
Mountain bristlecone pine
communities vary from dense forest to open conifer/grassland
woodlands and savannas. The most common understory dominants in Rocky Mountain
bristlecone pine/herbaceous types are Arizona fescue (Festuca
arizonica), Thurber fescue (F. thurberi), and alpine
clover (Trifolium dasyphyllum) [33,59]. Tufted
hairgrass (Deschampsia cespitosa), glaucous bluegrass (Poa glauca), bog sedge
(Kobresia myosuroides), and other sedges (Carex spp.) are also common in the
understory [11]. Ranne and others [110] identified 3 Rocky Mountain
bristlecone pine/shrub types on the
Front, Mosquito, and San Juan ranges. Common juniper, dwarf bilberry (Vaccinium
myrtillus), or gooseberry currant (Ribes montigenum) were the understory
dominants. Currants (Ribes spp.), dwarf
bilberry, Oregon-grape (Mahonia repens), and common juniper often
associate in the understory
in Rocky Mountain bristlecone pine-Engelmann spruce forests [29]. Rocky Mountain
bristlecone and limber pines are minor associates
in Rocky Mountain lodgepole pine forests on the Gunnison National Forest [153].

New Mexico:—

Rocky Mountain bristlecone pine communities occur near upper timberline. Engelmann spruce may
be present in low numbers. A Rocky Mountain bristlecone pine/gooseberry currant
series occurs between 10,500 and 11,800 feet (3,200-3,600 m) elevation in the Sangre de Cristo
Mountains [102]. The understory beneath high-elevation Rocky Mountain bristlecone pine communities
may be sparse. Krebs [73] found composites (Asteraceae)
and a few genera of grasses were present in a Rocky Mountain bristlecone
pine community on the Rio
Grande-Gunnison National Forest boundary. The understory was usually
barren of other vegetation.

At lower subalpine and montane elevations, Rocky Mountain bristlecone
pine-Thurber fescue savannas occur on deep soils.
On shallower soils, Engelmann spruce-Rocky Mountain bristlecone pine and Rocky
Mountain Douglas-fir-limber pine-Rocky Mountain bristlecone pine communities
occur below the upper subalpine zone. These
mixed-conifer types generally have more diverse understories than pure Rocky
Mountain bristlecone pine
forests. Associated understory species in Engelmann spruce-Rocky Mountain
bristlecone pine communities include gooseberry
currant, Wolf's currant (R. wolfii), and twinberry honeysuckle (Lonicera involucrata).
Common graminoids are fringed brome (Bromus ciliatus), spike trisetum (Trisetum
spicatum), glaucous bluegrass,
nodding bluegrass (P. reflexa), and small-flowered woodrush (Luzula
parviflora). Common forbs are alpine clover, single delight (Moneses uniflora),
subalpine fleabane (Erigeron peregrinus), sickletop lousewort (Pedicularis
racemosa), and Jacob's-ladder (Polemonium pulcherrimum) [102].

Rocky Mountain bristlecone pine also dominates lower subalpine zones [120]. Rocky
Mountain Douglas-fir is a common component of low-elevation Rocky Mountain bristlecone pine
habitat types [42]. In the Rocky Mountain bristlecone
pine-Douglas-fir series, Rocky Mountain bristlecone pine retain codominance into
old-growth stages. Grasses dominate the understory. Arizona fescue, fringed brome, mutton grass
(Poa fendleriana), and slender
wheatgrass (Elymus trachycaulus) are the principle grasses. Common forbs
include alpine false springparsley (Pseudocymopterus montanus),
pineywoods geranium (Geranium caespitosum), and bluebell blueflower (Campanula
rotundifolia). A few shrubs may have scattered occurrence, particularly oceanspray (Holodiscus dumosus),
currants, and
snowberries (Symphoricarpos spp.) [102].

Montane forests—
Rocky Mountain bristlecone pine dominates some lower subalpine and upper
montane zones, particularly the conifer-grass associations. Low-elevation Rocky Mountain bristlecone
pine savannas are structurally similar to
interior ponderosa pine (Pinus ponderosa var. scopulorum) savannas [110].
Arizona fescue or Thurber fescue usually dominate the understory. In the Sangre de Cristo Mountains, montane
Rocky Mountain bristlecone pine/Thurber
fescue communities extend from upper montane to lower subalpine zones [49,102,110].
Commonly associated graminoids in Rocky Mountain bristlecone pine savannas
include prairie Junegrass (Koeleria macrantha), mountain muhly (Muhlenbergia
montana), dryspike sedge (Carex foenea), and loving sedge (C. pityophila).
Forbs include alpine clover,
starry Solomon's seal (Maianthemum stellatum), and western yarrow (Achillea
millefolium). Common juniper, fringed sagebrush
(Artemisia frigida), bearberry (Arctostaphylos uva-ursi), wax currant (R. cereum),
gooseberry currant, and mountain snowberry (Symphoricarpos oreophilus)
are common shrubs.

A Rocky Mountain Douglas-fir-limber pine-Rocky
Mountain bristlecone pine

montane forest series also occurs in the Sangre de Cristo Mountains. Blue
spruce (Picea pungens) occurs in these mixed forests
[102,135].

Arizona:

Subalpine forests—
Rocky Mountain bristlecone pine forms
a krummholz community with corkbark fir and Engelmann spruce on the San
Francisco Peaks. It is usually dominant on upper subalpine sites, although
Engelmann spruce may dominate the relatively coldest sites and sometimes grows above Rocky
Mountain bristlecone pine. Limber pine also associates with Rocky Mountain bristlecone
pine in upper subalpine zones [86,106,115]. Shrubs and herbs are sparse in
upper subalpine Rocky Mountain bristlecone pine communities. Common juniper and gooseberry currant
are the most frequent shrubs; common herbs include dark
beardtongue (Penstemon whippleanus), golden draba (Draba aurea),
alpine pennycress (Thlaspi montanum var.
fendleri), and alpine fescue (F.
brachyphylla) [115]. Rocky Mountain bristlecone pine
communities merge with mixed Engelmann spruce-corkbark fir forest at lower
subalpine zones and with alpine meadows, cushion plant communities, and bare
rock above about 11,000 feet (3,500 m) elevation [106].

Mixed-montane forests where Rocky Mountain bristlecone
pine forms an important component of the overstory are poorly described for
Arizona. White fir (Abies concolor), blue spruce, and quaking aspen may
associate with Rocky Mountain bristlecone pine on mixed-conifer sites [124]. Descriptions of characteristic understory species
for Rocky Mountain bristlecone pine-mixed montane forest types are lacking as of this writing (2004).

Vegetation classifications describing Rocky Mountain bristlecone pine
communities include:

Arizona [85,86,115]

Colorado [33,59,71,72,110]

New Mexico [33,34,85,86,102,110,135]

More info for the term: tree

Tree

More info for the terms: seed, tree

Rocky Mountain bristlecone pine is susceptible to parasite and fungus
infections.

Damaging agents:
Western spruce dwarf mistletoe (Arceuthobium
microcarpum) infests Rocky Mountain bristlecone pines on the San Francisco Peaks.
Low-elevation Rocky Mountain bristlecone pine are most susceptible to infection
because western spruce dwarf mistletoe cannot
survive at high elevations [94]. Elsewhere in Rocky Mountain
bristlecone pine's range, southwestern dwarf mistletoe (A. vaginatum ssp. crytopodum)
and lodgepole pine dwarf mistletoe (A. americanum) are occasional to rare
parasites [55,56,58].
Southwestern dwarf mistletoe infection is most likely when Rocky Mountain
bristlecone pine associates with infected interior ponderosa pines [58]. Rocky
Mountain bristlecone pines are susceptible to heart-rot fungi, especially trees
at low elevations [89].

Blister rust:
Rocky Mountain bristlecone pine is
susceptible to white pine blister rust [123], an exotic fungus that infects
5-needle white pines. A Rocky Mountain bristlecone pine in Great Sand Dunes National Monument, Colorado, was found infected with white pine blister rust in 2003. Limber pines in the area had shown symptoms of infection sine 1998 [19]. Rocky Mountain bristlecone pine's
relative level of resistance to the rust is unclear. Seedling trials indicate that
Rocky Mountain bristlecone pine may not
be as susceptible to the rust as other North American 5-needle pines [62]. For
example, in a New York old field study where 5-needle pines were planted near
blister rust-infected European black currants (Ribes
nigrum), Rocky Mountain bristlecone pine seedlings showed better
resistance to infection than Eurasian 5-needle pine species, which have
evolved with the rust and have high levels of genetic resistance to it [61]. In a review, Bingham [18] lists
Rocky Mountain bristlecone pine as very resistant to white pine blister rust
compared to other 5-needle white pines. However, resistance tests are based upon
seedling trials and for Rocky Mountain bristlecone pine, usually small sample size [28]. In a seedling
trial of 17 white pine species, Stephan [132] found a 66% infection rate of Rocky
Mountain bristlecone pines:
lower than other North American pines, including the closely related foxtail pine, but higher than
Eurasian white pine species.

Whatever Rocky Mountain bristlecone pine's relative level of resistance in laboratory seedling trials, the
fact remains: blister rust has already infected mature Rocky Mountain
bristlecone pines in northern Colorado [146]. Other Rocky Mountain
bristlecone pine populations are seriously at risk of infection. Arid climate has previously
protected Rocky Mountain bristlecone pines from blister rust infection, but the potential for
blister rust to spread into arid zones
should not be underestimated. Blister rust's geographical range tends to spread
only during wet years, when environmental conditions are favorable for infection
of 5-needle pines [128]. In addition to infecting Rocky Mountain
bristlecone pines in the Southwest, blister rust has also infected southwestern white pine (Pinus
strobiformis) in the Sacramento Mountains of New Mexico [48,49].

Blister rust-infected white pines such as Rocky Mountain bristlecone pine may
take from 2 years to decades to succumb, but infection is always fatal [63,64].
Gooseberries and currants (Ribes spp.) are the primary host of white
pine blister rust. Life cycle of white pine blister rust is complex.
Gitzendanner and others [50]
and McDonald and Hoff [97]
provide details of the rust's life history and ecology. Hoff [63]
provides a diagnostic guide for recognizing symptoms of blister
rust infection in white pines. There are no known methods of controlling blister
rust [68]. Fungicide application, pruning infected tree branches, and/or
removing Ribes spp. have neither eliminated nor controlled white pine
blister rust [27,97], and such treatments have
undesirable ecological effects [68].

Inventories are underway to detect and monitor levels of blister rust in
Rocky Mountain bristlecone pine and other white pine stands, and to identify
Rocky Mountain bristlecone pines with phenotypic resistance to blister rust. If
blister rust outbreaks become severe, resistant Rocky Mountain bristlecone pines
can be used as seed sources for transplanting programs that use blister
rust-resistant seed stock [98,123]. For
further information on management of white pine blister rust, see Samman and
others
[118], Tomback and others [139], and Sniezko and others [129].

Rocky Mountain bristlecone pine provides watershed and erosion protection on high-elevation sites [34,59,118]. Among subalpine communities of the Southwest, snowpack in open, Rocky Mountain bristlecone pine-dominated communities is usually the last to melt in  spring [34,87].

Rocky Mountain bristlecone pine habitats are favored recreation sites [34]. The twisted, gnarly appearance of high-elevation Rocky Mountain bristlecone pines is aesthetically appealing [30,59].

As a long-lived conifer, Rocky Mountain bristlecone pine is important in dendrochronogy. Rocky Mountain bristlecone pine chronologies span 800 to 1,550 years BP [74,79]. The long chronologies obtained from Rocky Mountain bristlecone pines have been applied in other fields of science including climatology [23,24,77,78,79], atmospheric chemistry [52], geology [24], and archaeology [99,108,109].

Wood Products: Rocky Mountain bristlecone pine wood is not harvested commercially. Collecting Rocky Mountain bristlecone pine wood is prohibited in Arizona [4].

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More info for the term: seed

Time of Rocky Mountain bristlecone pine pollination ranges from late June to late July [37]. Female cones mature in autumn of their 2nd year. Rocky Mountain bristlecone pine cones drop soon after the seed has matured and shed [46]. On the San Francisco Peaks, Rocky Mountain bristlecone pines begin vegetative growth in early June. Buds burst and shoots elongate in mid-June. New cones open for pollination in late July. Pollen disperses for about 5 days, extending pollination to early August. Second-year female cones 1st open for seed dispersal in late September, when active growth stops. Most seeds disperse in early October. Needles abscise through October [73,124].

More info for the terms: seed, succession

Rocky Mountain bristlecone pine establishes on young burns from wind-blown seed [23], and probably from Clark's nutcracker caches [80,148]. Because it is a shade-intolerant species, the mineral soil and open space on burns provide favorable sites for seedling establishment. Rocky Mountain bristlecone pine seedlings and saplings have been observed on young burns in the Front and Sawatch ranges [23].

Plant succession is slow in the cold, dry Rocky Mountain bristlecone pine subalpine habitats. Early postfire succession may last a century or more [16,20,26,31,130]. In New Mexico, soil temperatures at 20 inches (50 cm) below ground are around freezing on high-elevation Rocky Mountain bristlecone pine burns [26]. Establishment usually follows a simple successional trajectory, with Rocky Mountain bristlecone pine dominating all stages of postfire succession in upper subalpine zones [31]. It may take several centuries for stands to reach full postfire stocking [34]. Over time, local lightning fires may create a mosaic of different-aged stands [31].

More info for the terms: adventitious, initial off-site colonizer, secondary colonizer, seed, tree

POSTFIRE REGENERATION STRATEGY [133]:
Tree without adventitious bud/root crown
Initial off-site colonizer (off-site, initial community)
Secondary colonizer (on-site or off-site seed sources)

More info for the terms: cone, forest, monoecious, natural, seed, stratification, tree

Rocky Mountain bristlecone pine reproduces from seed [51,75,82,123]. Regeneration requirements for successful bristlecone pine establishment are rarely met [17,70], but as an extremely long-lived species, Rocky Mountain bristlecone pine has centuries to millennia to wait for favorable regeneration conditions.

Studies on bristlecone pine regeneration have primarily focused upon Great Basin bristlecone pine. Similar studies are needed on Rocky Mountain bristlecone pine regeneration, especially in the areas of seed biology, the relative role of Clark's nutcracker in successful Rocky Mountain bristlecone pine establishment, and genetics.

Breeding system: Rocky Mountain bristlecone pine is monoecious [83].

Pollination: Bristlecone pines are pollinated by wind [83]. Mating system is predominantly outcrossing [60,88].

Seed production: Minimum observed age of seed production in Rocky Mountain bristlecone pine is 10 to 40 years [51,75,82,123]. Cone crop production is generally steady, with heavy cone crops every few years. Rodents may consume large numbers of seeds [51].

Seed dispersal: Seeds disperse by wind [81,96]. Clark's nutcrackers also disperse some Rocky Mountain bristlecone pine seeds [148], although they prefer the larger seeds of limber pine and pinyon pines (Cembra). Clark's nutcrackers are most likely to cache Rocky Mountain bristlecone pine seeds when seed crops of preferred species are poor [148]. Seed dispersal by Clark's nutcrackers has important implications for Great bristlecone pine's genetic structure and ability to establish on disturbed sites such as burns. Clark's nutcrackers bury seeds in caches. A growth form of clumped trees that fuse at the stem is characteristic of establishment resulting from Clark's nutcracker seed dispersal [80]. When an individual tree has multiple stems, genetic marker tests show each stem is genetically identical. If several individual trees fuse at the base as a result of close planting by Clark's nutcrackers, forming a multi-stemmed tree clump, individual stems retain their separate genetic identities. Genetic marker tests can show if fused stems are genetically identical or different [139]. Torick and others [141] used electrophoresis to determine the genetic composition of multistemmed Rocky Mountain bristlecone pine clusters on Goliath Peak, Arapaho National Forest, Colorado. They found that 20% of clumps were multigenetic.

Seed banking ability of Rocky Mountain bristlecone pine is unknown. Laboratory seed germination tests suggest Rocky Mountain bristlecone pine may not build a long-term seed bank  [38,114], yet seed caching by Clark's nutcrackers suggests the possibility of a seed bank. Further studies are needed in this area.

Germination: Most Rocky Mountain bristlecone pine seeds require no stratification period and are immediately germinable when ripe [38,84,114]. A stratification period of up to 30 days may improve germination of some seeds [38]. Seeds from a collection on Pike's Peak near the headwaters of Clear Creek, Colorado (the type location), showed 80% germination. Stratification did not improve germination rates [114].

Seedling establishment is generally rare. Rocky Mountain bristlecone pine seedlings usually establish 600 feet (200 m) or more from parent trees. Best germination and establishment occurs on open, bare mineral soil [51]. In Colorado, Baker [11] found best Rocky Mountain bristlecone pine regeneration occurred on sites that had burned within the last few decades. Rocky Mountain bristlecone pine failed to regenerate under closed canopies. Seedlings can also establish in small openings. Schubert and Rietveld [124] noted a young, pure stand of Rocky Mountain bristlecone pine on the San Francisco Peaks that established in a clearing within mixed-conifer montane forest.

Growth is affected by the previous year's climate. In the Bristlecone Pine Scenic Area, Colorado, high monsoonal precipitation in July, August, and September of the previous year was positively associated (p<0.05) with early summer growth. La Nińa events tended to reduce growth. La Nińa 's high fall temperatures reduced growth the next year, probably because buds failed to harden off and were frost-killed [35].

Rocky Mountain bristlecone pine is slow growing. Trees from 16 to 20 inches (41-51 cm) in diameter have been aged at 200 to 250 years [51]. A study on the Mt. Goliath Research Natural Area, Colorado, showed Rocky Mountain bristlecone pine attained less annual stem growth, but retained more needle biomass per shoot, compared to associated Rocky Mountain lodgepole pine. Mean shoot growth on small-diameter (<3 in. (7 cm)) Rocky Mountain bristlecone pines was 0.75 inch (1.9 cm) per year, while large-diameter (>20 in. (50 cm)) Rocky Mountain bristlecone pine shoots gained an average of 0.6 inch (1.5 cm) per year [122].

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):

BLM PHYSIOGRAPHIC REGIONS [15]:





11 Southern Rocky Mountains

12 Colorado Plateau

(key to state/province abbreviations)
UNITED STATES AZ CO NM

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More info for the terms: codominant, fire exclusion, stand-replacing fire, succession, tree

Rocky Mountain bristlecone pine occurs in early seral and old-growth stages [134]. It usually dominates both new and old-growth forests and woodlands at high elevations [31]. It is a seral species in upper montane Engelmann spruce-corkbark (or subalpine) fir forests [1,31,113]. At its lowest elevational limits, Rocky Mountain bristlecone pine may be a seral or minor species in Rocky Mountain Douglas-fir forests [31]; however, Rocky Mountain bristlecone pine remains codominant on some Rocky Mountain Douglas-fir-limber pine-Rocky Mountain bristlecone pine communities into late succession [102].

Fire may be the primary disturbance in Rocky Mountain bristlecone pine-dominated forests. In a study across Rocky Mountain bristlecone pine's range in Colorado, Baker [11] found most Rocky Mountain bristlecone pine regeneration occurred after stand-replacing fire.

Succession is slow on cold sites dominated by Rocky Mountain bristlecone pine [26,102]. Baker [11] found that in Colorado, postfire Rocky Mountain bristlecone pine establishment was uneven-aged, with some trees establishing decades after the last fire. Even so, Rocky Mountain bristlecone pine was the most commonly occurring tree in postfire succession in upper subalpine forests. Limber pine also established relatively soon after fire, but was not as dense as Rocky Mountain bristlecone pine. Engelmann spruce established in low numbers in early postfire succession, but was more common in late seres. Quaking aspen co-occurred in some seral Rocky Mountain bristlecone pine stands that ranged from 89 to 550 years of age [11].

With long fire-free intervals, mountain meadow communities may succeed to mixed forests of Rocky Mountain bristlecone pine and other conifers, especially when fire exclusion is accompanied by heavy livestock or pocket gopher grazing [102]. Baker [11] suggested that in the long-term absence of fire (>1,000 years), Rocky Mountain bristlecone pine may be replaced by Engelmann spruce or corkbark fir. He further stated that it is unlikely that fire could be excluded for so long, so "the chance of replacement by other species is small."

Rocky Mountain bristlecone pine is shade intolerant [9,31,112] and does not regenerate under its own canopy [11].  Both dry site conditions and cattle grazing may favor Rocky Mountain bristlecone pine over Engelmann spruce (see Discussion and Qualification of Plant Response) [10]. Rocky Mountain bristlecone pine's successional relationship with quaking aspen is unclear, since both species are shade intolerant. Rocky Mountain bristlecone pine, quaking aspen, Rocky Mountain Douglas-fir, interior ponderosa pine, and Rocky Mountain lodgepole pine may all be seral in Engelmann spruce-corkbark (or subalpine) fir communities [31].

More info for the term: natural

The scientific name of Rocky Mountain bristlecone pine is Pinus aristata
Engelm. (Pinaceae) [8,46,67,69,92,149].

Rocky Mountain bristlecone pine, Great Basin bristlecone pine (P. longaeva), and foxtail pine (P. balfouriana)
share a common ancestor [117,152]. Taxa within the
bristlecone-foxtail pine complex (Pinus, subgenus Strobus, section
Parrya Mayr, subsection Balfourianae Englm.) are distinguished by
growth form, bark, and differences in chemical composition [8,32,93,100].
Bristlecone and foxtail pines readily produce fertile hybrids in the laboratory
[131,152]. Disjunct distributions, and possibly other factors, prevent natural
hybridization among the 3 species.

Rocky Mountain bristlecone pine tolerates some toxic conditions and has potential value in restoring old mine and other polluted sites. On abandoned surface mines in Colorado, Rocky Mountain bristlecone pine seedlings were planted on topsoil-treated and overburden sites. Two years after planting, Rocky Mountain bristlecone pines showed 8.4 inches (21 cm) and 5.6 inches (14 cm) of height growth on topsoil and overburden sites, respectively. Survival was 100% on both sites [65]. Rocky Mountain bristlecone pine is moderately tolerant of saline soil [143], but not of salt spray [145].  In a greenhouse study, Rocky Mountain bristlecone pine seedlings showed high tolerance to ozone (20 pphm* and 30 pphm concentrations) compared to other pine species [144].

*parts per hundred million

Tree, Evergreen, Monoecious, Habit erect, Trees without or rarely having knees, Tree with bark rough or scaly, Young shoots 3-dimensional, Buds resinous, Leaves needle-like, Leaves alternate, Needle-like leaf margins entire (use magnification), Leaf apex acute, Leaves < 5 cm long, Leaves > 5 cm long, Leaves < 10 cm long, Leaves blue-green, Leaves white-striped, Needle-like leaves triangular, Needle-like leaves not twisted, Needle-like leaf habit erect, Needle-like leaves per fascicle mostly 5, Needle-like leaf sheath early deciduous, Twigs glabrous, Twigs viscid, Twigs not viscid, Twigs without peg-like projections or large fascicles after needles fall, Berry-like cones orange, Woody seed cones > 5 cm long, Seed cones bearing a scarlike umbo, Umbo with obvious prickle, Bracts of seed cone included, Seeds brown, Seeds black, Seeds gray, Seeds winged, Seeds unequally winged, Seed wings prominent, Seed wings equal to or broader than body.

Pinus aristata (lat. Pinus aristata) - şamkimilər fəsiləsinin şam ağacı cinsinə aid bitki növü.

Pinus aristata, el pi Bristlecone de les muntanyes Rocalloses, és una espècie de pi natiu dels Estats Units. Apareix a les Muntanyes Rocalloses a Colorado i nord de Nou Mèxic, amb una població aïllada a San Francisco Peaks a Arizona. Normalment es troba a grans altituds de 2.500-3.700 m en climes subalpins sovint arriba al límit arbori però també es troba en altituds menors.

Borovice osinatá (Pinus aristata) je jehličnatý strom pocházející ze Severní Ameriky (státy Colorado, Nové Mexico, Arizona, California, Nevada, Utah). Její poddruh longaeva patří mezi nejstarší žijící organismy na Zemi.

Die Grannen-Kiefer (Pinus aristata) ist eine Pflanzenart aus der Gattung der Kiefern (Pinus) in der Familie der Kieferngewächse (Pinaceae). Die früher als Varietät der Grannen-Kiefer angesehene Langlebige Kiefer (Pinus longaeva) trennte man 1971 als eigene Art ab.

Pinus aristata, the Rocky Mountain bristlecone pine (or the Colorado bristlecone pine), is a long-living species of bristlecone pine tree native to the United States. It appears in the Rocky Mountains in Colorado and northern New Mexico, with isolated populations in the San Francisco Peaks in Arizona and the Kaibab National Forest north of the Grand Canyon. It is usually found at very high altitudes, from 7,000–13,000 feet (2,100–4,000 m), in cold, dry subalpine climate conditions, often at the tree line, although it also forms extensive closed-canopy stands at somewhat lower elevations.

Pinus aristata, el pino de Colorado,​ es una especie arbórea del género Pinus en la subsección Balfourianae de la Familia Pinaceae, género Pinus, nativo de los Estados Unidos, donde se encuentra en las Montañas Rocosas en Colorado y la parte norte de Nuevo México, con una población aislada en el San Francisco Peaks de Arizona. Se encuentra a unas altitudes muy elevadas, de 2500 a 3700 m, en condiciones de clima subalpino frío y seco, a menudo en la línea arbolada, si bien forma también extensas agrupaciones con copas cerradas a alturas más bajas.

Ohteline mänd (Pinus aristata) on männiliste sugukonda männi perekonda kuuluv okaspuu. Ohteline mänd kuulub koos igimänni (Pinus longaeva) ja Balfouri männiga (Pinus aristata) ühte alamsektsiooni Balfourianae.

Vihnemänty (Pinus aristata) on Yhdysvalloissa kasvava hyvin pitkäikäinen havupuu. IUCN luokittelee vihnemännyn elinvoimaiseksi lajiksi.

Vihnemäntyä tavataan Yhdysvalloissa Kalliovuorilla Coloradon, Arizonan ja New Mexicon osavaltioissa. Sen elinympäristö sijaitsee 2500–3700 metrin korkeudella kuivissa ja kylmissä subalpiinisissa oloissa.

Vihnemänty kasvaa keskikokoiseksi, 5–15 metriä korkeaksi puuksi erittäin hitaasti. Rungon halkaisija on enintään puolitoista metriä. Kaarna on harmaanruskeaa ja suomuista rungon alaosassa. Neulaset ovat 2,5–4 senttimetriä pitkiä ja samassa kannassa niitä on viisi. Väriltään ne ovat syvänvihreästä sinivihreisiin ja niissä saattaa olla valkoisia laikkuja. Kävyt ovat munamais-lieriömäisiä, 5–10 senttimetriä pitkiä ja 3–4 senttimetriä leveitä suljettuna. Kävyt avautuvat 4–6 senttimetriä leveiksi ja alkavat heti levittää siemeniä, jotka ovat viisi millimetriä pitkiä, ja niissä on mukana 10–20 millimetriä leveä siipi.

Vihnemänty on maailman pitkäikäisimpiä puulajeja; vanhin yksilö korkealla Mount Evasilla Coloradossa on 2 345 vuotta vanha. Laji elää kuitenkin harvoin yli 1500-vuotiaaksi.

Vihnemännyn neulasia

Pinus aristata

Le Pin aristé ( Pinus aristata ) est un arbre appartenant au genre Pinus et à la famille des Pinacées. Il est présent dans les hautes altitudes des Montagnes Rocheuses aux États-Unis.

Lors d'un recensement récent dans les forêts (2007), un spécimen a vu son âge évalué à environ 4700 ans. Ceci en ferait le plus vieil être vivant du monde connu à ce jour[réf. souhaitée].

Pinus aristata Engelm. 1862, è un albero della famiglia delle Pinaceae, nativo degli Stati Uniti (Arizona, Nuovo Messico e Colorado).

Akuotuotoji pušis (lot. Pinus aristata, angl. Rocky Mountain bristlecone pine, vok. Borsten-Kiefer) – pušinių (Pinaceae) šeimos spygliuočių medžių rūšis, paplitusi vakarų JAV (Uoliniuose kalnuose – Kolorade, Naujojoje Meksikoje, Arizonoje).

Tai vidutinio aukščio medis, užaugantis iki 5-15 m aukščio, kamieno skersmuo siekia iki 1,5 m. Žievė pilkšvai ruda, stora, atplaišėjusi. Spygliai 2,5-4 cm ilgio, susitelkę po 5. Kankorėžiai kiaušiniškai cilindriški 5-10 cm ilgio ir 3-4 cm pločio (užsivėrę). Sėklos 5 mm ilgio, su 10-20 mm ilgio skristuku; išplatinamos vėjo, amerikinių riešutinių.

Auga kalnuose, 2500-3700 m aukštyje, šaltose ir sausose klimatinėse sąlygose. Dažnai suformuoja medžių ribą. Akuotuotoji pušis yra labai ilgaamžis medis. Atskiri individai išgyvena beveik iki 2500 metų. Visgi už akuotąją pušį ilgaamžiškesnė yra artima gajoji pušis (Pinus longaeva).

Spygliai ir kankorėžis

Vikiteka

De stoppelden (Pinus aristata), (Eng: Rocky Mountain bristlecone pine), is een boomsoort die voorkomt in de Verenigde Staten, in het bijzonder in het Rotsgebergte van Colorado en noordelijk New Mexico. Er is tevens een geïsoleerde populatie in het gebied van de San Francisco Peaks in Arizona. De boom wordt gewoonlijk op grote hoogte op ca. 2500 tot 3700 m, in koude, droge subalpine klimaatomstandigheden aangetroffen. Dit is vaak aan of boven de boomgrens voor andere soorten, maar de boom kan ook wat lager uitgebreide bossen vormen met een gesloten bladerdak.

Urfuru (Pinus aristata) er en art i furufamilien. Denne furua vokser vilt i fjellområdene i Rocky Mountains i Nord-Amerika.

Sosna oścista, sosna kolczasta (Pinus aristata Engelm.) – gatunek drzewa iglastego z rodzaju sosna (Pinus) należącego do rodziny sosnowatych (Pinaceae).

Sosna oścista jest blisko spokrewniona z sosną długowieczną (P. longaeva) oraz z P. balfouriana. Niektórzy botanicy uznają je za różne podgatunki tego samego gatunku, inni wyodrębniają dla nich osobne gatunki, podobieństwo tłumacząc wywodzeniem się od wspólnego przodka. Taksony te odróżniają się głównie obszarem występowania. Sosna oścista występuje na zachodnich obszarach Ameryki Północnej, w Górach Skalistych na terenie stanu Arizona, Kolorado i Nowy Meksyk, P. longaeva w stanach Utah, Nevada i wschodniej Kalifornii, P. balfouriana w Kalifornii. Sosny tych gatunków uważane są za najbardziej długowieczne drzewa na świecie. Szacuje się, że niektóre okazy sosny ościstej dożywają 3000 lat, przeważnie jednak nie przekraczają 1,5 tys. Natomiast egzemplarze P. longaeva znalezione w Górach Białych Ameryki Północnej osiągnęły wiek 3000–4600 lat.

Pinus aristata é uma espécie de pinheiro originária do Novo Mundo. Faz parte do grupo de espécies de pinheiros com área de distribuição no Canadá e Estados Unidos (com excepção das áreas adjacentes à fronteira com o México). É uma árvore milenar, a Pinus aristata, um pinheiro nativo dos Estados Unidos. Os cientistas já conseguiram determinar que essa ancestral do mundo vegetal pode viver por mais de 4 mil anos. O exemplar mais antigo, apelidado de "árvore Matusalém" - uma referência ao personagem bíblico que teria vivido 969 anos -, possui cerca de 4 768 anos e ainda sobrevive na Califórnia, em uma floresta a 4 mil metros de altitude, com pouca chuva e clima frio. Por incrível que pareça, esse ambiente hostil é um importante ingrediente na receita de longevidade da Pinus aristata, porque os ventos gelados desencorajam a presença de insetos e previnem infestações de fungos e pragas. Outro segredo é que esse pinheiro usa praticamente toda a energia adquirida na fotossíntese para a sobrevivência, e não para o crescimento. Com essa estratégia, a árvore aumenta apenas 0,02 centímetro por ano, e mesmo os troncos mais velhos não ultrapassam 18 metros de altura.

A galeria dos seres vivos com maior longevidade inclui ainda o impressionante exemplo de uma colônia de bactérias do gênero Bacillus, encontradas vivas em um depósito de sal subterrâneo nos Estados Unidos. Os cientistas estimam que elas surgiram há 250 milhões de anos. Tais bactérias só não levam o troféu de criaturas vivas mais antigas porque ficaram esse tempo todo em estado de latência, uma espécie de dormência em que elas não se alimentam nem se reproduzem.

Borovica ostitá (staršie: borovica ostnatá, borovica ostnitá; lat. Pinus aristata) je strom z čeľade borovicovité (Pinaceae).

Pochádza zo Severnej Ameriky kde rastie v Skalnatých vrchoch v štáte Colorado a na severe štátu Nové Mexiko. Izolovaná populácia rastie na v štáte Arizona.

Je to dlhoveký druh. Vek najstaršieho jedinca bol odhadnutý na 2435 rokov, aj keď väčšina stromov sa dožíva okolo 1500 rokov. Rekord však drží príbuzný druh Pinus longaeva, ktorého najstarší jedinec nazývaný Methuselah má viac ako 4800 rokov.

Pinus aristata eller Rävsvanstall är en långlivad, nordamerikansk tallväxtart som beskrevs av Georg George Engelmann. Pinus aristata ingår i släktet tallar, och familjen tallväxter. Den växer på höga höjd, mellan 2 100 och 4 000 meter.

Tallen finns på sammanlagt ganska små områden i norra Arizona, Colorado och norra New Mexiko i USA. IUCN kategoriserade 1998 arten globalt som nära hotad, men klassade 2013 om den som livskraftig, baserat på en ny bedömning. Inga underarter finns listade i Catalogue of Life.

Higori çamı (Pinus aristata), çamgiller (Pinaceae) familyasından uzun ömürlü bir çam türü. Bu tür genelde 1500 yıl yaşar ama Kolorado'da 2435 yaşında olan bir Higori çamı bulunmuştur.

15 m boy, 1 m kadar çap yapabilir. Yaş ilerledikçe konik bir yapı kazanır. Tacı yuvarlak, düz veya düzensizdir. Kabuk gri kızıl kahverenginde fazla derin olmayıp boyuna çataklıdır. Bükülebilen dallar soluk kızıl kahverenginde olup ilerleyen yaşlarda griye döner. Genç sürgünler uzun at kuyruğuna benzer.

Sivri uçlu yumurta şeklindeki reçineli tomurcuklar 1 cm uzunluğunda kızıl kahverengidir. Beşli iğne yapraklar ağaç üzerinde 10-17 yıl kadar kalır. (2-)3–4 cm x 0.8–1 mm uzunluk ve genişlikteki koyu mavimsi yeşil olan iğne yapraklar çoğu kez birbirine yakın vaziyette dizilmiştir.

Pinus aristata là một loài thực vật hạt trần trong họ Thông. Loài này được Engelm. miêu tả khoa học đầu tiên năm 1862.

Международное научное название

Pinus aristata Engelm., 1862

Ареал

Охранный статус
Систематика
на Викивидах
Изображения
на Викискладе ITIS 183313NCBI 71623EOL 991161GRIN t:100545IPNI 262778-1TPL kew-2563557

Сосна́ ости́стая (лат. Pinus aristata) — вид хвойных деревьев рода Сосна. Произрастает в Колорадо и в северной части Нью-Мексико, часто в горах, на высоте до 3700 м над уровнем моря.

Описание

Дерево средних размеров, высотой 5—15 м, с диаметром ствола до 1,5 м.

Кора серо-коричневая, тонкая, в основании ствола чешуйчатая.

Хвоя от тёмно-зелёного до голубовато-зёленого цвета, хвоинки 2,5—4 см длиной, собраны в пучки по пять штук.

Шишки яйцевидно-цилиндрические. Закрытые 5—10 см длиной и 3—4 см в диаметре, сиреневые. Зрелыми шишки становятся через 16 месяцев, они желтовато-песочного цвета.

Семена 5 мм длиной, с 10—20-миллиметровым крылышком.

Это растение редко доживает до 1500 лет, однако возраст некоторых растений может приближаться 2500 годам. Сосна остистая межгорная (другой вид той же подсекции) может жить до 5000 лет.

Систематика

Относится к подсекции Balfourianae единственной секции Parrya подрода Ducampopinus рода Сосна (Pinus). Другими видами этой подсекции являются также произрастающие в Скалистых горах Сосна остистая межгорная (Pinus longaeva) и Сосна Бальфура (Pinus balfouriana). Ранее Сосна остистая рассматривалась как подвид или даже разновидность последней Pinus balfouriana subsp. aristata.

Ссылки

• Сосна остистая (англ.)

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Сосна́ ости́стая (лат. Pinus aristata) — вид хвойных деревьев рода Сосна. Произрастает в Колорадо и в северной части Нью-Мексико, часто в горах, на высоте до 3700 м над уровнем моря.