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34°25′14″N 116°42′17″W / 34.420445°N 116.704764°W / 34.420445; -116.704764

King Clone, the 11,700-year-old creosote bush ring in the Mojave Desert

King Clone is thought to be the oldest creosote bush ring in the Mojave Desert. The ring is estimated to be 11,700 years old, making it one of the oldest living organisms on Earth. This single clonal colony plant of Larrea tridentata reaches up to 67 feet (20 metres) in diameter, with an average diameter of 45 feet (14 m).[1][2][3]

Geography

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The King Clone ring is on restricted-access land in the central Mojave Desert, near the towns of Lucerne Valley and Landers. It is in the Creosote Rings Preserve of the Lucerne Valley and Johnson Valley.[3]

Dating methodology

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King Clone was identified and the age estimated by Frank Vasek, a professor at the University of California, Riverside. After Vasek hypothesized that the creosote ring was, in fact, one organism, Leonel da Silveira Lobo O'Reilly Sternberg (then a graduate student working in Vasek's lab), documented that plants within a ring had more similar characteristics than those from other plant clusters. Vasek then used two methods to estimate the age of the ring. One method counted rings and measured the distance of annual growth, and the other used radiocarbon dating on pieces of wood found in the center of the ring, and measuring their distances from each other and the living bushes. The two dating methods yielded similar results (age about 11,700 years).[3]

Public appearances

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The plant was featured in an episode of Ripleys Believe It Or Not in 1983. This plant was in the 'Desert Worlds' episode of the David Attenborough TV series The Green Planet where he revisited the plant in 2022, after previously filming it in 1982 for 'The Baking Deserts' episode of The Living Planet. The plant had grown by less than one inch (25 mm) during this time.[4]

See also

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References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

King Clone

View on Grokipedia
from Grokipedia
King Clone is a vast of bushes () forming a nearly circular ring in the , recognized as one of the oldest known living organisms on at an estimated age of approximately 11,700 years. This ancient plant reproduces asexually through root suckers, creating genetically identical stems that expand outward from a central point while the older interior dies off, resulting in a barren core surrounded by a ring of bushes up to 20 meters in . Located in , near Lucerne Valley and accessible via Highway 247, King Clone spans an elliptical area measuring roughly 22 by 8 meters, with an average radius of 7.8 meters based on its clonal growth pattern. The colony thrives in the arid creosote bush scrub habitat typical of the , where it supports a diverse including reptiles, , birds, and adapted to the harsh environment. The age of King Clone was determined through a combination of of buried wood fragments from the ring's interior and from measured growth rates of 0.66 to 0.82 millimeters per year, confirming its origins shortly after the last . This longevity highlights the resilience of clonal plants in extreme conditions and provides valuable insights into post-glacial vegetation dynamics and climate history in the American Southwest. Designated as the King Clone Ecological Reserve in 1993, the 488-acre was acquired by the Department of Fish and Wildlife in 1985 to preserve this and its surrounding from development and disturbance. Visitors can access the site via a short dirt road, but off-trail activities are prohibited to safeguard the fragile .

Biological Characteristics

Clonal Colony Structure

A in plants refers to a group of genetically identical individuals derived from a single progenitor through , rather than via seeds. In the case of bush (), this occurs primarily through vegetative propagation, where new shoots emerge from lateral roots or root suckers, creating an interconnected network of stems that share the same and genetic makeup, known as a genet. This process allows the colony to expand radially over time, forming dense clusters or rings that function as a single despite superficially appearing as separate . King Clone exemplifies this structure as a large of L. tridentata, manifesting as an elliptical ring measuring approximately 22 by 8 meters (72 by 26 feet), with an average radius of 7.8 meters. The comprises numerous individual bushes, or ramets, that are connected underground via an extensive , all originating from a single seed and representing one unified genetic entity. This ring-like formation arises from the gradual outward growth and die-off of the central stems, with peripheral ramets sustaining the 's persistence. The longevity of such clonal colonies, exemplified by King Clone's estimated age of 11,700 years, is supported by key biological adaptations. Creosote bushes produce potent chemical defenses, including nordihydroguaiaretic acid (NDGA), a that constitutes up to 10% of leaf dry weight and acts as an agent while deterring herbivores and pathogens through and repellency. Additionally, the plant exhibits efficient water conservation in arid conditions via small, resin-coated leaves that reduce , deep root systems that access subsurface moisture, and the ability to store limited water in stems and roots, enabling survival during prolonged droughts. In clonal terminology, the genet denotes the entire genetic individual—the persistent, multi-ramet structure like King Clone—while each visible bush or stem crown is a ramet, a modular unit that can live 80–100 years independently but contributes to the genet's indefinite lifespan through replacement and expansion. King Clone serves as a premier example of a long-lived genet, illustrating how vegetative sustains clonal integrity across millennia in harsh environments.

Ring Formation Process

The ring formation process in creosote bush (Larrea tridentata) clonal colonies like King Clone begins with the establishment of a single genetic individual from a seed, which initially grows as a central shrub. Over decades, the plant produces ramets—vegetative shoots—from its root crown and lateral roots, forming a multi-stemmed colony that expands peripherally. After approximately 80 to 100 years, the original central stem typically dies due to localized , such as nutrient exhaustion and water competition within the root zone, while the surrounding ramets persist and continue outward growth. This creates a characteristic bare, sandy center within the ring, as the colony avoids inward regeneration. The process connects to the broader clonal structure by relying on these genetically identical ramets to maintain integrity. Expansion dynamics proceed slowly, with the increasing at an rate of 0.66 mm per year, based on annual growth ring measurements in young clones and radiocarbon-dated increments in ancient ones. Allelopathic compounds exuded by the roots, including nordihydroguaiaretic acid, further shape the ring by inhibiting regrowth in the depleted central area and suppressing potential inward spread, while facilitating outward colonization of less contested soil. For King Clone, this mechanism has resulted in an elliptical ring with a major diameter of 22 meters over roughly 11,700 years. Other creosote clones demonstrate similar but smaller ring formations, with diameters typically ranging from 10 to 15 meters, reflecting shorter expansion periods of several thousand years under comparable arid conditions.

Geographical and Environmental Context

Location Details

King Clone is situated at coordinates 34°26′08″N 116°39′06″W in the central , near Lucerne Valley in , . This location places it approximately 25 miles (40 km) north of and about 50 miles northeast of San Bernardino, within a remote expanse of desert landscape. The site features flat, open terrain at an of roughly 3,000 feet (914 meters), characteristic of the surrounding bajada and alluvial plains typical of the Mojave region. It forms part of the 488-acre King Clone Ecological Reserve, which encompasses bush-dominated scrub and protects the from disturbance. The reserve is owned and managed by the Department of Fish and , following its acquisition in 1985 under Assembly Bill 1024 and official designation as an ecological reserve in 1993; public access is restricted to preserve the site's integrity.

Habitat Conditions

King Clone thrives in the arid climate of the , characterized by extremely low annual averaging 3 to 6 inches (75 to 150 mm), primarily occurring during winter months from to . Temperatures exhibit wide diurnal and seasonal fluctuations, with summer highs frequently exceeding 110°F (43°C) and winter lows dropping below freezing, often reaching 25°F (-4°C) at night. These conditions demand adaptations to and thermal extremes, enabling the clonal colony's persistence over millennia. The site's soil consists of well-drained, sandy to gravelly derived from granitic or mixed materials, which are typically alkaline with a of 7.5 to 8.5 and low in . High salinity levels in these soils, common across the Mojave basin floors, are tolerated by creosote bushes through extensive systems, including taproots that extend to about 3 feet (0.9 ) to access subsurface moisture. This soil profile supports sparse vegetation cover while minimizing erosion in the low-rainfall environment. The habitat forms part of the Sonora-Mojave creosote bush scrub community, where creosote bush () dominates with 10-50% canopy cover, accompanied by sparse associates such as white bursage (), burro bush (Ambrosia eriocentra), and occasional Joshua trees () on slightly higher or stabilized dunes. This vegetation structure reflects a stable, low-productivity adapted to infrequent disturbances and nutrient-poor conditions. Potential threats to the habitat include shifts from climate change, such as intensified droughts and altered precipitation patterns that could reduce available soil moisture, alongside human-induced disturbances like off-road vehicle traffic that compacts soils and disrupts root zones.

Discovery and Age Determination

Historical Identification

Early observations of unusual circular formations among creosote bushes () in the were first documented in the 1950s through U.S. Air Force aerial imagery, where anomalies were noted by botanist , though their clonal nature was not initially recognized. These formations appeared as rings of shrubs surrounding bare central areas, but early botanists overlooked their significance as single organisms, mistaking them for clusters of independent . In the early 1970s, Frank Vasek, a botanist at the , initiated detailed studies during environmental assessments for , leading to the identification of King Clone as a massive clonal ring. Vasek's fieldwork revealed that the ring, measuring approximately 22 meters by 8 meters, consisted of genetically identical ramets stemming from a single ancestor, challenging prior assumptions about reproduction and longevity. A key milestone came in 1976 when Vasek's research formally proposed King Clone's extreme age, estimated at around 11,700 years based on growth rate extrapolations, marking it as one of the oldest known living organisms. This finding was published in , solidifying the clonal ring model through observations of radial growth and stem segmentation. Subsequent validations in the 1980s involved extensive fieldwork to confirm the clonal structure, including acquisition of the site by the California Department of Fish and Wildlife in 1985 and its designation as the King Clone Ecological Reserve in 1993. These efforts addressed identification challenges, such as distinguishing interconnected roots from separate plants without destructive excavation, which were resolved through non-invasive genetic sampling demonstrating uniform DNA across the ring. Since 2000, no major scientific updates have altered this recognition, with only routine monitoring by state agencies to ensure preservation as of 2025.

Dating Methods and Evidence

The age of King Clone, a of the creosote bush (), has been primarily determined through of wood fragments collected from the interior dead zones of similar clones, with results calibrated using measured radial growth rates to extrapolate the overall expansion timeline. These wood samples, representing stabilized organic from past growth, were dated using techniques on 21 specimens exceeding 330 years (), yielding corrected ages ranging from 515 ± 80 to 695 ± 100 years after adjustments. The average radial growth rate derived from these dates was 0.66 ± 0.31 mm per year, which, when applied to King Clone's average radius of 7.8 meters, supports an extrapolated age of approximately 11,700 years. Complementing , growth ring analysis has provided direct evidence of annual increments in root and stem tissues from younger bushes, allowing for validation and extension of growth rate estimates. In controlled studies, annual rings were counted in root samples from seedlings and young clones, revealing average widths of 0.73 mm per year in seedlings and 0.82 mm per year in young clones, consistent with the radiocarbon-derived rates when extrapolated outward. For King Clone, this analysis, combined with peripheral expansion measurements, yields an age estimate of 11,700 ± 1,200 years, accounting for variability in ring formation due to environmental factors. The consistent genetic profile across ramets underscores the colony's clonality, aligning with the age estimates from growth-based methods. Uncertainties in these dating methods arise primarily from fluctuations in growth rates during periods of or climatic variability, introducing a in extrapolations; for instance, slower growth in arid phases could inflate age estimates by up to 1,200 years.

Scientific and Ecological Importance

Comparisons to Other Organisms

King Clone, a of bushes () estimated at 11,700 years old, shares similarities with other ancient clonal organisms in its ability to persist through rather than . One prominent comparison is Pando, a massive of quaking aspens () in Utah's , which spans 106 acres and is estimated to be between 16,000 and 80,000 years old based on phylogenetic modeling of somatic mutations and pollen records. While both represent genetically identical networks of stems connected by a shared , King Clone's structure forms a distinct ring approximately 70 feet in diameter due to the progressive die-off of interior stems and outward expansion, contrasting with Pando's contiguous grove-like form sustained by extensive mycorrhizal fungal connections that facilitate nutrient sharing among ramets. Creosote's longevity in King Clone is further enabled by chemical defenses, including allelopathic resins that suppress nearby competitors, achieving a form of "chemical " unlike Pando's reliance on symbiotic networks. Another key comparison is , a clonal Norway spruce () in dated to 9,550 years via analysis of its root system, making it younger than King Clone but notable as one of the oldest individual clonal trees. Like King Clone, Old Tjikko regenerates through layering and root sprouting, allowing the organism to outlive its surface stems, which typically last only centuries; however, it lacks the expansive ring morphology, instead manifesting as a single apparent atop an ancient subterranean clone. This highlights a shared strategy of breakdown and peripheral growth in clonal conifers and shrubs, though creosote's arid adaptations enable greater radial expansion in harsh desert conditions compared to the subalpine environment of Old Tjikko. Among the world's oldest known organisms, King Clone ranks third or fourth in longevity for clonal vascular plants, surpassing non-clonal examples like a 5,500-year-old moss bank (*) on , which represents accumulated growth layers rather than a single genetic individual. It exceeds many ancient trees, such as bristlecone pines at around 5,000 years, but trails Pando and the clonal scrub oak (approximately 13,000 years old). This positioning underscores ongoing debates in over defining "oldest ," as clonal colonies like King Clone complicate traditional metrics focused on individual lifespans by effectively bypassing through modular replacement, potentially allowing indefinite persistence absent external disturbances.

Role in Desert Ecosystem

King Clone, as the largest known clonal colony of the creosote bush (), plays a pivotal role in sustaining the Mojave Desert's and environmental stability by providing expansive structures and influencing dynamics. Its ring-like formation, spanning approximately 22 by 8 meters within the 488-acre reserve, creates a mosaic of microenvironments that support a variety of desert species, while its deep contributes to integrity in an otherwise arid landscape. The colony offers critical habitat provision through shade, shelter, and soil stabilization. Although individual creosote bushes provide limited shade due to their leaf orientation, the collective canopy of King Clone generates microhabitats that shelter insects, rodents such as kangaroo rats, and birds, as well as larger animals like kit foxes. Its extensive root network stabilizes sandy soils against wind and water erosion, preventing desertification and creating protected burrows for species including the federally threatened Mojave desert tortoise, which relies on creosote-dominated areas for 71% of its shelter sites in some regions. By trapping organic matter and seeds, the colony facilitates the establishment of understory annual plants, enhancing local biodiversity during wetter periods. King Clone exhibits allelopathic effects that shape the surrounding vegetation community. The creosote bush releases root-exuded chemicals, such as nordihydroguaiaretic acid, which inhibit the growth of nearby plants, including competing species like white bursage () and even its own seedlings. This suppression maintains the open scrub landscape characteristic of the Mojave, reducing competition and promoting a sparse, resilient plant structure that defines the ecosystem's stability. As an indicator species, King Clone reflects the Mojave Desert's long-term climate stability following the last Ice Age and aids in research on . Its estimated age of over 11,000 years demonstrates remarkable resilience to prolonged and environmental fluctuations, with studies showing clones enduring 60-80% stem dieback during extreme events like El Niño without colony collapse. This longevity provides scientists with a living record of post-glacial , informing models of responses to ongoing and intensification in the region. Ecological interactions involving King Clone further underscore its foundational role. The colony is pollinated primarily by native bees, including creosote specialists like Habropoda species, which are active during the plant's irregular flowering in response to summer rains. Seeds are dispersed by wind through a tumbling mechanism and occasionally cached by rodents, enhancing genetic spread across the desert floor. Due to the plant's chemical toxicity, it plays a minimal direct role in the food web—serving as occasional forage for jackrabbits (comprising about 15% of their diet in lean times) and woodrats—but its presence is essential for soil health, improving water infiltration and nutrient cycling to support broader microbial and plant communities.

Cultural Impact and Accessibility

Media and Public Appearances

King Clone first captured public imagination in the early 1980s through its appearance on the television series Ripley's Believe It or Not!, where it was showcased as the oldest living organism on Earth in a 1983 episode. This exposure highlighted the clonal creosote bush ring's remarkable age and resilience, drawing attention to desert flora beyond academic circles. The organism has been featured in documentaries emphasizing clonal plant longevity, including David Attenborough's revisit in the 2022 BBC series The Green Planet, where he compared footage from his 1982 filming in The Living Planet to illustrate the bush's minimal growth over four decades—just a quarter of an inch. Such portrayals underscore King Clone's role in broader narratives of ancient survival strategies among plants. In recent years, King Clone has seen renewed interest in popular media, with a 2025 article describing it as an overlooked "secret" of the , one of Earth's oldest organisms tucked away between Joshua Tree and Barstow. Similarly, Secret Los Angeles spotlighted it that August as the world's oldest living bush, accessible within a two-hour drive from the city, positioning it as a must-see natural wonder. Culturally, King Clone appears in literature on and ancient life forms, such as Gary Paul Nabhan's Gathering the Desert (1985), which details its discovery and significance as a . The creosote bush species features in scientific yet accessible texts like Creosote Bush: Biology and Chemistry of Larrea in New World Deserts (1977), exploring its chemical adaptations and . This media exposure has boosted public awareness and visitation to the Mojave preserve, fostering appreciation for clonal organisms while raising concerns about potential human disturbance to the fragile site, including off-road traffic and trampling that could harm the surrounding .

Visitation Guidelines

King Clone Ecological Reserve is accessible via a dirt road off State Route 247 (also known as Baldwin Lake Road or Old Woman Springs Road), located approximately 13 miles east of Lucerne Valley. From , the drive takes about 2 hours, covering roughly 115 miles via east to CA-247 north, followed by the turn onto Bessemer Mine Road; visitors are advised to use GPS navigation due to unmarked trails and rugged terrain. To minimize impact on the fragile desert ecosystem, particularly the sensitive root systems of clonal bushes, visitors should stay on designated paths and avoid trampling vegetation. The optimal time for visitation is spring (March to May), when bushes produce small yellow blooms following winter rains, enhancing the visual appeal without disturbing the site during extreme summer heat. There are no on-site facilities, restrooms, or sources, so essential supplies like , sun protection, and waste disposal bags must be brought. As a protected ecological reserve managed by the Department of Fish and Wildlife (CDFW), entry requires a valid CDFW Lands Pass for individuals aged 16 and older (unless possessing a current or license). Prohibited activities include use, which can damage the shallow roots and soil crust, as well as collecting any plants, rocks, or samples; violations may result in fines enforced by CDFW rangers. Pets are permitted but must remain on a no longer than 10 feet or inside a at all times. For those seeking guided experiences, occasional educational tours of sites are offered by local organizations such as the Mojave Desert Heritage and Cultural Association, focusing on natural and . These outings promote sustainable visitation and respect for the site's ecological sensitivity, where even minor disturbances can affect long-term clonal growth.

References

  1. https://bsapubs.onlinelibrary.wiley.com/doi/abs/10.1002/j.1537-2197.1980.tb07648.x
  2. https://www.nps.gov/jotr/learn/nature/creosote.htm
  3. https://wildlife.ca.gov/Lands/Places-to-Visit/King-Clone-ER
  4. https://www.fs.usda.gov/database/feis/plants/shrub/lartri/all.html
  5. https://pmc.ncbi.nlm.nih.gov/articles/PMC2927326/
  6. https://extension.arizona.edu/sites/extension.arizona.edu/files/attachment/CreosoteBush.pdf
  7. https://www.indefenseofplants.com/blog/2018/3/26/the-wild-world-of-the-creosote-bush
  8. https://bsapubs.onlinelibrary.wiley.com/doi/pdf/10.1002/j.1537-2197.1980.tb07648.x
  9. https://mojaveproject.org/dispatches-item/king-clone-creosote/
  10. https://www.nytimes.com/1985/02/24/us/after-11700-years-world-s-oldest-known-plant-gains-refuge.html
  11. https://www.atlasobscura.com/places/king-clone-creosote
  12. https://www.sfgate.com/travel/article/desert-road-ice-age-secret-20798538.php
  13. https://www.nps.gov/moja/planyourvisit/weather.htm
  14. https://earthobservatory.nasa.gov/biome/biodesert.php
  15. https://explorer.natureserve.org/Taxon/ELEMENT_GLOBAL.2.722916/Sonora-Mojave_Creosotebush-White_Bursage_Desert_Scrub
  16. https://www.nps.gov/moja/learn/nature/researchneeds.htm
  17. https://www.scienceforconservation.org/assets/downloads/Mojave_Desert_Ecoregional_Assessment_2010.pdf
  18. https://www.biorxiv.org/content/10.1101/2024.10.19.619233v2
  19. https://www.livescience.com/29152-oldest-tree-in-world.html
  20. https://www.ecowatch.com/oldest-living-plants-facts-ecowatch.html
  21. https://www.blm.gov/sites/default/files/docs/2025-02/Mojave-Desert-Plant-Guide-Creosote.pdf
  22. https://nrs.ucop.edu/fsp/cec_research/Habitat-preference-and-species-interactions-of-the-desert-woodrat-%28Neotoma-lepida%29-in-the-Mojave-Desert.pdf
  23. https://kids.kiddle.co/King_Clone
  24. https://www.discoverwildlife.com/tv/the-green-planet-behind-the-scenes-of-episode-4-desert-worlds
  25. https://www.pbs.org/video/12000-year-old-plant-barely-grows-i0jy1w/
  26. https://secretlosangeles.com/oldest-plant-on-earth-la/
  27. http://lucernevalley.net/creosote/index.htm
  28. https://www.mikeparkbooks.com/product/32681/Creosote-bush-Biology-and-Chemistry-of-Larrea-in-New-World-Deserts
  29. http://carules.elaws.us/code/t.14_d.1_subd.2_ch.11_sec.630
  30. https://themojaveroad.org/
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