Pinus albicaulis

Last updated

Whitebark pine
Whitebark pine group.jpg
A stand of whitebark pines at Crater Lake National Park in Oregon
Status TNC G3.svg
Vulnerable  (NatureServe) [2]
Scientific classification OOjs UI icon edit-ltr.svg
Kingdom: Plantae
Clade: Tracheophytes
Clade: Gymnospermae
Division: Pinophyta
Class: Pinopsida
Order: Pinales
Family: Pinaceae
Genus: Pinus
Subgenus: P. subg. Strobus
Section: P. sect. Quinquefoliae
Subsection: P. subsect. Strobus
Species:
P. albicaulis
Binomial name
Pinus albicaulis
Pinus albicaulis range map 2.png
Natural range of Pinus albicaulis
Synonyms [3]
  • Apinus albicaulis(Engelm.) Rydb.
  • Pinus cembroidesNewb. 1857 not Zucc. 1832
  • Pinus flexilis var. albicaulis(Engelm.) Engelm.
  • Pinus flexilis subsp. albicaulis(Engelm.) Engelm.
  • Pinus shastaCarrière
Pinus albicaulis is the only type of tree on the summit of Pywiack Dome in Yosemite National Park Tuolumne Meadows - Pywiack Dome summit - old pine - 2a.jpg
Pinus albicaulis is the only type of tree on the summit of Pywiack Dome in Yosemite National Park

Pinus albicaulis, known by the common names whitebark pine, white bark pine, white pine, pitch pine, scrub pine, and creeping pine, [4] is a conifer tree native to the mountains of the western United States and Canada, specifically subalpine areas of the Sierra Nevada, Cascade Range, Pacific Coast Ranges, Rocky Mountains, and Ruby Mountains. It shares the common name "creeping pine" with several other plants.

Contents

The whitebark pine is typically the highest-elevation pine tree found in these mountain ranges and often marks the tree line. Thus, it is often found as krummholz , trees growing close to the ground that have been dwarfed by exposure. In more favorable conditions, the trees may grow to 29 meters (95 ft) in height.

Identification

Pinus albicaulis leaves are in fascicles (bundles) of five, and the cone is dark purple when immature (Mount Rainier National Park) Pinus albicaulis 8581.JPG
Pinus albicaulis leaves are in fascicles (bundles) of five, and the cone is dark purple when immature (Mount Rainier National Park)

Whitebark pine is a member of the white pine group, the Pinus subgenus Strobus , and the section Strobus ; like all members of this group, the leaves (needles) are in fascicles (bundles) of five [5] with a deciduous sheath. This distinguishes whitebark pine and its relatives from the lodgepole pine (Pinus contorta), with two needles per fascicle, as well as the ponderosa pine (Pinus ponderosa) and Jeffrey pine (Pinus jeffreyi), which both have three needles per fascicle; all three of these species also have a persistent sheath at the base of each fascicle. Whitebark pine owes its name to the light gray bark of its young specimens. [5]

Distinguishing whitebark pine (Pinus albicaulis), from the related limber pine (Pinus flexilis), also a member of the white pine group, is much more difficult, and usually requires seed or pollen cones. In Pinus albicaulis, the seed-bearing female cones are 4–7 centimeters (1+12–3 in) long, dark purple when immature, [5] and do not open on drying, but the scales easily break when they are removed by the Clark's nutcracker to harvest the seeds; rarely are there intact old cones in the litter beneath the trees. Its pollen cones are scarlet. [6]

In Pinus flexilis, the cones are 6–12 cm (2+124+12 in) long, green when immature, and open to release the seeds; the scales are not fragile. Their pollen cones are yellow, and there are usually intact old cones found beneath them.

Whitebark pine can also be hard to distinguish from the western white pine (Pinus monticola) in the absence of cones. However, whitebark pine needles are yellow-green [5] and entire (smooth when rubbed gently in either direction), whereas western white pine needles are silvery green [5] and finely serrated (feeling rough when rubbed gently from tip to base). Whitebark pine needles are also usually shorter, 3–7 cm (1–3 in) long, [5] though still overlapping in size with the larger 5–10 cm (2–4 in) needles of the western white pine.

Distribution

Whitebark pine (Pinus albicaulis) can be found at high elevation in the Rocky Mountains from central British Columbia to western Wyoming. [5] It occurs in the timberline zone of the Cascades and coastal ranges from British Columbia to the Sierra Nevada, as well as most high ranges between the Rockies and Cascades, such as the Blue Mountains. [5] It is also populous in subalpine forests of Montana and Idaho. [5]

Ecology

The whitebark pine, Pinus albicaulis, at Mount Rainier National Park WhitebarkPine 7467t.jpg
The whitebark pine, Pinus albicaulis, at Mount Rainier National Park

The whitebark pine is an important source of food for many granivorous birds and small mammals, including most importantly the Clark's nutcracker (Nucifraga columbiana), the major seed disperser of the pine. [5] Clark's nutcrackers each cache about 30,000 to 100,000 seeds each year in small, widely scattered caches, usually under 2 to 3 cm (34 to 1+14 in) of soil or gravelly substrate. Nutcrackers retrieve these seed caches during times of food scarcity and to feed their young. Cache sites selected by nutcrackers are often favorable for germination of seeds and survival of seedlings. Those caches not retrieved by the time the snow melts contribute to forest regeneration. Consequently, whitebark pine often grows in clumps of several trees, originating from a single cache of two to 15 or more seeds.

Other animals also depend upon the whitebark pine. Douglas squirrels cut down and store whitebark pine cones in their middens. Grizzly bears and American black bears often raid squirrel middens for whitebark pine seeds, [5] an important pre-hibernation food. Squirrels, northern flickers, and mountain bluebirds often nest in whitebark pines, and elk and blue grouse [5] use whitebark pine communities as summer habitat.

Fallen needles under these trees serve as beds that are used by deer and wild sheep seeking shelter during stormy weather. [7]

Threats

The whitebark pine has been classified as endangered by the IUCN. [1] Severe population decline in whitebark pine communities is attributed to various causes, most significantly infection with white pine blister rust, recent outbreaks of mountain pine beetles (2000–2014), disturbances in wildland fire ecology (including fire suppression), forest succession, and climate change. A study in the mid-2000s showed that whitebark pine had declined by 41 percent in the western Cascades due to two primary threats: blister rust and pine beetles. [8] Whitebark deaths in North Cascades National Park doubled from 2006 to 2011. [8]

White pine blister rust

Many stands of Pinus albicaulis across the species' entire natural range are infected with white pine blister rust (Cronartium ribicola), a fungal disease introduced from Europe. In the northern Rocky Mountains of the United States, whitebark pine mortality in some areas exceeds 90 percent, where the disease infests nearly 143,000 acres (580 km2). Cronartium ribicola occurs in whitebark pine to the northern limits of the species in the coastal ranges of British Columbia and the Canadian Rocky Mountains. The blister rust has also devastated the commercially valuable western white pine in these areas and made serious inroads in limber pine (Pinus flexilis) populations as well. Nearly 80 percent of whitebark pines in Mount Rainier National Park are infected with blister rust. [8]

There is currently no effective method for controlling the spread and effects of blister rust. However, a small number of trees (fewer than 5%) in most populations harbor genetic resistance to blister rust. [5] Restoration efforts undertaken by the U.S. Forest Service, Bureau of Land Management, and National Park Service in the northern Rocky Mountains involve harvesting cones from potentially and known resistant whitebark pines, growing seedlings, and outplanting seedlings in suitable sites. In California, where the blister rust is far less severe, whitebark pine is still fairly common in the High Sierras. [9]

Mountain pine beetle

Unusually large outbreaks of mountain pine beetle (Dendroctonus ponderosae), a species of bark beetle native to western North America, have also contributed significantly to the widespread destruction of whitebark pine stands. [10] The beetles both lay their eggs and introduce pathogenic fungi into their host trees, which include many other species of pine, and the combination of larval feeding and fungal colonization is typically sufficient to kill old or unhealthy trees. However, the beetles have recently expanded their attacks to younger, healthier trees as well as older trees, and climate change has been implicated as the primary culprit. Since 2000, the climate at high elevations has warmed enough for the beetles to reproduce within whitebark pine, often completing their life cycle within one year and enabling their populations to grow exponentially. Entire forest vistas, like that at Avalanche Ridge near Yellowstone National Park’s east gate, have become expanses of dead gray whitebarks. [11] Scientists have attributed the recent warming trend to anthropogenic global warming. [8] [12]

In 2007, the U.S. Fish and Wildlife Service estimated that beetles had killed whitebark pines across 500,000 acres (200,000 ha) in the West, while in 2009, beetles were estimated to have killed trees on 800,000 acres (320,000 ha), the most since record-keeping began. [8] The pine beetle upsurge has killed nearly 750,000 whitebark pines in the Greater Yellowstone Ecosystem alone.[ as of? ]

Fire suppression

Fire suppression has led to slow population declines over the last century by altering the health and composition dynamics of stands without the fire ecology balancing their habitat and suppressing insect-disease threats. [13] In the absence of low-level wildfire cycles, whitebark pines in these stands are replaced by more shade-tolerant, fire-intolerant species such as subalpine fir (Abies lasiocarpa) and Engelmann spruce (Picea engelmannii). In addition, senescent and blister rust-infected pine trees are not destroyed by natural periodic ground fires, further diminishing the whitebark pine forest's vitality and survival. [14]

Protective efforts

In 2012 the Canadian federal government declared whitebark pine endangered in accordance with the Species at Risk Act. Accordingly, it became the first federally listed endangered tree in western Canada. [15] In 2022 the U.S. Fish & Wildlife Service also acted. It listed whitebark pine in the lowest category of vulnerability: "threatened." Four distinct threats were described, beginning with white pine blister rust as "the primary stressor." Mountain pine beetle, altered fire regimes, and "the effects of climate change" add to the challenges. [16] This listing marks the first occasion in which a tree regarded as ecologically important over a vast range in the United States is acknowledged as vulnerable to extinction. [17]

In response to the ongoing decline of the tree throughout its range, the Whitebark Pine Ecosystem Foundation was formed. Their mission is to raise awareness and promote conservation by sponsoring restoration projects, publishing a newsletter called "Nutcracker Notes", and hosting an annual science and management workshop for anyone interested in whitebark pine. [18] This U.S. group collaborates closely with the Whitebark Pine Ecosystem Foundation of Canada. [19]

Uses

Whitebark pine seeds Whitebark pine seeds, Thoma Ridge Hungry Horse Glacier View Ranger District (51795752924).jpg
Whitebark pine seeds

Many Native Americans, including the Salish peoples, have been known to eat the seeds from the cones of this tree. [20] [5] They were roasted, made into porridge, and mixed with dry berries. [5]

Related Research Articles

<span class="mw-page-title-main">Pine</span> Genus of plants in the conifer family Pinaceae

A pine is any conifer tree or shrub in the genus Pinus of the family Pinaceae. Pinus is the sole genus in the subfamily Pinoideae.

<span class="mw-page-title-main">Bristlecone pine</span> Three species of pine trees native to the Western United States

The term bristlecone pine covers three species of pine tree. All three species are long-lived and highly resilient to harsh weather and bad soils. One of the three species, Pinus longaeva, is among the longest-lived life forms on Earth. The oldest of this species is more than 4,800 years old, making it the oldest known individual of any species. Many scientists are curious as to why this tree is able to live so long. In one study, they discovered that Pinus longaeva has higher levels of telomerase activity, which further slows or prevents the attrition rate of telomeres. This potentially contributes to the extended life of the bristlecone pine.

<span class="mw-page-title-main">Nutcracker (bird)</span> Genus of birds

The nutcrackers (Nucifraga) are a genus of three species of passerine bird, in the family Corvidae, related to the jays and crows.

<span class="mw-page-title-main">Clark's nutcracker</span> Species of bird

Clark's nutcracker, sometimes referred to as Clark's crow or woodpecker crow, is a passerine bird in the family Corvidae, native to the mountains of western North America. The nutcracker is an omnivore, but subsists mainly on pine nuts, burying seeds in the ground in the summer and then retrieving them in the winter by memory. The bird was described by the Lewis and Clark Expedition, with William Clark first observing it in 1805 along the banks of the Salmon River, a tributary of the Columbia River.

<span class="mw-page-title-main">Western white pine</span> Pine tree found in North America

Western white pine, also called silver pine and California mountain pine, is a species of pine in the family Pinaceae. It occurs in mountain ranges of northwestern North America and is the state tree of Idaho.

<i>Pinus lambertiana</i> Pine tree found in North America

Pinus lambertiana is the tallest and most massive pine tree, and has the longest cones of any conifer. The species name lambertiana was given by the Scottish botanist David Douglas, who named the tree in honour of the English botanist, Aylmer Bourke Lambert. It is native to coastal and inland mountain areas along the Pacific coast of North America, as far north as Oregon and as far south as Baja California in Mexico.

<i>Pinus peuce</i> Species of plant

Pinus peuce is a species of pine native to the mountains of North Macedonia, Bulgaria, Albania, Montenegro, Kosovo, the extreme southwest of Serbia, and the extreme north of Greece, growing typically at (600-) 1,000-2,200 (-2,300) m altitude. It often reaches the alpine tree line in this area. The mature size is up to 35–40 m height, and 1.5 m trunk diameter. However, the height of the tree diminishes strongly near the upper tree line and may even obtain shrub sizes.

<i>Pinus flexilis</i> Pine tree found in North America

Pinus flexilis, the limber pine, is a species of pine tree-the family Pinaceae that occurs in the mountains of the Western United States, Mexico, and Canada. It is also called Rocky Mountain white pine.

<i>Pinus ponderosa</i> Species of large pine tree in North America

Pinus ponderosa, commonly known as the ponderosa pine, bull pine, blackjack pine, western yellow-pine, or filipinus pine, is a very large pine tree species of variable habitat native to mountainous regions of western North America. It is the most widely distributed pine species in North America.

<i>Pinus longaeva</i> Long-living species of bristlecone pine tree found in the western United States

Pinus longaeva is a long-living species of bristlecone pine tree found in the higher mountains of California, Nevada, and Utah. Methuselah is a bristlecone pine that is 4,856 years old and has been credited as the oldest known living non-clonal organism on Earth. To protect it, the exact location of this tree is kept secret. In 1987, the bristlecone pine was designated one of Nevada's state trees.

<i>Pinus cembra</i> Species of plant

Pinus cembra, also known as Swiss pine, Swiss stone pine, Arolla pine, Austrian stone pine, or just stone pine, is a species of pine tree in the subgenus Strobus.

<i>Pinus sibirica</i> Species of conifer

Pinus sibirica, or Siberian pine, in the family Pinaceae is a species of pine tree that occurs in Siberia from 58°E in the Ural Mountains east to 126°E in the Stanovoy Range in southern Sakha Republic, and from Igarka at 68°N in the lower Yenisei valley, south to 45°N in central Mongolia.

<i>Pinus edulis</i> Species of plant

Pinus edulis, the Colorado pinyon, two-needle piñon, pinyon pine, or simply piñon, is a pine in the pinyon pine group native to the Southwestern United States, used for its edible pine nuts.

<i>Pinus aristata</i> North American species of pine tree

Pinus aristata, the Rocky Mountain bristlecone pine or Colorado bristlecone pine is a long-lived species of bristlecone pine tree native to the United States. It is found in the Rocky Mountains in Colorado and northern New Mexico, with an isolated population in the San Francisco Peaks of Arizona. It is found at very high altitudes, from 2,100 to 4,000 meters in cold, dry subalpine climate conditions, often at the tree line, although it also forms extensive closed-canopy stands at somewhat lower elevations.

<i>Cronartium ribicola</i> Species of rust fungus

Cronartium ribicola is a species of rust fungus in the family Cronartiaceae that causes the disease white pine blister rust. Other names include: Rouille vésiculeuse du pin blanc (French), white pine Blasenrost (German), moho ampolla del pino blanco (Spanish).

<span class="mw-page-title-main">Sierra Nevada subalpine zone</span> Biotic zone in California, United States

The Sierra Nevada subalpine zone refers to a biotic zone below treeline in the Sierra Nevada mountain range of California, United States. This subalpine zone is positioned between the upper montane zone at its lower limit, and tree line at its upper limit.

<span class="mw-page-title-main">Snowbank fungus</span> Species of fungus

A snowbank fungus is any one of a number of diverse species of fungi that occur adjacent to or within melting snow. They are most commonly found in the mountains of western North America where a deep snowpack accumulates during the winter and slowly melts through the spring and summer, often shaded by coniferous forest. They may be saprotrophic, mycorrhizal, or in the case of Caloscypha fulgens, pathogenic.

Diana F. Tomback is an American ecologist and an academic. She is a professor of Integrative Biology at the University of Colorado Denver as well as the policy and outreach coordinator at the Whitebark Pine Ecosystem Foundation, a non-profit organization.

References

  1. 1 2 Mahalovich, M.; Stritch, L. (2013). "Pinus albicaulis". IUCN Red List of Threatened Species . 2013: e.T39049A2885918. doi: 10.2305/IUCN.UK.2013-1.RLTS.T39049A2885918.en . Retrieved November 19, 2021.
  2. NatureServe (2024). "Pinus albicaulis". Arlington, Virginia. Retrieved September 5, 2024.
  3. "Pinus albicaulis". World Checklist of Selected Plant Families . Royal Botanic Gardens, Kew via The Plant List. Note that this website has been superseded by World Flora Online
  4. Earle, Christopher J., ed. (2018). "Pinus albicaulis". The Gymnosperm Database.
  5. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Arno, Stephen F.; Hammerly, Ramona P. (2020) [1977]. Northwest Trees: Identifying & Understanding the Region's Native Trees (field guide ed.). Seattle: Mountaineers Books. pp. 26, 35–43. ISBN   978-1-68051-329-5. OCLC   1141235469.
  6. Roady, Laura (2010). "Whitebark Pine". Montana Outdoors. Montana Fish, Wildlife & Parks. Retrieved March 15, 2015.
  7. Peattie, Donald Culross (1953). A Natural History of Western Trees. New York: Bonanza Books. p. 33.
  8. 1 2 3 4 5 Welch, Craig (November 6, 2011). "Climate change, beetle may doom rugged pine". Seattle Times. Retrieved September 9, 2022.
  9. Brown, Matthew (December 14, 2022). "Whitebark pine that feeds grizzlies is threatened, US says". AP News. Retrieved December 14, 2022.
  10. Kershner, Bruce; et al. (2008). National Wildlife Federation Field Guide to Trees of North America. New York: Sterling. p. 80. ISBN   978-1-4027-3875-3.
  11. Petit, Charles (January 30, 2007). "In the Rockies, Pines Die and Bears Feel It". New York Times. Archived from the original on February 6, 2012. Retrieved July 7, 2012.
  12. Ross Reynolds (June 9, 2015). "Can A Dying Tree Species Be Saved At Crater Lake?". KUOW.
  13. Kendall, K.C; Keane, R.E. (2001). "Whitebark pine decline: Infection, mortality, and population trends". In Tomback, D.F.; Arno, S.F.; Keane, R.E. (eds.). Whitebark pine communities: ecology and restoration. Washington, D.C.: Island Press. pp. 221–242.
  14. Lorenz, T. J.; Aubry, C.; Shoal, R. (2008). A review of the literature on seed fate in whitebark pine and the life history traits of Clark's nutcracker and pine squirrels (PDF). Portland, OR: U.S. Dept. of Agriculture, Forest Service, Pacific Northwest Research Station. OCLC   222226528.
  15. Zimmer, Carl (January 13, 2023). "For Trees Under Threat, Flight May Be Best Response". The New York Times. New York Times.
  16. U.S. Fish and Wildlife Service (December 15, 2022). "Endangered and Threatened Wildlife and Plants; Threatened Species Status With Section 4(d) Rule for Whitebark Pine (Pinus albicaulis)" (PDF). Federal Register. 87 (240): 76882–76917.
  17. Center for Biological Diversity. "Whitebark Pine Protected as Threatened Under Endangered Species Act" . Retrieved January 13, 2023.
  18. Whitebark Pine Ecosystem Foundation
  19. Whitebark Pine Ecosystem Foundation of Canada
  20. Whitney, Stephen (1985). Western Forests (The Audubon Society Nature Guides). New York: Knopf. p.  408. ISBN   0-394-73127-1.

Further reading

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.