Fact-checked by Grok 2 weeks ago

Labdanum

Labdanum, also known as ladanum or ladanon, is a dark, viscous, and sticky exuded by the leaves and stems of the rockrose Cistus ladanifer L. (family Cistaceae), a Mediterranean species abundant in the , , and . The is harvested through traditional extraction methods, including the Zamorean process (boiling plant material in water, yielding approximately 0.23% dry weight) and the more efficient Andalusian process (using warm alkaline water followed by acidification, yielding up to 5.79% dry weight), resulting in a raw gum that can be further processed into absolutes via solvent extraction like . Chemically, labdanum is rich in labdane-type diterpenoids (comprising about 75% of the absolute), methylated (around 15%), phenylpropanoids, and fatty acids, contributing to its complex balsamic, amber-like, and slightly leathery aroma profile. Historically, labdanum has been prized since ancient times for its aromatic properties, serving as a key ingredient in perfumes and ; it was rumored to have been a main ingredient in Julius Caesar's cologne and used as a to blend and prolong scents in Mediterranean cultures. Traditionally, it also found medicinal applications, such as in herbal tisanes for treating and mental disorders, and for wound care due to its adhesive qualities. In modern perfumery, labdanum remains a cornerstone material, valued for its warm, resinous depth that enhances oriental, , and fragrances, often as a sustainable substitute for animal-derived . Beyond perfumery, labdanum's cosmeceutical potential has gained attention for its bioactivities, including anti-inflammatory effects (up to 98% inhibition of nitric oxide production at 15 µg/mL), moderate sun protection (SPF around 5, with flavonoids boosting it to 13), anti-elastase activity (22% inhibition at 1 mg/mL for anti-aging), and antimicrobial properties against pathogens like Staphylococcus aureus (MIC of 1.2 mg/mL). It also exhibits anti-diabetic (inhibiting α-amylase and α-glucosidase enzymes), neuroprotective (inhibiting acetylcholinesterase by ~75% at 1 mg/mL), and anti-proliferative effects on cancer cell lines like Caco-2 and HepG2 (IC50 45–80 µg/mL). These attributes position labdanum as a natural, sustainable ingredient in skincare formulations, though its potent scent and potential for skin sensitization necessitate careful formulation per industry standards.

Botanical Origin

Source Plants

Labdanum is a resin primarily sourced from two species in the genus Cistus within the family Cistaceae: Cistus ladanifer (also known as gum cistus), native to the western Mediterranean, and Cistus creticus (also known as hoary rock-rose or Cretan rockrose), found in the eastern Mediterranean including Crete and Greece. Cistus ladanifer is an evergreen shrub with an erect, thin habit, growing up to 1.5 meters tall, featuring highly branched stems and lanceolate, evergreen leaves that are sticky due to coverage by glandular hairs. These leaves, typically 4-8 cm long and opposite, emit a sweet balsamic aroma, particularly noticeable in summer mornings, and the shrub produces large, showy white flowers with a distinctive crimson spot at the base of each petal, blooming profusely in spring. In contrast, Cistus creticus forms a more compact, much-branched evergreen shrub reaching 0.6-1.2 meters in height, with light green, wavy-edged leaves also densely covered in glandular hairs that contribute to its balsamic fragrance on warm days. Its flowers are pink to mauve, attractive to bees, and similarly short-lived, blooming over an extended period in spring. The resin, known as labdanum, is produced as a sticky exudate secreted by glandular trichomes (hairs) on the leaves and stems of both species, serving as a natural defense against herbivores and environmental stresses such as heat and drought in their arid habitats. This mechanism involves the accumulation of oleo-resin in the trichomes, which becomes more pronounced and fragrant under hot, dry conditions. Resin from tends to be darker and more viscous, reflecting its robust production in western populations, whereas yields a lighter variant historically prominent in eastern regions like .

Habitat and Distribution

Labdanum is primarily produced by and , two shrub species native to distinct regions of the . is endemic to the western Mediterranean, occurring across the ( and ), , and , including and . In contrast, is native to the , with its range encompassing , , the , , , and coastal areas of the southern and . These species thrive in the harsh conditions of Mediterranean shrublands, favoring dry, rocky soils that are often or siliceous, with excellent drainage essential for their survival. They require full sun exposure and exhibit strong , enabling persistence in arid environments with minimal water availability. production in these intensifies during the peak summer heat, when glandular trichomes on leaves and stems secrete labdanum as a protective response to high temperatures and water stress. Ecologically, species are well-adapted to fire-prone landscapes, where their serotinous seeds germinate rapidly after wildfires, facilitating post-disturbance colonization and regeneration. The labdanum resin serves as an barrier, deterring pathogens, herbivores, and while contributing to the plants' resilience in nutrient-poor, disturbed soils. This adaptation underscores their role in stabilizing fire-affected ecosystems, promoting recovery through mycorrhizal associations and inhibition of competing vegetation. Efforts to cultivate Cistus species outside their native range aim to support sustainable labdanum sourcing. In regions like and , where Mediterranean climates prevail, C. ladanifer has been successfully propagated via semi-ripe cuttings taken in late summer or seeds sown in , establishing in well-drained, sunny sites with minimal . These introductions leverage the plants' tolerance for poor soils and heat, though challenges include ensuring to mimic natural resilience.

Production Methods

Traditional Collection

The traditional collection of labdanum resin relied on labor-intensive, pre-industrial techniques that harnessed the sticky from shrubs, primarily C. creticus in the Mediterranean region. One of the earliest documented methods, described by the Greek historian in the 5th century BCE, involved gathering the resin from the beards and thighs of goats and sheep that grazed among the shrubs in and . Arabian herders reportedly combed the animals' fur after they brushed against the resin-coated plants, yielding a crude, aromatic material prized for its use in unguents and . A parallel technique, practiced in and , employed manual raking to directly harvest the resin without harming the plants. Collectors used a tool known as a ladanisterion, a rake-like frame fitted with leather thongs, which was gently swept over the branches and leaves of the shrubs during the hot summer months when the resin was most viscous. The sticky substance adhered to the thongs, which were then scraped clean, allowing for repeated use of the same tool across large areas. This method, still observed in parts of , emphasized by avoiding the uprooting of the hardy Cistus plants. Once collected, the raw resin was processed into crude lumps through simple hand-rolling, forming dark, semi-solid masses that retained much of their natural impurities, such as , plant debris, and animal from the method. These unrefined lumps were the primary form traded and used in , providing a balsamic for perfumes and medicines despite their heterogeneous quality. In , labdanum collection was integrated into herding practices, with the resin associated with ritual uses, including in sacred incenses like and possibly linked to pharaonic adornments mimicking beards. Traditional methods across these regions produced relatively low yields due to the manual nature and seasonal dependence, limiting output to small-scale production.

Modern Extraction

Modern extraction of labdanum primarily involves scalable industrial processes applied to biomass, focusing on producing purified , , and absolutes for commercial applications. These techniques have largely replaced labor-intensive traditional collection methods, enabling higher efficiency and consistency through mechanized harvesting and controlled processing in regions like and . One key water-based method is the Zamorean process, a physical involving the harvested twigs and leaves in water to release the , which is then skimmed from the surface, yielding approximately 0.23% by dry weight of the material. A more efficient variant is the Andalusian process, where harvested twigs and leaves are immersed in warm alkaline water (typically containing 25 g/L ) at around 60°C for about one hour to release the from the surface. The is then filtered, acidified to pH 2 to precipitate the gum, and the floating crude labdanum is skimmed off, yielding approximately 7.4% by dry weight of the material. This approach, industrialized in Spain's region, produces a crude gum that serves as a precursor for further refinement. Solvent extraction is widely used to obtain higher-purity products, starting with hydrocarbon solvents like applied directly to fresh or dried twigs and leaves to dissolve the resinous compounds, resulting in a waxy (a of resins, waxes, and odors). The is then washed with to separate the soluble , which is concentrated and chilled to remove waxes, yielding a purer labdanum . This two-step process is commonly practiced in for initial extraction and in for final absolute production, allowing for standardized outputs suitable for industrial use. Steam distillation variants target the volatile essential oil, where plant material is subjected to steam in large-scale units, vaporizing and condensing the oil, which separates from the hydrosol. This method yields 0.1% essential oil from fresh plant weight, often conducted on mechanically harvested biomass in Spain to maintain quality. Overall yields vary by method and region, with resin production reaching up to 134 kg per hectare from a single late-summer harvest in managed Spanish plantations, while essential oil outputs are lower at around 2 kg per hectare based on 0.1% extraction from 2 tons of dry biomass per hectare. Sustainability efforts include organic farming practices on over 2,000 hectares in Andalusia, utilizing wildfire-resilient C. ladanifer growth and biomass boilers powered by plant residues to minimize environmental impact.

Physical and Chemical Properties

Physical Characteristics

Labdanum in its raw form appears as a dark to , sticky, semi-solid exuded from the leaves and stems of shrubs. This resin exhibits a soft, pliable consistency at , becoming more rigid and hardening when cooled. Its texture is notably gummy and adhesive, often requiring careful handling to avoid sticking. Processed forms of labdanum include the , which is a semi-solid to viscous mass typically dark brown to in color and often requiring gentle warming to liquefy for use, and the , which is dark brown and viscous. The sensory profile of labdanum features a warm, balsamic scent with leathery and amber-like undertones, accompanied by smoky and animalic facets. It is soluble in and fixed oils but insoluble in . Labdanum is prone to oxidation upon exposure to air, which can degrade its quality over time. It is typically stored in cool, dark conditions to maintain , with a shelf life ranging from 2 to 3 years when properly sealed.

Chemical Composition

Labdanum resin is characterized by a complex chemical profile dominated by terpenoids, which comprise 50-80% of the absolute extract, primarily in the form of labdane-type diterpenes such as labdanolic acid and cis-abienol, along with phenylpropanoids and fatty acids. Phenolic compounds, particularly methylated flavonoids like apigenin and kaempferol derivatives, account for 10-20% of the composition. These major classes contribute to the resin's structural diversity, with diterpenoids often exceeding 75% in the absolute fraction obtained from solvent extraction processes. The volatile fraction of labdanum , derived primarily from , includes monoterpenes and sesquiterpenes identified through gas chromatography-mass spectrometry (GC-MS) analysis. Key constituents are (ranging from 5% to 42% depending on geographic and seasonal variations), (1-5%), bornyl acetate (up to 5%). These volatiles represent a smaller portion of the overall but highlight the aromatic profile. Non-volatile components form the bulk of labdanum, encompassing , waxes, and trace coumarins that enhance the material's complexity. Compositional variations occur across . Overall, GC-MS and related techniques have identified over 200 compounds in labdanum, underscoring its intricate makeup while emphasizing the dominance of diterpenes.

History

Ancient and Classical Uses

Evidence from archaeological sites in the Mediterranean, such as Late Bronze Age (ca. 1500 BCE), suggests use of labdanum for purposes such as adhesives or , with biomarkers like identified in ancient residues. These findings indicate that , the source of labdanum, were utilized in early human activities in the region, though remains limited. In around 1500 BCE, labdanum was incorporated into , a complex blend used in rituals to invoke and promote purification. This sacred mixture, referenced in texts like the and Plutarch's descriptions, combined labdanum with resins, spices, , and wine for both ceremonial burning and therapeutic ointments in processes. The resin's aromatic properties were valued for their role in Egyptian rituals. Biblical references around 600 BCE may allude to a balm similar to labdanum as the "" in the , portraying it as a substance exported from for medicinal and trade purposes. This resin, associated with soothing wounds and ailments, symbolized comfort and restoration in prophetic texts, highlighting its economic importance in the region. During the classical period from the BCE to the , Greek and Roman writers documented labdanum's collection and applications. described the method of gathering the resin from the beards and legs of goats that grazed on shrubs in Arabia, emphasizing its sticky, aromatic nature. , in his Enquiry into (Books 4.4.14 and 9.6.1), portrayed labdanum as a key base for perfumes, noting its use in unguents and its production in Mediterranean locales like and . , in (Book 25), detailed its medicinal virtues, recommending ladanum in plasters for treating wounds, coughs, and skin conditions, underscoring its eighteen remedial applications in Roman .

Medieval to Modern Developments

During the medieval period, labdanum gained prominence through traders who incorporated it into fragrant oils and medicinal preparations as early as the , building on ancient techniques refined in Islamic . In , particularly from the 15th to 16th centuries, labdanum appeared in compositions and pomanders, valued for its aromatic that contributed to protective scents against illness, including during plague outbreaks where it featured in preservatives to purify air and ward off miasma. By the , labdanum's trade routes through and markets facilitated its integration into attars and early European perfumes, though its prominence waned in the 17th and 18th centuries amid competition from imports that shifted preferences toward sweeter notes like . In the , French perfumers in advanced labdanum processing through solvent extraction around 1870, enabling the production of refined absolutes that enhanced its use as a in fragrances. The saw labdanum challenged by post-World War II synthetic alternatives, such as labdanum replacers that mimicked its amber-like warmth at lower cost, leading to a temporary decline in natural sourcing. However, a niche revival emerged in the late 20th and early 21st centuries within natural perfumery, where artisans valued its complex balsamic profile for artisanal blends. Into the , sustainability efforts have intensified due to climate change impacts on yields in the Mediterranean, with projections indicating up to 86% habitat loss by 2070 under high-emission scenarios, prompting ethical harvesting and cultivation initiatives.

Uses and Applications

In Perfumery and Fragrance

Labdanum serves as a vital base note in perfumery, imparting amber-like, leathery, and resinous accords that enhance longevity and depth in fragrance compositions. Its olfactory profile features warm, balsamic, woody, and slightly animalic nuances, often evoking a sweet, earthy richness that blends seamlessly with oriental and structures. Due to its similarity to the banned marine-derived , labdanum has become a preferred substitute since the , providing a comparable without ethical concerns. In historical formulations, labdanum featured prominently in ancient Egyptian incense blends and later in modern perfumes, such as Guerlain's from 1921, where it contributes to the iconic amber-vanilla base. Typical dosages range from 1-5% in absolute form to balance intensity without overpowering . For processing, the viscous labdanum absolute is commonly diluted in carriers like or at 10-50% concentrations to facilitate blending and ensure even distribution in formulations. Contemporary trends emphasize sustainable sourcing of labdanum from wild-harvested in and , supporting renewable production in niche brands focused on ethical practices. Perfumers often combine it with and to craft modern accords, valued for added sensuality and tenacity. These key compounds, such as labdane diterpenes, underpin its distinctive scent profile.

Medicinal and Other Uses

Labdanum has been employed in for its and properties, particularly in treating wounds, coughs, and . Historically, it was applied topically in plasters to wounds and sores, leveraging its resinous texture to promote and prevent in both humans and animals. Internal uses included remedies for respiratory issues like and digestive complaints such as , often as a agent or expectorant. These applications stem from ancient Mediterranean ethnopharmacology, where labdanum's sticky was valued for its protective and effects on conditions and mucous membranes. The effects of labdanum are attributed to its content, which contributes to its traditional role in soothing irritated and reducing in wounds. Modern has explored these properties further, identifying labdanum absolute's potential in skincare formulations, including sunscreens, due to its broad-spectrum UV protection primarily from , with spectrophotometric sun protection factors around 5 reported in studies from 2022. In , inhalation of labdanum oil is used to alleviate and , providing calming effects that overlap with its perfumery applications but emphasize therapeutic relaxation. Beyond , labdanum serves as a agent in beverages like , where it imparts a resinous, balsamic note at typical concentrations of 0.1-0.5%. It is also burned as in religious ceremonies, notably as a component of ancient kyphi blends for ritual purification and spiritual practices. In , labdanum resin is traditionally applied to animal skin for wound treatment and conditions like sores, drawing on its and qualities. Labdanum is generally considered safe for topical use in , with approval under number 8016-26-0 as a permitted ingredient compliant with REACH regulations. However, it may cause allergic reactions in sensitive individuals due to its resinous nature.

References

  1. [1]
    Labdanum Resin from Cistus ladanifer L. as a Source of ... - NIH
    May 9, 2024 · Labdanum resin or “gum” can be obtained from Cistus ladanifer L. by two different extraction methods: the Zamorean and the Andalusian processes.
  2. [2]
    Labdanum Resin from Cistus ladanifer L.: A Natural and Sustainable ...
    May 31, 2022 · Labdanum resin from Cistus ladanifer L.: A natural and sustainable ingredient for skin care cosmetics with relevant cosmeceutical bioactivities.
  3. [3]
    The Scent of Love: Ancient Perfumes | Getty Iris
    May 1, 2012 · Labdanum is a viscous, sticky tarlike substance in its resin form. You can also purchase the essential oils of any or all of these substances.
  4. [4]
    Cistus ladanifer - Useful Temperate Plants
    ### Botanical Description of Cistus ladanifer
  5. [5]
    Cistus creticus - Useful Temperate Plants
    ### Botanical Description of Cistus creticus
  6. [6]
    Cistus ladanifer - an overview | ScienceDirect Topics
    It is also notable for its highly aromatic resin called labdanum, which contains volatile compounds extensively studied for their fragrant properties.
  7. [7]
    https://pfaf.org/user/Plant.aspx?LatinName=Cistus%20creticus
  8. [8]
    Genus Cistus: a model for exploring labdane-type diterpenes ...
    The resin, ladano, secreted by the glandular trichomes of certain Cistus species contains a number of phytochemicals with antioxidant, antibacterial ...Missing: labdanum | Show results with:labdanum
  9. [9]
    https://www.frontiersin.org/articles/10.3389/fchem.2014.00035/full
  10. [10]
    Assessment and management of the invasive shrub, Cistus ladanifer ...
    (Cistaceae) is a fire-adapted, woody perennial shrub native to the Iberian Peninsula, southern France, Morocco and Algeria (Demoly and Monserrat, 1993). It has ...
  11. [11]
    (PDF) Morphological, chorological and ecological plasticity of Cistus ...
    Sep 30, 2010 · The localities of the relevés show the distribution pattern of the two subspecies. The typical subspecies can be found in the area of ...
  12. [12]
    Ecophysiological indicators of native Cistus ladanifer L. at Riotinto ...
    Aug 7, 2025 · C. ladanifer occurs in a wide range of altitudes, latitudes, climates, and soil types, but it prefers acidic and siliceous soils [16, 17] ...
  13. [13]
    Cistus ladanifer as a Potential Feedstock for Biorefineries: A Review
    The subsp. ladanifer is mainly distributed in the Iberian Peninsula, France, and northern Africa; the subsp. sulcatus is endemic to southwestern Portugal along ...
  14. [14]
    Seasonal Variation of Cistus ladanifer L. Diterpenes - ResearchGate
    Cistus ladanifer (rockrose) is a widespread shrub species in the Mediterranean region well known due to its production of labdanum gum, especially in the hot ...
  15. [15]
    Seed Germination in Cistus ladanifer: Heat Shock, Physical ...
    Mar 12, 2019 · Seeds of Cistus ladanifer experience bursts of germination following fires. The effects of heat shock from 10 °C to 150 °C on seed germination ...
  16. [16]
    Cistus ladanifer (Cistaceae): a natural resource in ... - jstor
    Dec 7, 2017 · The role of labdanum is thought to be autoregulation and protection against her- bivores and environmental stresses, such as low water and.
  17. [17]
    A Review on Cistus sp.: Phytochemical and Antimicrobial Activities
    As well as an adaptation to resist summer droughts, this genus adapts well to frequent disturbance events such as poor soils, fire-degraded soils, and grazing ...
  18. [18]
    Rockroses for Northwest Gardens - Pacific Horticulture
    Evergreen shrubs of Mediterranean origin, the roughly twenty species range from the Canary Islands through the Mediterranean Basin to the Caucasus Mountains.
  19. [19]
    Growing Your Own - Gardening Australia - ABC News
    Aug 24, 2012 · "Early in the season, you propagate from tip cuttings - the soft, new growth on stem tips. However, later in the season, towards the end of ...
  20. [20]
    https://www.perseus.tufts.edu/hopper/text?doc=Perseus%3Atext%3A1999.01.0126%3Abook%3D3%3Achapter%3D112
  21. [21]
    Labdanum (Cistus) Resin - The Champion of Perfume
    May 1, 2024 · Both the resin and essential oils are commonly used in the aromatic arts, for incense, perfumery, and traditional medicine uses.Missing: credible | Show results with:credible
  22. [22]
    On Labdanum | Notes from the Apothecary
    Aug 25, 2017 · There are two traditional ways the resin is gathered. The first is by combing it from the hair of goats who have browsed and grazed among the ...
  23. [23]
    None
    ### Summary of Traditional Collection and Historical Methods of Labdanum or Cistus creticus Resin
  24. [24]
    Labdanum Resin from Cistus ladanifer L.: A Natural and Sustainable ...
    May 31, 2022 · Labdanum resin from Cistus ladanifer L. (Cistaceae) is an abundant natural resource in the Iberian Peninsula worth being explored in a ...
  25. [25]
    labdanum absolute, 8016-26-0 - The Good Scents Company
    The labdanum absolute is obtained through ethanol extraction of the labdanum resinoid, followed by glazing. The absolute, fully soluble in ethanol, has leathery ...
  26. [26]
    CISTUS BY-ABSOLUTE - Biolandes
    The extraction is carried out at our main factory in Spain and the absolute is produced in Spain or in France. Olfactive Family. Ambery. Plant Part. Leaf, Stem.
  27. [27]
    https://www.scentspiracy.com/fragrance-ingredients/p/cistus-absolute
  28. [28]
    [PDF] Commercial plan Spain: Jara (Cistus ladanifer) - Desert-Adapt
    Dec 31, 2022 · The yield of ladano gum is about 13% of the total dry weight of the plant (average resin extraction of 370 Kg/Ha) and the annual production of ...
  29. [29]
    Influence of the Storage of Cistus ladanifer L. Bales from ... - MDPI
    The storage of mechanically harvested Cistus ladanifer does not decrease the oil yield of steam distillation on a pilot scale. However, it leads to differences ...
  30. [30]
    Rockrose Land Management: Contribution of Periodic Harvesting to ...
    In this study, a single harvest yielded at the maximum 134 ± 20 kg∙ha−1 (Table 3) and 133 ± 23 kg∙ha−1 (Table 3) of labdanum resin, in late summer 2021, from ...2. Materials And Methods · 3. Results · 4. DiscussionMissing: per | Show results with:per
  31. [31]
    Biolandes Andalusia
    Every day, we tend more than 2,000 hectares (nearly 3,000 acres) of virgin land in the area surrounding our production site, a natural habitat for Cistus ...Missing: per | Show results with:per
  32. [32]
    Labdanum - Institute of Making
    Labdanum is a gum resin exuded by the glandular hairs on the leaves and stems of specific varieties of the Cistus or rock rose plant.Missing: defense mechanism herbivores
  33. [33]
    Labdanum, Absolute - Essential7.com
    $$8 delivery... Shelf Life: 4 YEARS Analysis Specifications Appearance: Pale orange liquid Odor: Warm Herbaceous Specific Gravity @ 20 C: 0.8680-0.8990 Refractive Index (20): ...Missing: texture solubility
  34. [34]
    Labdanum Essential Oil - Herb & Essences India
    Appearance: Golden yellow to amber liquid with a thick, viscous texture. · Aroma: Warm, earthy, sweet, and balsamic with subtle woody undertones. · Viscosity: ...
  35. [35]
    [PDF] Labdanum Absolute Oil TDS - Avena Lab
    STABILITY AND STORAGE: Keep in tightly closed container in a cool and dry place, protected from sunlight. When stored for more than 24 months, quality should ...
  36. [36]
    Full article: Herbal medicinal oils in traditional Persian medicine
    Also, it should be noted that unsaturated fatty acids in plant oils can accelerate the oxidation process and complicate storage (Frega et al., Citation1999).
  37. [37]
    Resinoid Labdanum: A Comprehensive Guide - BMV Fragrances
    Mar 5, 2025 · Odor: Deep, sweet balsamic, ambery, persistently herbaceous undertones typical of labdanum. · Flash Point: Generally estimated above 800°C.Missing: appearance texture
  38. [38]
    [PDF] Resinoid Labdanum Standard Reconstitution HSN Code 33029012
    Solubility. Insoluble in water, soluble in oils. Stability. 24 months shelf life if stored properly. Storage. To be kept in closed container, in a dark, fresh ...
  39. [39]
    Labdanum Resin from Cistus ladanifer L. as a Source of ... - MDPI
    May 9, 2024 · Labdanum resin or “gum” can be obtained from Cistus ladanifer L. by two different extraction methods: the Zamorean and the Andalusian ...
  40. [40]
    Chemical and Bioactive Characterization of the Essential Oils ... - NIH
    Dec 10, 2021 · Essential Oil Yields. The extraction yield of the EOs obtained by steam distillation was higher for J. communis, followed by C. sempervirens ...
  41. [41]
    Myrtle (Myrtus communis L.), Rockrose (Cistus ladanifer L.) and ...
    Aug 5, 2025 · The essential oil of Cistus ladanifer has been subjected to a series ... On the other hand, β-caryophyllene duplicated its percentage and β ...
  42. [42]
    Bioactivity-guided identification and isolation of a major ...
    Sep 15, 2022 · C. creticus extracts and resin contain different types of secondary metabolites, such as terpenoids (predominantly labdane type diterpenoids), ...
  43. [43]
    Ancient Organic Residues as Cultural and Environmental Proxies
    Jan 27, 2019 · Manoyl oxide is found (in higher quantities than in Pinaceae) in labdanum, a highly viscous resinous material obtained from Cistus creticus, or ...
  44. [44]
    The historical use of ladanum. Palynological evidence from 15th and ...
    Aug 7, 2025 · Traditionally, labdanum was collected from the beards and fur of goats that grazed amongst Cistus shrubs or by walking through the Cistus shrubs ...
  45. [45]
    The essence and use of perfume in ancient Egypt - Academia.edu
    The study highlights that ancient Egyptians produced luxury perfumes, incense, and perfumed unguents, notably during the Ptolemaic Period. Specific fragrances ...
  46. [46]
    Ancient temple incense from a thousands-year-old receipe ...
    The oldest known recipe for kyphi appears in a document from around 1500 BCE known as the Ebers Papyrus. References also appear in the Harris I Papyrus from the ...
  47. [47]
    https://daily.jstor.org/plant-of-the-month-cretan-rockrose/
  48. [48]
    https://doi.org/10.1515/9780748668502-008
  49. [49]
    Labdanum - The Perfume Society
    This warm and complex resin is sometimes perceived as leathery, sometimes honey-like, with hints of plum. Smell labdanum in: Vallense Spirit Boucheron Oud ...
  50. [50]
    Plant of the Month: Cretan Rockrose - JSTOR Daily
    Feb 23, 2022 · Cretan rockrose has been used as a medicine for millennia. Its unusual harvesting methods were documented by the ancient historian Herodotus.
  51. [51]
    2 Resins in the Ancient World - De Gruyter Brill
    The inscription indicates that the queen herself was wearing this substance on her limbs as a fragrant ointment, and elsewhere there is a reference to trees ...
  52. [52]
    [PDF] The natural history of Pliny - Classical Liberal Arts Academy
    ... a few of the plants onlyhave been used medicinally. Plants, the medicinal properties of which have been miracu- lously discovered. The cynorrhodos : two ...
  53. [53]
    The Sweet Woody Animalic Fragrance of Labdanum - Alpha Aromatics
    Nov 5, 2022 · Labdanum derives from the sticky brown resin found on the Cistus plant, which is also known as Rock Rose. It is indigenous to very dry locations ...Missing: credible sources
  54. [54]
    (PDF) Deforce 2006: The historical use of ladanum. Palynological ...
    Palynological evidence from 15th and 16th century cesspits in northern Belgium, Vegetation History and Archaeobotany 15, 145-148. ... Labdanum oil. Flav Fragr J ...
  55. [55]
    Analysis of medieval organic remains: Incense in SE Spain
    Several botanical sources can explain the FT-IR bands detected, such as sandarac, pine resins and tars, mastic, and labdanum, bands which can also be ...
  56. [56]
    Plants & Pomanders - Fragrance in the European Middle Ages
    Apr 22, 2020 · The material itself was a composite of resins such as benzoin, calamite, labdanum and storax balsam. They were ground and cooked together, with ...
  57. [57]
    [PDF] Naves-Mazuyer-Natural-Perfume-Materials-1947.pdf
    For it is in France and in the French Empire that jasmin, violet ... extraction by volatile solvents, enfleurage and digestion. Finally, the last ...
  58. [58]
    [PDF] of natural raw materials of plant origin - Les Musées de Grasse
    The art of extracting and blending fragrant substances has been practised by all civilisations, from China to Cordoba, from Ancient Greece and Rome to the Mogul ...
  59. [59]
    Labdanum Replacer Accord: Complete Formulation Guide
    Oct 4, 2025 · The precise 9-ingredient formula recreates labdanum's essential amber warmth, balsamic sweetness, animalic depth, and resinous fixation through ...Missing: revival | Show results with:revival
  60. [60]
    In Defense of Natural Perfumery as Olfactory Art by Alexandra ...
    Jul 11, 2013 · I set out to formulate modern botanical perfumes. I loved the nuanced, textural aromas of vetiver, labdanum, hydro-distilled rose, blue lotus, ...
  61. [61]
    Big data help to define climate change challenges for the ... - Frontiers
    Mar 15, 2023 · Cistus ladanifer is a perennial sclerophyllous scrub with resin, due to labdanum production. The species occurs mainly in oak or pine forests ...
  62. [62]
    https://www.bmvfragrances.com/guide/labdanum-pure-and-natural
  63. [63]
    https://www.givaudan.com/media/trade-media/2025/givaudan-unveils-new-labdanum-absolute
  64. [64]
    Usage and dosage of Labdanum | Basenotes
    Jul 9, 2009 · I use labdanum in a 25% w/w solution in 96% alcohol. Because the "labdanum" I use is a solution of 50% in DEP (but still very thick), the actual ...<|separator|>
  65. [65]
    https://www.webmd.com/vitamins/ai/ingredientmono-284/labdanum
  66. [66]
    Labdanum - Pure & Natural - BMV Fragrances
    Oct 29, 2025 · Labdanum Absolute is obtained by solvent extraction and is highly valued for its deep, rich fragrance. Labdanum Super Absolute is a refined ...<|separator|>
  67. [67]
    Givaudan Fragrance Ingredients Business unveils a new labdanum ...
    Sep 9, 2025 · Givaudan Fragrance Ingredients Business unveils a new labdanum absolute. Precision engineering for a distinctive olfactory signature. Have a ...
  68. [68]
    Labdanum: Health Benefits, Side Effects, Uses, Dose & Precautions
    Labdanum is used for bronchitis, diarrhea, water retention (edema), hernia, tumors, leprosy, and hardening of the spleen. It is also used for loosening chest ...
  69. [69]
    Labdanum - Uses, Side Effects, and More - WebMD
    Labdanum is a sticky resin produced by the leaves and stems of a plant. The name is also used for various extracts made from the resin, leaves, stems, ...Missing: credible | Show results with:credible
  70. [70]
    Vermouth Giardino - Spirits Platform
    ... labdanum. Vermouth Giardino Tradizionale Rosso and Mediterranean Dry have been made with the best ingredients from different regions of Italy: the Italian ...
  71. [71]
    Labdanum Absolute - Cistus ladaniferus Essential Oil - Nature In Bottle
    In stock Rating 5.0 (289) Similar in scent to musk and ambergris, Labdanum Absolute is used extensively in perfumery for its excellent fixative value and to impart a rich, suave ...Missing: 20th alternatives revival